Cable Route Survey - Hardangerfjorden

Transcription

1 Cable Route Survey - Hardangerfjorden Issued for Company Comments BL / RR AG GNH Issued for IDC BL / RR AG GNH Revision Date Reason for Issue Originator Checked Approved Title: Originator Organisation Unit Person Title Signature Date DOF Subsea Norway AS Bruce Lindsay / Rolf Ranes Senior Surveyor / Senior Geologist Checked DOF Subsea Norway AS Arild Gravdal Senior Geologist Approved DOF Subsea Norway AS Gunbjørg Nygård Haugstulen Project Manager Responsible Party: SV GEOGRAPH 2010 No of Sheets: 167 DOF Subsea Norway AS Project No Doc. Type Code: Area Code: Company Document Number: DOF Subsea Norway AS Document Number: GGRA-O Contract Number: System: Project Code Orig. Code Area/ System Disc. Code Doc. Type Seq. No.

2 of Revision Record Sheet: Date Description Issued for IDC Issued for Company Comments

3 of TABLE OF CONTENTS... Page 1 INTRODUCTION GENERAL PROJECT DESCRIPTION ACRONYMS AND ABBREVIATIONS REFERENCES RESPONSIBILITY AND AUTHORITY SURVEY DESCRIPTION SCOPE OF WORK WORK PERFORMED VESSEL MOUNTED EQUIPMENT SURVEY ROV MOUNTED EQUIPMENT SURVEY GEOTECHNICAL SAMPLING KP DATABASES VESSEL SUPPLIED KP DATABASES ROV SUPPLIED KP DATABASES SURVEY OPERATIONS SURVEY PERFORMANCE / DATA QUALITY ENVIRONMENTAL DATA SEABED SAMPLING EQUIPMENT SUMMARY OF RESULTS DETAILED RESULTS GENERAL ROV SURVEY CENTERLINE EIKNES AREA VALLAVIK DJØNNANESET SLÅTTNES KVANDAL URAVIKA ÅLVIK SEIANES NANES SAMLANESET KVAMSØY AKSNES EIDESVÅGEN DATA INDEX DIGITAL REPORT DELIVERY REV CHART INDEX DTM SHADED RELIEF INDEX SOUNDINGS NAVIMODEL PROJECTS SBP TIFF FILES SSS TIFF FILES ACAD VECTOR FILES

4 of ESRI GEODATABASES APPENDIX A: SURVEY DATA FORM SURVEY CONTROL CALIBRATION DATA ACQUISITION AND PROCESSING SOFTWARE CTD SUMMARY VESSEL OFFSET DIAGRAM EQUIPMENT SPECIFICATION APPENDIX B: ROV EVENT LISTS APPENDIX C: DIARY OF EVENTS APPENDIX D: DSN PERSONNEL APPENDIX E: APPENDIX F: QC GRAPHS APPENDIX G: GEOTECHNICAL REPORT APPENDIX H: MARINE BIOLOGIST REPORT LIST OF FIGURES... Page Figure 1.1 Overview of the Hardangerfjorden survey area... 6 Figure 1.2 Hardangerfjord location... 7 Figure 2.1 Overview of the defined Survey areas in Hardangerfjorden Figure 2.2 Overview of Eiknes area showing outline of survey area compared to achieved coverage due to shallow depth Figure 2.3 ICE signal quality and coverage plot Figure 2.4 DTM of data of Hardangerfjord in the Kvandal area Figure 2.5 Shaded Relief of data, Hardangerfjord in Aksneset area Figure 2.6 DTM of ROV 7125 data of Kvamsoy area, Hardangerfjord Figure 2.7 Shaded Relief of ROV 7125 data, Kvamsoy area, Hardangerfjord Figure 2.8 SBP data quality example from KP to KP Horizontal scale lines: 25m, Vertical scale lines: 10ms (7.5m) Figure 2.9 SSS data example from approximately KP to KP Figure 3.1 Overview of the Hardangerfjord Area Figure 4.1 The slide escarpment at around KP 14.6 has seabed gradients up to 11.0 of the surveyed area (5m contours) Figure 4.2 The slide escarpment at around KP 18.1 has seabed gradients up to 22.5 (5m contours) Figure 4.3 The slide escarpment at around KP 22.7 has seabed gradients up to 34.2 (5m contours) 40 Figure 4.4 The slide escarpment at around KP 24.6 has seabed gradients up to 7 (5m contours). 40 Figure 4.5 The slide escarpment at around KP 26.7 has seabed gradients up to 39.0 (5m contours) Figure 4.6 The slide escarpment at around KP 43.6 has seabed gradients up to 34.0 (5m contours) Figure 4.7 SSS data example From approximately KP to KP Figure 4.8 SBP data example from KP to KP Horizontal scale lines: 25m, Vertical scale lines: 10ms (7.5m) Figure 4.9 DTM with overview of the bathymetry of the surveyed area (5m contours) Figure 4.10 DTM with overview of the slope angles of the surveyed area (5m contours) Figure 4.11 DTM with overview of the bathymetry of the surveyed area (5m contours) Figure 4.12 DTM with overview of the slope angles of the surveyed area (5m contours)... 50

5 of Figure 4.13 DTM with overview of the bathymetry of the surveyed area (5m contours) Figure 4.14 DTM with overview of the slope angles of the surveyed area (5m contours) Figure 4.15 DTM with overview of the bathymetry of the surveyed area (5m contours) Figure 4.16 DTM with overview of the slope angles of the surveyed area (5m contours) Figure 4.17 DTM with overview of the bathymetry of the surveyed area (5m contours) Figure 4.18 DTM with overview of the slope angles of the surveyed area Figure 4.19 Video data example showing marine life on outcrop Figure 4.20 Video data example showing marine life on outcrop Figure 4.21 Video data example showing marine life on outcrops Figure 4.22 Video data example showing marine life on outcrop Figure 4.23 Video data example showing marine life on soft seabed Figure 4.24 DTM with overview of the bathymetry of the surveyed area (1m contours) Figure 4.25 DTM with overview of the slope angles of the surveyed area (1m contours) Figure 4.26 DTM with overview of the bathymetry of the surveyed area (5m contours) Figure 4.27 DTM with overview of the slope angles of the surveyed area (5m contours) Figure 4.28 Video data example showing marine life on outcrops Figure 4.29 DTM with overview of the bathymetry of the surveyed area (5m contours) Figure 4.30 DTM with overview of the slope angles of the surveyed area (5m contours) Figure 4.31 Video data example showing marine life on outcrops Figure 4.32 DTM with overview of the bathymetry of the surveyed area (5m contours) Figure 4.33 DTM with overview of the slope angles of the surveyed area (5m contours) Figure 4.34 Video data example showing marine life on outcrop Figure 5.1 Difference between HP and XP, Eastings, 8 th November Figure 5.2 Difference between HP and XP, Northings, 8 th November Figure 5.3 Time Series HP and XP Easting / Northing, 8 th November Figure 5.4 HAIN v HiPAP Positioning, 10 th November Figure 5.5 DQ Comparison 18 th November Figure 5.6 Sound Velocity Comparison, Hardangerfjorden Nov LIST OF TABLES... Page Table 1.1 Project SOW & Procedures... 9 Table 1.2 Taskplan Listing... 9 Table 1.3 Project Documentation (Field Reports and Field Memos) Table 1.4 DSN Procedures and Reports Table 2.1 SV Geograph Hull mounted work performed Table 2.2 ROV - Work performed in Hardangerfjorden Table 2.3 Geotechnical Samples Table 2.4 Failure Reports Table 2.5 SV Geograph Vessel equipment Table 2.6 ROV equipment Table 4.1 Soil conditions... 45

6 of INTRODUCTION 1.1 GENERAL PROJECT DESCRIPTION DSN were tasked by Stattnett to undertake survey and seabed sampling work in Hardangerfjorden. The survey work to be performed was described in the contract SN2010_05_Cable route survey Hardangerfjorden, the main objective being to perform an inspection of the planned cable route, and surrounding seabed and slopes from Simadalen to Nordheimsund. The area surveyed was described in the Template Survey Geodatabase as supplied by Company. The tasks performed are summarized in 4 points in the contract. Step 1 Vessel mounted MBE survey Step 2 ROV survey with MBE, SSS and SBP Step 3 Geotechnical sampling Step 4 ROV site inspection Figure 1.1 Overview of the Hardangerfjorden survey area

7 of Figure 1.2 Hardangerfjord location

8 1.2 ACRONYMS AND ABBREVIATIONS of C-O Calculated minus Observed CPT Core Penetration Test CTD Conductivity, Temperature and Density CRP Common reference point DCC Distance Cross Course DGPS Differential Global Positioning System DP Dynamic Positioning DSN DOF Subsea Norway DTM Digital Terrain Model EPSG European Petroleum Survey Group GPS Global Positioning System HAIN Hydro-acoustic Aided Inertial Navigation HiPAP High Precision Acoustic Positioning system HP Fugro StarFix HP HSE Health, Safety and Environment IMU Inertial Measurement Unit MBE MultiBeam Echo Sounder MPT Multifunction Positioning Transponder MRU Motion Reference Unit MSL Mean Sea Level MV Motor Vessel NaviPac Navigation and Data Acquisition software OAS Obstacle Avoidance Sonar OM Offshore Manager QC Quality control PDOP Position Dilution of Precision PPS Pulse Per Second RLG Ring Laser Gyro ROV Remotely Operated Vehicle RPT ROV Positioning Transponder SBP Sub Bottom Profiler SJA Safe Job Analysis S/N Serial Number SOW Scope of Work SSS Side Scan Sonar STDEV Standard Deviation 1 Sigma SUR Survey SV Survey Vessel SVS Sound Velocity Sensor SVP Sound-Velocity Probe/profile TP Transponder USBL Ultra Short Baseline (acoustic positioning) UTM Universal Transverse Mercator projection WGS-84 World Geodetic System of 1984 XP Fugro SkyFix XP DGPS VR Vessel Representative ZDA Date and Time (NMEA sentence)

9 of REFERENCES Table 1.1 Project SOW & Procedures No. Report / Proc / SOW Title Date 1 No Contract-Statnett-Hardangerfjorden, Exhibit A SOW PRO-F Desktop Study PRO-O Geograph Mobilisation Procedure PRO-O03-00 Survey Procedure PRO-S Project HSE Program PRO-S Project Quality Plan PRO-S Geograph EmergencyNotificationChart PRO-O Launch and recovery Table 1.2 Taskplan Listing No. Taskplan Description of Task Date GGH-001_Task plan_ Cal at Byfjorden Oct GGH-0_Task plan_hipap Cal Byfjorden.pdf GGH-O03-0_Task plan_ Survey Hardangerfjord Area1.pdf GGH-O04-001_Task plan_ Survey Hardangerfjord Area8.pdf Vessel MBE Calibration at Byfjorden HiPAP Cal Byfjorden Survey Hardangerfjord Area Survey Hardangerfjord Area 8 Aksnes to Ljones GGH-O05-001_Task plan_ Survey Hardangerfjord Area2.pdf GGH-O06-001_Task plan_ Survey Hardangerfjord Area3.pdf GGH-O07-001_Task plan_ Survey Hardangerfjord Area4.pdf GGH-O08-001_Task plan_ Survey Hardangerfjord Area5.pdf GGH-O09-001_Task plan_ Survey Hardangerfjord Area6.pdf GGH-O _Task plan_ Survey Hardangerfjord Area7.pdf GGH-O _Task Plan MBE Cal.docx Survey Hardangerfjord Area 2 east of Kvamsøy Survey Hardangerfjord Area 3 near Ålvik Survey Hardangerfjord Area 4 near Utne Survey Hardangerfjord Area 5 Kinsarvik to Brimnes Survey Hardangerfjord Area 6 Eidfjord to Brimnes Survey Hardangerfjord Area 7 Into Sima Reson 7125 MBE calibration in Hardangerfjorden

10 of No. Taskplan Description of Task Date GGH-O014-0_Task plan_rov Survey Hardangerfjord Eiesvågen Area.pdf Reson 7125 MBE - ROV Survey Hardangerfjorden GGH-O _Task plan_rov Survey Hardangerfjord Eiknes Area.pdf Reson 7125 MBE - ROV Survey Hardangerfjorden GGH-O _Task plan_rov Survey Hardangerfjord Vallavik Area.pdf GGH-O _Task plan_rov Survey Hardangerfjord Djønnaneset Area.pdf GGH-O _Task plan_rov Survey Verification Eiknes Area.pdf GGH-O _Task plan_rov Survey Hardangerfjord Slottnes Area.pdf GGH-O0-003_Task plan_rov Survey Hardangerfjord Kvandal Area.pdf GGH-O1-0_Task plan_rov Survey Hardangerfjord Uravika Area.pdf GGH-O2-0_Task plan_rov Survey Hardangerfjord Seianes Area.pdf GGH-O3-0_Task plan_rov Survey Hardangerfjord Ålvik Area.pdf Reson 7125 MBE - ROV Survey Hardangerfjorden Reson 7125 MBE - ROV Survey Hardangerfjorden Reson 7125 MBE - ROV Survey Hardangerfjorden Reson 7125 MBE - ROV Survey Hardangerfjorden Reson 7125 MBE - ROV Survey Hardangerfjorden Reson 7125 MBE - ROV Survey Hardangerfjorden Reson 7125 MBE - ROV Survey Hardangerfjorden Reson 7125 MBE - ROV Survey Hardangerfjorden GGH-O4-001_Task plan_rov Survey Hardangerfjord Kvamsøy Area.pdf GGH-O5-001_Task plan_rov Survey Hardangerfjord Aksneset Area.pdf Reson 7125 MBE - ROV Survey Hardangerfjorden Reson 7125 MBE - ROV Survey Hardangerfjorden GGH-O6-001_Task plan_rov Survey Hardangerfjord CL from Eiknes to Vallavik.pdf Reson 7125 MBE - ROV Survey Hardangerfjorden, SSS primary data GGH-O7-001_Task plan_rov Survey Hardangerfjord CL from Vallavik to end.pdf Reson 7125 MBE - ROV Survey Hardangerfjorden, SSS primary data

11 of No. Taskplan Description of Task Date GGH-O8-001_Task plan_rov Survey Hardangerfjord Samlaneset Area.pdf Reson 7125 MBE - ROV Survey Hardangerfjorden, SSS primary data GGH-O _Task plan_ Survey Hardangerfjord Area8 Extension.pdf PRO-SN2010_05- GGRA-O Survey Hardangerfjord Area 8 Extension - Tørvikbygd CPT and PC taskplan Table 1.3 Project Documentation (Field Reports and Field Memos) No. Report / Memo No. Title Date GGRA-O ROUTE SURVEY Field Report GGRA-O Mobilisation and Calibration Report SUR-GGRA-O Geograph Dimensional Control Survey Report Table 1.4 DSN Procedures and Reports No. Report / Proc / SOW Title Rev Date 1 DSN-SUR-O Survey Department Organisation and Responsibility 08i DSN-SUR-O USBL Calibration and Verification 06i DSN-SUR-O DGPS Configuration Procedure 05i DSN-SUR-O Doppler Velocity Log Alignment Procedure 09i DSN-SUR-O Heading Sensor Calibration and Verification Procedure 12i DSN-SUR-O Motion Reference Sensor Calibration and Verification 04i DSN-SUR-O Sound Velocity Sensor Verification Procedure 05i DSN-SUR-O Multibeam Echo Sounder Calibration and Verification 04i DSN-SUR-O Dimensional Control Procedure 10 DSN-SUR-O TSS 440 Pipe Tracker Operating Procedure 05i DSN-SUR-O Survey QA Checklist 03i DSN-SUR-O Online Operation Procedure 07i DSN-SUR-O Survey Online Log 03i DSN-SUR-O Transfer of Data And Information To Online Surveyor 07i DSN-SUR-O03-00 Collection of Survey Data 16 DSN-SUR-O03-01 Acceptance Test 03i DSN-SUR-O03-02 Pressure Sensor for Draught Measurement Installation and Calibration 04i DSN-SUR-O03-03 Control and Calibration of total Stations 03i DSN-SUR-O03-05 Cathodic Potential (CP) Survey Procedure 03i DSN-SUR-O03-06 Survey Equipment Tracking Procedure 06i DSN-SUR-O03-07 Reson Seabat 7125 Multibeam User Procedure i DSN-SUR-O03-09 Doppler and Hain checks 23 DSN-SUR-O CDL MiniRLG2 User Procedure 03i DSN-SUR-O Paroscientific Digiquartz Depth Sensor User Procedure i DSN-SUR-O SAIV SD204v STD-CTD operating Procedure

12 of No. Report / Proc / SOW Title Rev Date 26 DSN-SUR-O Survey Process 07i DSN-SUR-O Laser Operating Procedure i DSN-SUR-O Navitag (Timebox) Configuration & Operating Procedure i DSN-SUR-O Visualsoft Online User Procedure 04i DSN-SUR-O Valeport MiniSVS Operating Procedure i DSN-SUR-O LEICA Builder R200M Total Station Procedure i DSN-SUR-O DGPS Health Check Procedure i DSN-SUR-O Edgetech / Coda SBP User Procedure i DSN-SUR-O Dynamic MRU Calibration Procedure i DSN-SUR-O Tritech Dual Head Scanning Profiler Procedure i MGI-GEO-O Process Management - Geology 04i MGI-GEO-O Video Eventing Procedure 07i MGI-GEO-O Visualworks Basics for ROV and Online 03i MGI-MAP-O Processing Procedure 06i MGI-MAP-O03-00 Crew change and Project Start-up Procedure 03i MGI-MAP-O Survey Data Corrections 06i MGI-MAP-O Terrain Modelling Procedure 06i MGI-MAP-O Presentation 03i MGI-MAP-O Software QA Procedure 08i MGI-MAP-O Data Security 03i MGI-MAP-O Internal Reporting Procedure 06i MGI-MAP-O Isopach Modelling 03i MGI-MAP-O Hain Post Processing in Navlab 03i MGI-MAP-O Collection and use of CTD/SVP Data 06i MGI-MAP-O MBE Calibration 03i MGI-MAP-O NaviEdit Manual 04i MGI-MAP-O Imaging manual 03i MGI-MAP-O Surfer Manual 06i MGI-MAP-O CFloor Manual 05i MGI-MAP-O Navimodel Manual 03i MGI-MAP-O ArcGIS 04i MGI-MAP-O Autochart Manual 05i MGI-MAP-O Transferring Data from AutoCad to ARCGIS 04i MGI-MAP-O StatoilHydro GIS Manual 03i MGI-MAP-O Seabed Feature Interp Using MPOLYGONS 04i MGI-MAP-O Isopach Modelling Manual 03i MGI-MAP-O Pipeline Inspection Manual 03i MGI-MAP-O04-02 Designing and Maintaining the AutoCad Production Line 08i DSN-SUR-O Survey Control Points DOF Subsea Dokken DSN-SUR-O A-03 Technical Report HiPAP Calibration Site Byfjorden (Bunnpunkt) SUR-GGRA-O SV Geograph Dimensional Control Survey Report 07i SUR-GGRA-O ROX XLX38 Dimensional Control Survey Report

13 of RESPONSIBILITY AND AUTHORITY The Senior Surveyor / Senior Geologist is responsible for the preparation of this document The Senior Geologist is responsible for checking this document The Project Manager is responsible for approval of this document

14 of SURVEY DESCRIPTION 2.1 SCOPE OF WORK The basis for the work conducted by MV Geograph for Hardangerfjorden Cable Route seabed survey was as outlined in the Survey Procedure PRO-O The following activities were detailed in the SOW: Hull mounted MBE Detailed ROV MBE, SSS and SBP Visual inspection of targets Geotechnical works 2.2 WORK PERFORMED VESSEL MOUNTED EQUIPMENT SURVEY The table below outlines the work conducted by SV Geograph during the seabed survey in Hardangerfjorden. Survey lines were created from Statnett supplied drawings indicating the survey outline to be covered. Some areas were to shallow for the vessel hull mounted unit to cover. See Table 2.1

15 of ROV survey areas Figure 2.1 Overview of the defined Survey areas in Hardangerfjorden Figure 2.1 show the areas surveyed. Green indicates the area surveyed. Also ROV survey outline (red) with blue runlines inside can be seen on this image. survey operation was undertaken surveying on area to area basis with Hardangerfjorden divided into 8 areas. Line spacing was set to 350 metre apart. Area No8 - Extension was added later in the operations, see sent: 12 th November :09hrs.

16 of Table 2.1 Runline Name SV Geograph Hull mounted work performed Length (km) Start Date/Time (UTC) Area 1 End Date/Time (UTC) Comment Area_1.rlx /10/2010 :17 29/10/ :22 Main survey lines to cover the area No1 Area1_Line_west.rlx /10/ :27 30/10/ :38 Western edge of area1 Area1_infill1.rlx /10/ :59 30/10/ :37 Infill due to shallow water Area1_infill2.rlx /10/ :52 30/10/ :32 Infill due to shallow water Area1_infill2+60.rlx /10/ :19 30/10/ :42 Area1_infill2-60.rlx /10/ :04 30/10/ :58 Area1_infill3.rlx /10/ :32 30/10/ :00 Infill due to shallow water Area1_infill4.rlx /10/ :42 30/10/ :55 Area1_infill5.rlx /10/ :30 29/10/ :56 Infill due to data gap Area1_infill5.rlx /10/ :42 30/10/ :55 Area1_infill6.rlx /10/ :20 29/10/ :22 Infill due to very poor data in the Area1_infill7.rlx /10/ :26 29/10/ :31 steep slope in Area1 Infill due to very poor data in the steep slope in Area1 Area1_infill8.rlx /10/ :54 29/10/ :23 Area1_line_west.rlx /10/ :44 30/10/ :59 Area1_line_west+60.rlx /10/ :06 30/10/ :20 TOTAL % Complete Area 2 Area_2.rlx /10/2010 :31 31/10/ :48 Area /10/ :51 30/10/ :32 Area /10/ :40 30/10/ :18 Area /10/ :24 31/10/ :53 Area /10/ :00 31/10/2010 :25 Total % Complete Area 3 Area3 Centre /10/ :04 31/10/ :52 Area /10/ : 31/10/ : Area /10/ :16 31/10/ :09 Area /10/ :26 31/10/ :24 Area /10/ :29 31/10/ :33 Area /11/ :11 01/11/ :52 Area /11/ :21 01/11/ :47 Area /11/ :27 /11/ :03 Area /11/ :14 01/11/ :42 Area3_Alvik /11/ :17 01/11/ :47 Area3_Alvik /11/ :01 01/11/ :28 Area3_Alvik /11/ :42 01/11/ : Area3_Alvik /11/ :11 01/11/ :06 Area3_Alvik /11/ :29 01/11/ :40 Total % Complete Area 4 Area4.rlx Centre /11/ :03 01/11/ :38 Area4.rlx /11/ :55 01/11/2010 :58 Area4.rlx /11/ :21 01/11/ :06 Area4.rlx /11/2010 :22 01/11/ :15 Area4.rlx /10/ :29 31/10/ :12 Area4.rlx /11/ :12 01/11/2010 :08 Area4.rlx /10/ :17 31/10/ :44

17 of Runline Name Length (km) Start Date/Time (UTC) End Date/Time (UTC) Comment Area4_Kvandal_Line /11/ :03 01/11/ :37 Area4_Kvandal_Line /11/ :46 01/11/ :12 Area4_Kvandal_Line /11/ :17 01/11/ :57 Area4_Kvandal_Line /11/ :14 01/11/ :37 Area4_Kvandal_Line /11/ :47 01/11/ :09 Area4_Kvandal_Line /11/ :49 01/11/ :11 Total % Complete Area 5 Area5.rlx Centre /11/ :24 04/11/ :10 Area5.rlx /11/ :19 06/11/ :22 Area5.rlx /11/ :05 03/11/ :13 Area5.rlx /11/ :10 05/11/ :37 Total % Complete Area 6 Area6.rlx Centre /11/2010 :15 03/11/ :23 Area6.rlx /11/ :30 04/11/ :26 Area6.rlx /11/ :59 04/11/ :32 Area6.rlx /11/ :10 04/11/ :41 Area6.rlx /11/ :34 04/11/ :05 Total % Complete Area 7 Area7_1.rlx /11/ :36 /11/ :26 Area7_2.rlx /11/ :27 /11/ :23 Area7_ /11/ :53 /11/ :35 Area7_ /11/ :35 /11/ :18 Area7_ /11/ :26 /11/ :45 Area7_ /11/ :50 /11/ :08 Area /11/ :14 /11/ :43 Area /11/ :50 03/11/ :20 Area7_ /11/ :24 03/11/ :43 Area /11/ :49 03/11/ :09 Area /11/ :13 03/11/ :32 Area /11/ :38 03/11/ :53 Area7 infill /11/ :58 03/11/2010 :09 Area7 infill /11/ :33 04/11/ :42 Total % Complete Area 8 Area8_centre.rlx /10/ :33 30/10/ :31 Area /10/ :38 30/10/2010 :26 Area /10/2010 :36 30/10/ :36 Area /10/ :42 30/10/ :31 Area /10/ :46 30/10/ :44 Area /10/ :27 30/10/ :08 Area (b) /10/ :26 30/10/ :57 Area /10/ :16 30/10/ :56

18 of Runline Name Length (km) Start Date/Time (UTC) End Date/Time (UTC) Area infill /10/ :04 30/10/ :37 Area infill /10/ :44 30/10/ :57 Comment Total % Complete Area 8 - Extension Western_line /11/ :52 16/11/ :58 Centre_line /11/ :06 16/11/ :44 Eastern_line /11/ : 16/11/ :54 Total % Complete To shallow Eiknes area was surveyed to 72% due to shallow water limitations Figure 2.2 Overview of Eiknes area showing outline of survey area compared to achieved coverage due to shallow depth

19 2.2.2 ROV MOUNTED EQUIPMENT SURVEY of The table below outlines the work conducted by ROV - XLX38 during the seabed survey in Hardangerfjorden. ROV Survey lines were created from Statnett supplied drawings indicating the survey outline to be covered. See Figure 2.1. Further visual surveys were undertaken on survey lines supplied by Havforskningsinstituttet as detailed in below. The limit for shallow survey was set to 25 meter. This was bound by the water depth needed for ROV TMS operation. Table 2.2 Runline Name ROV - Work performed in Hardangerfjorden Length (km) Start Date/Time (UTC) End Date/Time (UTC) Hardangerfjorden Centre Line Survey SSS data primary Comment Hardanger_CL /11/ :03 08/11/ :22 Simafjord to Vallavik Hardanger_CL /11/ :55 09/11/ :05 Vallavik to Djønnaneset Hardanger_CL /11/ :44 09/11/ :31 Djønnaneset to Slåttnes Hardanger_CL /11/ :48 10/11/ :36 Slåttnes towards Kvandal Hardanger_Alt_ /11/ :14 10/11/ :47 Alternative_CL_01 Hardanger_CL /11/ :36 11/11/ :56 Slåttnes to Kvandal Hardanger_CL /11/ :11 13/11/ :40 Kvandal to Uravika Hardanger_CL /11/ :59 13/11/ :33 Uravika to Seianes Hardanger_CL /11/ : 13/11/ :32 Uravika to Seianes Hardanger_CL /11/ :53 13/11/ :03 Seianes to Ålvik Hardanger_CL /11/ :45 14/11/ :25 Ålvik towards Samlaneset Hardanger_CL /11/ :31 14/11/ Ålvik towards Samlaneset Hardanger_CL /11/ :31 14/11/ :17 Ålvik towards Samlaneset Hardanger_CL /11/ :14 15/11/ :49 Samlaneset to Kvamsøy Hardanger_CL /11/ :32 15/11/ :50 Kvamsøy towards Aksneset Hardanger_CL /11/ :27 18/11/ :16 Eidesvågen to Aksneset TOTAL 82% Complete Runline Name Length (km) Start Date/Time (UTC) End Date/Time (UTC) Comment Eikenes Area Eiknes_1 08/11/ :40 08/11/ :46 limited by shallow water Eiknes_2 08/11/ :08 08/11/ :22 limited by shallow water Eiknes_3 08/11/ :34 08/11/ :54 limited by shallow water Eiknes_4 08/11/ :34 08/11/ :07 limited by shallow water Eiknes_5 08/11/2010 :51 08/11/ :24 limited by shallow water Eiknes_6 08/11/ :57 08/11/2010 :38 limited by shallow water Eiknes_7 08/11/ :25 08/11/ :05 limited by shallow water Eiknes_8 07/11/ :17 08/11/ :12 limited by shallow water Eiknes_9 07/11/ :00 07/11/ :01 limited by shallow water Eiknes_10 07/11/ :25 07/11/ :09 limited by shallow water Eiknes_11 07/11/ :36 07/11/ :17 limited by shallow water Eiknes_12 07/11/ :12 07/11/ :25 limited by shallow water Eiknes_13 07/11/ :32 07/11/ :48 limited by shallow water Eiknes_14 06/11/ :08 06/11/ :06 limited by shallow water Eiknes_15 06/11/ :35 06/11/ :48 Eiknes_16 06/11/ :15 06/11/ :51 limited by shallow water Eiknes_17 06/11/ :17 06/11/ :19 limited by shallow water Eiknes_18 06/11/ : 08/11/ :08 limited by shallow water Eiknes_19 08/11/ :41 08/11/ :08 limited by shallow water Eiknes_20 08/11/ :14 08/11/ :42 limited by shallow water

20 of Eiknes_21 08/11/ : 08/11/ :20 limited by shallow water Eiknes_22 08/11/ :24 08/11/ :42 limited by shallow water Eiknes_23 08/11/ :50 08/11/ :05 limited by shallow water Eiknes_24 08/11/ :12 08/11/ :22 limited by shallow water Eiknes_25 08/11/ :37 08/11/ :41 limited by shallow water Eiknes_SBP_Cross 08/11/ :25 08/11/ :23 Eiknes_26.rlx na na Not run, too shallow Eiknes_27.rlx na na Not run, too shallow Eiknes_28.rlx na na Not run, too shallow Eiknes_29.rlx na na Not run, too shallow TOTAL 72% Complete Runline Name Length (km) Start Date/Time (UTC) End Date/Time (UTC) Vallavik Area Vallavik_ /11/ :55 09/11/ :38 Vallavik_ /11/ :07 09/11/ :50 Vallavik_ /11/ :20 09/11/ : Vallavik_ /11/2010 :35 09/11/ :15 Vallavik_ /11/ :47 09/11/2010 :27 Vallavik_ /11/ : 09/11/ :41 Vallavik_ /11/ :13 09/11/ :57 Vallavik_ /11/ :24 09/11/ :10 Vallavik_ /11/ :44 08/11/ :22 Vallavik_ /11/ :58 08/11/ :41 Vallavik_ /11/ :06 08/11/ :16 Vallavik_ /11/ :17 08/11/ :42 Vallavik_ /11/ :12 08/11/ :03 Vallavik_SBP Xline_ /11/ :25 09/11/ :49 Total Runline Name Length (km) Start Date/Time (UTC) End Date/Time (UTC) Slåttnes Area Slåttnes_ /11/ :20 09/11/ :03 Slåttnes_ /11/ :05 09/11/ :46 Slåttnes_ /11/ :11 10/11/ :53 Slåttnes_ /11/ : 10/11/ :48 Slåttnes_ /11/ :52 10/11/2010 :36 Slåttnes_ /11/2010 :43 10/11/ :25 Slåttnes_ /11/ :29 10/11/ :10 Slåttnes_ /11/ :16 10/11/ :57 Slåttnes_ /11/ :01 10/11/ :40 Slåttnes_ /11/ :46 10/11/ :20 Slåttnes_ /11/ :26 10/11/ :44 Slåttnes_ /11/ :58 10/11/ :18 SBP_Xline /11/ :33 10/11/ :11 Total 100% Complete 100% Complete Comment Comment Runline Name Length (km) Start Date/Time (UTC) End Date/Time (UTC) Comment

21 of Kvandal Area Kvandal_1 Kvandal_2 Kvandal_3 Kvandal_4 Kvandal_5 Kvandal_6 Kvandal_7 Kvandal_8 Kvandal_9 Kvandal_10 Kvandal_ /11/ :42 10/11/ :13 Steep section missed on instruction /11/ :13 11/11/ :00 from client /11/ :16 10/11/ :48 Steep section missed on instruction from client /11/ :18 11/11/ : /11/ :51 11/11/ :23 Steep section missed on instruction /11/ :21 11/11/ :08 from client /11/ :26 11/11/ :56 Steep section missed on instruction /11/ :04 11/11/ :35 from client /11/ :23 11/11/ : /11/ :19 12/11/ : /11/ :36 11/11/ : /11/ :40 11/11/2010 : /11/ :00 12/11/ : /11/ :53 11/11/ : /11/ :08 13/11/ :55 Visual Survey /11/2010 :16 11/11/2010 : /11/ :38 12/11/ : /11/ : 11/11/ : /11/2010 :52 11/11/ : /11/ :26 12/11/ : /11/ :10 11/11/ : /11/ :29 11/11/ : /11/ :20 12/11/2010 : /11/ :27 11/11/ : /11/ :30 11/11/ :13 Removed by client Kvandal_Extra /11/ :04 11/11/ :34 SBP_Xline_ /11/ :43 12/11/ :08 SBP_Xline_ /11/ :14 11/11/ :58 Kvandal 350m contour /11/ :34 12/11/ :44 Kvandal 365m contour /11/ :19 12/11/ :06 Kvandal 380m contour /11/ :28 12/11/ :20 Kvandal 400m contour /11/ :47 12/11/ :10 Kvandal 415m contour /11/ :28 12/11/ :06 Total 100% Complete Runline Name Length (km) Start Date/Time (UTC) Uravika Area End Date/Time (UTC) Comment Uravika_4.rln /11/ :29 13/11/ :55 Too shallow to continue Total 86% Complete Runline Name Length (km) Start Date/Time (UTC) Seianes Area End Date/Time (UTC) Comment Seianes_4.rlx /11/ :55 13/11/ :44 Too shallow to continue

22 of Total Runline Name Length (km) Start Date/Time (UTC) Ålvik Area End Date/Time (UTC) 96% Complete Comment Ålvil_5.rln /11/ :19 14/11/ :55 Too shallow to continue Total Runline Name Length (km) Start Date/Time (UTC) End Date/Time (UTC) Samlaneset Area Samlaneset.rlx /11/ :24 14/11/ :03 Samlaneset.rlx /11/ :06 14/11/ :44 Samlaneset.rlx /11/ :48 14/11/ :21 Samlaneset.rlx /11/ :24 14/11/ :58 Samlaneset.rlx /11/ :04 14/11/ :36 Total Runline Name Length (km) Start Date/Time (UTC) End Date/Time (UTC) Kvamsøy Area Kvamsøy _11.rln /11/ :15 15/11/ :58 Kvamsøy _12.rln /11/ :06 15/11/ :03 Kvamsøy _13.rln /11/ :18 15/11/ :57 Kvamsøy _14.rln /11/ :18 15/11/ :03 Kvamsøy _15.rln //11/ :45 15/11/ :09 Kvamsøy _16.rln /11/ :18 15/11/ :30 Kvamsøy _17.rln /11/ :40 15/11/ :55 Kvamsøy_Videoline_18.rln /11/2010 :10 15/11/ :39 Total Runline Name Length (km) Start Date/Time (UTC) Aksneset Area End Date/Time (UTC) Aksnes_Videoline_1.rlx /11/ :36 16/11/ :13 Aksneset _28.rlx /11/ :31 16/11/ :18 95% Complete Comment 100% Complete Comment Client instructs to only survey shelf and not steep slope to fjord floor. See instruction Mon 15/11/ :17 80% Complete Comment Aksneset _29.rlx /11/ :27 16/11/ :15 Not complete due to time constraints Aksneset _30.rlx /11/ :19 18/11/ :05 Aksneset _31.rlx /11/ :04 18/11/ :10 Aksneset _32.rlx /11/ :21 16/11/ :12 Aksneset _33.rlx /11/ :27 18/11/2010 :55 Aksneset _34.rlx Not complete due to time constraints Aksneset _35.rlx Not complete due to time constraints Aksneset _36.rlx Not complete due to time constraints Total 74% Complete Runline Name Length (km) Eidesvågen Area Start Date/Time (UTC) End Date/Time (UTC) Comment Eidesvågen_13.rlx /11/ :53 17/11/ :33 First approx 900 meter not surveyed due Eidesvågen_14.rlx /11/ :41 17/11/ :14 to fish farm nearby

23 of Eidesvågen_15.rlx /11/ :15 17/11/ :54 Eidesvågen_16.rlx /11/ :40 17/11/ :11 Eidesvågen_17.rlx /11/ :41 17/11/ :14 Eidesvågen_18.rlx /11/ :28 17/11/ :20 Eidesvågen_19_video.rlx /11/ :53 17/11/ :08 limited by shallow water Total 88% Complete Runline Name Havforskningsinstituttet Videolines Length (km) Start Date/Time (UTC) End Date/Time (UTC) Comment Kvandal Videoline.rln /11/ :16 11/11/ :38 Visual survey for Havforskningsinstituttet Utne videoline.rln /11/ :04 13/11/ :55 Visual survey for Havforskningsinstituttet Aalvik nord videoline_rev /11/ :48 13/11/ :37 Visual survey for Havforskningsinstituttet Ålvik videoline.rln /11/2010 :54 14/11/ :16 Visual survey for Havforskningsinstituttet Nanes videoline.rln /11/ :08 14/11/ :53 Visual survey for Havforskningsinstituttet Kvamsøy coral videoline.rln /11/ :35 14/11/ :50 Visual survey for Havforskningsinstituttet Not completed due to Fishing gear debris 200m from end of line Indre Eiknes videoline.rln /11/ :34 28/11/ :28 Visual survey for Havforskningsinstituttet ended early due to cable across line Ytre Eiknes videoline.rln /11/ :16 28/11/ :59 Visual survey for Havforskningsinstituttet Vallavik videoline.rln /11/ :09 28/11/ : Visual survey for Havforskningsinstituttet Slottnes nord.rln /11/ :06 28/11/ :06 Visual survey for Havforskningsinstituttet Slottnes sør.rln /11/ :35 28/11/ :36 Visual survey for Havforskningsinstituttet GEOTECHNICAL SAMPLING Locations for the geotechnical sampling were chosen by Stattnett, after reviewing the survey data with geologists onboard Geograph. Table 2.3 below shows the locations and types of geotechnical sampling taken during this phase of the operation. Work began on 19 th November 2010 and was completed on 21 st November.

24 of Table 2.3 Geotechnical Samples Planned CPT Piston Core Actual Difference St Dev Actual Difference St Dev Notes Core Depth Easting Northing Easting Northing Easting Northing Easting Northing Easting Northing Easting Northing Easting Northing Sample Length Cancelled by Client m m 03A ~ Cancelled by Client Cancelled by Client m Cancelled by Client m Cancelled by Client m 09 ~ Cancelled by Client _A Cancelled by Client Cancelled by Client 2 10_B Cancelled by Client Cancelled by Client Cancelled by Client m 3 12_A Cancelled by Client Cancelled by Client Cancelled by Client 12_B Cancelled by Client Cancelled by Client m 13_A Cancelled by Client Cancelled by Client 13_B Cancelled by Client Cancelled by Client Cancelled by Client Cancelled by Client m m Cancelled by Client Cancelled by Client m 18_A Cancelled by Client Cancelled by Client Cancelled by Client m K m m Cancelled by Client E Cancelled by Client m 4 E Cancelled by Client m 5

25 of Notes: 1- Client moved Piston Core location to avoid cable marked on Navigation Chart 2 - Client moved CPT location as CPT rig slid down steep terrain at original location 3 - Not able to get CPT due to steep terrain 4 - Client moved location 5 - Client moved location. Not able to get CPT due to steep terrain 2.3 KP DATABASES VESSEL SUPPLIED KP DATABASES There were no vessel supplied KP databases by Statnett for the Hardangerfjorden scope. DSN made their own runlines in collaboration with Statnett from the GIS database supplied by Statnett. DSN runlines can be found in SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb ROV SUPPLIED KP DATABASES There were no KP databases supplied by Statnett for the Hardangerfjorden scope. DSN made their own runlines in collaboration with Statnett from the GIS database supplied by Statnett. DSN runlines can be found in SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb. 2.4 SURVEY OPERATIONS SV Geograph was tasked to carry out seabed investigations in Hardangerfjorden using both vessel and ROV based systems. The Survey began on the 29 th October 2010 with a vessel MBE survey covering the whole survey area. Vessel MBE survey was completed on the 6 th of November. On 16 th November the Area number # 8-Extension was surveyed, which was an extra SOW received on the 12 th of November. Sequence of vessel hull mounted operations. Area number # 1 Area number # 8 Area number # 2 Area number # 3 & 4 Due to operational reasons. Area number # 7 Area number # 5 & 6 Due to operational reasons. Area number # 8 Extension Extra SOW received 12 th of November The final vessel based survey was completed on 16 th November ROV based surveys was started on the 6 th of November. The Step 4 ROV site inspection - visual Lines for the marine Biologists was added to the operations on the 11 th of November. From this time on Step 2 and Step 4 was carried out simultaneously.

26 of Sequence of ROV survey operations. Eiknes area in the outlet from Simafjorden. Vallavik area. Djønnaneset area. Slåttnes area. Kvandal area. Uravika Seianeset Ålvik Samlaneset Kvamsøy Aksneset Eidesvågen The centre route line was surveyed as the ROV transited from one site location to the next. Due to time constraints ROV based survey was stopped incomplete on 18 th November On the 27 th Nov the ROV was re-mobilised and five video lines were completed by the 29 th November. Sequence of Geotechnical Sampling operations. The Geotechnical work began at the eastern (inland), end of Hardangerfjord and proceeded westwards SURVEY PERFORMANCE / DATA QUALITY The equipment mobilised on the SV Geograph performed within specifications and suffered the following breakdowns during this project Failure reports Table 2.4 Failure Reports Failure Report no. Failure description Date GG-Q pdf During operation it was noticed that the digiquartz had very unsuspected depth reading on deck and then "lagged" the other unit when dived and performing a profile. During Fault finding the unit failed to communicate to Digiquartz interactive through the online PC GG-Q pdf After replacing a faulty unit (see FR GG-Q ) with one from onboard spares a profile was performed whilst monitoring both units on the ROV, an on deck reading from unit was -1.89m with 11.23psi and a more normal reading from unit Once dived the two units had very different readings at shallow depths with unit more closely following what Saiv unit's output and this seemed to agree with the known depth of ROV near the surface as this could be seen physically. Therefore we have no confidence in either of these units as is two years out of date for cal. and has dodgy readings on deck and the unit is reading around 30m when it can be seen that the ROV is around 3m depth and then seems to lag the actual depth all the way down GG-Q pdf During operation we restarted the reson topsides. The stbd system would not boot up again after restart. Swapped it for spare, and did some bench tests. Gives out various bios error codes, and sometimes does not start at all. Also one of the cpu fans has been taken to fix another noisy topside unit GG-Q pdf The /p topside unit had a really noisy fan that also caused it to crash from time to time. Took one CPU fan from another dead topside unit to replace it GG-Q pdf Unit was deployed 3 times by crane and manually started. Unit only recorded a few meters of data each time then stopped logging GG-Q pdf The unit is giving a partial ground on the ROV and drops out of HAIN occasionally. On inspection it was seen that although the unit continues to output a string one of the beams returns zeroes

27 of Surface Positioning The different surface position systems are regularly compared to each other to monitor their performance. Based on these comparisons, it is decided which system to be used as primary and secondary position system. Due to the surrounding mountains in the Hardangerfjord we had to swop between navigation systems. Loss of correction signals was likely to occur in certain areas due to the terrain. Therefore to cope with this we mobilized equipment to enable two alternative ways of receiving correction signal, and a post processing option that was independent of correction signals. 1. Correction signals using the NMT network, (ICE). 2. Correction signal transmitted from a radio covering the Simafjord area. 3. Post processing using Precise Point Positioning with the Terrapos software The correction signals transmitted from a land based demodulator station was placed optimally to cover the area where the ICE net was expected to have a poor signal. 2 installations were needed to cover all areas. See Figure 2.3 ICE signal quality and coverage plot for the areas where we needed to receive corrections by radio signals. Figure 2.3 ICE signal quality and coverage plot The Terrapos software was a good alternative if all correction signals were lost. The Terrapos software uses known orbit data for the satellites, clock correction files for the satellites, and estimates the atmospheric corrections. Terrapos can use Glonass satellite signals as well. The Terrapos software manual stated that the software produced a result of horizontal accuracy of 0.05m RMS for a survey period longer than 6 hours.

28 of Satellite receivers were upgraded to use all available Glonass satellites as well as GPS satellites. This was added to the available number of satellites. Starpac G2 receivers were mobilized for this job. Glonass currently have approximately 20 satellites operational. The graphs in Appendix F QC Graphs, show examples of normal distribution of differences between the Primary and Secondary surface positioning systems for both Easting and Northing. The differences from primary to secondary DGPS are continually monitored online and were seen to be generally less than 0.3m. In this sample data set, the average difference in Easting is 0.03m and the average difference for Northing is 0.m. Surface navigation comparisons such as these are made on a regular basis as part of the daily QC programme. HP G2 Fugro HP G2 system was used as the primary. This system performed well throughout the survey. HP Fugro HP system was used as the secondary. This system performed well throughout the survey. XP Fugro Skyfix XP was used as the tertiary. This system performed well throughout the survey Subsea Positioning The different subsea position systems are regularly compared to each other to monitor their performance. Kongsberg-Simrad HiPAP This system has performed well during the surveys. Kongsberg-Simrad HAIN Integrated Inertial Navigation The positions derived from the data sets shows there to be a good general agreement between the two systems. In the dynamic example shown in Appendix F the HAIN track is seen to be following the HiPaP data closely as it should and smoothing the occasional HiPAP jump. The offline processing used both the online processed HAIN and checked this against processed raw HAIN Depth Sensor Data The graph in Appendix F QC Graphs, shows a comparison of the observed ROV Digiquartz depth of the two Digiquartz on the vehicle while the ROV was surveying in the Aksneset area. It can be seen from the comparisons that no exceptional spikes are evident in the recorded data and both Digiquartz record comparable depth. This would indicate that the Digiquartz unit was not producing any anomalous data Kongsberg MBE System The Kongsberg Multi Beam Echo Sounder is a high resolution Echosounder operating at between 70 and 100 khz. The MBE systems received sound velocity in real time from a SV sensor close to the transducers. The system is run in Hi-Density equi-distant beam spacing mode had a maximum operating angle on this survey of ±60. This was used in conjunction with the manual swath width function which was initially set to ±200m.

29 The system performed well during the survey of Figure 2.4 below shows DTM data, produced from the survey, of Hardangerfjord in the Kvandal area. Water depth varies from 50m to 870m deep. Figure 2.5 below shows shaded relief from the survey, of Hardangerfjord in the Askneset area. Figure 2.4 DTM of data of Hardangerfjord in the Kvandal area

30 Document title ROUTE SURVEY Figure 2.5 Revision date Page of GGRA-O SN2010_05-GGRA-O Shaded Relief of data, Hardangerfjord in Aksneset area ROV mounted Seabat 7125 The Reson Seabat 7125 system performed well, minor drop outs were noted by these were within limits accepted by the on board client representative. During post-processing no significant gaps were observed. Figure 2.6 below shows DTM data from the ROV 7125 survey of the Kvamsoy area with water depth between 300m and 550m deep. Figure 2.7 below shows shaded relief for a section of the DTM shown in Figure The depth in this example of the area near Kvamsoy is between 370m and 470m. DOF Subsea Norway Project No.: Contract

31 of Figure 2.6 DTM of ROV 7125 data of Kvamsoy area, Hardangerfjord

32 of Figure 2.7 Shaded Relief of ROV 7125 data, Kvamsoy area, Hardangerfjord ROV mounted SBP Data

33 of The Edgetech SBP system yielded the best results using 2-8 khz frequency. The SBP data quality was good and the penetration was satisfactory. An average sound velocity of 1500 m/s was used for the sediment strata. The Edgetech SBP performed well during the survey. Figure 2.8 SBP data quality example from KP to KP Horizontal scale lines: 25m, Vertical scale lines: 10ms (7.5m) ROV mounted SSS Data The Edgetech 4200 system provided good quality data, utilizing the 600kHz frequency it was able to detect several small targets. The SSS system performed very well throughout the survey and produced some very clear images.

34 of Figure 2.9 SSS data example from approximately KP to KP Navigation/Acquisition Software suites Eiva Timebox Eiva Timebox was used to time stamp all incoming data before it was recorded by NaviScan. The StarFix HP and AD492 antenna (L1,L2,Glonass & Spot) was used as the source of PPS and ZDA time. Eiva NaviPac The system has performed well during the period of survey. Eiva NaviScan The system has performed well during the period of survey. Kongsberg SIS The system performed well during the seabed survey. IXSEA / Edgetech Discover This system generally performed well throughout the survey. At start up of project our new IXSEA processing software went through some minor problems that were resolved quickly by use of the support function.

35 2.4.2 ENVIRONMENTAL DATA Sound Velocity and CTD data Document title Revision date Page of Sound velocity and CTD profiles were recorded during every launch and recovery of the vehicle. As would be expected, variations in the profiles over both space and time were observed throughout the course of the operation. The crane was used to obtain the first CTD profile for vessel based MBE work by mounting the stand alone SAIV SD204 and two Valeport MIDAS SVX2 units on the wire and taking it to seabed and back. The summary sheet for these profiles has been included in Appendix A: Survey Data Form, with the profile graphs included in Appendix F: QC graphs. The sound velocity profiles were loaded into the HiPAP system prior to commencing or continuing with positioning operations. The MBE systems received sound velocity in real time from a SV sensor positioned close to the transducers and the CTD profiles were loaded to the system as *.asvp files for real-time data acquisition. All CTD measurements were processed using the UNESCO-formula. The processed data was used to post-process the pressure-data logged by the Digiquartz sensor Tidal Corrections All MBE data presented in the project drawings or delivered as DTMs, were reduced to MSL using measured tide from tide gauges located at Eidfjord, Kvanndal, and Tørvikbygd. Aandera and SAIV Water Level Recorders were placed in 3 locations of Hardangefjorden. Water levels were recorded every 10 minutes Air Pressure Air pressure data was recorded on an Aanderaa Digital Barograph Data-logger. The atmospheric pressure is logged at 30 second intervals within the online navigation suite and was then extracted during the post processing operations SEABED SAMPLING Two types of seabed sampling, CPT, and Piston Coring took place at locations provided by Stattnett. 2.5 EQUIPMENT Table 2.5 SV Geograph Vessel equipment Item Instrument Fugro Starpack HP G2 DGPS (HP) with StarFix HP and AD492 antenna Primary / Secondary (L1,L2,Glonass & Spot), corrections via Inmarsat, Spotbeam, radio, ICE and NTRIP (nominal Secondary). Fugro Starpack XP DGPS (XP) with Multifix 6 software and AD492 Secondary / Primary antenna (L1,L2,Glonass & Spot), corrections via Inmarsat, 2 x spotbeam, radio, ICE and NTRIP (nominal Primary). Seatex Seapath 200 heading and attitude sensor, Version 2.03, MRU Ser. Vessel Gyro 1 No.3754, Top side Ser. No. 7230, mobilised 4th December Seatex Seapath 200 is the primary sensor. Vessel Gyro 2 1 x Sperry Navigat 2100 Fibre-optic Gyro Ser. No

36 of Vessel Gyro 3 Vessel Gyro 4 MRU 1 MRU 2 Item SSBL Stbd HiPAP 500 SSBL Port HiPAP 500 Instrument Sperry Marine Navigat X digital gyro compasses. Barograph 1 Aanderaa pressure sensor 2810 Barograph 2 Vessel Sound Velocity CTD 1 Vessel Sound Velocity CTD 2 Vessel MBE Vessel SBP Sperry Marine Navigat X digital gyro compasses. Seatex Seapath 200 heading and attitude sensor, Version 2.03, MRU Ser. No.3754, Top side Ser. No. 7230, mobilised 4th December Seatex Seapath 200 is the primary sensor. Seatex MRU5 motion sensor Ser. No ( stand alone for DP system) SAIV TD301R (Keel) Hull mounted Valeport minisvs Valeport MIDAS SVX2 for crane deployment Kongsberg TX Gondola mounted Kongsberg Maritime SBP120 Table 2.6 ROV equipment Item Instrument Responder Kongsberg 319 Transponder Kongsberg 319 INS Konsberg HAIN ROV INS / MRU 1 TSS Orion Gyro compass ROV INS / MRU 2 CDL Mini RLG ROV Doppler RDI Doppler log 300kHz ROV Sound Velocity CTD 1 SAIV SD204 ROV Sound Velocity CTD 2 Valeport Mini SVS ROV MBE Head 1 Reson Seabat 7125 (stb) ROV MBE Head 2 Reson Seabat 7125 (port) ROV Depth Sensor 1 Paroscientific Digiquartz 2000m ROV Depth Sensor 2 Paroscientific Digiquartz 2000m ROV Altimeter RDI Doppler 300kHz ROV Port Camera Kongsberg Colour Zoom 1366 ROV Centre Camera Kongsberg Colour Zoom 1366 ROV Starboard Camera Kongsberg Colour Zoom 1366 Laser Imenco Stereo Laser System Obstacle Avoidance Sonar Kongsberg MS1000 ROV SSS Edgetech 4200 FS 300/600 khz ROV SBP Edgetech FS khz

37 of SUMMARY OF RESULTS The following summarises the results of the operations completed by the SV Geograph over the course of the Hardangerfjorden Cable route survey, from 28 th of October to 29 th November It must be noted that the project was split into two parts the first being the majority of the survey from the 28 th October to the 22 nd November and then some infill video lines for the Marine Institute from the 27 th -29 th November. Figure 3.1 Overview of the Hardangerfjord Area Bathymetry: The deepest part of the route is found in the west (860m). The landfall areas (Eiknes and Eidesvågen) are the steepest areas along the route with gradients up to 79. The fjord bottom is relatively flat but is cut by six major slide escarpments at KP 14.6, KP 18.1, KP 22.7, KP 24.6, KP 26.7 and KP The escarpments have slope angles ranging from 7 to 39 (Error! Reference source not found.). Seabed Features: A total of 1818 possible boulders and debris was picked. Two wrecks were observed at KP and KP Six major slide escarpments were observed along the route, At KP 14.6, KP 18.1, KP 22.7, KP 24.6, KP 26.7 and KP The slide escarpments are associated with higher sediment influx from the fjord side. Further investigation to these areas is recommended. The main type of sediments along the route is fine sediments, CLAY, sandy CLAY and SILT. Closer to the fjord walls and landfalls outcrops and areas of boulders are present. 6 units have been interpreted, ranging from structureless sand to fine laminated clay and silt. Shallow Geology: The fjord bottom mainly consists of deep fine laminated clay and silt.

38 of DETAILED RESULTS 4.1 GENERAL The following summarises the results of the operations completed by the SV Geograph over the course of the Hardangerfjorden Cable route survey, from 28 th of October to 29 th November It must be noted that the project was split into two parts the first being the majority of the survey from the 28 th October to the 22 nd November and then some infill video lines for the Marine Institute from the 27 th -29 th November. (All UTM coordinates, depths and linear dimensions quoted in this report are in metres, unless otherwise stated). In the following the terms PC and CPT are used referring to geotechnical sampling methods i.e. Piston Core (PC) and Cone Penetration Test (CPT). 4.2 ROV SURVEY CENTERLINE The Hardangerfjorden Cable Route Survey Centreline was surveyed from the 08 th of November to 17 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 8.7 m (MSL) in the eastern part to a maximum of 860 m (MSL) in the western part. The route is relatively flat throughout the fjord; however areas of significant morphological seabed changes occur and can be seen in the figures below.

39 of Figure 4.1 The slide escarpment at around KP 14.6 has seabed gradients up to 11.0 of the surveyed area (5m contours) Figure 4.2 The slide escarpment at around KP 18.1 has seabed gradients up to 22.5 (5m contours)

40 of Figure 4.3 The slide escarpment at around KP 22.7 has seabed gradients up to 34.2 (5m contours) Figure 4.4 The slide escarpment at around KP 24.6 has seabed gradients up to 7 (5m contours).

41 of Figure 4.5 The slide escarpment at around KP 26.7 has seabed gradients up to 39.0 (5m contours). Figure 4.6 The slide escarpment at around KP 43.6 has seabed gradients up to 34.0 (5m contours). For bathymetry of the two landfalls please see the site surveys Eiknes area and Eidesvågen area in sections and

42 of Seabed Features Eiknes to Vallavik KP2.75 to KP 17.60: A total of 301 targets are observed along the route. Eight are unidentified and the largest measures 4.2mx1.5mx0.3m. 293 are possible boulders were the largest measure 26.4mx43.0mx10.4m and is located at KP See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb The route is cut by a slide escarpment (KP 3.38). Below the slide escarpment the slope is dominated by outcrops (probably of underlying stiffer sediments) and submarine gullies. The route crosses two areas of boulders at KP 3.15 and KP Also at KP 4.20 the route crosses an outcrop area. From KP 5.00 the route is relatively flat, but it crosses a slide escarpment around KP The slide escarpment is associated with higher sediment influx from the fjord side. Further investigation to these areas is recommended. Up to KP 4.00 the main sediment type is gravelly MUD. Between KP 4.00 (PC5) and KP 8.00 (PC7) the sediment type changes from gravelly MUD to CLAY. Changes in SSS reflectivity is not observed and indicates a lateral gradual change in facies. Vallavik to Djonnaneset KP to KP 22.40: A total of 20 possible boulders are observed along the route. The largest measure 3.2mx1.3mx2.6m and is located at KP See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb At KP a slide escarpment crosses the route, directly south of this an area of boulders are located, possibly deposits from mass movement down the fjord side. North of the route a lobe of sandy SILT (PC11) is observed from KP to KP The seabed is relative flat up to KP (Djonnaneset). From KP to KP a possible cable is observed running parallel along the route on the south side. Between KP (PC8) and KP (CPT10) the sediment type changes from CLAY to sandy CLAY. Changes in SSS reflectivity is not observed and indicates a lateral gradual change in facies. Djonnaneset to Slåttnes KP to KP 26.40: A total of 71 targets are observed along the route. Two are unidentified where the largest is 10.2mx3.3mx0.4m and is located approximately at KP Of the 69 possible boulders the largest measure 3.2mx2.0mx3.1m and is located at KP See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb At KP and KP slide escarpments crosses the route. The slide escarpments are associated with higher sediment influx from the fjord side. Further investigation to these areas is recommended. According to the background information three cables crosses the route approximately at KP 22.90, KP and KP (not observed on SSS). Between KP (CPT12) and KP (CPT13 and PC13) the sediment type changes from sandy CLAY to SILT. Changes in SSS reflectivity is not observed and indicates a lateral gradual change in facies. Slåttnes to Kvandal KP to KP 33.70

43 of A total of 55 targets are observed along the route. Two are possible debris and the largest measures 2.7mx0.2mx0.6m, and is located approximately at KP Of 53 possible boulders the largest measure 2.2mx1.3mx1.6m and is located KP See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb A major slide escarpment crosses the route at KP The slide escarpment is associated with higher sediment influx from the fjord side. Further investigation to these areas is recommended. From KP to KP (Kvandal) the seabed is relatively flat. According to the company provided background information two cables crosses the route at KP and KP (not seen on SSS). From Slåttnes to Kvandal the main sediment type is SILT (PC13, CPT13 and CPT15). From approximately KP to KP an alternative loop has been surveyed in addition to the main route. A possible cable is observed in the eastern part of the loop, close to KP The alternative loop is relative flat and the seabed evaluated to consist of similar sediments as mentioned above. Kvandal to Samlaneset KP33.70 to KP 52.73: A total of 18 possible boulders are observed along the route. The largest measures 6.5mx1.9mx1.4m, and is located at KP See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb At KP a slide escarpment crosses the route. The slide escarpment is associated with higher sediment influx from the fjord side. Further investigation to these areas is recommended. The main type of sediments from Kvandal to Samlaneset is SILT. From KP to KP a fish farm s anchor lines crossed the route and the ROV got entangled, Due to danger to the ROV and the fish farm the client accepted that no ROV survey was done between these KPs. Samlaneset to Aksneset KP to KP 61.10: A total of 11 targets are observed along the route. One is classified as debris and one is wreck, the wreck measures 23.9x10.3mx4.3m and is located at KP (possible barge). Nine are possible boulders were the largest measure 2.4mx1.5mx0.6m and is located at KP See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb At KP and KP two seabed scars or possible cables crosses the route. From KP to KP the route is relative flat. The main type of sediment is SILT. Aksneset to Eidesvågen KP to KP 67.88: A total of 19 possible boulders are observed along the route. The largest measures 11.0mx12.9mx6.3m and is located 130m north of the route at KP See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb According to the company provided background information three cables crosses the route at KP 63.07, KP and KP No cables were observed on the SSS data. From KP to KP

44 of four cables are crossing or running close to the route, these cables have also been observed on SSS and show an offset compared to the background information. Between KP and KP the sediments changes from SILT to CLAY (CPT20, PC20 and CPT21). At KP the route enters an outcrop area or outcrops with veneer sediments on top. At KP PCE2 shows gravelly SAND in the upper part of the slope. On the shelf at KP PCE1 shows CLAY. It is very difficult to precisely determine where the sediment boundaries are from the SSS data. From KP to KP no ROV survey was done. 200m Figure 4.7 SSS data example From approximately KP to KP Shallow Geology Eiknes to Vallavik KP 4.67 to KP 17.60: From KP 4.67 to KP 7.66 the laminated CLAY unit increases from 0.7 to 3.8m, and overlies a SAND unit. Between KP 7.66 and KP the seabed comprises of undisturbed sediments, divided into 3 units; an upper and lower unit of laminated CLAY and SILT, and a homogenous body of SILT or SAND. From KP to KP the lower laminated CLAY and SILT unit is covered by slide debrites varying in thickness from 1 to 5 metres. At top there is less than a meter of hemipelagic sediments.

45 of Vallavik to Djonnaneset KP to KP 22.40: Between Vallavik and Djønnaneset the slide debrites varies in thickness from 1.5 to 8 metres, covered by less than a meter of hemipelagic sediments. The normally undisturbed lower laminated CLAY and SILT unit is disturbed and acoustic masked between KP and KP Djonnaneset to Slåttnes KP to KP 26.40: Between Djønnaneset and Slåttnes Unit 5 (undisturbed lower laminated CLAY and SILT) is at places covered disturbed laminated sediments (Unit 4). Overlaying this is 1.5 to 3 metres of slide debrites (Unit 2), covered by 1 to 2.5 metres of hemipelagic sediments (Unit 1). This indicates that several slides have been triggered in this area, and also that the slide events might be older than the slides around Vallavik (KP 14.5 and KP 18.2). Slåttnes to Kvandal KP to KP At KP there is a major slide escarpment, 33 m high. The slide debrites (Unit 2) is only between 0.4 and 4 m here, but the thickness of Unit 4 (disturbed sediments) is unknown. Unit 2 is covered by 1 to 2m hemipelagic sediments. At KP the Centre Line crosses a topographic high (12m) which has acted as an obstacle for the slide debrites. On the downslope side of this topographic high, which might be an intact slide block from the former major slide event, the seabed comprises of more normal hemipelagic sediments. Above the massive unit of laminated CLAY and SILT, there is approximately 2m of uniform sediments (SILT or SAND), with approximately 2m of laminated SILT and CLAY (Unit 1) on top. Kvandal to Samlaneset KP33.45 to KP 52.73: At KP there is a slide escarpment, and the disturbed sediments (Unit 4) are covered by both uniform sediments (Unit 3) and laminated sediments (Unit 1). Unit 4 decreases rapidly in thickness, and thins out at KP From here, until KP 43.51, undisturbed laminated sediments (Unit 5) are overlain by 1 to 3.5m SILT (Unit 3) and 1 to 2.5m laminated sediments (Unit 1). At KP there is also a slide escarpment, and the slide debrites (Unit 2) thins out at KP Beyond this, Unit 3 varies between 5 and 9m, and Unit 1 varies between 1.5 and 3m. From KP to KP no ROV survey was done. Samlaneset to Aksneset KP to KP 61.10: Above the massive laminated Unit 5, there is a homogenous unit of most likely SILT (Unit 3), varying in thickness from 5.5 to 9m. Above this, there is 2 to 3m of laminated CLAY and SILT (Unit 1). Aksneset to Eidesvågen KP to KP 63.01: The bottom of Unit 3 was not detected in this area, but Unit 3 is most likely 9m thick. Unit 1 is between 2.5 and 4m in this area. Table 4.1 Soil conditions Unit Seismic character Geological interpretation 1 Parallel to sub-parallel continuous medium to high amplitude reflectors Laminated CLAY and SILT 2 Acoustically transparent unit (low amplitude reflection) of varying thickness Slide debrites 3 Acoustically uniform unit (low to medium amplitude reflection) with occasional parallel reflectors SAND or SILT, occasionally laminated 4 Chaotic medium to high amplitude reflectors Disturbed laminated sediments, SILT and

46 of Parallel to sub-parallel continuous medium to high amplitude reflectors Acoustic structureless unit of medium amplitude reflection CLAY Undisturbed laminated sediments, SILT and CLAY SAND W E Figure 4.8 SBP data example from KP to KP Horizontal scale lines: 25m, Vertical scale lines: 10ms (7.5m).

47 4.2.2 EIKNES AREA Document title Revision date Page of The Eiknes area was surveyed from the 6 th of November to 8 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 8.7 m (MSL) in the north eastern part to a maximum of 200 m (MSL) in the south west part. See Figure 4.9. Figure 4.9 DTM with overview of the bathymetry of the surveyed area (5m contours) Seabed gradients across the surveyed area are on average about 7º however steeper slopes up to approximately 63 º occur in the submarine gullies in the central part of the slope towards the fjord bottom. At the top slope escarpments cuts the area with slope angles up to 34º. See Figure 4.10.

48 of Figure 4.10 DTM with overview of the slope angles of the surveyed area (5m contours) Seabed Features A total of 258 targets have been picked in the Eiknes area. Two of them are unidentified were the largest is 0.7mx1.2mx5.3m. 256 are possible boulders were the largest is 9.6mx8.2mx3.6m. See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb The Eiknes area is dominated by escarpments and submarine gullies after a massive slope failure cutting NE to SW, the outcrop areas in the central part is probably stiff sediments, while the outcrops exposed on the fjord sides is bedrock. Associated with the fjord side to the south east an area of boulders is observed. The main sediment type is gravelly MUD which probably changes into CLAY between PC5 and CPT6. It is possible that the slope failure is a consequence of the devastating floods (jøkulhlaup) happening in the late 19 th and early 20 th century in Simadalen. This could have triggered the slope

49 of failure directly or lead to an over steepening of the slope because of excessive and rapid sediment deposition causing slope failure Visual Survey Two visual survey lines were carried out on the 28 th of November in the Eiknes area for biological investigations. Indre Eiknes and Ytre Eiknes VALLAVIK The Vallavik area was surveyed from the 08 th of November to 09 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 430 m (MSL) in the north eastern part to a maximum of 496 m (MSL) in the south western part. See Figure 4.11.

50 of Figure 4.11 DTM with overview of the bathymetry of the surveyed area (5m contours) Seabed gradients across the surveyed area are relatively flat; however steeper slopes up to approximately 20º occur along an elongated ridge in the central part of the area. See Figure Figure 4.12 DTM with overview of the slope angles of the surveyed area (5m contours) Seabed Features A total of 111 targets have been picked in the Vallavik area. Three are unidentified and the largest is 12.4mx0.8mx0.8m. 108 are possible boulders were the largest is 9.4mx2.0mx1.8m. See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb The Vallavik site has four areas of boulders, one on the southern side and three on the northern side of the fjord; they are probably the result of mass movement down the fjord sides. The elongated ridge in the central part consists of sandy SILT and is possibly the result of mass movement. To the very south the area is dominated by outcrops. The main type of sediment is sandy CLAY in the Vallavik site.

51 of A possible cable is observed running East-West in the southern part of the area. A U-shaped slide escarpment is visible in the South-East, and as mentioned above, it is associated with higher sediment influx from the fjord side. Further investigation to these areas is recommended Visual Survey One visual survey line was carried out on the in the Vallavik area for biological investigations DJØNNANESET The Djønnaneset site was surveyed on the 09 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 541 m (MSL) in the north eastern part to a maximum of 585 m (MSL) in the south western part. See Figure 4.13.

52 of Figure 4.13 DTM with overview of the bathymetry of the surveyed area (5m contours) Seabed gradients across the surveyed area are generally less than 4.5º, however steeper slopes up to approximately 36º occur on the slide escarpment crossing the area in the north eastern part. See Figure 4.14.

53 of Figure 4.14 DTM with overview of the slope angles of the surveyed area (5m contours) Seabed Features A total of 27 targets have been picked in the Djønnaneset area. Two are unidentified and the largest measures 1.6mx0.3mx0.5m. 25 are possible boulders were the largest is 3.2mx2.1mx1.5m. See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb The main sediment type is sandy CLAY (CPT 12). A U-shaped slide escarpment crosses the area from North to South and is associated with higher sediment influx from the fjord sides. Further investigation to these areas is recommended SLÅTTNES The Slåttnes site was surveyed from the 09 th of November to 10 th of November 2010.

54 of Bathymetry The water depth in the surveyed area ranges from a minimum of 603 m (MSL) in the eastern part to a maximum of 695 m (MSL) in the south part. See Figure Figure 4.15 DTM with overview of the bathymetry of the surveyed area (5m contours) Seabed gradients across the surveyed area are relatively flat, close to 0.0, however steeper slopes up to approximately 45 occur on the slide escarpment crossing the centre part of the area, see Figure 4.16.

55 of Figure 4.16 DTM with overview of the slope angles of the surveyed area (5m contours) Seabed Features A total of 94 targets have been picked in the Slåttnes area. One is unidentified and measures 2.4mx1.4mx0.5m. 93 are possible boulders were the largest is 4.0mx2.0mx2.7m. One wreck is observed south of the route at KP and measures 28.7mx9.4mx7.2m. See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb The Slåttnes site has one area of boulders in the north eastern part, and it is associated with a possible slide deposit in the north, probably the result of mass movement down the fjord sides. To the NW and SE outcrops are dominating. The main type of sediment is sandy CLAY in the Slåttnes area (CPT13).

56 of A U-shaped slide escarpments is visible cutting West to East, the slide escarpment is associated with higher sediment influx from the fjord side. Further investigation to these areas is recommended Visual Survey Two visual survey lines were carried out on the in the Slåttnes area for biological investigations. Slåttnes North and Slåttnes South KVANDAL The Kvandal site was surveyed from the 10 th of November to 13 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 603 m (MSL) in the eastern part to a maximum of 724 m (MSL) in the south part. (Figure 4.15).

57 of Figure 4.17 DTM with overview of the bathymetry of the surveyed area (5m contours) Seabed gradients across the surveyed area vary a great deal. The fjord bottom is relatively flat, close to the slope it is around 20 and flat in the south part. The sill area (plateau) are also relatively flat, however slopes up to approximately 60 occur on the many slide escarpments. The slope is very steep, with an average slope steepness of more than 50, see Figure 4.18

58 of Figure 4.18 DTM with overview of the slope angles of the surveyed area Seabed Features A total of 369 targets have been picked in the Kvandal area. Six are debris or unidentified and the largest measures 19.3mx8.5mx0.5m (possible tree). 363 are possible boulders were the largest is 5.2mx3.9mx6.3m. The background information shows one cable, however two possible cables are observed from SSS data running south-north in the central shelf area and the lower central slope area. The Kvandal site is divided into three parts, deep, slope and shelf. The slope is mainly outcrops, naturally explained by the steepness (50 ). The deep part has two areas of boulders in the northeast corner and northwest corner and is interpreted to be slide deposits coming from the slope. In the north western part of the shelf, areas of outcrop are seen.

59 The main type of sediment is SILT in the Kvandal area (PC15, PC16, CPT16) of Some areas of slide escarpments can be seen in the north western and central part of the shelf area. In the northwest corner of the deep part a round depression can be seen, and is probably the result of scouring after mass transport of sediments channelled through an incision along the west side of the slope Visual Survey One visual survey line were carried out from the 12 th of November and 13 th of November. in the Kvandal area for biological investigations. To discern between the deeper habitat and the shallow habitat the survey was divided in two, upper and lower. Figure 4.19 Video data example showing marine life on outcrop URAVIKA The Uravika line was surveyed on the 13 th of November 2010.

60 Visual Survey Document title Revision date Page of Two visual survey lines were carried out on the in the Uravika area for biological investigations. Figure 4.20 Video data example showing marine life on outcrop ÅLVIK The Ålvik line was surveyed from the 13 th of November to 14 th of November Visual Survey A visual survey was carried out on the 13 th of November to 14 th of November 2010 in the Ålvik area for biological investigations.

61 of Figure 4.21 Video data example showing marine life on outcrops SEIANES The Seianes line was surveyed on the 13 th of November Visual Survey A visual survey was carried out on the 13 th of November to 14 th of November 2010 in the Seianes area for biological investigations.

62 of Figure 4.22 Video data example showing marine life on outcrop NANES The Nanes line was surveyed on the 14 th of November Visual Survey A visual survey was carried out on the 14 th of November 2010 in the Nanes area for biological investigations.

63 of Figure 4.23 Video data example showing marine life on soft seabed SAMLANESET The Samlaneset site was surveyed on the 14 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 849 m (MSL) in the northern part to a maximum of 852 m (MSL) in the southern part.

64 of Figure 4.24 DTM with overview of the bathymetry of the surveyed area (1m contours) Seabed gradients across the surveyed area are very low and the seabed appears flat. See Figure 4.25.

65 of Figure 4.25 DTM with overview of the slope angles of the surveyed area (1m contours) Seabed Features A total of four targets have been picked in the Samlaneset area. They are possible boulders were the largest is 7.2mx1.3mx0.4m. See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb The Samlaneset site is relatively flat and only in a very small part in the SE outcrops are observed. The main type of sediment is SILT in the Samlaneset area (PC18, PC19, CPT18). Samlaneset is marked (and possibly used) as an ammunition dump site by the Norwegian Royal Navy.

66 KVAMSØY Document title Revision date Page of The Kvamsøy site was surveyed from the 14 th of November to 15 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 307 m (MSL) in the western part to a maximum of 535 m (MSL) in the eastern part. See Figure Figure 4.26 DTM with overview of the bathymetry of the surveyed area (5m contours) Seabed gradients across the surveyed area vary; the area deepens towards west and is riddled with slide escarpments with gradients from approximately 30 to 40. The areas between these scars are relatively flat. Steeper slopes up to approximately 70 occur in the bedrock area in the north east.

67 of Figure 4.27 DTM with overview of the slope angles of the surveyed area (5m contours) Seabed Features A total of 134 targets have been picked in the Kvamsøy area. Four of these are debris or unidentified and the largest measures 6.8mx2.1mx2.0m (possible tree). 130 are possible boulders were the largest is 5.0mx3.9mx2.5m. See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb The Kvamsøy site is a shelf running east-west. Outcrops are found in the deeper part and continuing up the slope on the north side. On the south side an outcrop can be seen in the central part of the area. Six small areas of boulders are observed in the central lower part of the area. Slide escarpments can be seen on the top, middle and deepest part of the area. Since no geotechnical sampling was performed in this area, the sediment has been classified as other with a comment suggesting possible CLAY.

68 Visual Survey Document title Revision date Page of A visual survey was carried out on the 14 th of November to 15 th of November 2010 in the Kvamøy area for biological investigations. Figure 4.28 Video data example showing marine life on outcrops AKSNES The Aksnes site was surveyed from the 16 th of November to 17 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 190 m (MSL) in the north part to a maximum of 860 m (MSL) in the south part. See Figure 4.29.

69 of Figure 4.29 DTM with overview of the bathymetry of the surveyed area (5m contours) Seabed gradients across the surveyed area vary. The top is relatively flat and the seabed is generally less than 2. Slide escarpments that mark the start of the middle ground are around 25. The middle ground has an average slope angle of around 9 with slide escarpments up to 35. Finally the deepest part of the slope down to the fjord bottom is on average steeper than 50 but slopes angles up to 80 occur. See Figure 4.30.

70 of Figure 4.30 DTM with overview of the slope angles of the surveyed area (5m contours) Seabed Features A total of 290 targets have been picked in the Aksnes area. Six are debris or unidentified and the largest measures 6.8mx3.0mx0.9m. 284 are possible boulders were the largest measures 16.7mx9.4mx3.9m. The Aksnes area is one of the possible landfalls. The area is part of an incised funnel shape in the fjord side. The funnel is narrowest at the top and outcrops are seen on both sides (NW and NE) The NE outcrops can be traced down to where the slope steepens and outcrops dominate the entire area down to the fjord bottom. 14 areas of boulders are observed in the central part of the area.

71 of Some areas of slide escarpments can be seen in the top and middle part of the slope. The deep part or fjord bottom consists of mainly SILT. The slope and top part of the area consists of CLAY (CPTK1 and PCK1) Visual Survey A visual survey was carried out on the 15 th of November to 16 th of November 2010 in the Aksneset area for biological investigations and Statnett purposes. Figure 4.31 Video data example showing marine life on outcrops EIDESVÅGEN The Eidesvågen site was surveyed on the 17 th of November Bathymetry The water depth in the surveyed area ranges from a minimum of 26 m (MSL) in the south part to a maximum of 845 m (MSL) in the north part. See Figure 4.32.

72 of Figure 4.32 DTM with overview of the bathymetry of the surveyed area (5m contours) Seabed gradients across the surveyed area are generally around than 26, however steeper slopes up to approximately 76 occur on short distances on the slope. See Figure 4.33.

73 of Figure 4.33 DTM with overview of the slope angles of the surveyed area (5m contours) Seabed Features A total of 19 targets have been picked in the Eidesvågen area. All are possible boulders were the largest measure 10.9mx12.9mx6.3m. Because the outcrops are abundant in the slope, no targets have been picked here; the targets are all picked at the top and at the fjord bottom of Eidesvågen. See SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb The top part consists of CLAY (PCE1), PCE2 shows gravelly SAND in upper part of the slope. Other areas are classified as outcrops with a veneer of sediments on top. The fjord bottom consists of CLAY (CPT21).

74 Visual Survey Document title Revision date Page of A visual survey was carried out on the 16 th of November to 17 th of November 2010 in the Eidesvågen area for biological investigations and Statnett purposes. Figure 4.34 Video data example showing marine life on outcrop.

75 of DATA INDEX 5.1 DIGITAL REPORT DELIVERY REV. 1 x copy of 1 x 500 GB HDD (S/N WXR1E30TEY48M) containing: 1 x Survey Report this document (DOC/PDF intelligent formats) 1 x Field Report (DOC/PDF intelligent format) 70 x Charts (DWG/PDF files) 35 x DTM Depth data 1m grid, and shaded relief images (XYZ, PNG formats) 127 x DTM Depth data 0.2m grid, and shaded relief images (XYZ, PNG formats) 162 x Shaded Relief (PNG format) 785 x Soundings (ASCII files) 2 x NaviModel Projects (DB files) 97 x SSS (GEO TIFF files) 38 x SBP (GEO TIFF files) 13 x Acad Vector Files (DWG format) 2 x ESRI Geodatabases (GDB format)

76 of CHART INDEX Chart No. Chart Title Scale Start KP End KP SN2010_05-GGRA-O SN2010_05-GGRA-O59-00 SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey Overview Chart Bathymetry from Survey na na SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O60-00 Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal Profiles 2000/ SN2010_05-GGRA-O Route Chart Plan View and Longitudinal 2000/

77 of Chart No. Chart Title Scale Start KP End KP SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O60-00 SN2010_05-GGRA-O60-01 SN2010_05-GGRA-O60-02 SN2010_05-GGRA-O60-03 SN2010_05-GGRA-O60-04 SN2010_05-GGRA-O60-05 SN2010_05-GGRA-O60-06 SN2010_05-GGRA-O60-07 SN2010_05-GGRA-O60-08 SN2010_05-GGRA-O60-09 SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles 2000/ / / / / / / / / / / / / / / / / / / / / / / / / / / / / / SN2010_05-GGRA-O Route Chart Plan View and Longitudinal 2000/

78 of Chart No. Chart Title Scale Start KP End KP SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O SN2010_05-GGRA-O Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles Route Chart Plan View and Longitudinal Profiles 2000/ / / / / / / / / DTM _1mx1m (XYZ) SN2010_05_600106_DTM_Hardanger_001_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_0_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_003_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_004_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_005_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_006_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_007_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_008_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_009_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_010_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_011_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_012_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_013_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_014_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_015_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_016_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_017_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_018_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_019_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_0_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_1_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_2_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_3_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_4_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_5_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_6_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_7_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_8_ WGS84UTM32.xyz

79 of SN2010_05_600106_DTM_Hardanger_9_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_030_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_031_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_032_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_033_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_034_ WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_035_ WGS84UTM32.xyz SB7125_0.2mx0.2m (XYZ) SN2010_05_600106_DTM_Hardanger_Aksneset_01_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset_03_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset_04_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset_05_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset_06_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset_07_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset_08_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset_09_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Aksneset_10_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Alternative_CL_01_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen_01_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen_03_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen_04_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen_05_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen_06_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen_07_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen_08_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eidesvaagen_09_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_01_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_03_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_04_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_05_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_06_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_07_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_08_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_09_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_10_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_11_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_12_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_13_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Eiknes_14_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp004960_Kp005810_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp005810_Kp006730_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp006730_Kp007630_ _SB7125_WGS84UTM32.xyz

80 of SB7125_0.2mx0.2m (XYZ) SN2010_05_600106_DTM_Hardanger_Kp007630_Kp008510_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp008510_Kp009330_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp009330_Kp010190_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp010190_Kp011060_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp011060_Kp011900_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp011900_Kp012730_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp012730_Kp013550_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp013550_Kp014360_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp014360_Kp015160_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp015160_Kp015960_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp015960_Kp016770_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp016770_Kp017580_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp019270_Kp019980_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp019980_Kp0750_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp0750_Kp1510_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp1510_Kp2280_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp2580_Kp3050_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp3050_Kp3810_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp3810_Kp4730_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp4710_Kp5480_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp5480_Kp6230_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp7956_Kp8618_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp8618_Kp9152_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp9152_Kp9976_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp9976_Kp030778_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp030778_Kp031576_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp031576_Kp032412_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp032412_Kp033375_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp034438_Kp035301_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp035301_Kp036332_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp036332_Kp037333_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp037333_Kp038342_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp038342_Kp039350_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp039350_Kp0418_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp0418_Kp041099_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp041099_Kp042143_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp042143_Kp043211_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp043211_Kp044318_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp044318_Kp045423_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp045423_Kp046155_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp048245_Kp049191_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp049191_Kp0573_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp0573_Kp051340_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp051340_Kp052737_ _SB7125_WGS84UTM32.xyz

81 of SB7125_0.2mx0.2m (XYZ) SN2010_05_600106_DTM_Hardanger_Kp052737_Kp053159_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp053159_Kp053558_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp053558_Kp053964_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp053964_Kp054967_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp054967_Kp055970_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp055970_Kp057008_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp057008_Kp057844_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp057844_Kp058898_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp058898_Kp060014_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp060014_Kp061153_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kp061589_Kp063015_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvamsoy_01_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvamsoy _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvamsoy_03_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvamsoy_04_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvamsoy_05_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_01_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_03_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_04_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_05_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_06_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_07_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_08_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_09_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_10_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_11_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_12_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_13_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_14_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Kvandal_15_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Slaattnes_01_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Slaattnes _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Slaattnes_03_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Slaattnes_04_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Slaattnes_05_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Slaattnes_06_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Vallavik_01_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Vallavik _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Vallavik_03_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Vallavik_04_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Vallavik_05_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Vallavik_06_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Vallavik_07_ _SB7125_WGS84UTM32.xyz

82 of SB7125_0.2mx0.2m (XYZ) SN2010_05_600106_DTM_Hardanger_Vallavik_08_ _SB7125_WGS84UTM32.xyz SN2010_05_600106_DTM_Hardanger_Vallavik_09_ _SB7125_WGS84UTM32.xyz 5.4 SHADED RELIEF INDEX Shaded Relief (PNG) SN2010_05_600106_DTM_Hardanger_Kp Kp13.550_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp14.360_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp15.160_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp15.960_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp16.770_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp17.580_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp19.980_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp20.750_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp21.510_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp22.280_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp23.050_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp23.810_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp24.730_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp25.480_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp26.230_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp28.618_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp29.152_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp29.976_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp30.778_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp31.576_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp32.412_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp33.375_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp35.301_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp36.332_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp37.333_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp38.342_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp39.350_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp40.218_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp41.099_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp42.143_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp43.211_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp44.318_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp45.423_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp46.155_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp49.191_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp50.273_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp51.340_ _SB7125_WGS84UTM32_Shade.png

83 of Shaded Relief (PNG) SN2010_05_600106_DTM_Hardanger_Kp Kp52.737_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp53.159_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp53.558_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp53.964_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp54.967_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp55.970_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp57.008_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp57.844_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp58.898_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp60.014_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp61.153_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kp Kp63.015_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvamsoy-01_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvamsoy-_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvamsoy-03_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvamsoy-04_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvamsoy-05_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_01_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_03_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_04_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_05_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_06_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_07_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_08_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_09_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_10_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_11_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_12_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_13_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_14_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Kvandal_15_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Slaattnes_01_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Slaattnes _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Slaattnes_03_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Slaattnes_04_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Slaattnes_05_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Slaattnes_06_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Vallavik_01_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Vallavik _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Vallavik_03_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Vallavik_04_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Vallavik_05_ _SB7125_WGS84UTM32_Shade.png

84 of Shaded Relief (PNG) SN2010_05_600106_DTM_Hardanger_Vallavik_06_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Vallavik_07_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Vallavik_08_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_DTM_Hardanger_Vallavik_09_ _SB7125_WGS84UTM32_Shade.png SN2010_05_600106_Shade_DTM_Hardanger_001_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_0_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_003_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_004_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_005_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_006_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_007_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_008_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_009_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_010_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_011_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_012_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_013_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_014_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_015_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_016_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_017_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_018_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_019_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_0_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_1_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_2_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_3_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_4_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_5_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_6_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_7_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_8_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_9_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_030_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_031_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_032_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_033_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_034_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_035_ WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-01_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-03_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-04_ _SB7125_WGS84UTM32.png

85 of Shaded Relief (PNG) SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-05_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-06_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-07_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-08_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-09_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Aksneset-10_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Alternative-CL_01_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-01_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-03_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-04_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-05_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-06_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-07_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-08_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eidesvaagen-09_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_01_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_03_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_04_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_05_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_06_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_07_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_08_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_09_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_10_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_11_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_12_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_13_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Eiknes_14_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp05.810_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp06.730_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp07.630_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp08.510_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp09.330_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp10.190_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp11.060_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp11.900_ _SB7125_WGS84UTM32.png SN2010_05_600106_Shade_DTM_Hardanger_Kp Kp12.730_ _SB7125_WGS84UTM32.png

86 of SOUNDINGS XYZ. File Comment SN2010_05_600106_Soundings_Area1 WGS84UTM32_00_201019_1758_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0003_201019_5416_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0004_201019_032416_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0005_201019_035426_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0006_201019_042427_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0007_201019_045427_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0008_201019_052910_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0009_201019_055910_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0010_201019_062910_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0011_201019_065811_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0012_201019_072812_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0013_201019_075812_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0014_201019_083504_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0015_201019_090504_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0016_201019_093504_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0017_201019_095327_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0018_201019_1327_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0019_201019_105328_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_00_201019_111427_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_01_201019_114428_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_02_201019_121427_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_03_201019_124234_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_04_201019_131234_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_05_201019_134234_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_06_201019_135701_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_07_201019_142701_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_08_201019_145701_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_09_201019_150730_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0030_201019_153729_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0031_201019_155931_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0032_201019_162931_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0033_201019_164518_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0034_201019_171518_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0035_201019_185448_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0036_201019_193018_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0037_201019_2052_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0038_201019_205050_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0039_201019_212051_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0040_201019_212636_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0041_201019_215636_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0042_201019_222636_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0059_ _074618_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0060_ _081618_Geograph.xyz

87 of XYZ. File SN2010_05_600106_Soundings_Area1 WGS84UTM32_0061_ _084617_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0062_ _091617_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0063_ _095210_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0064_ _1210_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0065_ _105210_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0066_ _111901_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0067_ _114901_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0068_ _121901_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0069_ _124901_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0070_ _130644_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0071_ _132704_Geograph.xyz SN2010_05_600106_Soundings_Area1 WGS84UTM32_0072_ _135222_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0001_ _195136_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_00_ _2135_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0003_ _205135_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0004_ _212135_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0005_ _2140_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0006_ _2210_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0007_ _2240_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0008_ _2310_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0009_ _232429_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0010_ _235429_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0011_ _0429_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0013_ _010009_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0014_ _013009_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0015_ _0009_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0016_ _3116_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0017_ _030116_Geograph.xyz SN2010_05_600106_Soundings_Area2 WGS84UTM32_0018_ _033116_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0019_ _040430_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_00_ _043431_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_01_ _050431_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_02_ _053430_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_03_ _060430_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_04_ _063430_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_05_ _0713_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_06_ _073213_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_07_ _0813_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_08_ _093134_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_09_ _100135_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0030_ _103134_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0031_ _110134_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0032_ _111615_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0033_ _114615_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0034_ _115115_Geograph.xyz Comment

88 of XYZ. File SN2010_05_600106_Soundings_Area3 WGS84UTM32_0035_ _122115_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0036_ _125115_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0037_ _132115_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0038_ _135115_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0039_ _142557_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0040_ _145557_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0041_ _152556_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0042_ _155556_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0043_ _162556_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0044_ _165556_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0045_ _172556_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0046_ _172934_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0047_ _175934_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0048_ _182934_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0049_ _185934_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0050_ _192933_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0051_ _195933_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0052_ _2933_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0071_ _071123_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0072_ _074123_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0073_ _081123_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0074_ _084123_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0075_ _091123_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0076_ _094123_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0077_ _101420_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0078_ _104420_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0079_ _111133_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0080_ _114133_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0081_ _121739_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0082_ _130147_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0083_ _132905_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0084_ _134207_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0085_ _142127_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0087_ _222714_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0088_ _225714_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0089_ _232714_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0090_ _235713_Geograph.xyz SN2010_05_600106_Soundings_Area3 WGS84UTM32_0091_201011_0713_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0053_ _212911_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0054_ _215911_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0055_ _222911_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0056_ _225911_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0057_ _231717_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0058_ _001237_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0059_ _004237_Geograph.xyz Comment

89 of XYZ. File SN2010_05_600106_Soundings_Area4 WGS84UTM32_0060_ _011237_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0061_ _014237_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0063_ _2226_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0064_ _5226_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0065_ _032226_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0066_ _035226_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0067_ _042106_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0068_ _045107_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0069_ _052108_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0070_ _055108_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0093_201011_010650_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0094_201011_013650_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0095_201011_0650_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0096_201011_3651_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0097_201011_0303_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0098_201011_0333_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0099_201011_0403_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0100_201011_0433_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0101_201011_044717_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_01_201011_051658_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0103_201011_054658_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0104_201011_0749_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0105_201011_073248_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0106_201011_074613_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0107_201011_081434_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0108_201011_084434_Geograph.xyz SN2010_05_600106_Soundings_Area4 WGS84UTM32_0109_201011_084946_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0140_ _081900_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0141_ _084900_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0142_ _091901_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0143_ _094901_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0145_ _204944_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0146_ _211911_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0151_ _234411_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0171_ _2401_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0172_ _2054_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0173_ _212401_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0174_ _2154_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0175_ _2224_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0176_ _225401_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0178_ _030335_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0179_ _033335_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0180_ _040335_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_0181_ _043335_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_25_ _1933_Geograph.xyz Comment

90 of XYZ. File SN2010_05_600106_Soundings_Area5 WGS84UTM32_26_ _2003_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_27_ _2033_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_28_ _2103_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_29_ _2133_Geograph.xyz SN2010_05_600106_Soundings_Area5 WGS84UTM32_32_ _231003_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0128_ _1458_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0129_ _4458_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0130_ _031458_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0131_ _034458_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0132_ _041458_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0133_ _043000_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0134_ _050000_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0135_ _053000_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0136_ _055905_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0137_ _062905_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0138_ _071901_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0139_ _074901_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0155_ _013443_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0156_ _014013_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0157_ _1012_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0158_ _4012_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0159_ _031012_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0160_ _034012_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0161_ _034751_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0162_ _041751_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0163_ _043831_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0164_ _050831_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0165_ _053345_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0167_ _163435_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0168_ _170435_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0169_ _173434_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0185_ _122434_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0186_ _125434_Geograph.xyz SN2010_05_600106_Soundings_Area6 WGS84UTM32_0188_ _141718_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0110_201011_133652_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0111_201011_140652_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0112_201011_142746_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0113_201011_145747_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0114_201011_155320_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0115_201011_162320_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0116_201011_165320_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0117_201011_222615_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0118_201011_225034_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0119_201011_231401_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0120_201011_234400_Geograph.xyz Comment

91 of XYZ. File SN2010_05_600106_Soundings_Area7 WGS84UTM32_0121_201011_2354_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0122_ _04_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0123_ _0404_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0124_ _004730_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0125_ _011337_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0126_ _013800_Geograph.xyz SN2010_05_600106_Soundings_Area7 WGS84UTM32_0127_ _015803_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_00_ _135326_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0003_ _142325_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0004_ _145325_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0005_ _150623_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0006_ _153622_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0007_ _160159_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0008_ _163159_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0043_201019_223336_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0044_201019_230336_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0045_201019_233336_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0046_ _000336_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0047_ _003842_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0048_ _010842_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0049_ _013842_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0050_ _0843_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0051_ _3556_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0052_ _030556_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0053_ _033556_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0054_ _040556_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0055_ _044239_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0056_ _051240_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0057_ _064618_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0058_ _071618_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0073_ _142710_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0074_ _145709_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0075_ _152600_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0076_ _155600_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0077_ _161649_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0078_ _164650_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0079_ _170410_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0080_ _173410_Geograph.xyz SN2010_05_600106_Soundings_Area8 WGS84UTM32_0081_ _174458_Geograph.xyz Comment Areas XYZ. Files SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N012.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N013.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N014.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N015.xyz Comment

92 of Areas XYZ. Files SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N016.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N017.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N018.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N019.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N0.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N1.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N2.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N3.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N4.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N5.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N6.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N7.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N8.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N9.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N030.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N031.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J320N032.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N001.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N0.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N003.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N004.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N005.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N006.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N007.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N008.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N009.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N010.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N011.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N012.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N013.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N014.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N015.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N016.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N017.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N018.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N019.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N0.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N1.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N2.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N3.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N4.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N5.xyz SN2010_05_600106_Soundings_Aksneset WGS84UTM32_J322N6.xyz Comment

93 of Areas XYZ. Files SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N030.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N031.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N032.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N033.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N034.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N035.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N036.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N037.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N038.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J313N039.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N001.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N0.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N003.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N004.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N005.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N006.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N007.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N008.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N009.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N010.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N011.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N012.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N013.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N014.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N015.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N016.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N017.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N018.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N019.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N0.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N1.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N2.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N3.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N4.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N5.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N6.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N7.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N8.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N9.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N030.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N031.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N032.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N033.xyz Comment

94 of Areas XYZ. Files SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N034.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N035.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N036.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N037.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N038.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N039.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N040.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N041.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N042.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N043.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N044.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N045.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N046.xyz SN2010_05_600106_Soundings_Djonnaneset WGS84UTM32_J321N047.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N001.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N0.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N003.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N004.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N005.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N006.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N007.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N008.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N009.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N010.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N011.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N012.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N013.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N014.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N015.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N016.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N017.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N018.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N019.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N0.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N1.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N2.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N3.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N4.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N5.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N6.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N7.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N8.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N9.xyz Comment

95 of Areas XYZ. Files SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N030.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N031.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N032.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N033.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N034.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N035.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N036.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N037.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N038.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N039.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N040.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N041.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N042.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N043.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N044.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N045.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N046.xyz SN2010_05_600106_Soundings_Eidesvaagen WGS84UTM32_J321N047.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N016.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N017.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N018.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N019.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N0.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N1.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N2.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N3.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N4.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N5.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N6.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N7.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N8.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N9.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N030.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N031.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N032.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N033.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N034.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N035.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J310N036.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N000.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N001.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N0.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N003.xyz Comment

96 of Areas XYZ. Files SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N004.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N005.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N006.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N007.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N008.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N009.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N010.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N011.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N012.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N013.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N014.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N015.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N016.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N017.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N018.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N019.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N0.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N1.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N2.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N3.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N4.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N5.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N6.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N7.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J311N8.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N000.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N001.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N003.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N004.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N005.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N006.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N007.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N008.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N009.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N010.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N012.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N013.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N014.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N015.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N016.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N017.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N018.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N019.xyz Comment

97 of Areas XYZ. Files SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N0.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N1.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N2.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N3.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N4.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N5.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N6.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N7.xyz SN2010_05_600106_Soundings_Eiknes WGS84UTM32_J312N8.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N013.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N014.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N015.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N016.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N017.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N018.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N019.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N0.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N1.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N2.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N3.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N4.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N5.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N6.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N7.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N8.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N9.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N030.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N031.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N032.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N033.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N034.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N035.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N036.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N037.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N038.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N039.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N040.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N041.xyz SN2010_05_600106_Soundings_Kvamsoy WGS84UTM32_J319N042.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J314N045.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J314N046.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J314N047.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J314N048.xyz Comment

98 of Areas XYZ. Files SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J314N049.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N000.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N001.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N0.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N003.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N004.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N005.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N006.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N007.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N008.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N009.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N010.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N011.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N012.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N013.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N014.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N015.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N016.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N017.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N018.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N019.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N0.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N1.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N2.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N3.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N4.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N5.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N6.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N7.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N8.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N9.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N030.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N031.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N032.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N033.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N034.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N035.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N036.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N037.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N038.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N039.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N040.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N041.xyz Comment

99 of Areas XYZ. Files SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N042.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N043.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N044.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N045.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N046.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N047.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N048.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N049.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J315N050.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N001.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N0.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N003.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N004.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N005.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N006.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N007.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N008.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N009.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N010.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N011.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N012.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N013.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N014.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N015.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N016.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N017.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N018.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N019.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N0.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N2.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N3.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N5.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N6.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N7.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N8.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N9.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N030.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N031.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N032.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N033.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N034.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N035.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N036.xyz Comment

100 of Areas XYZ. Files SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N037.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N038.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N039.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N040.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N042.xyz SN2010_05_600106_Soundings_Kvanndal WGS84UTM32_J316N043.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N7.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N8.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N9.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N030.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N031.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N032.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N033.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N034.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N035.xyz SN2010_05_600106_Soundings_SamlanesetSpoilGround WGS84UTM32_J318N036.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J313N049.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J313N050.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J313N051.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J313N052.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J313N053.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J313N054.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N001.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N0.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N003.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N004.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N005.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N006.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N007.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N008.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N009.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N010.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N011.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N012.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N013.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N014.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N015.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N016.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N017.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N018.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N019.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N0.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N1.xyz Comment

101 of Areas XYZ. Files SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N2.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N3.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N4.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N5.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N6.xyz SN2010_05_600106_Soundings_Slaattnes WGS84UTM32_J314N7.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N045.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N047.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N048.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N049.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N050.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N051.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N052.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N053.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N054.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N055.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N056.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N057.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J312N058.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N000.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N001.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N0.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N003.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N004.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N005.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N006.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N007.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N008.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N009.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N010.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N011.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N012.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N013.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N014.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N015.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N016.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N017.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N018.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N019.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N0.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N1.xyz SN2010_05_600106_Soundings_Vallavik WGS84UTM32_J313N2.xyz Comment

102 of Eiknes_Vallavik_CL XYZ. Files SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N9.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N030.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N031.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N032.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N033.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N034.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N035.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N036.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp012.7 WGS84UTM32_J312N037.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp012.3_kp WGS84UTM32_J312N038.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N039.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N040.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N041.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N042.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N043.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J312N044.xyz Comment Vallavik_Djonnaneset_CL XYZ. Files SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J313N3.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J313N4.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J313N5.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp0.533 WGS84UTM32_J313N6.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp0.529_kp1.331 WGS84UTM32_J313N7.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp1.328_kp2.176 WGS84UTM32_J313N8.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp2.173_kp2.524 WGS84UTM32_J313N9.xyz Comment Djonnaneset_Slattnes_CL XYZ. Files SN2010_05_600106_Soundings_HardangerDigitized _kp2.353_kp2.966 WGS84UTM32_J313N040.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp2.964_kp3.594 WGS84UTM32_J313N041.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp3.591_kp4.223 WGS84UTM32_J313N042.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp4.220_kp4.985 WGS84UTM32_J313N043.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp4.982_kp5.635 WGS84UTM32_J313N044.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp5.632_kp6.279 WGS84UTM32_J313N045.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp6.276_kp6.927 WGS84UTM32_J313N046.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp6.923_kp7.644 WGS84UTM32_J313N047.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp7.640_kp7.941 WGS84UTM32_J313N048.xyz Comment Slaattnes_Kvandal_CL XYZ. Files SN2010_05_600106_Soundings_HardangerDigitized _kp7.664_kp7.956 WGS84UTM32_J314N8.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp7.953_kp8.606 WGS84UTM32_J314N9.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp8.6_kp8.930 WGS84UTM32_J314N030.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp8.791_kp9.347 WGS84UTM32_J314N037.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp9.344_kp WGS84UTM32_J314N038.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J314N039.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J314N040.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J314N041.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J314N042.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J314N043.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J314N044.xyz Kvanndal_Aalvik_CL XYZ. Files SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N012.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N013.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N014.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N015.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N016.xyz Comment Comment

103 of Kvanndal_Aalvik_CL XYZ. Files SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N017.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N018.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N019.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N032.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N033.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N037.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N038.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N048.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N049.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N050.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J317N051.xyz Aalvik_Norheimsund_CL XYZ. Files SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N012.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N013.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N014.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N015.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N016.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N017.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N018.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N2.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N3.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N4.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N5.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J318N6.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N044.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N045.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N046.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N047.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N048.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N049.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N050.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N051.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N052.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J319N053.xyz Vangsvik-Aksneset XYZ. Files SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J322N000.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J321N050.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J321N049.xyz SN2010_05_600106_Soundings_HardangerDigitized _kp _kp WGS84UTM32_J321N048.xyz Slaattnes_Kvandal_Alternative_CL_01 XYZ. Files SN2010_05_600106_Soundings_SlaattnesKvandalAlternativeCL WGS84UTM32_J314N032.xyz SN2010_05_600106_Soundings_SlaattnesKvandalAlternativeCL WGS84UTM32_J314N033.xyz SN2010_05_600106_Soundings_SlaattnesKvandalAlternativeCL WGS84UTM32_J314N034.xyz SN2010_05_600106_Soundings_SlaattnesKvandalAlternativeCL WGS84UTM32_J314N035.xyz SN2010_05_600106_Soundings_SlaattnesKvandalAlternativeCL WGS84UTM32_J314N036.xyz Comment Comment Comment Comment

104 5.6 NAVIMODEL PROJECTS Document title Revision date Page of : SN2010_05_600106_NaviModel_Hardanger_ WGS84UTM32.DB SB7125: SN2010_05_600106_NaviModel_Hardanger_ WGS84UTM32.DB 5.7 SBP TIFF FILES SBP TIFF Files SN2010_05_600106_SBPImage_CentreLine_ _KP04_674_KP06_115.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP06_126_KP07_897.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP07_889_KP09_705.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP09_697_KP10_605.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP10_596_KP11_300.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP11_300_KP13_078.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP13_070_KP14_821.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP14_813_KP16_588.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP16_580_KP17_775.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP17_567_KP18_711.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP18_712_KP19_958.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP19_959_KP21_242.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP21_242_KP22_520.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP22_421_KP24_495.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP24_496_KP26_693.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP26_693_KP27_882.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP27_661_KP28_897.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP28_791_KP31_191.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP31_192_KP33_962.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP33_962_KP34_349.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP34_104_KP36_662.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP36_663_KP37_465.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP37_466_KP39_660.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP39_665_KP40_427.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP40_426_KP41_429.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP41_350_KP42_650.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP42_011_KP44_952.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP42_594_KP44_005.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP44_953_KP45_013.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP44_988_KP46_152.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP48_265_KP50_640.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP50_641_KP51_329.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP51_272_KP52_722.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP52_723_KP53_796.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP53_666_KP55_961.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP55_963_KP58_749.TIF SN2010_05_600106_SBPImage_CentreLine_ _KP58_751_KP61_519.TIF

105 of SBP TIFF Files SN2010_05_600106_SBPImage_CentreLine_ _KP63_014_KP61_459.TIF 5.8 SSS TIFF FILES SSS TIFF FILES Areas Aksnes_Area_ SN2010_05_600106_SSS_Mosaic_Aksnes_ _WGS84UTM32_001.tif SN2010_05_600106_SSS_Mosaic_Aksnes_ _WGS84UTM32_0.tif SN2010_05_600106_SSS_Mosaic_Aksnes_ _WGS84UTM32_003.tif SN2010_05_600106_SSS_Mosaic_Aksnes_ _WGS84UTM32_004.tif SN2010_05_600106_SSS_Mosaic_Aksnes_ _WGS84UTM32_005.tif SN2010_05_600106_SSS_Mosaic_Aksnes_ _WGS84UTM32_006.tif Djonnaneset Area_ SN2010_05_600106_SSSmosaic_Djonnaneset_ tif Eidesvågen Area_ SN2010_05_600106_SSSMosaic_Eidesvågen_Area_ _WGS84UTM32.tif Eiknes Area_ SN2010_05_600106_SSSmosaic_Eiknes_ tif Kvamsøy Area_ SN2010_05_600106_SSSMosaic_Kvamsøy_ _WGS84UTM32.tif Kvandal_Area_ SN2010_05_600106_Hardangerfjorden_SSS_Kvandal_Deep_SSS_ tif SN2010_05_600106_Hardangerfjorden_SSS_Kvandal_Shelf_SSS_ tif SN2010_05_600106_Hardangerfjorden_SSS_Kvandal_Slope_SSS_1_ tif SN2010_05_600106_Hardangerfjorden_SSS_Kvandal_Slope_SSS_2_ tif SN2010_05_600106_Hardangerfjorden_SSS_Kvandal_Slope_SSS_3_ tif Samlaneset Area_ SN2010_05_600106_SSSMosaic_Samlaneset_Area_ _WGS84UTM32.tif Slåttnes Area_ SN2010_05_600106_SSSmosaic_Slåttnes_ tif Vallavik Area_ SN2010_05_600106_SSSmosaic_Vallavik_ tif Centreline Alternativ Loop_ SN2010_05_600106_SSSMosaic_Alternativ_Loop_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_Alternativ_Loop_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_Alternativ_Loop_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_Alternativ_Loop_ _WGS84UTM32_004.tif Djonnaneset to Slattnes_ SN2010_05_600106_SSSMosaic_Djonnaneset_to_Slattnes_Kp22.422_to_Kp27.887_ _WGS84UTM32_000.tif

106 of SSS TIFF FILES SN2010_05_600106_SSSMosaic_Djonnaneset_to_Slattnes_Kp22.422_to_Kp27.887_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_Djonnaneset_to_Slattnes_Kp22.422_to_Kp27.887_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_Djonnaneset_to_Slattnes_Kp22.422_to_Kp27.887_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_Djonnaneset_to_Slattnes_Kp22.422_to_Kp27.887_ _WGS84UTM32_004.tif SN2010_05_600106_SSSMosaic_Djonnaneset_to_Slattnes_Kp22.422_to_Kp27.887_ _WGS84UTM32_005.tif SN2010_05_600106_SSSMosaic_Djonnaneset_to_Slattnes_Kp22.422_to_Kp27.887_ _WGS84UTM32_006.tif SN2010_05_600106_SSSMosaic_Djonnaneset_to_Slattnes_Kp22.422_to_Kp27.887_ _WGS84UTM32_007.tif Eiknes to Vallavik_ SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_004.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_005.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_006.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_012.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_013.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_014.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_007.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_008.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_009.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_010.tif SN2010_05_600106_SSSMosaic_Eiknes_to_Vallavik_ _WGS84UTM32_011.tif Hardanger CL_Kp to Kp61.524_ SN2010_05_600106_SSSMosaic_CL_Kp_53.671_to_Kp_54.210_ _WGS84UTM32_000.tif SN2010_05_600106_SSSMosaic_CL_Kp_54.727_to_Kp_55.123_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_CL_Kp_55.126_to_Kp_55.848_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_CL_Kp_56.123_to_Kp_57.055_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_CL_Kp_57.127_to_Kp_58.055_ _WGS84UTM32_004.tif SN2010_05_600106_SSSMosaic_CL_Kp_58.073_to_Kp_59.032_ _WGS84UTM32_005.tif SN2010_05_600106_SSSMosaic_CL_Kp_59.046_to_Kp_60.5_ _WGS84UTM32_006.tif SN2010_05_600106_SSSMosaic_CL_Kp_60.039_to_Kp_61.018_ _WGS84UTM32_007.tif SN2010_05_600106_SSSMosaic_CL_Kp_61.1_to_Kp_61.524_ _WGS84UTM32_008.tif Kvandal to Uravik_ SN2010_05_600106_SSSMosaic_CL_Kp34.109_to_Kp34.780_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_CL_Kp34.780_to_Kp35.782_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_CL_Kp35.786_to_Kp36.833_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_CL_Kp36.834_to_Kp37.890_ _WGS84UTM32_004.tif SN2010_05_600106_SSSMosaic_CL_Kp37.892_to_Kp38.948_ _WGS84UTM32_005.tif SN2010_05_600106_SSSMosaic_CL_Kp38.948_to_Kp39.992_ _WGS84UTM32_006.tif SN2010_05_600106_SSSMosaic_CL_Kp39.992_to_Kp40.431_ _WGS84UTM32_007.tif Seianes to Åalvik_ SN2010_05_600106_SSSMosaic_Kp42.598_to_Kp43.248_ _WGS84UTM32_000.tif SN2010_05_600106_SSSMosaic_Kp43.251_to_Kp44.177_ _WGS84UTM32_001.tif

107 of SSS TIFF FILES SN2010_05_600106_SSSMosaic_Kp44.182_to_Kp45.019_ _WGS84UTM32_0.tif Slattnes to Kvandal_ SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_004.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_005.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_006.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_007.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_008.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_009.tif SN2010_05_600106_SSSMosaic_Slattnes_to_Kvandal_ _WGS84UTM32_010.tif Uranes to Seines_ SN2010_05_600106_SSSMosaic_CL_Kp_40.431_to_Kp_40.982_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_CL_Kp_40.983_to_Kp_41.418_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_CL_Kp_41.354_to_Kp_42.297_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_CL_Kp_42.299_to_Kp_42.617_ _WGS84UTM32_004.tif Vallavik to Djonnaneset_ SN2010_05_600106_SSSMosaic_Vallavik_to_Djonnaneset_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_Vallavik_to_Djonnaneset_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_Vallavik_to_Djonnaneset_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_Vallavik_to_Djonnaneset_ _WGS84UTM32_004.tif SN2010_05_600106_SSSMosaic_Vallavik_to_Djonnaneset_ _WGS84UTM32_005.tif SN2010_05_600106_SSSMosaic_Vallavik_to_Djonnaneset_ _WGS84UTM32_006.tif Vangsvik to Aksneset_ SN2010_05_600106_SSSMosaic_CL_Kp_61.841_to_Kp_61.545_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_CL_Kp_62.527_to_Kp_61.852_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_CL_Kp_63.003_to_Kp_62.536_ _WGS84UTM32_000.tif Åalvik to Norheimsund_ SN2010_05_600106_SSSMosaic_CL_Kp_44.993_to_Kp_45.676_ _WGS84UTM32_000.tif SN2010_05_600106_SSSMosaic_CL_Kp_45.699_to_Kp_46.158_ _WGS84UTM32_001.tif SN2010_05_600106_SSSMosaic_CL_Kp_48.597_to_Kp_48.910_ _WGS84UTM32_0.tif SN2010_05_600106_SSSMosaic_CL_Kp_48.921_to_Kp_49.864_ _WGS84UTM32_003.tif SN2010_05_600106_SSSMosaic_CL_Kp_49.868_to_Kp_50.757_ _WGS84UTM32_004.tif SN2010_05_600106_SSSMosaic_CL_Kp_50.769_to_Kp_51.330_ _WGS84UTM32_005.tif SN2010_05_600106_SSSMosaic_CL_Kp_51.285_to_Kp_51.717_ _WGS84UTM32_006.tif SN2010_05_600106_SSSMosaic_CL_Kp_51.733_to_Kp_52.230_ _WGS84UTM32_007.tif SN2010_05_600106_SSSMosaic_CL_Kp_52.248_to_Kp_52.842_ _WGS84UTM32_008.tif SN2010_05_600106_SSSMosaic_CL_Kp_52.862_to_Kp_53.575_ _WGS84UTM32_009.tif SN2010_05_600106_SSSMosaic_CL_Kp_53.594_to_Kp_53.799_ _WGS84UTM32_010.tif

108 5.9 ACAD VECTOR FILES Document title Revision date Page of SN2010_05_600106_Contours_Hardanger_ WGS84UTM32.dwg SN2010_05_600106_Contours_Hardanger_ WGS84UTM32.dwg SN2010_05_600106_GeotechnicalSample_Hardanger_ _ WGS84UTM32.dwg SN2010_05_600106_MBE-Coverage_Hardanger_ WGS84UTM32.dwg SN2010_05_600106_MBE-Coverage_Hardanger_ WGS84UTM32.dwg SN2010_05_600106_NaviTrack_Hardanger_ _Geograph_WGS84UTM32.dwg SN2010_05_600106_NaviTrack_Hardanger_ _XLX38-Hain_WGS84UTM32.dwg SN2010_05_600106_NaviTrack_Hardanger_ _XLX38-Postprocessed_WGS84UTM32.dwg SN2010_05_600106_NaviTrack_Hardanger_ _XLX38-RawHiPAP_WGS84UTM32.dwg SN2010_05_600106_SeabedFeature-Area_Hardanger_ _ WGS84UTM32.dwg SN2010_05_600106_SeabedFeature-Line_Hardanger_ _ WGS84UTM32.dwg SN2010_05_600106_SeabedFeature-Point_Hardanger_ _ WGS84UTM32.dwg SN2010_05_600106_SSS-Coverage_Hardanger_ _XLX38-SSS_WGS84UTM32.dwg 5.10 ESRI GEODATABASES SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb SN2010_05_Hardangerfjorden_WGS84_LL_RASTER_ gdb

109 of Appendix A: Survey Data Form

110 SURVEY CONTROL of Values Projection UTM Zone 32 Central Meridian 9 degrees East False Easting, in grid units False Northing, in grid units 0.00 Scale factor at natural origin Spheroid (Final) WGS84 Semi major axis size (a) Semi minor axis size (b) Eccentricity (e²) Flattening (1/f) 1/ Spheroid (GPS) WGS84 dx 0 dy 0 dz 0 rx 0 ry 0 rz 0 DS 0

111 of CALIBRATION Verifications and calibrations were carried out on SV Geograph and ROV XLX 38 between 22 nd and 28 th October 2010 alongside Dokken, Bergen and in Byfjorden nearby. Further ROV calibrations took place in Hardangerfjord on 4 th November The results of these can be found in Ref Table 1.3 2: GGRA-O Mobilisation and Calibration Report.

112 of DATA ACQUISITION AND PROCESSING SOFTWARE Item Software Version INS Software Kongsberg HAIN Online Navigation Software Eiva NaviPac 3.5.P21 SSBL Navigation Kongsberg APOS Online Data Acquisition Software Eiva NaviScan MBE Acquisition Software (ROV) Reson Seabat 7125 MR6.3 V MBE Acquisition Software (Vessel) Kongsberg SIS Sis v 3.6, build 173 SSS/SBP Acquisition Software (ROV) Delph SBP Acquisition Software (Vessel) Kongsberg SBP/TOPAS Digital Video Acquisition Software VisualDVR Item Software Version Navigation Processing Navlab 3.15 Depth Processing NaviEdit MBE Data Cleaning NaviEdit DTM Processing Cfloor DTM Processing NaviModel Digital Video Review Visualsoft SSS Interpretation IXSEA SBP Interpretation IXSEA Charting Autocad / Autochart 2010 / GIS ArcGIS/3D Analyst 10 DOF Subsea Norway AS Project No.: Contract

113 of Date Time Product / Location 24/10/ :47 na xxx.xx 26/10/ :04 na xxx.xx KP Easting Northing CTD SUMMARY Water Depth SV at 10m (m/s) SV at seabed (m/s) Average SV (m/s) Temp at seabed (ºC) Cond. at seabed Density at seabed (Kg/m 3 ) Average density (Kg/m 3 ) Gravity at seabed /10/ :14 Bunnpunkt Valeport xxx.xx /10/ :13 Bunnpunkt Valeport xxx.xx /10/ :15 Bunnpunkt SAIV 304 xxx.xx /10/ :10 Cal /10/ :09 Cal /10/ :11 Hardangerfjorden used /10/ :11 Hardangerfjorden /10/ :12 Hardangerfjorden /10/ :35 Hardangerfjorden used /10/ :36 Hardangerfjorden /10/ :37 Hardangerfjorden /10/ :33 Hardangerfjorden used Area /10/ :26 Hardangerfjorden Area /10/ :27 Hardangerfjorden Area /10/ :28 Hardangerfjorden Area /10/ :27 Hardangerfjorden used Area /10/ :29 Hardangerfjorden Area /10/ :25 Hardangerfjorden used /10/ :26 Hardangerfjorden /10/ :25 Hardangerfjorden /10/ :41 Hardangerfjorden Area /10/ :42 Hardangerfjorden Area DOF Subsea Norway AS Project No.: Contract

114 Date Time Product / Location Document title Revision date Page KP Easting Northing Water Depth SV at 10m (m/s) SV at seabed (m/s) Average SV (m/s) of Temp at seabed (ºC) Cond. at seabed Density at seabed (Kg/m 3 ) 01/11/ :16 Hardangerfjorden used Area /11/ :04 Hardangerfjorden used Area4/ /11/ :06 area /11/ :39 Hardangerfjorden used xxx.xx /11/ :29 Hardangerfjorden Area /11/ :30 Hardangerfjorden used Area /11/ :39 Hardangerfjorden used /11/ :39 Hardangerfjorden /11/ :46 Hardangerfjorden used Area /11/ :47 Hardangerfjorden area /11/ :58 Hardangerfjorden used /11/ :56 ROV Cal, not used /11/ :20 Hardangerfjorden used Area /11/ :20 Hardangerfjorden Area /11/ :27 Hardangerfjorden Area /11/ :17 Hardangerfjorden used /11/ :17 Hardangerfjorden /11/ :39 Hardangerfjorden /11/ :28 Hardangerfjorden Hardangerfjorden used 06/11/2010 : Eiknes 16 Hardangerfjorden used 06/11/ : Eiknes 14 07/11/2010 Hardnagerfjorden used 10: Eilnes 14 07/11/ :29 OK /11/ :14 08/11/ :34 Hardangerfjorden used Eiknes 7 Hardangerfjorden used Vallavik Average density (Kg/m 3 ) Gravity at seabed

115 Date Time Product / Location Document title Revision date Page KP Easting Northing Water Depth SV at 10m (m/s) SV at seabed (m/s) Average SV (m/s) of Temp at seabed (ºC) Cond. at seabed Density at seabed (Kg/m 3 ) 09/11/ :08 Hardangerfjorden used Vallavik /11/ :51 Hardangerfjorden used Slåttnes Hardangerfjorden used 09/11/ : Slåttnes 10/11/ : /11/ :31 Hardanger fjord Alt route /11/ :11 Hardanger fjord Kvandal /11/ :31 Hardanger fjord Alt route /11/ :48 Kvandal /11/ :35 Kvandal /11/ :32 Kvandal /11/ :27 Kvandal /11/ : Uravika /11/ :48 Uravika /11/ :22 Hardangerfjorden Seianes /11/2010 :30 Hardangerfjorden Ålvik /11/ :50 Hardangerfjord CL /11/ :47 Kvamsøy Coral /11/ :12 Kvamsøy_ /11/ :19 Kvamsøy_ /11/ :37 Aksneset /11/ :48 Eidsvagen /11/ :19 Eidesvågen /11/ :35 Eidesvågen /11/ :24 Aksneset /11/ :14 Aksneset Average density (Kg/m 3 ) Gravity at seabed

116 of VESSEL OFFSET DIAGRAM On Monday 29 th October 2007 the SV Geograph was put into dry dock in Horten, Norway. Between the 29 st October and 17 th November the vessel was dimensional controlled. Further verifications were conducted in December 2007 after the vessel had left the dry dock. Reference to dimensional control Report: SUR-GGRA-O Geograph Dimensional Control Survey Report.pdf Survey Accuracies The Leica TC1800 total station can measure to an accuracy of 1. The accuracy concerning position of a point is +/- 2mm. Summary of Results from the dimensional Report SV Geograph. SV Geograph Datum s: -Horizontal: The CRP -Vertical: The CRP -Orientation: Forward has been defined as a line from centre of the stern to the centre of the bow. -Pitch Convention: Positive pitch is BOW UP -Roll Convention: Positive roll is PORT UP -Coordinate Frame: Positive X is towards the STARBOARD Positive Y is towards BOW Positive Z is UP Antenna Offsets. X (m) Y (m) Z (m) HP AE (AD492 antenna) XP AE (AD492 antenna) Seapath AE Port Seapath AE Stbd Spotbeam Antenna MX MARINE No MX MARINE No SAT C No1 Antenna SAT C No2 Antenna GPS MX SV Geograph HiPAP Offsets X (m) Y (m) Z (m) Description Port HiPAP Centre of Hole - Hull Underside Port HiPAP Pole Fully deployed - Centre of Head Stbd HiPAP Centre of Hole - Hull Underside Stbd HiPAP Pole Fully deployed - Centre of Head Hugin HiPAP Centre of Hole - Hull Underside DOF Subsea Norway AS Project No.: Contract

117 of SV Geograph MRU Offsets & Heading Yaw Description X (m) Y (m) Z (m) ( ) DP MRU MRU5 top of centre MRU unit Level arms reference point Seapath MRU5 top of centre MRU unit Level arms Seapath MRU reference point SV Geograph Echosounders Offsets X (m) Y (m) Z (m) Description TX EM 122 Centre Intersection of four corners RX EM 122 Centre Intersection of four corners TX EM 710 Centre Intersection of four corners RX EM 710 Centre Intersection of four corners FWD SV Geograph Underside Blisters fitted with EM122/Em710 & SBP120 NOTE! Seen from below. DOF Subsea Norway AS Project No.: Contract

118 EQUIPMENT SPECIFICATION of Operating Range Horizontal Beam Width Resolution along Track Resolution across track Edgetech 4200 SSS 100kHZ 500m m at 200m 8cm Edgetech 4200 SSS 400kHZ 150m m at 100m 2cm Edgetech ROV SBP 2-16kHz Beam Width Resolution 6-10cm Seabat 7125 Dual head 400kHZ Ping rate 40 Hz max Swath coverage - Up to 140 Depth Resolution 3mm Beam Width 0.5 TSS Orion Heading accuracy 0.15 Heading Resolution 0.01 RP accuracy 0.01 RP Resolution 0.01 CDL - minirlg2 Heading accuracy RP accuracy 0.8 DQ Pressure accuracy 0.01% SAIV SD204 Temperature Pressure Conductivity Salinity Sound Velocity Range -2 C to 40 C 2000m 0-70mS/cm 0 to 40ppt 1300 to 1700m/s Accuracy 0.01 C 0.% 0. ms/cm 0.ppt 10cm/s Resolution 0.01mS/cm 0.01dBar 0.01mS/cm 0.01ppt 5cm/s khz Ping Rate 30 Hz max Swath coverage - Up to 130 Depth Resolution 1cm Beam width 0.5 Valeport minisvs Pressure SV Accuracy 0.1% of range 0.03m/s Resolution 0.001% of range 0.001m/s Aanderaa WLR Temperature Pressure Conductivity Range -3 C - 35 C 0-700kPa 0-77mmho/cm Accuracy 0.1 C 0.% of range 0.25 mmho/cm Resolution 0.04 C 0.001% of range 0.1% of range DOF Subsea Norway AS Project No.: Contract

119 of Appendix B: ROV event lists Please see SN2010_05_Hardangerfjorden_WGS84_LL_FEATURES_ gdb DOF Subsea Norway AS Project No.: Contract

120 of Appendix C: Diary of Events DOF Subsea Norway AS Project No.: Contract

121 of The following logs are extracted from the Daily Progress Reports. All times are in UTC UTC Time Operations Start End Remarks Start KP End KP 12:00 24:00 Mobilisation. DSN personnel arriving onboard UTC Time Operations Start End Remarks Start KP End KP 00:00 24:00 Mobilisation UTC Time Operations Start End Remarks Start KP End KP 00:00 24:00 Mobilisation ongoing, Verification of Draft sensor, SVP/CTD, Seapath, Dimcon ROV frame, making brackets for survey sensors and assembling equipment on ROV UTC Time Operations Start End Remarks Start KP End KP 00:00 24:00 Mobilisation ongoing, Gyro calibration, JAVAD split NTAG, Barometer verification, ROV making brackets and assemble survey sensors UTC Time Operations Start End Remarks Start KP End KP 00:00 24:00 Mobilising. Stby for permission to depart Byfjorden for HiPAP and calibration/verfication. ROV assembling/testing survey sensors UTC Time Operations Start End Remarks Start KP End KP 00:00 20:30 Mobilisation cont. Preparations for Statnett project while waiting for permission to leave quay for calibrations/verifications at "Bunnmerket" 20:30 23:00 Mobilisation cont. Bunkering 23:00 23:30 Mobilisation cont. Stby for Additional personnel 23:30 23:34 Mobilisation cont. Additional crew arriving with Cypros accepted Seamans books to allow vessel to depart 23:34 24:00 Mobilisation cont. Relocating to Bunnmerket. UTC Time Operations Start End Remarks Start KP End KP 00:00 00:50 SVP Sensors on deck 00:50 01:25 Processing data 01:25 :10 Problems with HiPAP & transponders at bunnpunktet. Restarting transducers. :10 :40 Restarting APOS DOF Subsea Norway AS Project No.: Contract

122 of UTC Time Operations Start End Remarks Start KP End KP :40 03:10 Testing DGPS - HP corrections dropping out at easterly course 03:10 03:44 DGPS ok with vessel heading north and east 03:44 04:46 Setting up to do verification lines 04:46 07:34 Running lines 1 to and including 7 07:34 08:00 CTD using crane 08:00 09:08 Vessel relocate back to "bunnpunktet". Mob boat transferring Fugro service eng to modify DGPS correction system 09:08 10:30 Resetting HiPAP transducers and APOS'es.Port HiPAP pole transducer not responding. No replay from transponder B35 10:30 11:23 DGPS testing and modifications 11:23 13:09 Logging DGPS different headings 13:09 15:10 HiPAP alignment values entered 15:10 16:05 Continue DGPS diff checks 16:05 18:15 HiPAP verification 18:15 24:00 Transit to Hardangerfjorden UTC Time Operations Start End Remarks Start KP End KP 00:00 01:00 Continue Transit to Hardangerfjorden 01:00 01:15 On Hire (03:00 Local time) - Setting up on location 01:15 : Obtainging SVP and update in : :17 Setting up to start Survey Area 1 :17 03:47 Survey line :47 03:54 Setting up next line 03:54 05:17 Survey line 0 05:17 05:29 Setting up next line 05:29 06:58 Survey line :58 06:58 Continuing next line 06:58 08:24 Survey line :24 08:35 Setting up next line 08:35 09:43 Survey line :43 09:53 Setting up next line 09:53 11:04 Survey line :04 11:14 Setting up next line 11:14 12:39 Survey line :39 12:42 Setting up next line 12:42 13:46 Survey line :46 13:57 Setting up next line 13:57 15:05 Survey line :05 15:08 Setting up next line 15:08 15:49 Survey line :49 15:59 Setting up next line 15:59 16:38 Survey line :38 16:45 Setting up next line 16:45 17:20 Survey line :20 17:36 Relocate and setting up to do CTD DOF Subsea Norway AS Project No.: Contract

123 of UTC Time Operations Start End Remarks Start KP End KP 17:36 18:20 CTD sensor On deck 18:20 18:40 Downloading data from CTD to and relocating vessel to start location next line 18:40 18:54 Uploading data 18:54 19:23 Survey infill 4 19:23 19:30 Setting up for next infill 19:30 19:56 Survey infill 5 19:56 20:20 Setting up for next infill 20:20 21:22 Survey infill 6 21:22 21:26 Setting up for next infill 21:26 22:31 Survey infill 7 22:31 22:33 Setting up for Suvey Area 8 22:33 24:00 Survey centre line UTC Time Operations Start End Remarks Start KP End KP 00:00 00:31 Continuing Survey Area 8 Centre line O 00:31 00:38 Setting up next line O 00:38 :26 Survey line +350 O :26 :36 Setting up next line O :36 04:36 Survey line -350 O 04:36 04:42 Setting up next line O 04:42 05:31 Survey line -700 O 05:31 05:45 Pause survey to do CTD. Relocating to deeper water O 05:45 06:18 Launch and recover CTD sensor using vessel crane O 06:18 06:46 Download data and set up for next line O 06:46 07:44 Continue Survey Area 8 Line -700 O 07:44 07:44 Continue Area 1 Line West O 07:44 08:59 Survey Area 1 Line West O 08:59 08:59 Continue Area 1 infill 1 O 08:59 09:37 Survey Area 1 infill 1 O 09:37 09:52 Setting up for infill 2 O 09:52 10:32 Survey Area 1 infill 2 O 10:32 11:00 Continue Area 1 infill3 O 11:00 11:14 Setting up Area 1 infill O 11:14 11:42 Survey Area 1 infill O 11:42 11:55 Survey Area 1 infill 4 O 11:55 12:04 Survey Area 1 infill 5 O 12:04 12:58 Survey Area 1 infill 2-60 O 12:58 13:06 Setting up Area 1 west +60 O 13:06 13:20 Survey Area 1 west +60 O 13:20 13:27 Setting up Area 1 infill 3-90 O 13:27 13:38 Survey Area 1 infill 3-90 O 13:38 13:52 Setting up Area 1 line west O 13:52 14:00 Survey Area 1 infill 3-90 O DOF Subsea Norway AS Project No.: Contract

124 of UTC Time Operations Start End Remarks Start KP End KP 14:00 14:21 Setting up Area O 14:21 15:08 Survey Area O 15:08 15:26 Setting up Area (b) O 15:26 15:57 Survey Area (B) O 15:57 16:16 Setting up Area O 16:16 16:56 Survey Area O 16:56 17:04 Setting up Area infill O 17:04 17:37 Survey Area infill O 17:37 17:45 Setting up Area infill O 17:45 17:57 Survey Area infill O 17:57 18:25 Relocating to deeper water CTD position O 18:25 18:59 Launch and recover CTD sensor using vessel crane. ROV test dive in parallel O 18:59 19:26 Download data. ROV Test dive in parallel O 19:26 19:38 ROV Test Dive recovering M 19:38 19:51 Relocation to next line and setting up (on mobilisation time as relocation could have been done while downloading CTD data M 19:51 21:32 Survey Area O 21:32 21:40 Setting up Area O 21:40 23:18 Survey Area O 23:18 23:24 Setting up for survey Area O 23:24 24:00 Survey Area O UTC Time Operations Start End Remarks Start KP End KP 00:00 00:53 Survey Area :53 01:00 Setting up for survey Area :00 :17 Survey Area2-350 :17 :24 HP Dropout :24 :31 Setting up for survey Area 2 North - South line :31 03:48 Survey Area 2 North - South line 03:48 04:04 Setting up for survey Area 3 North - South line 04:04 06:52 Survey Area 3 North - South line 06:52 07: Setting up for survey Area : 08:29 Survey Area :29 08:39 Pause survey to do CTD 08:39 09:15 Obtain CTD and dowload/upload data to 09:15 09:31 Setting up to continue survey Area :31 11: Continue Survey Area : 11:16 Setting up for survey Area :16 14:09 Survey Area :09 14:20 Setting up for survey Area :20 17:24 Survey Area :24 17:29 Setting up for survey Area :29 20:33 Survey Area :33 20:45 Pause survey to do CTD DOF Subsea Norway AS Project No.: Contract

125 of UTC Time Operations Start End Remarks Start KP End KP 20:45 21:21 Obtain CTD and dowload/upload data to 21:21 21:29 Setting up for survey Area :29 23:12 Survey Area :12 23:17 Setting up for survey Area :17 23:44 Survey Area :44 24:00 Setting up for Area UTC Time Operations Start End Remarks Start KP End KP 00:00 00:12 Continue Setting up for Area :12 :08 Survey Area :08 :22 Setting up for Area :22 04:15 Survey Area :15 04:21 Setting up for Area :21 06:06 Survey Area :06 06:22 Pause survey to do CTD 06:22 06:58 Obtain CTD and dowload/upload data to 06:58 07:11 Setting up for Area :11 09:52 Survey Area :52 10:14 Setting up for Area :14 10:52 Survey Area Close to shore 10:52 11:11 Setting up for close to shore lines Area 3 Ålvik 11:11 12:06 Survey Area 3 close to shore lines Ålvik 12:06 12:17 Setting up for Area 3 Ålvik :17 12:47 Survey Area 3 Ålvik :47 13:01 Setting up for Area 3 Ålvik :01 13:28 Survey Area 3 Ålvik :28 13:29 Setting up for Area 3 Ålvik :29 13:40 Survey Area 3 Ålvik :40 13:42 Setting up for Area 3 Ålvik :42 14: Survey Area 3 Ålvik : 14:21 Setting up for Area (continuing) 14:21 14:47 Survey Area :47 15:48 Relocating vessel to ROV MBE Calibration site Norheimsund 15:48 17:52 Obtaining CTD & Setting up for ROV Calibration/Verification dive 17:52 21:46 ROV test dive.hain/doppler/navipack probles. Fault finding and testing 21:46 22:27 ROV on deck. Relocation to survey area 22:27 24:00 Survey Area UTC Time Operations Start End Remarks Start KP End KP 00:00 01:03 Survey Area :03 01:07 Setting up for Area DOF Subsea Norway AS Project No.: Contract

126 of UTC Time Operations Start End Remarks Start KP End KP 01:07 :58 Survey Area not possible to survey area close to shore safely at night time :58 03:03 Setting up for Area 4 Start line - SE-NW 03:03 04:38 Survey Area 4 Start line - SE-NW 04:38 04:47 Setting up for Kvandal Line S 04:47 05:09 Survey Kvandal Line S 05:09 05:17 Setting up for Kvandal Line 3 05:17 05:57 Survey Kvandal Line 3 05:57 06:15 Relocating to do CTD 06:15 07:03 Obtain CTD and dowload/upload data to & setting up to survey Kvandal line 1 07:03 07:37 Survey Area Kvandal line 1 07:37 07:46 Setting up for Kvandal Line 2 07:46 08:12 Survey Kvandal Line 2 08:12 08:14 Setting up for Kvandal Line 4 08:14 08:44 Survey Kvandal Line 4 08:44 08:49 Setting up for Kvandal Line 6 08:49 09:11 Survey Kvandal Line 6 09:11 10:06 Transit to Simadalen Area 7 10:06 12:00 CTD Area 4 12:00 12:36 Continue transit to Simadalen Area 7 12:36 13:18 Setting & obtaining CTD using vessel crane, download to. Simultanous ROV test dive 13:18 13:31 ROV Recovering 13:31 13:36 Setting up for Area 7 line 1 13:36 14:26 Survey Area 7 line 1 14:26 14:27 Setting up for Area 7 line 2 14:27 15:23 Survey Area 7 line 2 15:23 15:53 Setting up for Area 7 line :53 16:35 Survey Area 7 line :35 17:18 Continuing Area 7 line :18 17:30 Relocating to do CTD position 17:30 18: Obtaining CTD using vessel crane, download to. Simultanous ROV test dive 18: 21:15 ROV test - Doppler log calibration 21:15 22:18 ROV test - Doppler log verification - (need to be redone) 22:18 22:26 Setting up for Survey Area 7_ :26 22:45 Survey Area 7_ :45 22:50 Setting up for Survey Area 7_ :50 23:08 Survey Area 7_ :08 23:14 Setting up for Survey Area 7_ :14 23:43 Survey Area 7_ :43 23:50 Setting up for Survey Area :50 24:00 Survey Area UTC Time Operations DOF Subsea Norway AS Project No.: Contract

127 of Start End Remarks Start KP End KP 00:00 00:20 Continue Survey Area :20 00:24 Setting up for Survey Area 7_ :24 00:43 Survey Area 7_ :43 00:49 Setting up for Survey Area :49 01:09 Survey Area :09 01:13 Setting up for Survey Area :13 01:32 Survey Area :32 01:38 Setting up for Survey Area :38 01:53 Survey Area :53 01:58 Setting up for Survey Area 7 Infill1 01:58 :09 Survey Area 7 infill1 :09 :15 Setting up for Area 6 Centre Line East -West :15 04:23 Survey Area 6 Centre Line East -West 04:23 04:30 Setting up for Area :30 05:52 Survey Area :52 05:59 Setting up for Area :59 06:35 Survey Area :35 07:10 Obtain CTD and dowload/upload data to 07:10 07:19 Setting up to continue survey Survey Area :19 08:05 Continue survey Survey Area :05 10:11 Continue survey Survey Area :11 11:15 Abort survey to go to Ålvik for crew change 11:15 12:45 Planned alogside chrew change time 12:45 17:01 Stby alongside for reconfiguration of VSAT Antennae Relocation from Ålvik to survey break off point and setting up in 17:01 18:40 position Obtain CTD and dowload/upload data to. Simultanous ROV test dive 18:40 19:30 19:30 20:12 ROV Test dive 20:12 20:16 Set up to continue survey Survey Area :16 21:13 Continue survey Survey Area :13 21:19 Set up for Survey Area Survey Area Strong current and wind along track. Difficult to keep speed and position on track 21:19 23:33 23:33 23:44 Pause to let ferry pas 23:44 24:00 Survey Area UTC Time Operations Start End Remarks Start KP End KP 00:00 00:10 Setting up for Area :10 00:49 Survey Area :49 01:26 Standby for ferry to pass 01:26 01:34 Setting up for Area :34 04:32 Survey Area vessel close to shore. 04:32 04:38 Setting up for Area :38 05:26 Survey Area :26 05:33 Setting up for survey Area7 DOF Subsea Norway AS Project No.: Contract

128 of UTC Time Operations Start End Remarks Start KP End KP 05:33 05:47 Survey Area7 Infill 05:47 06:04 Relocating and Setting up for CTD 06:04 06:30 SVP updated 06:30 07:05 Toolboks for Verification/calibration Test 07:05 07:53 Deck testing and setup of sensors 07:53 08:33 ROV Off Deck Logging ROV CTD 08:33 08:35 Setting up for DVL calibration 08:35 09:46 DVL Calibration 09:46 10: DVL Verification 1st run 10: 10:17 DVL Verification 2nd run 10:17 11:03 Setting up for MBE7125 Calibration and processing DVL data 11:03 11:14 MBE Line 1 11:14 11:36 Setup and MBE Line 2 11:36 11:48 Setup and MBE Line 3 Poor GPS configuration vessel lost Seapath heading. Reset Seapath. 11:48 13:05 13:05 13:15 MBE Line 3 13:15 13:30 Setup and MBE Line 2 13:30 13:43 Setup and MBE Line 4 13:43 14:03 Setup and MBE Line 7 14:03 14:21 Setup and MBE Line 5 14:21 14:35 Setup and MBE Line 6 14:35 14:56 Setup and MBE Line 8 14:56 15:12 Setup SSS CL 15:12 15:22 SSS CL 15:22 15:25 Setup SSS CL 15:25 15:33 SSS CL 15:33 15:53 Video verification Test 15:53 16:10 ROV to TMS and recover to deck 16:10 16:34 Relocation to and setting for Area :34 18:05 Survey Area :05 18:21 Relocating to CTD position 18:21 18:55 Obtain CTD and dowload/upload data to, Simultanous ROV test dive SBP Testing SBP. Date visible in Edgetech Discover- Likely Delph software problem - ROV recovered to deck 18:55 20:00 20:00 20:24 Relocation to and setting for Area :24 23:10 Survey Area m 23:10 23:34 Relocating and setting up for ROV tests. SBP diagnostics 23:34 24:00 ROV test dive SBP diagnostics UTC Time Operations Start End Remarks Start KP End KP 00:00 00:55 Continuing ROV test dive SBP diagnostics 00:55 00:58 MBE test line for Roll fine adjustment W-E 00:58 01: MBE test line for Roll fine adjustment E-W DOF Subsea Norway AS Project No.: Contract

129 of UTC Time Operations Start End Remarks Start KP End KP 01: 01:56 Laser/Target Position verification 01:56 :09 MBE verification line for Roll fine adjustment W-E 15m above seabed :09 :18 MBE verification line for Roll fine adjustment E-W 15m above seabed :18 :52 ROV recovering to deck :52 03:03 Setting up for survey Area :03 05:48 Survey Area (loss of positioning -line was was later resurveyed) 05:48 06:15 Line aborted due to insufficient positioning relocating to regain navigation. 06:15 06:50 Obtaining CTD for 06:50 07:03 Transit to Start point workscope Step 2 and set up at Verification line start 07:03 07:10 Starting Verification test dive 07:10 07:23 Test logging SBP 07:23 09:04 Vessel lost GPS position, Survey OK on HP. ROV to TMS 09:04 09:19 Reestablishing position in navigation system 09:19 10:03 ROV out of TMS testing MBE 10:03 11:30 Additional GPS Diff correction radio station at Nesheim, old one swithed off. 11:30 11:48 ROV recovers to investigate MBE7125 problem 11:48 12:24 ROV on deck relocating and setting up to rerun areas 6/7 gaps 12:24 13:10 Rerun Area 6/7gaps due to lost positioning/gps coverage near shore 13:10 14:17 Relocationing to Start point Step 2 14:17 14:27 Area 6 infill area not covered previously due to water depth 14:27 14:50 Setting up on DP preparing for ROV verification test 14:50 15:36 Performing Toolbox, testing all equipment on deck 15:36 16:35 ROV Offf deck. Doing water tests of all equipment. No communication with SBP. Problem with Seabat's when attempting to transmit. Replacing MBE surface unit. 16:35 17:25 ROV on deck faultfinding/diagnostics SBP 17:25 18:00 ROV off deck, CTD & static bathy 2,5 m altitude. Testing SBP 18:00 18:11 ROV recovering SBP problem 18:11 19:12 ROV on deck. Fult identified to be SBP interface cable to ROV. Starting making/repairing cable. 19:12 19:57 Vessel moving to area 5 to do internal configuration optimalisation tests 19:57 20:10 Cable ready for testing. Vessel setting up for test 20:10 20:24 ROV off deck 20:24 21:14 ROV at 10 m altitude. SBP functions ok. DOF's geo's claim data is acceptable. Statnett claims data quality is unacceptable and noise must be removed before any further verification test are done. 21:14 21:28 ROV recovering to deck 21:28 22:42 ROV relocating cables and SBP hydrophones, Vessel doing interal optimalisation test with dataprocessors 22:42 22:42 ROV off deck for additonal SBP test. 22:42 23:26 Testing & assessing SBP data 23:26 23:33 Running SBP test line N-S DOF Subsea Norway AS Project No.: Contract

130 of UTC Time Operations Start End Remarks Start KP End KP 23:33 23:55 Running SBP test line S-N 23:55 24:00 Assessing SBP data UTC Time Operations Start End Remarks Start KP End KP 00:00 00:13 Assessing SBP data 00:13 00:35 SBP test line N-S 0,7 kts 18-20m altitude 00:35 00:57 Recovering ROV and assessing data. 00:57 : Trying more modification shielding of cables and hydrophones while relocating to Eiknes area verification site. : :46 ROV off deck CTD downcast & Static bathy :46 03:08 SOL Eiknes_16 Survey Verification 03:08 03:14 EOL Bridge lost GPS moving back and restarting 03:14 03:30 SOL Eiknes_16 Survey Verification 18 m altitude 1 kts SW-NE 03:30 03:53 EOL Verification. Relocating to Eiknes_14 SOL 03:53 04:30 Relocating vessel and setting up in position 04:30 04:32 Launching ROV Start Step 2. Logged in time group E. 04:32 04:49 ROV off deck CTD downcast 04:49 04:55 SOL Static bathy 04:55 05:10 Running up Hain 05:10 05:35 Setting up Vessel & ROV for SOL 05:35 06:08 SOL Eiknes 14. Aborted Digiquartz problem 06:08 06:21 SOL Eiknes :21 06:33 Restarting Hain. Overlapping 06:33 08:06 Continue Eiknes :06 08:33 Setting up Vessel & ROV for Eiknes 15 08:33 09:34 SOL Eiknes 15 09:34 09:52 Aborted due to SSS problem. Restarting & overlapping 09:52 10:45 Continue Eiknes 15 10:45 11:15 Setting up Vessel & ROV for Eiknes 16 11:15 11:40 SOL Eiknes 16 11:40 11:49 EOL due to shallow area - ROV altitude/depth. Reconfiguring 11:49 12:51 Continue Eiknes 16 12:51 13:17 Setting up Vessel & ROV for Eiknes 17 13:17 14:19 SOL Eiknes 17 14:19 14:40 Setting up Vessel & ROV for Eiknes 19 14:40 15: SOL Eiknes 19 15: 15:39 Stop logging. Dead ROV/TMS. Assessing situation moving vessel to safe position. 15:39 16:28 Toolbox talk on the bridge for emergency recovery. 16:28 16:30 ROV Crew manage to re-establish communication with ROV by bypassing fiber in slipring 16:30 17:18 ROV in TMS. 17:18 17:29 Starting normal recovery to deck. Emergency recovery not required. 17:29 18:11 ROV on deck. Repairs ongoing DOF Subsea Norway AS Project No.: Contract

131 of UTC Time Operations Start End Remarks Start KP End KP 18:11 19:33 Vessel relocating to area with better VSAT coverage and to run test & optimization lines with 19:33 23:10 Test & optimization lines with 23:10 24:00 Awaiting ROV repairs UTC Time Operations Start End Remarks Start KP End KP 00:00 07:00 Awaiting ROV repairs. Relocating vessel for best VSAT coverage 07:00 07:32 Relocating and setting up to continue survey 07:32 08:00 Predive checks and testing survey equipment 08:00 09:08 Verifying all equipment. 09:08 09:21 ROV off deck, CTD Downcast, 09:21 09:44 CTD readings not good. Redoing 09:44 09:51 CTD downcast 09:51 10:20 HiPAP updated with new SV. Running up Hain (settling) 10:20 10:26 Setting up Vessel & ROV for Eiknes 14 10:26 10:41 SOL Eiknes 14 10:41 11: Setting up Vessel & ROV for Eiknes 18 11: 11:49 SOL Eiknes 18 11:49 12:32 Losing GPS as predicted. Relocating and trying to re establish position 12:32 13:12 SOL Eiknes 13 13:12 13:39 Setting up Vessel & ROV for Eiknes 12 13:39 14:29 Recover ROV and replace digiquartz 14:29 14:35 ROV off deck, CTD Downcast, 14:35 14:51 Running up Hain 14:51 15: Setting up to continue Eiknes 13 15: 15:48 Continue Eiknes 13 15:48 16:12 Setting up for Eiknes 12 16:12 17:25 SOL Eiknes 12 17:25 17:36 Setting up for Eiknes 11 17:36 18:21 SOL Eiknes 11 18:21 18:37 Lost hydraulics on ROV. ROV to TMS to investigate. Restart all OK 18:37 18:47 Setting up to continue Eiknes 11 18:47 19:17 Continue Eiknes 11 19:17 19:25 Setting up for Eiknes 10 19:25 19:45 SOL Eiknes 10 19:45 20:15 Server full. Restarting 20:15 21:08 Continue Eiknes10 21:08 21:47 EOL 19 m depth. TBT with bridge and ROV on how to survey lines close to land 21:47 22:00 Setting up to survey Eiknes 9 22:00 23:01 SOL Eiknes 9 23:01 23:17 Setting up for Eiknes 8 23:17 24:00 SOL Eiknes 8 DOF Subsea Norway AS Project No.: Contract

132 of UTC Time Operations Start End Remarks Start KP End KP 00:00 00:11 Continuing Eiknes 8 00:11 00:25 Setting up for Eiknes 7 00:25 01:05 SOL Eiknes 7 - aborting due to shallow area 01:05 01:21 ROV to surface CTD upcast/downcast. 01:21 01:25 Static Bathy 01:25 01:38 Setting up to continue Eiknes 7 01:38 01:46 SOL Eiknes 7 01:46 01:57 Setting up for Eiknes 6 01:57 :38 SOL Eiknes 6 :38 :51 Setting up for Eiknes 5 :51 03:24 SOL Eiknes 5 03:24 03:34 Setting up for Eiknes 4 03:34 04:00 SOL Eiknes 4 04:00 04:07 Vessel stopped close to shore. ROV continuing 04:07 04:16 ROV stopped. Settign up for Eiknes 3 04:16 04:18 SOL Eiknes 3 04:18 04:34 Stopped due to problem with MBE Surface unit. Restarting 04:34 04:54 Continue Eiknes 3 04:54 05:08 Setting up for Eiknes 2 05:08 05:22 SOL Eiknes 2 05:22 05:40 Setting up for Eiknes 1 05:40 05:46 SOL Eiknes 1 05:46 06:58 ROV in TMS moving to and setting up for Eiknes 18 06:58 07:08 SOL Eiknes 18 07:08 07:39 Setting up for Eiknes 19. Very shallow water. Toolbox with Online/Bridge/ROV initiated 07:39 07:59 Toolbox on the bridge. 07:59 08:41 Repositioning vessel to agreed start point. Setting up for Eiknes 19 08:41 09:08 SOL Eiknes 19 09:08 09:14 Setting up for Eiknes 20 09:14 09:42 SOL Eiknes 20 09:42 10: Setting up for Eiknes 21 10: 10:21 SOL Eiknes 21 10:21 10:24 Setting up for Eiknes 22 10:24 10:42 SOL Eiknes 22 10:42 10:50 Setting up for Eiknes 23 10:50 11:03 SOL Eiknes 23 11:03 11:12 Setting up for Eiknes 24 11:12 11:22 SOL Eiknes 24 11:22 11:37 Setting up for Eiknes 25 11:37 11:41 SOL Eiknes 25 11:41 12:25 Setting up for Eiknes SBP Crossline 12:25 13:23 SOL Eiknes SBP Crossline 13:23 14:03 Setting up for Survey of Centre Line to Vallavik area DOF Subsea Norway AS Project No.: Contract

133 of UTC Time Operations Start End Remarks Start KP End KP 14:03 19:22 SOL CL Eiknes to Vallavik. Toolbox talk on the bridge for Vallavik area 19:22 19:46 ROV to surface CTD upcast/downcast.static Bathy 19:46 20:12 Setting up for Vallavik 7 E-W 20:12 20:33 SOL Vallavik 7 E-W 20:33 20:40 ROV off line Moving back 20:40 21:03 Continuing Vallavik 7 E-W 21:03 21:06 Setting up for Vallavik 5 W-E 21:06 21:16 SOL Vallavik 5 W-E 21:16 21:17 Setting up for Vallavik 6 E-W 21:17 21:42 SOL Vallavik 6 E-W 21:42 21:58 Setting up for Vallavik +600 chaning 7125 surface unit during setup/turning 21:58 22:41 SOL Vallavik :41 22:44 Setting up for Vallavik :44 23:22 SOL Vallavik :22 23:24 Setting up for Vallavik :24 24:00 SOL Vallavik +480 UTC Time Operations Start End Remarks Start KP End KP 00:00 00:10 Continuing Vallavik :10 00:13 Setting up for Vallavik :13 00:57 SOL Vallavik :57 01: Setting up for Vallavik : 01:42 SOL Vallavik :42 01:47 Setting up for Vallavik :47 :27 SOL Vallavik +300 :27 :35 Setting up for Vallavik +240 :35 03:15 SOL Vallavik :15 03:20 Setting up for Vallavik :20 04: SOL Vallavik : 04:07 Setting up for Vallavik :07 04:50 SOL Vallavik :50 04:55 Setting up for Vallavik :55 05:38 SOL Vallavik :38 06:25 Relocate and set up for SBP crossline 06:25 06:49 SOL SBP crossline 06:49 07:12 CTD upcast. ROV to deck. 07:12 07:51 Relocat and setup on next location 07:51 08:30 Repairing CDL gyro connectino 08:30 08:55 ROV launch, stabilsing and setup on line. 08:55 11:05 SOL Hardangerfjorden Centerline Vallavik - Djønnanest 11:05 11:15 Setting up for Djønnaneset :15 11:38 SOL Djønnaneset :38 11:41 Setting up for Djønnaneset -120 DOF Subsea Norway AS Project No.: Contract

134 of UTC Time Operations Start End Remarks Start KP End KP 11:41 12:08 SOL Djønnaneset :08 12:13 Setting up for Djønnaneset :13 12:38 SOL Djønnaneset :38 12:45 Setting up for Djønnaneset 1 12:45 13:17 SOL Djønnaneset 1 13:17 13:53 Relocate and set up for SBP crossline 13:53 14:06 SOL SBP crossline 14:06 14:44 Relocate and set up for Hardangerfjorden Centerline Djønnaneset - Slåttnes 14:44 17:31 SOL Hardangerfjorden Centerline Djønnaneset - Slåttnes 17:31 18:07 ROV upcast/downcast 18:07 18:20 Setting up for Slåttnes 1 18:20 19:03 SOL Slåttnes 1 19:03 19:05 Setting up for Slåttnes :05 19:46 SOL Slåttnes :46 20:07 ROV Recovering to deck for T4 manipulator maintenance 20:07 23:38 T4 manipulator maintenance 23:38 24:00 ROV launch (manipulator disassembled), stabilising and setup on line. UTC Time Operations Start End Remarks Start KP End KP 00:00 00:11 Continuing ROV launch, stabilsing, Hain and setup on line. 00:11 00:53 SOL Slåttnes :53 01: Setting up for Slåttnes : 01:48 SOL Slåttnes :48 01:52 Setting up for Slåttnes :52 :36 SOL Slåttnes +240 :36 :43 Setting up for Slåttnes +300 :43 03:25 SOL Slåttnes :25 03:29 Setting up for Slåttnes :29 04:10 SOL Slåttnes :10 04:16 Setting up for Slåttnes :16 04:57 SOL Slåttnes :57 05:01 Setting up for Slåttnes :01 05:40 SOL Slåttnes :40 05:46 Setting up for Slåttnes :46 06:20 SOL Slåttnes :20 06:26 Setting up for Slåttnes :26 06:44 SOL Slåttnes :44 06:58 Setting up for Slåttnes :58 07:18 SOL Slåttnes :18 07:33 Relocate and set up for SBP crossline 07:33 08:11 SOL SBP crossline 08:11 08:20 ROV to TMS DOF Subsea Norway AS Project No.: Contract

135 of UTC Time Operations Start End Remarks Start KP End KP 08:20 08:48 Relocating to start point to continue CL survey and setting up on line 08:48 09:36 SOL CL survey EOL Aborting CL survey for crew chagne 09:36 10:01 Recover ROV to deck 10:01 11:00 Transit to Ålvik for crew change 11:00 13:15 Crew change and taking fresh provisions 13:15 14:00 Alogside stby for completion of Statnett handover 14:00 15:00 Arrival at startup point for alternative CL route point 15:00 15:26 Setting up on locaton 15:26 17:15 Launch ROV, CTD downcast, stabilising systems and setting up on line 17:15 18:47 SOL Alternative CL 18:47 19:29 Relocating to CL brakoff point 19:29 19:36 Setting up for CL survey from brakoff point 19:36 21:56 SOL CL survey 21:56 22:42 Relocating to Startpoint Kvandal Area.Toolboks talk on bridge while setting up in position. 22:42 23:13 SOL Kvandal 1 N 23:13 23:16 Setting up for Kvandal -2 23:16 23:48 SOL Kvandal -2 23:48 23:51 Setting up for Kvandal -3 23:51 24:00 SOL Kvandal -3 UTC Time Operations Start End Remarks Start KP End KP 00:00 00:23 Continue Kvandal -3 00:23 00:26 Setting up for Kvandal -4 00:26 00:55 SOL Kvandal -4 00:55 01:04 Setting up for Kvandal -5 01:04 01:35 SOL Kvandal -5 01:35 01:40 Setting up for Kvandal -6 01:40 :11 SOL Kvandal -6 :11 :16 Setting up for Kvandal -7 :16 :49 SOL Kvandal -7 :49 :52 Setting up for Kvandal -8 :52 03:25 SOL Kvandal -8 03:25 03:30 Setting up for Kvandal -9 03:30 04:01 SOL Kvandal -9 04:01 04:30 Setting up for Kvandal :30 04:54 SOL Kvandal -10 Tether snagged on SBP cable. Recover to TMS and to deck to correct. 04:54 04:56 04:56 05:16 ROV recovery. Obtaining CTD during recovery. 05:16 05:28 ROV on deck 05:28 06:09 Launch ROV. Stabilising Hain and moving into position 06:09 07:13 Continue Kvandal -10 to top of shelf area DOF Subsea Norway AS Project No.: Contract

136 of UTC Time Operations Start End Remarks Start KP End KP 07:13 07:27 Setting up for Kvandal -9 shelf area 07:27 08:00 SOL Kvandal -9 08:00 08:10 Setting up for Kvandal -8 shelf area 08:10 08:52 SOL Kvandal -8 08:52 09: Setting up for Kvandal -7 09: 09:45 SOL Kvandal -7 09:45 09:53 Setting up for Kvandal -6 09:53 10:29 SOL Kvandal -6 10:29 10:36 Setting up for Kvandal -5 10:36 11:13 SOL Kvandal -5 11:13 11:23 Setting up for Kvandal -4 11:23 12:12 SOL Kvandal -4 12:12 12:21 Setting up for Kvandal -3 12:21 13:08 SOL Kvandal -3 13:08 13:18 Setting up for Kvandal -2 13:18 14:05 SOL Kvandal -2 14:05 14:13 Setting up for Kvandal -1 14:13 15:00 SOL Kvandal -1 15:00 15:14 Setting up for SBP crossline 15:14 15:58 SOL SBP crossline 15:58 16:01 ROV to TMS, 16:01 16:21 Relocate for additional line going in to Kvandal 16:21 17:04 Test of video cameras at seabed for marine bilogists 17:04 17:58 SOL Kvandal extra line 17:58 18:12 Bridge change vessel heading 18:12 18:34 Continue survey additional line to Kvandal 18:34 18:50 ROV recovering to deck 18:50 19:10 Vessel Relocating to SOL for first video Inspection 19:10 20:38 Adjusting Cameras to optimise for marine biologist video survey 20:38 20:45 Launch ROV. 21:08 21:16 Setting up at start point 21:16 22:17 Video Survey Kvandal Lower 22:17 23:39 Video Survey Kvandal Upper 23:39 23:42 ROV return to TMS 23:42 24:00 Relocating to SOL UTC Time Operations Start End Remarks Start KP End KP 00:00 00:23 Continue Relocating to SOL Kvandal 9 ROV reverse on clients request 00:23 00:41 SOL Kvandal 9 Reverse test 00:41 00:46 ROV survey reverse down steep slope aborted. ROV to TMS 00:46 01:20 Vessel relocating to SOL Kvandal 9 south end steep slope 01:20 :58 SOL Kvandal 9 :58 03:26 Relocating and setting up for Kvandal 8 DOF Subsea Norway AS Project No.: Contract

137 of UTC Time Operations Start End Remarks Start KP End KP 03:26 04:12 SOL Kvandal 8 04:12 04:39 Relocating and setting up for Kvandal 7 04:39 05:21 SOL Kvandal 7 05:21 06:00 Relocating and setting up for Kvandal 6 06:00 06:42 SOL Kvandal 6 06:42 07:19 Relocating and setting up for Kvandal 5 07:19 07:40 SOL Kvandal 5 07:40 08: Redused positionining due to topography Hain loosing doppler no contact with seabed and HiPAP dropping out 08: 08:35 Relocating to Kvandal 4 08:35 08:54 Obtaining CTD 08:54 08:58 Client requests change - abort vertical runs and do crossline following depth contour 08:58 09:47 Relocating and setting up to do horisontal contour line - 400m 09:47 11:00 SOL 400 contour line 11:00 11:30 Relocating and setting up for 350m contour line 11:30 11:34 SOL 350 contour line incorrect setup restart required 11:34 12:00 Restarting SOL 350 contour line, unable to get good nav data due to steep slope. Aborting to retry 12:00 12:24 Trying to improve navigation data. Not possible in the outer fjord side area. 12:24 12:59 Setting up to continue survey 12:59 13:44 Continuing 350m contour line - areas with degraded navigation/not possible to get DVL returns due to topography 13:44 14:19 Setting up for the 365 m contour line 14:19 15:06 SOL 365 contour line - areas with degraded navigation/not possible to get DVL returns due to topography 15:06 15:25 Setting up for the 380 m contour line 15:25 16:20 SOL 380m contour line - areas with degraded navigation/not possible to get DVL returns due to topography 16:20 16:28 Setting up for the 415 m contour line 16:28 18:06 SOL 415m contour line - areas with degraded navigation/not possible to get DVL returns due to topography 18:06 18:43 Relocating to do SBP crossline at bottom area below steep slope 18:43 19:08 SOL SBP crossline 01 19:08 19:16 ROV to seabed to check laser setting 19:16 19:37 Obtaining CTD while recovering ROV 19:37 19:59 Relocating vessel to startpoint Kvandal 6 video survey 19:59 20:24 Realigning lasers to 50 cm spacig as required by client 20:24 20:31 Launching ROV 20:31 20:37 Testing lasers on TMS at 60m depth 20:37 21:01 Continue launch, ROV settingup in position to continue, stabilising sensors 21:01 21:54 SOL Visual Survey Kvandal 6. Stopped due to light and camera settings 21:54 22:15 Stopping survey adjusting light settings setting up to restart 22:15 22:34 Vessel relocating back to start point 22:34 22:55 Discussion and toolbox with client and ROV on camera and light settings 22:55 23:44 Recover ROV to deck for adjustment of light positions DOF Subsea Norway AS Project No.: Contract

138 of UTC Time Operations Start End Remarks Start KP End KP 23:44 24:00 ROV on deck adjusting lights UTC Time Operations Start End Remarks Start KP End KP 00:00 00:08 ROV launch 6 setting up to rerun Kvandal 6 00:08 01:00 SOL Rerun Kvandal 6 passing Kp :00 01:55 Continue Kvandal 6 01:55 03:04 ROV to TMS. Relocating to and setting up for Utne Video line 03:04 03:55 Sol Utne Video Line 03:55 04:11 Relocating to continue Hardangerfjorden CL 04:11 06:40 SOL Hardangerfjorden CL 06:40 07:01 Relocating to and setting up for Uravik Video line 07:01 07:48 SOL Uravik Video line. Parts of line straight up loosing DVL return & HiPAP 07:48 09:40 Recover ROV to deck to adjust lasers. Lasers on pan/tilt revert to 0,15 cm spacing 09:40 10:17 ROV Launch. Obtaining CTD downcast. Updating SVP. Stabilising Hain 10:17 10:29 Setting up to continue Uravik Video line 10:29 12:55 SOL Uravik Video line 12:55 13:59 Relocating to continue Hardangerfjorden CL 13:59 14:33 SOL Hardangerfjorden CL 14:33 14:48 Relocating to Ålvik Video line 14:48 15:37 SOL Ålvik Video line 15:37 16: Relocating to continue Hardangerfjorden CL 16: 16:32 SOL Hardangerfjorden CL 16:32 16:55 Relocating to Seianes Video line 16:55 19:44 SOL Seianes Video line 19:44 19:57 ROV close to surface. Recovering to deck for relocation to continue centerline 19:57 20:20 ROV on deck relocating to Hardangerfjorden CL 20:20 20:53 ROV Off deck. Obtaining CTD. SVP in APOS, Stabilising Hain, Setup to continue Hardangerfjorden CL 20:53 22:03 SOL Hardangerfjorden CL 22:03 22:19 Relocating to Ålvik S Video Line 22:19 22:53 SOL Ålvik S Videoline 22:53 22:53 Peak coming straight up from seabed 22:53 24:00 Continuing Ålvik S Video Line UTC Time Operations Start End Remarks Start KP End KP 00:00 01:55 Continuing Ålvik S Video Line 01:55 :05 Recover ROV to deck :05 :27 Relocating vessel to start Ålvik videoline :27 :54 ROV Off deck. Obtaining CTD. SVP in APOS, Stabilising Hain, Setup to Ålvik video line (lower) DOF Subsea Norway AS Project No.: Contract

139 of UTC Time Operations Start End Remarks Start KP End KP :54 03:51 SOL Ålvik Video line. Logging off due to steep area downhill. 03:51 04:05 Relocating to north end of the line SOL Ålvik Video line. Unstable Hain data due to lose of return for DVL caused by topography/steep area 04:05 05:16 05:16 05:46 Relocate and setup to continue Hardangerfjorden CL 05:46 06:25 SOL Continue Hardangerfjorden CL 06:25 07:00 ROV stop survey to check TMS 07:00 09: TMS umbilical caught on line going across the fjord. Toolbox in ROV container. Water depth 850m, rope intersecting umbilical at 650m. Vessel steps back towards line while coming up on TMS. Rope is pointing in direction of fish farm 1100m away close to shore 09: 09:40 TMS free of rope. Recovering to check system status. Multiple turns in tether caused by TMS rotating when pulled along line. Tether twists cleared by gently using manipulator 09:40 10:08 ROV in TMS. Recover to deck. Obtaining CTD 10:08 10:48 ROV on deck system check. Vessel moving 2 km along line ROV Off deck. Obtaining CTD. SVP in APOS, Stabilising Hain, Setup to continue Hardangerfjorden CL 10:48 11:31 11:31 12:59 SOL Continue Hardangerfjorden CL Relocating and setup for Step 4 ROV Site inspection Nanes Video Inspection 12:59 13:08 13:08 13:53 SOL ROV Site inspection Nanes Video Inspection 13:53 14:37 Relocate and setup to continue Hardangerfjorden CL 14:37 16:17 SOL Continue Hardangerfjorden CL. Toolbox talk Samlaneset 16:17 16:24 Relocate and setup ROV survey Samlaneset 16:24 17:03 SOL ROV Survey Samlaneset 17:03 17:06 Setup for Samlaneset :06 17:44 SOL Survey Samlaneset :44 17:48 Setup for Samlaneset :48 18:21 SOL Survey Samlaneset :21 18:24 Setup for Samlaneset :24 18:58 SOL Survey Samlaneset :58 19:04 Setup for Samlaneset :04 19:36 SOL Survey Samlaneset :36 20:33 ROV moving to TMS. Relocating to Kvamsøy possible Coral site inspection 20:33 22:42 SOL Kvamsøy possible coral site inspection 22:42 22:50 Rope - fishing gear close to survey line floating and crossing line 22:50 22:50 Stop survey due to risk to get entangled in fishing gear. Recover ROV with fishing line 22:50 23:14 ROV on deck. 23:14 23:45 Clearing fishing rope of ROV. Relocating vessel to start point 23:45 24:00 Launch ROV. Setting up to continue Kvamsøy possible coral site inspection UTC Time Operations Start End Remarks Start KP End KP DOF Subsea Norway AS Project No.: Contract

140 of UTC Time Operations Start End Remarks Start KP End KP 00:00 00:14 Continue Launch ROV. Change plan to set up to continue Hardangerfjorden Centre Line 00:14 01:49 SOL Hardangerfjorden CL 01:49 :10 Relocating to Kvamsøy video line. TBT during relocation and setup :10 04:39 SOL Kvamsøy video line 04:39 04:45 Setting up for Kvamsøy 15 04:45 06:09 SOL Kvamsøy 15 06:09 06:18 Setting up for Kvamsøy 14 06:18 08:03 SOL Kvamsøy 14 08:03 08:15 Obtaining CTD. ROV Recovering to change TMS battery. Relocating to next linestart 08:15 08:25 ROV on deck Replacing transponder 08:25 09:15 Personel from fish farm (Linga Laks) onboard to discuss situation with snagged mooring line and possible parted mooring lines 09:15 09:28 ROV launch, CTD downcast, setting up for Kvamsøy 13 09:28 10:18 Problems with Hain. DVL unstable. Error messages and restarts 10:18 11:57 SOL Kvamsøy 13 11:57 12:06 Setting up for Kvamsøy 12 12:06 13:03 SOL Kvamsøy 12 13:03 13:15 Setting up for Kvamsøy 11 13:15 13:58 SOL Kvamsøy 11 13:58 14:18 Setting up for Kvamsøy 16 14:18 15:30 SOL Kvamsøy 16 15:30 15:40 Setting up for Kvamsøy 17 15:40 16:55 SOL Kvamsøy 17 16:55 17:15 Obtaining CTD. ROV Recovering 17:15 17:45 Relocating to continue Hardangerfjorden CL 17:45 18:16 ROV launch, CTD downcast, Stabilising Hain and setting up to continue Hardangerfjorden CL 18:16 18:19 SOL Hardangerfjorden CL rerun first section due to degraded navigation previous run 18:19 19:32 Problems with Hain. DVL unstable. Error messages and restarts. Investigating & system diagnostics 19:32 21:06 SOL Hardangerfjorden CL rerun 21:06 22:50 Passing log off point for degraded data. Continue Hardangerfjorden CL 22:50 23:04 Relocating to Aksneset Video line 23:04 23:09 SOL Aksneset Video line 23:09 23:36 Video not being recorded properly. Relocating and setting up to restart 23:36 24:00 SOL Aksneset Video line UTC Time Operations Start End Remarks Start KP End KP 00:00 01:42 Continue Aksneset Video line 01:42 01:51 Problems with Visual Soft DVR - continuing survey while investigating 01:51 01:53 Stop Survey moving back DOF Subsea Norway AS Project No.: Contract

141 of UTC Time Operations Start End Remarks Start KP End KP 01:53 :18 Setting up for rerun :18 :38 Rerun Aksneset Video line :38 :49 Continue Aksneset Video line :49 03:11 Problems with Visual Soft DVR investigating and restarting 03:11 03:13 Rerun Aksneset Video line 03:13 04:13 Continue Aksneset Video line 04:13 04:21 Setting up for Aksneset 32 04:21 07:12 SOL Aksneset 32 07:12 07:31 Setting up for Aksneset 28 07:31 09:18 SOL Aksneset 28 09:18 09:27 Setting up for Aksneset 27 09:27 11:15 SOL Aksneset 27 11:15 11:41 Obtaining CTD upcast. Recover ROV 11:41 12:42 Relocating to start survey CTD readings done with ROV suspect. Perform CTD using crane to verify 12:42 13:25 13:25 13:52 Setting up to start Eidesvågen 13:52 14:58 SOL Eidesvågen Western line 14:58 15:06 Setting up for Eidesvågen Centre line 15:06 15:44 SOL Eidesvågen Centre line 15:44 16: Setting up for Eidesvågen Easterly line 16: 16:54 SOL Eidesvågen Easterly line 16:54 18:16 Relocating and setting up to continue ROV survey Eidesvågen 18:16 18:46 Launch ROV, Obtaining new CTD and setting up for video survey 18:46 18:53 Visual soft crash during run in restarting Eidesvågen Visual Survey. 18:53 19:11 SOL Eidesvågen Visual Survey. 19:11 19:20 High temp ROV HPU.Halt survey 19:20 19:29 Continue Eidesvågen Visual Survey 19:29 19:48 Stand by while checking safety distance to fish farm. Talked with Erlend Haugervoll and Stein Ove Tveiten agreed a 1000m safety zone should be ok 19:48 20:26 Continue Eidesvågen Visual Survey 20:26 20:50 Hain problem. Rerunning to log off point 20:50 23:24 Continue Eidesvågen Visual Survey 23:24 23:28 Halt survey to evaluate position rope possible/mooring line at seabed 23:28 24:00 Continue Eidesvågen Visual Survey UTC Time Operations Start End Remarks Start KP End KP 00:00 00:08 Continue Eidesvågen Visual Survey 00:08 00:40 Setting up for Eidesvågen 16 00:40 03:11 SOL Eidesvågen 16 03:11 03:15 Setting up for Eidesvågen 15 03:15 05:54 SOL Eidesvågen 15 DOF Subsea Norway AS Project No.: Contract

142 of UTC Time Operations Start End Remarks Start KP End KP 05:54 06:32 Setting up to inspect mooring/cable crossing lines observed on visual survey yesterday 23:24 06:32 09:39 Inspecting lines on seabed and going off seabed. Freespan up to 40m above seabed in survey area at approx 250m water depth. Position corresponds to electrical cable marked in map. Plotting positions to avoid risk of snagging TMS 09:39 09:53 Setting up for Eidesvågen 14 09:53 12:33 SOL Eidesvågen 14. Stop suvey line due to safety distance to fish farm 12:33 12:41 Setting up to continue Eidesvågen 14 12:41 15:14 SOL continue Eidesvågen 14 15:14 15:41 Setting up to continue Eidesvågen 17 15:41 18:14 SOL Eidesvågen 17 18:14 18:54 Obtaining CTD. ROV Recovering and going down again 18:54 19:28 Moving to and setting up for Eidesvågen 18 19:28 21:20 SOL Eidesvågen 18 21:20 21:31 Recover ROV to deck 21:31 22:15 Relocating to start Hardangerfjorden CL 22:15 22:22 Launch ROV, Recover due to problem with TMS - restart OK 22:22 23:17 Launch ROV. CTD downcast, setting up on line stabilising 23:17 24:00 SOL Hardangerfjorden CL towards Aksneset UTC Time Operations Start End Remarks Start KP End KP 00:00 00:16 Continue Hardangerfjorden CL towards Aksneset 00:16 00:28 Setting up for Aksneset 33 00:28 :55 SOL Aksneset 33 :55 03:04 Setting up for Aksneset 31 03:04 05:10 SOL Aksneset 31 05:10 05:19 Setting up for Aksneset 30 05:19 08:07 SOL Aksneset 30 08:07 08:18 EOL Aborting and starting Recovery of ROV to be at Fjellstrand 11:00 (local time) 08:18 08:29 Aborting recovery to continue survey as delegation of visitors are delayed 08:29 09:05 Continue Aksneset 30 09:05 09:18 Aborting survey to be at Fjellstrand 12:00 (local time) 09:18 10:50 ROV on deck. Transit to Omastrand, Fjellstrand 10:50 11:17 Alongside Fjellstrand. ROV site inspection team & part of ROV team departing. Statnett visitors arriving onboard. 11:17 11:26 Vessel relocating off quay for ROV demonstration dive for Statnett guests. 11:26 11:52 ROV demonstration dive 11:52 12:08 Vessel relocating back to quay quay 12:08 14:20 Alongside Fjellstrand. Statnett meeting/conference. Onsigning personell onboard. Personell familiarisation SJA Mobilisation, Mobilisation kick off meeting, Toolbox 14:20 15:10 mobilisation DOF Subsea Norway AS Project No.: Contract

143 of UTC Time Operations Start End Remarks Start KP End KP Mobilisation for Step3 ongoing. Loading and seafastening 15:10 24:00 equipment. UTC Time Operations Start End Remarks Start KP End KP 00:00 01:00 All Geotechnical equipment onboard and seafastened 01:00 03:58 Gardline hooking up equipment. Confirms ready for departure. Gardline continuing hookup and testing in transit. 03:58 04:58 Transit to start of SBP120 survey Hardangerfjorden CL 04:58 08:25 SOL SBP120 survey Hardangerfjorden CL 08:25 08:49 Setting up in Simadalfjorden to do CPT 08:49 09:22 Degraded navigation vessel not able to keep position on DP. Reconfiguring systems 09:22 09:26 Setting up in Simadalfjorden to do CPT 09:26 09:33 CPT off deck positioned and landed on seabed 09:33 09:58 CPT no 1 completed - 5,20m 09:58 10:26 Relocating to next location 10:26 10:40 CPT no 2 completed - 5,08m 10:40 12:05 Bringing CPT rig on deck to change batteries 12:05 12:20 Fault finding & repairs electronics CPT 12:20 12:46 CPT off deck positioned and landed on seabed 12:46 12:57 CPT no 3 completed - 5,06 m 12:57 13:04 CPT relocation to location 4 13:04 13:49 Watersupply pipe at sample location - location cancelled - relocating to location 06 13:49 13:59 CPT off deck positioned and landed on seabed 13:59 14:06 CPT no 6 completed - 1,54m 14:06 14:18 Recover CPT 14:18 14:39 Relocation to position 3A 14:39 14:46 CPT off deck positioned and landed on seabed 14:46 14:57 CPT no 3A completed - 5,04m 14:57 15:00 CPT on deck 15:00 16:34 Preparing Piston/Gravity Corer 16:34 16:37 GC 03a off deck 16:37 17:07 Repeated attempts with Corer to optimise setup for soil conditions 17:07 17:13 Shift handovers 17:13 17:42 Continuing test with Corer at location 2 to optimise setup for soil conditions 17:42 18:18 No core sample obtained at location 1 & 2. 18:18 18:29 Relocating to location 3 to test Piston Corer at deeper location 18:29 18:50 1 st attempt in location 3 completed. PC nr 1 18:50 19:44 Assessing different options to modify corer to improve care sample length/penetration 19:44 20:45 2 nd attempt in location 3 completed. 1,1 m sample obtained. PC nr 2 20:45 21:41 Vessel relocates to Sample position 05 21:41 21:59 GC location 05. 1,3 m sample obtained. PC nr 3 DOF Subsea Norway AS Project No.: Contract

144 of UTC Time Operations Start End Remarks Start KP End KP 21:59 22:55 Client confirms location 6 cancelled. Re sample location 05 22:55 23:21 Setup for resample location 5 23:21 23:43 GC resample location 05. 2,4 m sample obtained. PC nr 4 23:43 24:00 Relocating to sample location 2A UTC Time Operations Start End Remarks Start KP End KP 00:00 00:30 GC sample location A. 2,2 m sample obtained. PC nr 5 00:30 00:47 Relocating to sample location 3A 00:47 01:07 GC sample location 03A. 0,6 m sample obtained. PC nr 6 01:07 01:38 GC resample location 03A. 0,55 m sample obtained. PC nr 7 01:38 :32 Relocating to sample location 07 :32 03: GC sample location 07. 1,3 m sample obtained. PC nr 8 03: 03:55 Relocating to sample location 08 03:55 04:39 GC sample location 08. 2,2 m sample obtained. PC nr 9 04:39 05:35 Relocating to sample location 09 05:35 05:58 GC sample location 09. No sample obtained. PC nr 10 05:58 06:46 GC resample location 09. 3,1 m sample obtained. PC nr 11 06:46 06:59 Relocating to sample location 10 06:59 07:30 Requested by client to relocate to sample location 11 07:30 08:04 GC sample location 11. 2,3m sample obtained. PC nr 12 08:04 08:39 Setup and prepare to use CPT rig 08:39 08:57 CPT off deck lowered to 427m. Gardline requests to come back on deck due to problems with tool 08:57 10:33 CPT on deck. Repairs ongoing 10:33 10:53 CPT off deck positioned and landed on seabed 10:53 11:03 CPT rig unstable on seabed. 11:03 11:12 Lift off relocate vessel to find suitable position 11:12 11:18 Land and position CPR rig on the seabed 11:18 11:51 CPR rig not stable on seabed. Recover and inspect rig. Relocate vessel simultanously 11:51 12:10 Attempting to land rig and find stable position 12:10 12:59 Relocate vessel to new CPT position nr 10 12:59 13:15 Land and position CPR rig on the seabed 13:15 13:29 CPT location 10 completed - 5,5 m 13:29 14:03 Relocating to CPT location 10a 14:03 14:15 Gardline problem with winch 14:15 14:18 Land and position CPT rig on the seabed 14:18 14:20 CPT location 10a completed - 3,4 m 14:20 14:28 Recover CPT Rig 14:28 15:20 Relocating to CPT location 12 15:20 15:24 CPT off deck. CPT umbilical connection broke during launch 15:24 15:27 CPR recovered 15:27 17:36 Gardline repairing umbilical 17:36 17:58 CPT off deck lowering. DOF Subsea Norway AS Project No.: Contract

145 of UTC Time Operations Start End Remarks Start KP End KP 17:58 18:37 Gardline problems with umbilical 18:37 18:43 Continue lowering CPT and landing on the seabed 18:43 18:56 CPT location 12 completed - 5 m 18:56 19:19 Recovering CPT rig 19:19 20: Relocating to CPT location 13 20: 20:35 CPT launched and landed on seabed 20:35 20:46 CPT location 13 completed - 5 m 20:46 21:10 Recover CPT rig to deck 21:10 21:32 Setting up for GC 21:32 22:17 GC sample location 13. 1,53 m sample obtained. PC nr 13 22:17 23:24 Relocating to sample location 15 23:24 23:51 GC sample location 15. 1,2m sample obtained. PC nr 14 23:51 24:00 Client requests resample at location 15 - ongoing UTC Time Operations Start End Remarks Start KP End KP 00:00 00:42 GC resample location 15. 1,1m sample obtained. PC nr 15 00:00 00:42 00:42 01:20 VesseL relocate to Positon 16 00:42 01:20 01:20 01:44 GC sample location 16. 2,5m sample obtained. PC nr 16 01:20 01:44 01:44 :13 Setting up for CPT 01:44 :13 :13 :23 CPT launched and landed on seabed :13 :23 :23 :33 CPT location 16 completed - 5,3 m :23 :33 :33 :42 CPT on deck :33 :42 :42 03:36 Vessel relocate to Positon 18 :42 03:36 03:36 04: CPT launched and landed on seabed 03:36 04: 04: 04:04 CPT location 18 completed - 5,3 m 04: 04:04 04:04 04:38 CPT on deck 04:04 04:38 04:38 05:48 GC sample location 18. 1,35m sample obtained. PC nr 17 04:38 05:48 05:48 06:55 Vessel relocate to Positon 19 05:48 06:55 06:55 07:44 GC sample location 19. 2,5m sample obtained. PC nr 18 06:55 07:44 07:44 08:22 Vessel relocate to Positon K1 07:44 08:22 08:22 08:42 GC sample location K1. 1,05m sample obtained. PC nr 19 08:22 08:42 08:42 09:01 Setting up for CPT K1 08:42 09:01 09:01 09:10 CPT launched and landed on seabed 09:01 09:10 09:10 09:12 CPT location 16 completed - 5,3 m 09:10 09:12 09:12 09:31 CPT on deck 09:12 09:31 09:31 10:26 Vessel relocate to Positon 20 09:31 10:26 10:26 10:42 CPT launched 10:26 10:42 10:42 11:25 Umbilical broken recovering CPT Rig and umbilical 10:42 11:25 11:25 11:40 Fault finding and repairs CPT 11:25 11:40 11:40 12:32 Vessel relocates to position E1 11:40 12:32 12:32 12:40 CPT launched and landed on seabed 12:32 12:40 12:40 12:54 CPT inclination 15 degrees not possible to do CPT at location 12:40 12:54 12:54 13:13 Recover CPT rig 12:54 13:13 13:13 13:41 GC sample location E1. No sample obtained. PC nr 20 13:13 13:41 DOF Subsea Norway AS Project No.: Contract

146 of UTC Time Operations Start End Remarks Start KP End KP 13:41 14:15 GC resample location E1. 1,2m sample obtained. PC nr 21 13:41 14:15 14:15 14:44 Vessel relocate to E2 14:15 14:44 14:44 14:51 GC sample location E2. 0,5m sample obtained. PC nr 22 14:44 14:51 14:51 15:44 Vessel relocate to 21 14:51 15:44 15:44 16: CPT launched and landed on seabed 15:44 16: 16: 16:17 CPT location 21 completed - 5,3 m 16: 16:17 16:17 16:37 CPT on deck 16:17 16:37 16:37 17:05 Vessel relocate to 20 16:37 17:05 17:05 17:18 CPT launched and landed on seabed 17:05 17:18 17:18 17:34 CPT location 20 completed - 5,3 m 17:18 17:34 17:34 17:48 CPT on deck 17:34 17:48 17:48 18:05 Setting up for GC 17:48 18:05 18:05 18:44 GC sample location 20. No sample obtained. PC nr 23 18:05 18:44 18:44 19:41 GC resample location 20. 2m sample obtained. PC nr 24 18:44 19:41 19:41 20:46 Seafastening and making ready fro transit to Bergen for demob of Geotechnical equipment 19:41 20:46 20:46 24:00 Transitt to Bergen Dokken 20:46 24:00 UTC Time Operations Start End Remarks Start KP End KP 00:00 03:30 Vessel in transit to Bergen. 03:30 12:00 Demob Geotechnical equipment and bunkering water. 12:00 24:00 Vessel Standby - Due to contract issues UTC Time Operations Start End Remarks Start KP End KP 00:00 11:30 Vessel in transit to Bergen, Dokken Quay. Project No Hardanger Cable Route Survey 11:30 13:30 Personnel and equipment arriving. 13:30 13:40 Toolbox talk covering ROV mobilisation. 13:40 16:21 Survey Equipment mounted on ROV. 16:21 20:35 Splitting TMS to make temporary repair to umbilical and configuring survey equipment. 20:35 21:10 Departing quay for ROV wet test. 21:10 21:37 Vessel at test location ROV completing Pre dive check list. 21:37 21:49 ROV off deck, at 50m depth water alarm sounded on ROV system, recovered to deck. 21:49 22:01 ROV on deck problem resolved. 22:01 22:16 ROV off deck, problem with hydraulic pressure. 22:16 23:32 Changing pressure relief valve on ROV main hydraulics. 23:32 23:50 ROV off deck confirming all systems working, client observing. 23:50 24:00 ROV heading to TMS ready to recover. UTC Time Operations Start End Remarks Start KP End KP 00:00 09:39 Vessel in transit to Hardanger, Indre Eiknes. DOF Subsea Norway AS Project No.: Contract

147 of UTC Time Operations Start End Remarks Start KP End KP 09:39 10: DP trials and ROV Pre dive checks 10: 10:34 Diving ROV. 10:34 11:06 Indre Eiknes length of line reduced due to subsea cable, OK'd by IMR :06 12:16 Recovering ROV-relocating vessel to next line and then deploying ROV. 12:16 12:59 Ytre Eiknes video line :59 14:09 Recovering ROV-relocating vessel to next line and then deploying ROV. 14:09 15: Vallavik line video line : 16:06 Recovering ROV-relocating vessel to next line and then deploying ROV. 16:06 17:06 Slottnes Nord video line :06 18:35 Recovering ROV-relocating vessel to next line and then deploying ROV. 18:35 19:36 Slottnes Nør video line :36 20:00 Recovering ROV and securing for transit. 20:00 24:00 Vessel in transit to Bergen, Dokken quay. UTC Time Operations Start End Remarks Start KP End KP 00:00 05:00 Vessel in transit to Bergen. 05:00 07:00 Vessel demob Dokken quay. Project Complete Project No Off hire DOF Subsea Norway AS Project No.: Contract

148 of Appendix D: DSN Personnel DOF Subsea Norway AS Project No.: Contract

149 of Name Date on Date off Date on Date off Position Inge Skagen Offshore Manager Julian Bell Senior Surveyor Lawrence Baker Senior Surveyor Jørn Thomassen Senior Surveyor Bruce Lindsay Senior Surveyor Sten Åge Stensen Data Processor Frode Sørhaug Data Processor Andres Lykken Data Processor Rune Moe Data Processor Morgens Eikeland Data Processor Tommy Westervik Online Surveyor Thommas Watts Online Surveyor Thomas Remme Online Surveyor Roy Sellers Survey Tech/Online Gerry O'Neill Survey Tech Martin Bransæter Survey Tech Jan Brede bøen Survey Tech Elise Søyland Geologist / QC Arild Gravdal Geologist / QC Jamie Simpson Geologist Philip Coles Geologist Andre Facetti Geologist Jarle Andrè Vikebø Geologist Rolf Ranes Geologist Ståle Solbakken Geologist Henri Batoufflet IXSEA Brynjar Wiik ROV Supervisor Dag Sølve Børdal ROV Supervisor John Einar Børdal ROV Supervisor Rune Haldorsen ROV Supervisor Olav Siqveland ROV Supervisor Timothy Parkes ROV Supervisor Trond Sørgård ROV pilot Alexander Milne ROV pilot Frode Lægreid ROV pilot John Tomas Lohne ROV pilot Michael Parkinson ROV pilot Morten Rasmussen ROV pilot Rolf Erik Utne ROV pilot Karl Egil Klevstadlien Deck Foreman Terje Holmstrand Deck Foreman Simon Langsholdt Rigger Freddy Haulan Rigger Asbjørn Meisal Crane driver Jason Binnie Gardline Mohammed Srir Daouadjl Gardline Andrew Molloy Gardline Leigh Hammond Gardline Dave Pickles Gardline DOF Subsea Norway AS Project No.: Contract

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161 of Appendix F: QC Graphs DOF Subsea Norway AS Project No.: Contract

162 of Figure 5.1 Difference between HP and XP, Eastings, 8 th November 2010 Figure 5.2 Difference between HP and XP, Northings, 8 th November 2010 DOF Subsea Norway AS Project No.: Contract

163 of Date: Filename: P:\10_Active\10_600106\10_SUR\10_SUR_Daily_QC\S- Files\ _033405_S.NPD de and dn over time de/dn (m) dn de -0.3 Time in seconds since midnight Figure 5.3 Time Series HP and XP Easting / Northing, 8 th November 2010 HAIN v HiPAP Positions Hardanger Fjord, 10th November Hipap positions Hain Positions Datum: WGS 84, UTM Zone 32 Northing (m) Easting (m) Figure 5.4 HAIN v HiPAP Positioning, 10 th November 2010 DOF Subsea Norway AS Project No.: Contract

164 of DQ Comparison 18th November Depth (m) Port DQ Starboard DQ Time in secs after midnight Figure 5.5 DQ Comparison 18 th November 2010 DOF Subsea Norway AS Project No.: Contract

165 of Sound Velocity profiles Sound Velocity (m/s) : :11 Depth (m) : : : : Figure 5.6 Sound Velocity Comparison, Hardangerfjorden Nov 2010 DOF Subsea Norway AS Project No.: Contract

166 of Appendix G: Geotechnical Report DOF Subsea Norway AS Project No.: Contract

167 of Appendix H: Marine Biologist Report DOF Subsea Norway AS Project No.: Contract