What Determines the Change of Coastlines in the Baltic Sea?

The change of coastline positions of the Baltic Sea is mainly determined by both the eustatic sea-level change and the glacio-isostatic adjustment (GIA). For changes on the Holocene time scale, the relative sea-level change can be reconstructed from paleo-coastline positions and correspondingly date...

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Main Authors: Harff, J., Deng, J., Dudzinska-Nowak, J., Froehle, P., Groh, A., Huenicke, B., Soomere, T., Zhang, W.
Format: Book Part
Language:unknown
Published: Harff, J.; Furmanczyk, K.; Storch, H.v. 2017
Subjects:
Fennoscandian
Online Access:https://publications.hereon.de/id/35445
https://publications.hzg.de/id/35445
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spelling fthzgzmk:oai:publications.hereon.de:35445 2023-06-11T04:11:41+02:00 What Determines the Change of Coastlines in the Baltic Sea? Harff, J. Deng, J. Dudzinska-Nowak, J. Froehle, P. Groh, A. Huenicke, B. Soomere, T. Zhang, W. 2017 https://publications.hereon.de/id/35445 https://publications.hzg.de/id/35445 unknown Harff, J.; Furmanczyk, K.; Storch, H.v. Springer Nature http://dx.doi.org/10.1007/978-3-319-49894-2_2 urn:isbn:978-3-319-49892-8 https://publications.hereon.de/id/35445 https://publications.hzg.de/id/35445 info:eu-repo/semantics/closedAccess Harff, J.; Deng, J.; Dudzinska-Nowak, J.; Froehle, P.; Groh, A.; Huenicke, B.; Soomere, T.; Zhang, W.: What Determines the Change of Coastlines in the Baltic Sea?. In: Harff, J.; Furmanczyk, K.; Storch, H.v. (Eds.): Coastline Changes of the Baltic Sea from South to East - Coastal Research Library . Vol. 19 Cham: Springer Nature, 2017. 15 - 35. (DOI:10.1007/978-3-319-49894-2_2) (ISBN: 978-3-319-49892-8 ) info:eu-repo/semantics/bookPart Buch Artikel 2017 fthzgzmk https://doi.org/10.1007/978-3-319-49894-2_2 2023-05-28T23:24:32Z The change of coastline positions of the Baltic Sea is mainly determined by both the eustatic sea-level change and the glacio-isostatic adjustment (GIA). For changes on the Holocene time scale, the relative sea-level change can be reconstructed from paleo-coastline positions and correspondingly dated sediments and organic remains. On the decadal scale, tide gauge data are available. Both data sets display the relative value of sea-level change resulting from the superposition of climatically and meteorologically induced factors, vertical crustal displacement, and related gravitational forces. The isolation of the GIA signal from the compound relative sea-level change data plays a critical role for future projections of coastline changes within the frame of coastal zone management. To separate different components of sea-level data sets, statistical methods for the exploration of empirical water level, meteorological, and GPS data are combined with analytical methods to solve the sea-level equation. In the result, the pattern of vertical crustal movement can be displayed as maps covering the uplifting Fennoscandian Shield and its subsiding belt. Whereas along the uplifting coasts morphodynamic processes play a subordinated role, in the subsiding Southeast and South, Quaternary sediments are permanently exposed to coastal erosion, sediment transport, and re-deposition. This mainly wave-driven sediment dynamics together with aeolian processes depend on meteorological forcing of the in general west-east directed air-flow from the northern Atlantic Ocean to Eurasia. Regional coastal morphogenesis can generally be described by alongshore sediment transport pattern deduced from the integration of subregional to local models of transport capacities. For future projection, coastlines and the morphology of the adjacent zones have to be regarded a function of its position related to the vertical displacement of the Earth\'s crust, the regional climatic and meteorological conditions, and the geological setting. Results of ... Book Part Fennoscandian Hereon Publications (Helmholtz-Zentrum) 15 35
institution Open Polar
collection Hereon Publications (Helmholtz-Zentrum)
op_collection_id fthzgzmk
language unknown
description The change of coastline positions of the Baltic Sea is mainly determined by both the eustatic sea-level change and the glacio-isostatic adjustment (GIA). For changes on the Holocene time scale, the relative sea-level change can be reconstructed from paleo-coastline positions and correspondingly dated sediments and organic remains. On the decadal scale, tide gauge data are available. Both data sets display the relative value of sea-level change resulting from the superposition of climatically and meteorologically induced factors, vertical crustal displacement, and related gravitational forces. The isolation of the GIA signal from the compound relative sea-level change data plays a critical role for future projections of coastline changes within the frame of coastal zone management. To separate different components of sea-level data sets, statistical methods for the exploration of empirical water level, meteorological, and GPS data are combined with analytical methods to solve the sea-level equation. In the result, the pattern of vertical crustal movement can be displayed as maps covering the uplifting Fennoscandian Shield and its subsiding belt. Whereas along the uplifting coasts morphodynamic processes play a subordinated role, in the subsiding Southeast and South, Quaternary sediments are permanently exposed to coastal erosion, sediment transport, and re-deposition. This mainly wave-driven sediment dynamics together with aeolian processes depend on meteorological forcing of the in general west-east directed air-flow from the northern Atlantic Ocean to Eurasia. Regional coastal morphogenesis can generally be described by alongshore sediment transport pattern deduced from the integration of subregional to local models of transport capacities. For future projection, coastlines and the morphology of the adjacent zones have to be regarded a function of its position related to the vertical displacement of the Earth\'s crust, the regional climatic and meteorological conditions, and the geological setting. Results of ...
format Book Part
author Harff, J.
Deng, J.
Dudzinska-Nowak, J.
Froehle, P.
Groh, A.
Huenicke, B.
Soomere, T.
Zhang, W.
spellingShingle Harff, J.
Deng, J.
Dudzinska-Nowak, J.
Froehle, P.
Groh, A.
Huenicke, B.
Soomere, T.
Zhang, W.
What Determines the Change of Coastlines in the Baltic Sea?
author_facet Harff, J.
Deng, J.
Dudzinska-Nowak, J.
Froehle, P.
Groh, A.
Huenicke, B.
Soomere, T.
Zhang, W.
author_sort Harff, J.
title What Determines the Change of Coastlines in the Baltic Sea?
title_short What Determines the Change of Coastlines in the Baltic Sea?
title_full What Determines the Change of Coastlines in the Baltic Sea?
title_fullStr What Determines the Change of Coastlines in the Baltic Sea?
title_full_unstemmed What Determines the Change of Coastlines in the Baltic Sea?
title_sort what determines the change of coastlines in the baltic sea?
publisher Harff, J.; Furmanczyk, K.; Storch, H.v.
publishDate 2017
url https://publications.hereon.de/id/35445
https://publications.hzg.de/id/35445
genre Fennoscandian
genre_facet Fennoscandian
op_source Harff, J.; Deng, J.; Dudzinska-Nowak, J.; Froehle, P.; Groh, A.; Huenicke, B.; Soomere, T.; Zhang, W.: What Determines the Change of Coastlines in the Baltic Sea?. In: Harff, J.; Furmanczyk, K.; Storch, H.v. (Eds.): Coastline Changes of the Baltic Sea from South to East - Coastal Research Library . Vol. 19 Cham: Springer Nature, 2017. 15 - 35. (DOI:10.1007/978-3-319-49894-2_2) (ISBN: 978-3-319-49892-8 )
op_relation http://dx.doi.org/10.1007/978-3-319-49894-2_2
urn:isbn:978-3-319-49892-8
https://publications.hereon.de/id/35445
https://publications.hzg.de/id/35445
op_rights info:eu-repo/semantics/closedAccess
op_doi https://doi.org/10.1007/978-3-319-49894-2_2
container_start_page 15
op_container_end_page 35
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