A Regional Vulnerability Assessment for the Dungeness Crab (Metacarcinus magister) to Changing Ocean Conditions: Insights From Model Projections and Empirical Experiments

Among global coastal regions, the Northern California Current System (N-CCS) is already experiencing effects from ocean acidification and hypoxia during the summer, primarily due to the region’s seasonal upwelling, current systems, and high productivity. Oxygen, pH, and temperature conditions are ex...

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Other Authors: Berger, Halle (Creator), Matassa, Catherine (Major Advisor), Siedlecki, Samantha (Co-Major Advisor), Dam, Hans (Associate Advisor), Baumann, Hannes (Associate Advisor), University of Connecticut (Degree grantor)
Format: Text
Language:unknown
Published: University of Connecticut 2020
Subjects:
Ocean acidification
Online Access:http://hdl.handle.net/11134/20002:860706929
https://digitalcollections.ctstatelibrary.org/islandora/object/20002%3A860706929/datastream/TN/view/Regional%20Vulnerability%20Assessment%20for%20the%20Dungeness%20Crab%20%28Metacarcinus%20magister%29%20to%20Changing%20Ocean%20Conditions%3A%20Insights%20From%20Model%20Projections%20and%20Empirical%20Experiments.jpg
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spelling ftconnecticstlib:oai:oai:collections.ctdigitalarchive.org:20002_860706929 2023-05-15T17:52:03+02:00 A Regional Vulnerability Assessment for the Dungeness Crab (Metacarcinus magister) to Changing Ocean Conditions: Insights From Model Projections and Empirical Experiments Berger, Halle (Creator) Matassa, Catherine (Major Advisor) Siedlecki, Samantha (Co-Major Advisor) Dam, Hans (Associate Advisor) Baumann, Hannes (Associate Advisor) University of Connecticut (Degree grantor) 2020 application/pdf http://hdl.handle.net/11134/20002:860706929 https://digitalcollections.ctstatelibrary.org/islandora/object/20002%3A860706929/datastream/TN/view/Regional%20Vulnerability%20Assessment%20for%20the%20Dungeness%20Crab%20%28Metacarcinus%20magister%29%20to%20Changing%20Ocean%20Conditions%3A%20Insights%20From%20Model%20Projections%20and%20Empirical%20Experiments.jpg unknown University of Connecticut 20002:860706929 local: OC_th_1543 http://hdl.handle.net/11134/20002:860706929 https://digitalcollections.ctstatelibrary.org/islandora/object/20002%3A860706929/datastream/TN/view/Regional%20Vulnerability%20Assessment%20for%20the%20Dungeness%20Crab%20%28Metacarcinus%20magister%29%20to%20Changing%20Ocean%20Conditions%3A%20Insights%20From%20Model%20Projections%20and%20Empirical%20Experiments.jpg These Materials are provided for educational and research purposes only. Text masters theses 2020 ftconnecticstlib 2022-09-20T07:19:42Z Among global coastal regions, the Northern California Current System (N-CCS) is already experiencing effects from ocean acidification and hypoxia during the summer, primarily due to the region’s seasonal upwelling, current systems, and high productivity. Oxygen, pH, and temperature conditions are expected to become more stressful with continued fossil fuel emissions under global climate change, posing a serious threat to the region’s fisheries. N-CCS fishing communities rely heavily on the economically and culturally important Dungeness crab (Metacarcinus magister). The fishery is currently sustainably managed, but potential negative impacts from changing ocean conditions on Dungeness crab life stages and populations could have adverse effects for the fishery and the communities that rely on it. To quantify the vulnerability of Dungeness crab life stages and populations to predicted future conditions, both model projections and empirical experiments need to be employed. A semi-quantitative, life stage-specific framework was adapted here to assess the vulnerability of Dungeness crab to low pH, low dissolved oxygen, and high temperature under present and future projected conditions in the seasonally dynamic N-CCS. This was achieved using a combination of regional ocean models, species distribution maps, larval transport models, a population matrix model, and a literature review. This multi-faceted approach revealed that crab vulnerability to the three climate stressors will increase in the future (year 2100) under the most intense emissions scenario, with vulnerability to low oxygen being the most severe to the N-CCS population overall. Increases in vulnerability were largely driven by the adult life stage, which contributes the most to population growth. Empirical experiments demonstrated that adult crab respiration rates increase exponentially with temperature, potentially making this life stage more susceptible to hypoxia in the future. Together, this work provides novel insights into the effects of changing ... Text Ocean acidification Connecticut Digital Archive
institution Open Polar
collection Connecticut Digital Archive
op_collection_id ftconnecticstlib
language unknown
description Among global coastal regions, the Northern California Current System (N-CCS) is already experiencing effects from ocean acidification and hypoxia during the summer, primarily due to the region’s seasonal upwelling, current systems, and high productivity. Oxygen, pH, and temperature conditions are expected to become more stressful with continued fossil fuel emissions under global climate change, posing a serious threat to the region’s fisheries. N-CCS fishing communities rely heavily on the economically and culturally important Dungeness crab (Metacarcinus magister). The fishery is currently sustainably managed, but potential negative impacts from changing ocean conditions on Dungeness crab life stages and populations could have adverse effects for the fishery and the communities that rely on it. To quantify the vulnerability of Dungeness crab life stages and populations to predicted future conditions, both model projections and empirical experiments need to be employed. A semi-quantitative, life stage-specific framework was adapted here to assess the vulnerability of Dungeness crab to low pH, low dissolved oxygen, and high temperature under present and future projected conditions in the seasonally dynamic N-CCS. This was achieved using a combination of regional ocean models, species distribution maps, larval transport models, a population matrix model, and a literature review. This multi-faceted approach revealed that crab vulnerability to the three climate stressors will increase in the future (year 2100) under the most intense emissions scenario, with vulnerability to low oxygen being the most severe to the N-CCS population overall. Increases in vulnerability were largely driven by the adult life stage, which contributes the most to population growth. Empirical experiments demonstrated that adult crab respiration rates increase exponentially with temperature, potentially making this life stage more susceptible to hypoxia in the future. Together, this work provides novel insights into the effects of changing ...
author2 Berger, Halle (Creator)
Matassa, Catherine (Major Advisor)
Siedlecki, Samantha (Co-Major Advisor)
Dam, Hans (Associate Advisor)
Baumann, Hannes (Associate Advisor)
University of Connecticut (Degree grantor)
format Text
title A Regional Vulnerability Assessment for the Dungeness Crab (Metacarcinus magister) to Changing Ocean Conditions: Insights From Model Projections and Empirical Experiments
spellingShingle A Regional Vulnerability Assessment for the Dungeness Crab (Metacarcinus magister) to Changing Ocean Conditions: Insights From Model Projections and Empirical Experiments
title_short A Regional Vulnerability Assessment for the Dungeness Crab (Metacarcinus magister) to Changing Ocean Conditions: Insights From Model Projections and Empirical Experiments
title_full A Regional Vulnerability Assessment for the Dungeness Crab (Metacarcinus magister) to Changing Ocean Conditions: Insights From Model Projections and Empirical Experiments
title_fullStr A Regional Vulnerability Assessment for the Dungeness Crab (Metacarcinus magister) to Changing Ocean Conditions: Insights From Model Projections and Empirical Experiments
title_full_unstemmed A Regional Vulnerability Assessment for the Dungeness Crab (Metacarcinus magister) to Changing Ocean Conditions: Insights From Model Projections and Empirical Experiments
title_sort regional vulnerability assessment for the dungeness crab (metacarcinus magister) to changing ocean conditions: insights from model projections and empirical experiments
publisher University of Connecticut
publishDate 2020
url http://hdl.handle.net/11134/20002:860706929
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genre Ocean acidification
genre_facet Ocean acidification
op_relation 20002:860706929
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http://hdl.handle.net/11134/20002:860706929
https://digitalcollections.ctstatelibrary.org/islandora/object/20002%3A860706929/datastream/TN/view/Regional%20Vulnerability%20Assessment%20for%20the%20Dungeness%20Crab%20%28Metacarcinus%20magister%29%20to%20Changing%20Ocean%20Conditions%3A%20Insights%20From%20Model%20Projections%20and%20Empirical%20Experiments.jpg
op_rights These Materials are provided for educational and research purposes only.
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