Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms

Anthropogenic CO2 is changing the pCO2, temperature, and carbonate chemistry of seawater. These processes are termed ocean acidification (OA) and ocean warming. Previous studies suggest two opposing hypotheses for the way in which marine climate stress will influence echinoderm calcification, metabo...

Full description

Bibliographic Details
Main Author:	Randazzo, Hannah L.
Format:	Text
Language:	unknown
Published:	Bowdoin Digital Commons 2021
Subjects:	Echinoderm Ocean Acidification Ocean Warming Arm Regeneration Calcification Climate Ecology and Evolutionary Biology Marine Biology Ocean acidification
Online Access:	https://digitalcommons.bowdoin.edu/honorsprojects/222 https://digitalcommons.bowdoin.edu/cgi/viewcontent.cgi?article=1236&context=honorsprojects

id	ftbowdoincollege:oai:digitalcommons.bowdoin.edu:honorsprojects-1236
record_format	openpolar
spelling	ftbowdoincollege:oai:digitalcommons.bowdoin.edu:honorsprojects-1236 2023-05-15T17:50:06+02:00 Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms Randazzo, Hannah L. 2021-01-01T08:00:00Z application/pdf https://digitalcommons.bowdoin.edu/honorsprojects/222 https://digitalcommons.bowdoin.edu/cgi/viewcontent.cgi?article=1236&context=honorsprojects unknown Bowdoin Digital Commons https://digitalcommons.bowdoin.edu/honorsprojects/222 https://digitalcommons.bowdoin.edu/cgi/viewcontent.cgi?article=1236&context=honorsprojects Honors Projects Echinoderm Ocean Acidification Ocean Warming Arm Regeneration Calcification Climate Ecology and Evolutionary Biology Marine Biology text 2021 ftbowdoincollege 2023-02-24T06:38:17Z Anthropogenic CO2 is changing the pCO2, temperature, and carbonate chemistry of seawater. These processes are termed ocean acidification (OA) and ocean warming. Previous studies suggest two opposing hypotheses for the way in which marine climate stress will influence echinoderm calcification, metabolic efficiency, and reproduction: either an additive or synergistic effect. Sea stars have a regenerative capacity, which may be particularly affected while rebuilding calcium carbonate arm structures, leading to changes in arm growth and calcification. In this study, Asterias forbesi were exposed to ocean water of either ambient, high temperature, high pCO2, or high temperature and high pCO2 for 60 days, and the regeneration length of the amputated arm was measured weekly. Ocean acidification conditions (pCO2 ~1180 μatm) had a negative impact on regenerated arm length, and an increase in temperature of +4°C above ambient conditions (Fall, Southern Gulf of Maine) had a positive effect on regenerated arm length, but the additive effects of these two factors resulted in smaller regenerated arms compared to ambient conditions. Sea stars regenerating under high pCO2 exhibited a lower proportion of calcified mass, which could be the result of a more energetically demanding calcification process associated with marine climate stress. These results indicate that A. forbesi calcification is sensitive to increasing pCO2, and that climate change will have an overall net negative effect on sea star arm regeneration. Such effects could translate into lower predation rates by a key consumer in the temperate rocky intertidal of North America. Text Ocean acidification Bowdoin College: Bowdoin Digital Commons
institution	Open Polar
collection	Bowdoin College: Bowdoin Digital Commons
op_collection_id	ftbowdoincollege
language	unknown
topic	Echinoderm Ocean Acidification Ocean Warming Arm Regeneration Calcification Climate Ecology and Evolutionary Biology Marine Biology
spellingShingle	Echinoderm Ocean Acidification Ocean Warming Arm Regeneration Calcification Climate Ecology and Evolutionary Biology Marine Biology Randazzo, Hannah L. Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms
topic_facet	Echinoderm Ocean Acidification Ocean Warming Arm Regeneration Calcification Climate Ecology and Evolutionary Biology Marine Biology
description	Anthropogenic CO2 is changing the pCO2, temperature, and carbonate chemistry of seawater. These processes are termed ocean acidification (OA) and ocean warming. Previous studies suggest two opposing hypotheses for the way in which marine climate stress will influence echinoderm calcification, metabolic efficiency, and reproduction: either an additive or synergistic effect. Sea stars have a regenerative capacity, which may be particularly affected while rebuilding calcium carbonate arm structures, leading to changes in arm growth and calcification. In this study, Asterias forbesi were exposed to ocean water of either ambient, high temperature, high pCO2, or high temperature and high pCO2 for 60 days, and the regeneration length of the amputated arm was measured weekly. Ocean acidification conditions (pCO2 ~1180 μatm) had a negative impact on regenerated arm length, and an increase in temperature of +4°C above ambient conditions (Fall, Southern Gulf of Maine) had a positive effect on regenerated arm length, but the additive effects of these two factors resulted in smaller regenerated arms compared to ambient conditions. Sea stars regenerating under high pCO2 exhibited a lower proportion of calcified mass, which could be the result of a more energetically demanding calcification process associated with marine climate stress. These results indicate that A. forbesi calcification is sensitive to increasing pCO2, and that climate change will have an overall net negative effect on sea star arm regeneration. Such effects could translate into lower predation rates by a key consumer in the temperate rocky intertidal of North America.
format	Text
author	Randazzo, Hannah L.
author_facet	Randazzo, Hannah L.
author_sort	Randazzo, Hannah L.
title	Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms
title_short	Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms
title_full	Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms
title_fullStr	Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms
title_full_unstemmed	Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms
title_sort	down in arms: marine climate stress inhibits growth and calcification of regenerating asterias forbesi (echinodermata: asteroidea ) arms
publisher	Bowdoin Digital Commons
publishDate	2021
url	https://digitalcommons.bowdoin.edu/honorsprojects/222 https://digitalcommons.bowdoin.edu/cgi/viewcontent.cgi?article=1236&context=honorsprojects
genre	Ocean acidification
genre_facet	Ocean acidification
op_source	Honors Projects
op_relation	https://digitalcommons.bowdoin.edu/honorsprojects/222 https://digitalcommons.bowdoin.edu/cgi/viewcontent.cgi?article=1236&context=honorsprojects
_version_	1766156705665646592

Down in arms: Marine climate stress inhibits growth and calcification of regenerating Asterias forbesi (Echinodermata: Asteroidea ) arms

Similar Items