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Scientific tools for coastal zone management

Scientific tools for coastal zone management. Hans von Storch. Helmholtz-Zentrum Geesthacht (HZG) Centre for Materials and Coastal Research. Non-university public research centre Staff : > 900, located in Geesthacht/Hamburg and in Teltow/Berlin

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Scientific tools for coastal zone management

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  1. Scientific tools for coastal zone management Hans von Storch

  2. Helmholtz-Zentrum Geesthacht (HZG)Centre for Materials and Coastal Research • Non-university publicresearchcentre • Staff: > 900, located in Geesthacht/Hamburg and in Teltow/Berlin • Funding: > 90 M € p.a.: 9:1 split between Federal and Regional (Länder) authorities, e.g. Hamburg • National Lab withintheHelmholtz-Association (Budget: > 3 Bn €) • HZG- Research Portfolio: 1/3 CoastalandClimate Research, 2/3 Materials Research: Preserve resources and guarantee mobility through light-weight and multifunctional materials Enable regenerative therapiesthrough new biomaterials Help society to cope with natural and anthropogenic changes in global and regional coastal systems

  3. Coasts Coasts have undergone significant changes in the past centuries and decades. In the past, the usage of the coastal seas was mostly unregulated. Nowadays a detailed planning of the German coastal sea area is prepared, with regulated usage in different parts, such as natural preservation, shipping, tourism and wind energy. This transformation did not happen without broad public debates and conflicts. These conflicts were based on very different perceptions of what the coast is and how it should beused.

  4. Coasts – contested usages

  5. Contribution of coastal science to decision making in coastal issues • Coasts need to be managed. • Management needs a scientific basis. • Task I: Short term events and emerging risks – monitoring and short term prediction. • Task II: Determining, describing and assessing ongoing and possible future long-term change.

  6. Task I: Monitoring the state and the change of the coastal environment COSYNA (Coastal Observing System for Northern and Arctic Seas) is a synoptic observing system for the environmental status of the North Sea. Numerous automatic in situ and satellite observations are continuously assimilated in models, thus producing hourly real-time forecasts of high quality. The data are used by science, industry, and authorities. Nordsee • Land-Meer-Interaktionen • Räumliche und zeitliche • Variabilität • Trends • Events, Risiken • Photo: NASA

  7. Operational COSYNA Products Actualstate& forecast: • current • waves • salinity • temperature • turbidity / chlorophyll Application: • oilspills/chemicalaccidents • toxicalgalblooms • wind farms Nordsee • Land-Meer-Interaktionen • Räumliche und zeitliche • Variabilität • Trends • Events, Risiken • Photo: NASA

  8. ProductCurrents Nordsee • Land-Meer-Interaktionen • Räumliche und zeitliche • Variabilität • Trends • Events, Risiken • Photo: NASA

  9. Task II: Determining, describing and assessing on-going and possible future long-term change • Coastal conditions and utilizations are permanently changing. • Part of the recent change is due to natural processes, another part is man-made. • Risks in and utility of coastal zones undergo variations because of these changes. • Among the drivers of this change are local modifications (such as dredging shipping channels) and global changes (in particular climate change) • Societal decisions (mitigation / adaptation) on how to deal with such changing risks and utility are political, and will be based on social values (such as economic growth, protection of environmental conditions). • Coastal science contributes to the knowledge base of such decisions, by explaining ongoing and possible future changes, their links to drivers, and options/perspectives for the future. • Coastal science is not part of the decision process itself.

  10. We need knowledge about past conditions and their change • of parameters such as wind, precipitation, ocean waves, currents etc. • for determining risks (of high waves, for instance), of opportunities (frequency of low wind episodes) • We need also scenarios of possible future conditions (years, decades in advance) – not forecasts, but possible, plausible conditions which may emerge if a certain measure is taken (accelerated climate change; installation of many wind turbines, adding erosion protection measures …) • We describe and analyse past change for 1948-today, and scenarios for the time period 2010-2100 in our data bank CoastDat. This system can also be implemented in any other part of the world

  11. significant wave height [days] wave direction [days] Red: buoy,yellow: radar, blue: wave model run with REMO winds

  12. Storm surge height scenarios 2030, 2085 Only the effect of changing weather conditions is considered, not the effect of water works such as dredging the shipping channel.

  13. The CoastDat-effort at the Institute for Coastal Research@HZG • Long-term, high-resolution reconstructions (60 years) of present and recent developments of weather related phenomena in coastal regions as well as scenarios of future developments (100 years) • Northeast Atlantic and northern Europe. • Assessment of changes in storms, ocean waves, storm surges, currents and regional transport of anthropogenic substances. • Extension to other regions and to ecological parameters. Applications • many authorities with responsibilities for different aspects of the German coasts • economic applications by engineering companies (off-shore wind potentials and risks) and shipbuilding company • Public information www.coastdat.de

  14. Some applications • Ship design • Navigational safety • Offshore wind • Interpretation of measurements • Oils spill risk and chronic oil pollution • Ocean energy • Scenarios of storm surge conditions • Scenarios of future wave conditions Wave Energy Flux [kW/m] Currents Power [W/m2]

  15. What are causes of ongoing change? • Often a numberofdriversarecausingchange in coastalregions, e.g. climatechange, euthropication, pollution, overfishing, moficationsofshippingchannels etc. • In thepublicdebate, oftenclaimsaboutthecausefor a changeisamdeaccordingtotheutilityofthepoliticalargument. - socialconstructionsofcauses • However, an analysisofthe dominant causesisneeded. – scientificconstructions.

  16. Natural hazards as social construction- an example from Guyana • Flooding in Guyana: • Historical settlement strategy and structure (ca. 90% of the population and ca. 75% of GDP in coastal plains, sugar & rice). • Sugar industry in decline, enhanced lumber production. • Heavy flooding in recent years • Standard explanation of the flooding: Global sea level rise • More detailed analysis reveals: Lack of maintenance of the drainage system due to decline of the sugar industry • Lack of national disaster management programs and no political responsibility for the unmaintained drainage canals • Deforestation of the hinterland leads to increased runoff • Hazards exist in the context of economic interest, perception, social relations and political influences.

  17. Summary • Coastal and climate science are needed for a region like the metropolitan region of Hamburg to face the challenges and chances of climate change and modernization. • One scientific challenge is the provision of technology and methods to describe the present change and the short term future for dealing with operational off-shore and on-.shore activities, as well as with managing catastrophic events (incl. oil spills) • Another challenge is the analysis of ongoing change, the identification of dominant causes, and the derivation of options for future development.

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