Climate change in the Baltic Sea region: a summary

Based on the Baltic Earth Assessment Reports of this thematic issue in Earth System Dynamics and recent peer-reviewed literature, current knowledge of the effects of global warming on past and future changes in climate of the Baltic Sea region is summarised and assessed. The study is an update of th...

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Published in:Earth System Dynamics
Main Authors: Meier, H.E.M., Kniebusch, M., Dieterich, C., Gröger, M., Zorita, E., Elmgren, R., Myrberg, K., Ahola, M.P., Bartosova, A., Bonsdorff, E., Börgel, F., Capell, R., Carlén, I., Carlund, T., Carstensen, J., Christensen, O.B., Dierschke, V., Frauen, C., Frederiksen, M., Gaget, E., Galatius, A., Haapala, J.J., Halkka, A., Hugelius, G., Hünicke, B., Jaagus, J., Jüssi, M., Käyhkö, J., Kirchner, N., Kjellström, E., Kulinski, K., Lehmann, A., Lindström, G., May, W., Miller, P.A., Mohrholz, V., Müller-Karulis, B., Pavón-Jordán, D., Quante, M., Reckermann, M., Rutgersson, A., Savchuk, O.P., Stendel, M., Tuomi, L., Viitasalo, M., Weisse, R., Zhang, W.
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus 2022
Subjects:
North Atlantic
North Atlantic oscillation
Sea ice
Online Access:http://pure.iiasa.ac.at/id/eprint/17949/
http://pure.iiasa.ac.at/id/eprint/17949/1/esd-13-457-2022.pdf
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description Based on the Baltic Earth Assessment Reports of this thematic issue in Earth System Dynamics and recent peer-reviewed literature, current knowledge of the effects of global warming on past and future changes in climate of the Baltic Sea region is summarised and assessed. The study is an update of the Second Assessment of Climate Change (BACC II) published in 2015 and focuses on the atmosphere, land, cryosphere, ocean, sediments, and the terrestrial and marine biosphere. Based on the summaries of the recent knowledge gained in palaeo-, historical, and future regional climate research, we find that the main conclusions from earlier assessments still remain valid. However, new long-term, homogenous observational records, for example, for Scandinavian glacier inventories, sea-level-driven saltwater inflows, so-called Major Baltic Inflows, and phytoplankton species distribution, and new scenario simulations with improved models, for example, for glaciers, lake ice, and marine food web, have become available. In many cases, uncertainties can now be better estimated than before because more models were included in the ensembles, especially for the Baltic Sea. With the help of coupled models, feedbacks between several components of the Earth system have been studied, and multiple driver studies were performed, e.g. projections of the food web that include fisheries, eutrophication, and climate change. New datasets and projections have led to a revised understanding of changes in some variables such as salinity. Furthermore, it has become evident that natural variability, in particular for the ocean on multidecadal timescales, is greater than previously estimated, challenging our ability to detect observed and projected changes in climate. In this context, the first palaeoclimate simulations regionalised for the Baltic Sea region are instructive. Hence, estimated uncertainties for the projections of many variables increased. In addition to the well-known influence of the North Atlantic Oscillation, it was found that also other low-frequency modes of internal variability, such as the Atlantic Multidecadal Variability, have profound effects on the climate of the Baltic Sea region. Challenges were also identified, such as the systematic discrepancy between future cloudiness trends in global and regional models and the difficulty of confidently attributing large observed changes in marine ecosystems to climate change. Finally, we compare our results with other coastal sea assessments, such as the North Sea Region Climate Change Assessment (NOSCCA), and find that the effects of climate change on the Baltic Sea differ from those on the North Sea, since Baltic Sea oceanography and ecosystems are very different from other coastal seas such as the North Sea. While the North Sea dynamics are dominated by tides, the Baltic Sea is characterised by brackish water, a perennial vertical stratification in the southern subbasins, and a seasonal sea ice cover in the northern subbasins.
format Article in Journal/Newspaper
author Meier, H.E.M.
Kniebusch, M.
Dieterich, C.
Gröger, M.
Zorita, E.
Elmgren, R.
Myrberg, K.
Ahola, M.P.
Bartosova, A.
Bonsdorff, E.
Börgel, F.
Capell, R.
Carlén, I.
Carlund, T.
Carstensen, J.
Christensen, O.B.
Dierschke, V.
Frauen, C.
Frederiksen, M.
Gaget, E.
Galatius, A.
Haapala, J.J.
Halkka, A.
Hugelius, G.
Hünicke, B.
Jaagus, J.
Jüssi, M.
Käyhkö, J.
Kirchner, N.
Kjellström, E.
Kulinski, K.
Lehmann, A.
Lindström, G.
May, W.
Miller, P.A.
Mohrholz, V.
Müller-Karulis, B.
Pavón-Jordán, D.
Quante, M.
Reckermann, M.
Rutgersson, A.
Savchuk, O.P.
Stendel, M.
Tuomi, L.
Viitasalo, M.
Weisse, R.
Zhang, W.
spellingShingle Meier, H.E.M.
Kniebusch, M.
Dieterich, C.
Gröger, M.
Zorita, E.
Elmgren, R.
Myrberg, K.
Ahola, M.P.
Bartosova, A.
Bonsdorff, E.
Börgel, F.
Capell, R.
Carlén, I.
Carlund, T.
Carstensen, J.
Christensen, O.B.
Dierschke, V.
Frauen, C.
Frederiksen, M.
Gaget, E.
Galatius, A.
Haapala, J.J.
Halkka, A.
Hugelius, G.
Hünicke, B.
Jaagus, J.
Jüssi, M.
Käyhkö, J.
Kirchner, N.
Kjellström, E.
Kulinski, K.
Lehmann, A.
Lindström, G.
May, W.
Miller, P.A.
Mohrholz, V.
Müller-Karulis, B.
Pavón-Jordán, D.
Quante, M.
Reckermann, M.
Rutgersson, A.
Savchuk, O.P.
Stendel, M.
Tuomi, L.
Viitasalo, M.
Weisse, R.
Zhang, W.
Climate change in the Baltic Sea region: a summary
author_facet Meier, H.E.M.
Kniebusch, M.
Dieterich, C.
Gröger, M.
Zorita, E.
Elmgren, R.
Myrberg, K.
Ahola, M.P.
Bartosova, A.
Bonsdorff, E.
Börgel, F.
Capell, R.
Carlén, I.
Carlund, T.
Carstensen, J.
Christensen, O.B.
Dierschke, V.
Frauen, C.
Frederiksen, M.
Gaget, E.
Galatius, A.
Haapala, J.J.
Halkka, A.
Hugelius, G.
Hünicke, B.
Jaagus, J.
Jüssi, M.
Käyhkö, J.
Kirchner, N.
Kjellström, E.
Kulinski, K.
Lehmann, A.
Lindström, G.
May, W.
Miller, P.A.
Mohrholz, V.
Müller-Karulis, B.
Pavón-Jordán, D.
Quante, M.
Reckermann, M.
Rutgersson, A.
Savchuk, O.P.
Stendel, M.
Tuomi, L.
Viitasalo, M.
Weisse, R.
Zhang, W.
author_sort Meier, H.E.M.
title Climate change in the Baltic Sea region: a summary
title_short Climate change in the Baltic Sea region: a summary
title_full Climate change in the Baltic Sea region: a summary
title_fullStr Climate change in the Baltic Sea region: a summary
title_full_unstemmed Climate change in the Baltic Sea region: a summary
title_sort climate change in the baltic sea region: a summary
publisher Copernicus
publishDate 2022
url http://pure.iiasa.ac.at/id/eprint/17949/
http://pure.iiasa.ac.at/id/eprint/17949/1/esd-13-457-2022.pdf
genre North Atlantic
North Atlantic oscillation
Sea ice
genre_facet North Atlantic
North Atlantic oscillation
Sea ice
op_relation http://pure.iiasa.ac.at/id/eprint/17949/1/esd-13-457-2022.pdf
Meier, H.E.M., Kniebusch, M., Dieterich, C., Gröger, M., Zorita, E., Elmgren, R., Myrberg, K., Ahola, M.P., et al. (2022). Climate change in the Baltic Sea region: a summary. Earth System Dynamics 13 (1) 457-593. 10.5194/esd-13-457-2022 <https://doi.org/10.5194/esd-13-457-2022>.
op_rights cc_by_4
op_rightsnorm CC-BY
op_doi https://doi.org/10.5194/esd-13-457-2022
container_title Earth System Dynamics
container_volume 13
container_issue 1
container_start_page 457
op_container_end_page 593
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spelling ftiiasalaxendare:oai:pure.iiasa.ac.at:17949 2023-05-15T17:37:17+02:00 Climate change in the Baltic Sea region: a summary Meier, H.E.M. Kniebusch, M. Dieterich, C. Gröger, M. Zorita, E. Elmgren, R. Myrberg, K. Ahola, M.P. Bartosova, A. Bonsdorff, E. Börgel, F. Capell, R. Carlén, I. Carlund, T. Carstensen, J. Christensen, O.B. Dierschke, V. Frauen, C. Frederiksen, M. Gaget, E. Galatius, A. Haapala, J.J. Halkka, A. Hugelius, G. Hünicke, B. Jaagus, J. Jüssi, M. Käyhkö, J. Kirchner, N. Kjellström, E. Kulinski, K. Lehmann, A. Lindström, G. May, W. Miller, P.A. Mohrholz, V. Müller-Karulis, B. Pavón-Jordán, D. Quante, M. Reckermann, M. Rutgersson, A. Savchuk, O.P. Stendel, M. Tuomi, L. Viitasalo, M. Weisse, R. Zhang, W. 2022-03-15 text http://pure.iiasa.ac.at/id/eprint/17949/ http://pure.iiasa.ac.at/id/eprint/17949/1/esd-13-457-2022.pdf en eng Copernicus http://pure.iiasa.ac.at/id/eprint/17949/1/esd-13-457-2022.pdf Meier, H.E.M., Kniebusch, M., Dieterich, C., Gröger, M., Zorita, E., Elmgren, R., Myrberg, K., Ahola, M.P., et al. (2022). Climate change in the Baltic Sea region: a summary. Earth System Dynamics 13 (1) 457-593. 10.5194/esd-13-457-2022 <https://doi.org/10.5194/esd-13-457-2022>. cc_by_4 CC-BY Article PeerReviewed 2022 ftiiasalaxendare https://doi.org/10.5194/esd-13-457-2022 2022-04-15T12:40:21Z Based on the Baltic Earth Assessment Reports of this thematic issue in Earth System Dynamics and recent peer-reviewed literature, current knowledge of the effects of global warming on past and future changes in climate of the Baltic Sea region is summarised and assessed. The study is an update of the Second Assessment of Climate Change (BACC II) published in 2015 and focuses on the atmosphere, land, cryosphere, ocean, sediments, and the terrestrial and marine biosphere. Based on the summaries of the recent knowledge gained in palaeo-, historical, and future regional climate research, we find that the main conclusions from earlier assessments still remain valid. However, new long-term, homogenous observational records, for example, for Scandinavian glacier inventories, sea-level-driven saltwater inflows, so-called Major Baltic Inflows, and phytoplankton species distribution, and new scenario simulations with improved models, for example, for glaciers, lake ice, and marine food web, have become available. In many cases, uncertainties can now be better estimated than before because more models were included in the ensembles, especially for the Baltic Sea. With the help of coupled models, feedbacks between several components of the Earth system have been studied, and multiple driver studies were performed, e.g. projections of the food web that include fisheries, eutrophication, and climate change. New datasets and projections have led to a revised understanding of changes in some variables such as salinity. Furthermore, it has become evident that natural variability, in particular for the ocean on multidecadal timescales, is greater than previously estimated, challenging our ability to detect observed and projected changes in climate. In this context, the first palaeoclimate simulations regionalised for the Baltic Sea region are instructive. Hence, estimated uncertainties for the projections of many variables increased. In addition to the well-known influence of the North Atlantic Oscillation, it was found that also other low-frequency modes of internal variability, such as the Atlantic Multidecadal Variability, have profound effects on the climate of the Baltic Sea region. Challenges were also identified, such as the systematic discrepancy between future cloudiness trends in global and regional models and the difficulty of confidently attributing large observed changes in marine ecosystems to climate change. Finally, we compare our results with other coastal sea assessments, such as the North Sea Region Climate Change Assessment (NOSCCA), and find that the effects of climate change on the Baltic Sea differ from those on the North Sea, since Baltic Sea oceanography and ecosystems are very different from other coastal seas such as the North Sea. While the North Sea dynamics are dominated by tides, the Baltic Sea is characterised by brackish water, a perennial vertical stratification in the southern subbasins, and a seasonal sea ice cover in the northern subbasins. Article in Journal/Newspaper North Atlantic North Atlantic oscillation Sea ice IIASA DARE (Data Repository of the International Institute of Applied Systems Analysis) Earth System Dynamics 13 1 457 593

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