Content:
Regional Activities:
RADOST: Baltic Sea Coast 2100;
Close Cooperation with Tourism Experts in the Future;
The Bay of Kiel Climate Alliance takes a new Direction;
National Activities:
Second Regional Conference on Climate Adaptation Communities in Climate Change;
International Activities:
National Adaptation Strategies in the Baltic States;
Exchange of Experiences with Practitioners in the USA;
Chinese Delegation Shows Interest in Coastal Research in Kiel;
RADOST and Baltadapt at Green Week and the UN Climate Conference;
RADOST at the Baltic Sea Days
Publications:
Perceptions and Activities regarding Climate Change on
the German Baltic Sea Coast;
Handbook „Climate Change Adaptation Strategies in the
Baltic Sea Region“;
New Edition of “Meer & Küste”;
Assessment of the Influence of Climate Change on Development Potential for Near-surface Geothermal Energy
Content:
Regional Activities:
Science on Tour along the Baltic Sea Coast;
Climate Pavilion Schönberg Inaugurated;
New RADOST Partner: Hamburg University of Technology;
First Organic Mussels from Kiel;
International Activities:
Climate Change Impacts in the Baltic Sea Region: Assessment Report Provides Opportunity for Discussion;
Bottom-up Climate Adaptation Strategies towards a Sustainable Europe;
Transatlantic Exchange of Adaptation Measures;
Publications
Content:
Regional Activities:
The Bay of Kiel Climate Alliance Receives BMU Support;
Northern German Regional Conference;
New Website Provides Information about the Need for Coastal Protection;
RADOST GIS Presents Water Quality Indicators;
Coastal Research, Use, and Protection;
National Activities:
KLIMZUG Final Conference;
International Activities:
HELCOM Workshop in Warnemünde;
RADOST at the Dupont Summit 2012;
Publications:
Results of the 2012 RADOST Tour;
Integrating Climate Change into Economic Analyses under the EU Water Framework Directive
Content:
Regional Activities:
Schoolchildren Explore Biodiversity in a Changing Climate;
Rügen in the Year 2030;
RADOST Findings in the “Climate Change in Northern Germany” Dossier;
International Activities:
RADOST at the ECCA Conference;
Adaptation in Mountain & Coastal Areas;
Publications:
Book Release: “Climate Change Adaptation in Practice”;
Contested Values and Practices in the US;
“Coastal & Marine” Magazine;
International Examples of Climate Change Adaptation
Content:
Regional Activities:
RADOST Event at the Darßer Arche;
Save the Date: RADOST Final Conference;
Local Adaptation Strategies for Schleswig-Holstein;
Bay of Kiel Climate Alliance Supports Adaptation Strategy
of the City of Kiel;
“Nothing Stays the Same” – RADOST at the BWK Federal Congress;
Concordance Maps in the North German Climate Atlas;
International Activities:
Adaptation to Climate Change in Mountain & Coastal Areas;
Publications:
„Die Zeit“ Reports on RADOST;
4th RADOST Annual Report;
Adaptation Strategy for the Ports of Lübeck
Content:
Regional Activities:
Looking Back on Five Years of RADOST;
RADOST Final Conference Takes Stock, Looks Ahead;
Looking Back: Comments on RADOST;
Bay of Kiel Climate Alliance Seeks to Make the Region a Climate Conscious Vacation Destination;
What’s Next after RADOST?
New Web Tool: “Northern German Climate Monitor”;
International Activities:
RADOST at the European Maritime Day;
Contributions wanted for ECCA Conference 2015;
Publications:
Communicating Adaptation to Regional Climate Change Impacts;
New RADOST reports;
Third Special Edition of “Coastal & Marine“
Information about possible changes of extreme wave heights are essential for the future safe design of coastal and flood protection structures likes dykes, flood protection dunes, revetments etc. In this study, scenarios of regional climate change up to 2100 are used for the evaluation of changes of wave conditions. Analyses on calculated significant wave heights derived from extreme value statistics are showing a different signal of change for the selected locations along the German Baltic Sea Coast. The results are showing that extreme wave heights with a return level of 200 years can increase up to +14%. But also a decrease of down to -14% were found compared to actual conditions, depending on the location and climate change scenario applied. At the location of Warnemünde a slight increasing trend for the change of extreme wave heights could be found for 3 of 4 scenario runs with a maximum increase of +7%.
Over the last decades, Fucus vesiculosus, an ecologically important macroalga in the German Baltic Sea, has shown a massive retreat from the deeper zones of its former distribution presumably due to low light co-acting with other potential stressors such as high temperature, fouling, and grazing. Global warming may increase abiotic as well as biotic pressures and exacerbate environmental conditions in coastal ecosystems. The present study focussed on the effects of single or subsequently combined stressors on survival and palatability of juvenile F. vesiculosus. Fucoid offspring were exposed to high temperature and/ or feeding pressure. Feeding preference of Idotea baltica was quantified in a pellet assay calculated as an odds ratio. High temperature significantly impaired the survival of juvenile fucoids. Neither single nor combined stress considerably influenced the feeding preference of I. baltica. Surprisingly I. baltica strictly avoided pellets with juvenile F. vesiculosus compared to adult F. vesiculosus. Avoidance tended to be less pronounced in juvenile fucoids previously stressed by high temperature. Obviously grazing does not induce anti-herbivore defence, but rather the young plants appeared constitutively well-protected against isopod feeding. These results contradict the prevailing opinion that juvenile F. vesiculosus is more susceptible to herbivore grazing than adult F. vesiculosus.
This work deal with a comparison between the common
"bathtub method" and a state-of-the-art hydrodynamic model, called MIKE21 HD Flow Model, for modelling storm surges. The aim of this study is to work out the differences between both approaches and to find out how probable differences look like. There is the question if the "bathtub method" represents flooding adequate or, if the consideration of physics by hydrodynamic models makes a major difference and displays maybe the "real" risk of
inundations. This work tries to underline the differences between those two approaches, where the strengths and weaknesses are and what influence those differences have for an inundation analysis. The investigation was made on a digital elevation model for the study area of Kiel, the capital city of the state Schleswig-Holstein in Germany. The two approaches were made on data for a small storm surge on the basis of water-level-change and wind-regime data from 2010.