Modeling the Arctic freshwater system and its integration in the global system: Lessons learned and future challenges

Numerous components of the Arctic freshwater system (atmosphere, ocean, cryosphere, and terrestrial hydrology) have experienced large changes over the past few decades, and these changes are projected to amplify further in the future. Observations are particularly sparse, in both time and space, in...

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Veröffentlicht in:	Journal of geophysical research. Biogeosciences 2016-03, Vol.121 (3), p.540-566
Hauptverfasser:	Lique, Camille, Holland, Marika M., Dibike, Yonas B., Lawrence, David M., Screen, James A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Amplification Arctic freshwater Atmospheric models Brackish Cryosphere Earth Feeds Fish Fresh water Freshwaters Hierarchies Human influences Hydrology Lakes Marine Mathematical models modeling Modelling Nutrients Polar environments Sciences of the Universe Uncertainty
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container_title	Journal of geophysical research. Biogeosciences
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creator	Lique, Camille Holland, Marika M. Dibike, Yonas B. Lawrence, David M. Screen, James A.
description	Numerous components of the Arctic freshwater system (atmosphere, ocean, cryosphere, and terrestrial hydrology) have experienced large changes over the past few decades, and these changes are projected to amplify further in the future. Observations are particularly sparse, in both time and space, in the polar regions. Hence, modeling systems have been widely used and are a powerful tool to gain understanding on the functioning of the Arctic freshwater system and its integration within the global Earth system and climate. Here we present a review of modeling studies addressing some aspect of the Arctic freshwater system. Through illustrative examples, we point out the value of using a hierarchy of models with increasing complexity and component interactions, in order to dismantle the important processes at play for the variability and changes of the different components of the Arctic freshwater system and the interplay between them. We discuss past and projected changes for the Arctic freshwater system and explore the sources of uncertainty associated with these model results. We further elaborate on some missing processes that should be included in future generations of Earth system models and highlight the importance of better quantification and understanding of natural variability, among other factors, for improved predictions of Arctic freshwater system change. Key Points The use of a model hierarchy is a powerful tool to study the Arctic freshwater system functioning Model improvements are needed to narrow projection uncertainty associated with model deficiencies New strategies and validation tools will be useful in improving models moving forward
doi_str_mv	10.1002/2015JG003120
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Observations are particularly sparse, in both time and space, in the polar regions. Hence, modeling systems have been widely used and are a powerful tool to gain understanding on the functioning of the Arctic freshwater system and its integration within the global Earth system and climate. Here we present a review of modeling studies addressing some aspect of the Arctic freshwater system. Through illustrative examples, we point out the value of using a hierarchy of models with increasing complexity and component interactions, in order to dismantle the important processes at play for the variability and changes of the different components of the Arctic freshwater system and the interplay between them. We discuss past and projected changes for the Arctic freshwater system and explore the sources of uncertainty associated with these model results. We further elaborate on some missing processes that should be included in future generations of Earth system models and highlight the importance of better quantification and understanding of natural variability, among other factors, for improved predictions of Arctic freshwater system change. 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Biogeosciences</title><description>Numerous components of the Arctic freshwater system (atmosphere, ocean, cryosphere, and terrestrial hydrology) have experienced large changes over the past few decades, and these changes are projected to amplify further in the future. Observations are particularly sparse, in both time and space, in the polar regions. Hence, modeling systems have been widely used and are a powerful tool to gain understanding on the functioning of the Arctic freshwater system and its integration within the global Earth system and climate. Here we present a review of modeling studies addressing some aspect of the Arctic freshwater system. Through illustrative examples, we point out the value of using a hierarchy of models with increasing complexity and component interactions, in order to dismantle the important processes at play for the variability and changes of the different components of the Arctic freshwater system and the interplay between them. We discuss past and projected changes for the Arctic freshwater system and explore the sources of uncertainty associated with these model results. We further elaborate on some missing processes that should be included in future generations of Earth system models and highlight the importance of better quantification and understanding of natural variability, among other factors, for improved predictions of Arctic freshwater system change. 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subjects	Amplification Arctic freshwater Atmospheric models Brackish Cryosphere Earth Feeds Fish Fresh water Freshwaters Hierarchies Human influences Hydrology Lakes Marine Mathematical models modeling Modelling Nutrients Polar environments Sciences of the Universe Uncertainty
title	Modeling the Arctic freshwater system and its integration in the global system: Lessons learned and future challenges
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