Iris Grabemann scite author profile

An analysis of today's mean and extreme wave conditions in the North Sea and their possible future changes due to anthropogenic climate change are presented. The sea state was simulated for the 30-year period 2071-2100 using the wave model WAM and an ensemble of wind field data sets for four climate change realizations as driving data. The wind field data sets are based on simulation outputs from two global circulation models (GCMs: HadAM3H and ECHAM4/ OPYC3) for two emission scenarios (A2 and B2, Intergovernmental Panel on Climate Change, Special Report on Emission Scenarios). They were regionalized by the Swedish Meteorological and Hydrological Institute using the regional climate model RCAO. The effects of the climate realizations on the sea state statistics were assessed by analyzing the differences between the patterns in the four CGM/emission scenario combinations and those in two control simulations representing reference wave climate conditions for the 30-year period . The analysis of the four emission scenario/GCM combinations has shown that the future long-term 99 percentile wind speed and significant wave height increase by up to 7% and 18%, respectively, in the North Sea, except for significant wave height off the English coast and to the north in the HadAM3H-driven simulation. The climate change response in the ECHAM4/OPYC3-forced experiments is generally larger than in the HadAM3H-driven simulations. differences in future significant wave height between the different combinations are in the same order of magnitude as those between the control runs for the two GCMs. Nevertheless, there is agreement among the four combinations that extreme wave heights may increase in large parts in the southern and eastern North Sea by about 0.25 to 0.35 m (5-8% of present values) towards the end of the twenty first century in case of global warming. All combinations also show an increase in future frequency of severe sea state.

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Changes in North Sea storm surge conditions for four transient future climate realizations

Gaslikova

Grabemann

Groll

2012

Nat Hazards

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Storm surges in the North Sea are one of the threats for coastal infrastructure and human safety. Under an anthropogenic climate change, the threat of extreme storm surges may be enlarged due to changes in the wind climate. Possible future storm surge climates based on transient simulations (1961-2100) are investigated with a hydrodynamical model for the North Sea. The climate change scenarios are based on regionalized meteorological conditions with the regional climate model CCLM which is forced by AR4 climate simulations with the general circulation model ECHAM5/MPIOM under two IPCC emission scenarios (SRES A1B and B1) and two initial conditions. Possible sea level rise in the North Sea is not taken into account. The analysis of future wind-induced changes of the water levels is focused on extreme values. Special emphasis is given to the southeastern North Sea (German Bight). Comparing the 30-year averages of the annual 99 percentiles of the wind-induced water levels between the four climate realizations and the respective control climates, a small tendency toward an increase is inferred for all climate change realizations toward the end of the 21st century. Concerning the German Bight, the climate change signals are higher for the North Frisian coastal areas than for the East Frisian ones. This is consistent with an increase in frequency of strong westerly winds. Considering the whole time series (1961-2100) for selected areas, this tendency is superimposed with strong decadal fluctuations. It is found that uncertainties are related not only to the used models and emission scenarios but also to the initial conditions pointing to the internal natural variability.

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Behaviour of Turbidity Maxima in the Tamar (U.K.) and Weser (F.R.G.) Estuaries

Grabemann¹,

Uncles

Krause

et al. 1997

Estuarine, Coastal and Shelf Science

129

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Regional Meteorological–Marine Reanalyses and Climate Change Projections

Weisse

Storch

Callies³

et al. 2009

Bull. Amer. Meteor. Soc.

104

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Consistent meteorological/oceanographic datasets derived from regional reanalyses and 1 climate change projections prove particularly useful for coastal defense and offshore industry. C oastal and offshore applications require appropriate planning and design. For most of them, statistics of extreme wind, waves, and storm surges are of central importance. To obtain such statistics long and homogeneous time series are needed.Usually such time series are hardly available. In most cases observations are either missing, cover too short periods, or are lacking homogeneity, that is, long-term changes in the time series are not entirely related to geophysical changes on the scale of interest, but are partly due to changes in instrumentation, measurement technique, or other factors, such as changes in the surrounding of the measurement site.There are in principle two approaches to address these issues (cf. WASA 1998). One is the use of proxy data that are considered to be more homogeneous and are available for longer periods. An example of this is the use of pressure data to derive indices for changes in storm activity (e.g., Schmidt and von Storch 1993). The other approach is to • Regional meteorological-marine reanalyses have been used by the Flensburger Schiffbau Gesellschaft to optimize RoRo ferry operating in the North Sea. Such data have been used for instance during the design process of the ferry Jasmine. The photo shows the vessel at the shipyard shortly before launch.

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Projected Change—North Sea

Schrum

Lowe

Meier

et al. 2016

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Increasing numbers of regional climate change scenario assessments have become available for the North Sea. A critical review of the regional studies has helped identify robust changes, challenges, uncertainties and specific recommendations for future research. Coherent findings from the climate change impact studies reviewed in this chapter include overall increases in sea level and ocean temperature, a freshening of the North Sea, an increase in ocean acidification and a decrease in primary production. However, findings from multi-model ensembles show the amplitude and spatial pattern of the projected changes in sea level, temperature, salinity and primary production are not consistent among the various regional projections and remain uncertain. Different approaches are used to downscale global climate change impacts, each with advantages and disadvantages. Regardless of the downscaling method employed, the regional studies are ultimately affected by the forcing global climate models. Projecting regional climate change impacts on biogeochemistry and primary production is currently limited by a lack of consistent downscaling approaches for marine and terrestrial impacts. Substantial natural variability in the North Sea region from annual to multi-decadal time scales is a particular challenge for projecting regional climate change impacts. Natural variability dominates long-term trends in wind fields and strongly wind-influenced characteristics like local sea level, storm C. Schrum

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Iris Grabemann

Climate change impact on extreme wave conditions in the North Sea: an ensemble study

Changes in North Sea storm surge conditions for four transient future climate realizations

Behaviour of Turbidity Maxima in the Tamar (U.K.) and Weser (F.R.G.) Estuaries

Regional Meteorological–Marine Reanalyses and Climate Change Projections

Projected Change—North Sea

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