Sea level scenarios and extreme weather events

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Extreme weather and nuclear power plants (EXWE) Sea level scenarios and extreme weather events Milla Johansson, Kimmo Kahma, Hilkka Pellikka, Hanna Tietäväinen, Seppo Saku and Kirsti Jylhä Finnish Meteorological Institute Final Seminar of the Finnish National Research Programme on Reactor Safety 2007-2010 SAFIR2010 10-11 March 2011 Hanasaari, Espoo, Finland

Extreme weather and nuclear power plants (EXWE) Background: Some exceptional weather events or combination of different events may 1) prevent normal power operation and 2) simultaneously endanger safe shutdown of a nuclear power plant. Objective: A comprehensive study about the frequency, intensity, spatial and temporal variation of relevant extreme weather and sea level events and the influence of climate change on them.

Topics of the EXWE project within SAFIR2010 the return levels of extreme temperature and enthalpy dry, hot and cold spells, precipitation and snow danger-causing weather phenomena: hail, snowstorms, freezing precipitation, tornadoes and downbursts the risk of dangerous water levels in the Baltic Sea the risk related to abrupt and nonlinear climate change Aggregated into a single report Hanna Tietäväinen et al.: Extreme weather and nuclear power plants in present and future climate

Spatial variation of very high temperatures in Finland >29⁰C 29-31⁰C About 30 weather stations The length of observational time series: 75 165 years, up to summer 2010 31-33⁰C The highest ever recorded temperature in Finland: Joensuu on 29 July 2010: 37,2 C > 33⁰C In the past climate: annual probability < 0.01 In the future climate: not equally but still very rare 50-year return level of daily maximum temperature Saku et al. (2011)

SAFIR2010 Interim seminar (13 March 2009) Natalia Pimenoff et al.: Abrupt climate change and nuclear power plant safety The risk of abrupt climate changes grows the higher the more the global mean temperature rises Some of the possible abrupt climate changes could affect the safety of the nuclear power plants The major concern is the possible abrupt sea level rise which could be triggered by melting of continental ice sheets (modification from Lenton et al. 2008)

SAFIR2010 Interim seminar (13 March 2009) Natalia Pimenoff et al.: Abrupt climate change and nuclear power plant safety The risk of abrupt climate changes grows the higher the more the global mean temperature rises Some of the possible abrupt climate changes could affect the safety of the nuclear power plants The major concern is the possible abrupt sea level rise which could be triggered by melting of continental ice sheets Available in Finnish

Sea level height in the Baltic Sea is one of the key factors for the safety of nuclear power plants on the Finnish coast Milla Johansson, Kimmo Kahma and Hilkka Pellikka Finnish Meteorological Institute R/V mta Aranda has visited both Antarctic waters and Arctic Ocean, along with its normal operations on the Baltic Sea.

Competing factors affect the sea level on the Finnish coast Global sea level rise (<= global warming) Postglacial land uplift (<= recovery from the last ice age) Baltic Sea water balance (=> ~ 20-cm year-toyear variability) Decrease in the annual mean sea level during the 20th century Mean sea level (cm, N60) Observed annual mean 15-yr. floating averages Theoretical mean sea level Hanko (SW Finland) Year The land uplift has dominated in the past How about the future?

The global sea level is rising in the warming climate Thermal expansion of sea water Melting of ice sheets (Greenland, West Antarctica), glaciers and ice caps Past trends: 20th century: 1.7 ± 0.5 mm/year 1961-2003: 1.8 ± 0.5 mm/year 1993-2003: 3.1 ± 0.7 mm/year What about the future?

A wide range of global sea level rise scenarios From 20 cm to 200 cm by the year 2100 Uncertainties in the future behaviour of the continental ice sheets

Global sea level rise is unevenly distributed Large ice masses affect the gravitational field of the Earth: higher water level around the ice mass water retreats away from the melting glacier Our greatest concern is the West Antarctic ice sheet The effect of Greenland melting is minor on the Finnish coast The effect of thermal expansion varies in different areas. Potential changes in ocean dynamics affect sea level geographically unevenly. climateprogress.org

Local effects of the global sea level rise An upper estimate (worst-case assumptions): 20-200 cm global average rise means ~30-150 cm on the Finnish coast up to 2100. The postglacial land uplift on the Finnish coast From about 3 mm/year (at Hamina) to about 9 mm/year (around Vaasa)* => about 30-90 cm/100 year Possible changes in the Baltic Sea water balance In- and outflow of water through the Danish Straits *Johansson et al. 2004 Vestøl et al.

Scenarios for the mean sea level on the Finnish coast Helsinki: the sea level will rise ~ 45 cm according to the average scenario Land uplift 3.7 mm/yr The future of the West Antarctic ice sheet is the largest uncertainty in the Finnish sea level scenarios.

Scenarios for the mean sea level on the Finnish coast Rauma: the sea level will rise ~ 15 cm according to the average scenario Land uplift 7.0 mm/yr The future of the West Antarctic ice sheet is the largest uncertainty in the Finnish sea level scenarios.

Short-term sea level variability Observed variability: from -130 cm to +200 cm relative to the mean sea level Affecting factors: Total water amount in the Baltic Sea Wind Air pressure Seiche = internal oscillation An extreme sea level event is always a combination of several factors January 2005 flood

The sea level maxima have increased during the 20th century Helsinki Dots: observed annual maximum sea levels Columns: the 10-year maxima A statistically significant trend: 20 cm increase during the 106 years of observations The effects of climate change on short-term sea level variability = an open question

Probability distribution of extreme sea levels Monthly minimum (cm, N60) Monthly maximum (cm, N60) Helsinki in 2010 Helsinki in 2010 Occurrence / year Occurrence / year Changes in the distributions <= 1) A change in the mean sea level => a shift in the x-axis towards higher/lower sea levels 2) A change in the shape of the distribution (not included here)

Estimated changes in the probabilities of extremely high sea levels + Monthly maximum sea levels with a probability of 0.01 occurrences/year Helsinki: 2010: 142 cm 2050: 163 cm 2100: 258 cm The short-term variability is assumed to remain similar in the future as it is today.

Monthly maximum sea levels with a probability of 0.01 occurrences/year 2010 2050 2100 Site Sea level (cm, N60) Kemi 182 177 229 Vaasa 120 115 177 Rauma 111 120 203 Föglö 102 115 204 In the Bay of Bothnia, the extremes slightly decrease Helsinki 142 163 258 up to 2050, due to the fact that the land uplift compensates the mean sea level Hamina rise. 194 213 299 Elsewhere, increases from 2010 to 2050.

Monthly maximum sea levels with a probability of 0.01 occurrences/year 2010 2050 2100 Site Sea level (cm, N60) Kemi 182 177 229 Vaasa 120 115 177 Rauma 111 120 203 Föglö 102 115 204 Helsinki 142 163 258 Hamina 194 213 299 Everywhere on the Finnish coast, increases from 2010 to 2100.

Summary Climate change is altering the occurrence of extreme weather events and levels of sea water. On the southern coast, the sea level will rise 30 50 cm by 2100 On the Bay of Bothnia, the land uplift still balances the sea level rise, => the sea level will decline by the 2050s and rise back to present sea level or below it by 2100. Conservative scenario: - to avoid underestimating the risk of the sea level rise - a safe choice for the risk estimates of the nuclear power plants. The scenarios for the future should be updated regularly, as further research is conducted.

Specific goals for EXWE in SAFIR2014 in 2011 1. Effect of West Antarctic Ice Sheet on sea level on the Finnish coast 1.1 Melting of the West Antarctic ice sheet 1.2 Sea level scenarios for the Finnish coast 1.3 Analysis of the success of the earlier scenarios 2. Heat waves 2.1 Changes in the occurrence of heat waves based on observations 2.2 Changes in the occurrence of heat waves based on model projections

Thank you! Contact: Kirsti.Jylha@fmi.fi Milla.Johansson@fmi.fi

Sea level rise is not evenly distributed Large ice masses affect the gravitational field of the Earth. Water retreats away from the melting glacier. Our greatest concern is the West Antarctic ice sheet The effect of Greenland is minor on the Finnish coast Mitrovica, J.X., M.E. Tamisiea, J.L. Davis, and G.A. Milne, 2001. Recent mass balance of polar ice sheets inferred from patterns of global sea level change. Nature 409, 1026 1029.

Postglacial land uplift Site Kemi 8.9 Oulu 8.5 Raahe 8.9 Pietarsaari 9.0 Vaasa 9.1 Kaskinen 8.7 Mäntyluoto 7.8 Rauma 7.0 Turku 5.6 Föglö 5.8 Hanko 4.3 Helsinki 3.7 Hamina 3.3 Johansson et al. 2004 Land uplift (mm/year) Vestøl et al.

WP1 in EXWE in 2009 Estimation of probability of devastating storms that may lead to very high water levels in the Baltic Sea Storm in southern Finland on 28 August 1890 Baltic Sea: 10-min mean wind at 10 m ~ 30-35 m/s Over land: 10-min mean wind at 10 m > 16 m/s, probably 18-23 m/s Gusts > 27-40 m/s, locally possibly even 40-60 m/s Estimated wind speeds on 28.8.1890 very extreme in Finland For comparison: Gudrun in Denmark and southern Sweden in 2005: Danish coastlines: mean wind speed max. 34 m/s, gusts max. 46 m/s Inland in Sweden: gusts 30-33 m/s Fig: Museovirasto Tikkurila, Vantaa in 1890

Observed extremes Site Maximum (cm, MW) Minimum (cm, MW) Kemi +201-125 Oulu +183-131 Raahe +162-129 Pietarsaari +139-113 Vaasa +144-100 Kaskinen +148-91 Mäntyluoto +132-80 Rauma +123-77 Turku +130-74 Föglö +102-71 Hanko +132-79 Helsinki +151-93 Hamina +197-115

January 2005 flood: an extreme high-water event on the southern coast of Finland A storm raised sea level to record heights in the Gulf of Finland Exceptionally long-lasting flood: the sea level was at record height for several hours Sea level (cm) Vedenkorkeus (cm) 200 160 120 80 Helsinki Hamina Loviisa 197 cm 151 cm 40 8.1. klo 0 8.1. klo 12 9.1. klo 0 8 Jan 9 Jan 10 Jan 9.1. klo 12 10.1. klo 0 10.1. klo 12

January 2005 flood: an extreme high-water event on the southern coast of Finland A combination of several factors High total water amount in the Baltic Sea Deep low pressure Wind pushing water into the Gulf of Finland Sea level oscillation in the Gulf of Finland Even higher sea levels may occur in the Gulf of Finland.

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