Analysis of ecologically relevant sea ice and ocean variables for the Southern Ocean using a high-resolution model to inform ecosystem studies
Southern Ocean organisms are uniquely adapted to the extreme environmental conditions that characterise this region, making them especially vulnerable to climate change. Alterations to the physical environment have already been linked to alterations in the structure and functioning of entire ecosyst...
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crescholarship:10.32942/x2261p 2024-09-09T20:07:32+00:00 Analysis of ecologically relevant sea ice and ocean variables for the Southern Ocean using a high-resolution model to inform ecosystem studies Fierro Arcos, Denisse Corney, Stuart Meyer, Amelie Hayashida, Hakase Kiss, Andrew Heil, Petra 2024 http://dx.doi.org/10.32942/x2261p unknown California Digital Library (CDL) posted-content 2024 crescholarship https://doi.org/10.32942/x2261p 2024-07-04T04:31:46Z Southern Ocean organisms are uniquely adapted to the extreme environmental conditions that characterise this region, making them especially vulnerable to climate change. Alterations to the physical environment have already been linked to alterations in the structure and functioning of entire ecosystems, and ecological disruptions are expected to continue to occur. Although our understanding of the physical processes driving ecological change in the Southern Ocean has improved in recent years, signi?ficant knowledge gaps remain largely as a result of insufficient observational data being available. High resolution ocean models are an important tool that can help us overcome data scarcity. However, models generally contain biases that may affect their ability to accurately represent environmental conditions in the region of interest. Thus, their outputs must be evaluated before they can be used to answer questions about ecological impacts. Here, we examined the suitability of ACCESS-OM2-01, a high-resolution coupled ocean-sea ice model, for ecological applications. We provide a template for testing the suitability of model outputs for ecological applications, as well as quantitative estimates of changes in key environmental variables for the Southern Ocean over the recent past. Our results highlight the heterogeneous nature of the mean state of the environmental variables examined and their trends across the Southern Ocean. Our assessment shows that the ACCESS-OM2-01 model performance differs across variables, but overall, it does a reasonable job in reproducing the observed seasonal cycle and broad baseline climatological conditions of the mixed layer depth and sea ice variables for the Southern Ocean over the half century. Model performance also varies across space and time, which reflect gaps in our understanding of how different atmospheric and oceanographic mechanisms interact to drive change in the variables examined. These results emphasise the importance of understanding the capabilities and shortcomings ... Other/Unknown Material Sea ice Southern Ocean eScholarship Repository (University of California) Southern Ocean |
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Southern Ocean organisms are uniquely adapted to the extreme environmental conditions that characterise this region, making them especially vulnerable to climate change. Alterations to the physical environment have already been linked to alterations in the structure and functioning of entire ecosystems, and ecological disruptions are expected to continue to occur. Although our understanding of the physical processes driving ecological change in the Southern Ocean has improved in recent years, signi?ficant knowledge gaps remain largely as a result of insufficient observational data being available. High resolution ocean models are an important tool that can help us overcome data scarcity. However, models generally contain biases that may affect their ability to accurately represent environmental conditions in the region of interest. Thus, their outputs must be evaluated before they can be used to answer questions about ecological impacts. Here, we examined the suitability of ACCESS-OM2-01, a high-resolution coupled ocean-sea ice model, for ecological applications. We provide a template for testing the suitability of model outputs for ecological applications, as well as quantitative estimates of changes in key environmental variables for the Southern Ocean over the recent past. Our results highlight the heterogeneous nature of the mean state of the environmental variables examined and their trends across the Southern Ocean. Our assessment shows that the ACCESS-OM2-01 model performance differs across variables, but overall, it does a reasonable job in reproducing the observed seasonal cycle and broad baseline climatological conditions of the mixed layer depth and sea ice variables for the Southern Ocean over the half century. Model performance also varies across space and time, which reflect gaps in our understanding of how different atmospheric and oceanographic mechanisms interact to drive change in the variables examined. These results emphasise the importance of understanding the capabilities and shortcomings ... |
format |
Other/Unknown Material |
author |
Fierro Arcos, Denisse Corney, Stuart Meyer, Amelie Hayashida, Hakase Kiss, Andrew Heil, Petra |
spellingShingle |
Fierro Arcos, Denisse Corney, Stuart Meyer, Amelie Hayashida, Hakase Kiss, Andrew Heil, Petra Analysis of ecologically relevant sea ice and ocean variables for the Southern Ocean using a high-resolution model to inform ecosystem studies |
author_facet |
Fierro Arcos, Denisse Corney, Stuart Meyer, Amelie Hayashida, Hakase Kiss, Andrew Heil, Petra |
author_sort |
Fierro Arcos, Denisse |
title |
Analysis of ecologically relevant sea ice and ocean variables for the Southern Ocean using a high-resolution model to inform ecosystem studies |
title_short |
Analysis of ecologically relevant sea ice and ocean variables for the Southern Ocean using a high-resolution model to inform ecosystem studies |
title_full |
Analysis of ecologically relevant sea ice and ocean variables for the Southern Ocean using a high-resolution model to inform ecosystem studies |
title_fullStr |
Analysis of ecologically relevant sea ice and ocean variables for the Southern Ocean using a high-resolution model to inform ecosystem studies |
title_full_unstemmed |
Analysis of ecologically relevant sea ice and ocean variables for the Southern Ocean using a high-resolution model to inform ecosystem studies |
title_sort |
analysis of ecologically relevant sea ice and ocean variables for the southern ocean using a high-resolution model to inform ecosystem studies |
publisher |
California Digital Library (CDL) |
publishDate |
2024 |
url |
http://dx.doi.org/10.32942/x2261p |
geographic |
Southern Ocean |
geographic_facet |
Southern Ocean |
genre |
Sea ice Southern Ocean |
genre_facet |
Sea ice Southern Ocean |
op_doi |
https://doi.org/10.32942/x2261p |
_version_ |
1809940989788291072 |