Mekong River transboundary water quality monitoring (learnings from a case study)

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RESEAU INTERNATIONAL DES ORGANISMES DE BASSIN INTERNATIONAL NETWORK OF BASIN ORGANIZATIONS 7EME ASSEMBLEE GENERALE MONDIALE DU 07 AU 09 JUIN 2007 A DEBRECEN (HONGRIE) Mekong River transboundary water quality monitoring (learnings from a case study) par Dominique Fougeirol Responsable gestion intégrée des ressources en eau BURGEAP, Département International

CONTENTS 1. Mekong River: a transboundary River Basin 2. Water quality monitoring for non routine parameters 3. Conclusions

Lower Mekong Basin The Mekong River: a transboundary basin which extends over 6 countries: China Myanmar Lao PDR Vietnam Thailand Cambodia With big cities such as Ventiane in Lao and Phnom Penh in Cambodia Source: Mekong River Commission

I1. Institutional, legal & regulatory diagnostic I4. Policy evaluation B1. Water resources diagnostic I3. Implementation of IWRM I2. Institutional, legal & regulatory changes B2. Stakes & orientations B3. Objectives & indicators Guidelines for Policy coordination (established for the METAP * Water Quality Management Program) : IWRM = three levels of action: The Institutional, legal regulatory level The Hydrologic basin level The Project level B6. Monitoring & evaluation B4. Action plan P1. Identification P6. Evaluation P5. Control B5. Action plan Implementation P2. Impact assessment P3. Authorisation * METAP : Mediterranean Environmental Technical Assistance Program (a World Bank multifunded program) P4. Project implementation

Guidelines for Policy coordination (established for the METAP * Water Quality Management Program) : Level 1: The Institutional, legal, regulatory level Institutional change for the Mekong River Basin case : Creation of the Mekong River Commission

Vietnam Lao PDR Thailand Cambodia The Mekong River Commission (MRC): 1957: Mekong River Secretariat 1995: Mekong River Commission 4 countries (Lower Mekong Basin) are currently members of the MRC: Cambodia Lao PDR Thailand Vietnam Source: Mekong River Commission BURGEAP- CEMAGREF

CONTENTS 1. Mekong River: a transboundary River Basin 2. Water quality monitoring for non routine parameters 3. Conclusions Partenaires: Mekong River Commission BURGEAP - CEMAGREF

Guidelines for Policy coordination (established for the METAP * Water Quality Management Program) : Level 2: The Hydrologic Basin level: A continuous improvement process Mekong River Basin case : The 4 countries involved in the MRC are implementing joint actions within the Lower Mekong Basin (LMB) Example of action : water quality monitoring

Example of action within the Lower Mekong River Basin: Water quality monitoring In 2003, 98 permanent water quality sampling sites werebeingusedby MRC in Lao PDR, Thailand, Cambodia and Vietnam. Routine water quality parameters Physico-chemical parameters routinely analysed: flow, TSS, ph, Temp., Cond., Ions, Nutrients (N, P), DO, COD and some trace metals Need for non-routine water quality parameters analysis (pesticides and heavy metals) was identified Source: Mekong River Commission BURGEAP- CEMAGREF

Sampling and analyses were conducted on: River water Sediments Bioassays & Diatom from relevant locations selected in each of the four countries members of MRC, taking into account: Pressure of human activities Transboundary issues Source: Mekong River Commission BURGEAP- CEMAGREF

MeKong River water quality sampling and analysis Source: Mekong River Commission BURGEAP- CEMAGREF

Interpretation of routine analyses : The «SEQ-Eau» methodology Methodology used by the French water basin agencies and mentioned in the European Water Framework Directive as a relevant system to determine a class of aptitude of the water bodies for ecological, drinking water and recreational activities. Interpretation of non-routine analyses: Threshold effect concentration (TEC) and Probable effect concentration (PEC) (MacDonald & al, 2000) were used in the absence of any guidelines developed specifically for the Mekong region Source: Mekong River Commission BURGEAP- CEMAGREF

«SEQ Eau» for routine parameters Standards and thresholds used for classification of the water quality of the Mekong river and tributaries Source: Mekong River Commission BURGEAP- CEMAGREF

Station Code: Station Name: Country: Water Body: Organic matter H380103 Ubon THAILAND Nam Mun Nitrogeneous matter Nitrates Phosphorous matter TSS Temp. Mineralisation ph ALTERATION Organic matter Nitrogeneous matter Nitrates Phosphorous matter Suspended matter Temperature Mineralisation Acidification SDATE DO + COD + NH4 NH4 NO3 PO4 + TP TSS TEMP_ C COND ph 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 DO_mg/L CODMN_mg/L NH4_mg/L NO3_mg/L PO4_mg/L TOTP_mg/L TSS_mg/L TEMP_ C COND_microS/cm ph MIN 3,88 0,10 0,001 0,142 0,003 0,003 2,0 20,0 710,00 6,44 MAX 10,00 6,50 0,231 2,839 0,098 0,137 352,0 34,5 6480,00 8,71 MEAN 7,48 2,95 0,070 1,051 0,034 0,047 55,0 28,9 2620,80 7,45 Source: Mekong River Commission BURGEAP- CEMAGREF

Results: Water quality is generally good in the Lower Mekong Basin No transboundary pollution has been identified within the LMB Heavy metals found in sediments close to big cities, but disappear rapidly downstream The boundary site between China and Lao PDR requires further work and monitoring (source of heavy metals) Toxicity of sediments not conclusive however based on a single bioassay However, the MRC and member countries will have to remain vigilant in the future, as urban and industrial development and expansion of agriculture proceeds in the Lower Basin, and as development accelerates in the upper Chinese portion of the basin Source: Mekong River Commission BURGEAP- CEMAGREF

CONTENTS 1. Mekong River: a transboundary River Basin 2. Water quality monitoring for non routine parameters 3. Conclusions

Conclusion 1/3 : Next steps = to use the monitoring results for River basin management Water Management Information Needs Information Utilization Monitoring Strategy Reporting Network Design Data Analysis Sample Collection Data Handling Laboratory Analysis

Conclusion 2/3 : Monitoring results to be used at project s level for Environmental Impact Assessments. Level 3: The Project s level: Authorisations, control, evaluation

Conclusion 3/3 : for integrated river basin management, action must be implemented at the three levels simultaneously : The Institutional, legal regulatory level The Hydrologic basin level The Project level

Thanks for your attention!