Effect Of pH On The Early Development Of The Biofouling Ascidian Ciona robusta

Ocean acidification (OA) impacts the survival, fertilization, and community structure of marine organisms across the world. However, some populations or species are considered more resilient than others, such as those that are invasive, globally distributed, or biofouling. Here, we tested this assum...

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Main Authors: Jones, Bailey S. C. L., , '22, Holt, Lauren A., , '21, Chan, Kit Yu Karen
Format: Text
Language:unknown
Published: Works 2023
Subjects:
Tunicates
Tadpole
Larvae
Global climate change
Ocean acidification
Biology
Online Access:https://works.swarthmore.edu/fac-biology/654
https://doi.org/10.6620/ZS.2023.62-04
https://zoolstud.sinica.edu.tw/Journals/62/62-04.html
id ftswartmorecoll:oai:works.swarthmore.edu:fac-biology-1653
record_format openpolar
spelling ftswartmorecoll:oai:works.swarthmore.edu:fac-biology-1653 2024-01-14T10:09:36+01:00 Effect Of pH On The Early Development Of The Biofouling Ascidian Ciona robusta Jones, Bailey S. C. L., , '22 Holt, Lauren A., , '21 Chan, Kit Yu Karen 2023-03-20T07:00:00Z application/pdf https://works.swarthmore.edu/fac-biology/654 https://doi.org/10.6620/ZS.2023.62-04 https://zoolstud.sinica.edu.tw/Journals/62/62-04.html unknown Works https://works.swarthmore.edu/fac-biology/654 doi:10.6620/ZS.2023.62-04 https://zoolstud.sinica.edu.tw/Journals/62/62-04.html Biology Faculty Works Tunicates Tadpole Larvae Global climate change Ocean acidification Biology text 2023 ftswartmorecoll https://doi.org/10.6620/ZS.2023.62-04 2023-12-17T17:41:05Z Ocean acidification (OA) impacts the survival, fertilization, and community structure of marine organisms across the world. However, some populations or species are considered more resilient than others, such as those that are invasive, globally distributed, or biofouling. Here, we tested this assumption by investigating the effect of pH on the larval development of one such tunicate, Ciona robusta, which is currently exposed to a wide range of pH levels. Consistent with our hypothesis, C. robusta larvae developed and metamorphosed at a rate comparable to control (pH 8.0) at modest near-future conditions (pH 7.7) over a 58-hour period. However, development was stunted at the extreme low pH of 6.8 such that no embryo progressed beyond late cleavage after 58 hours. Interestingly, piecewise regression of the proportion of embryos at the most advanced stage at a given time point against pH identified a breakpoint with the highest pH (~pH 7.6) at around hatching. The variation in breakpoint pH throughout ontogeny highlighted that the sensitivity to decreasing pH differs significantly between developmental stages. More broadly, our results show that even a cosmopolitan, biofouling, invasive species could be negatively impacted by decreasing pH. Text Ocean acidification Swarthmore College: Works Tadpole ENVELOPE(-65.317,-65.317,-65.933,-65.933)
institution Open Polar
collection Swarthmore College: Works
op_collection_id ftswartmorecoll
language unknown
topic Tunicates
Tadpole
Larvae
Global climate change
Ocean acidification
Biology
spellingShingle Tunicates
Tadpole
Larvae
Global climate change
Ocean acidification
Biology
Jones, Bailey S. C. L., , '22
Holt, Lauren A., , '21
Chan, Kit Yu Karen
Effect Of pH On The Early Development Of The Biofouling Ascidian Ciona robusta
topic_facet Tunicates
Tadpole
Larvae
Global climate change
Ocean acidification
Biology
description Ocean acidification (OA) impacts the survival, fertilization, and community structure of marine organisms across the world. However, some populations or species are considered more resilient than others, such as those that are invasive, globally distributed, or biofouling. Here, we tested this assumption by investigating the effect of pH on the larval development of one such tunicate, Ciona robusta, which is currently exposed to a wide range of pH levels. Consistent with our hypothesis, C. robusta larvae developed and metamorphosed at a rate comparable to control (pH 8.0) at modest near-future conditions (pH 7.7) over a 58-hour period. However, development was stunted at the extreme low pH of 6.8 such that no embryo progressed beyond late cleavage after 58 hours. Interestingly, piecewise regression of the proportion of embryos at the most advanced stage at a given time point against pH identified a breakpoint with the highest pH (~pH 7.6) at around hatching. The variation in breakpoint pH throughout ontogeny highlighted that the sensitivity to decreasing pH differs significantly between developmental stages. More broadly, our results show that even a cosmopolitan, biofouling, invasive species could be negatively impacted by decreasing pH.
format Text
author Jones, Bailey S. C. L., , '22
Holt, Lauren A., , '21
Chan, Kit Yu Karen
author_facet Jones, Bailey S. C. L., , '22
Holt, Lauren A., , '21
Chan, Kit Yu Karen
author_sort Jones, Bailey S. C. L., , '22
title Effect Of pH On The Early Development Of The Biofouling Ascidian Ciona robusta
title_short Effect Of pH On The Early Development Of The Biofouling Ascidian Ciona robusta
title_full Effect Of pH On The Early Development Of The Biofouling Ascidian Ciona robusta
title_fullStr Effect Of pH On The Early Development Of The Biofouling Ascidian Ciona robusta
title_full_unstemmed Effect Of pH On The Early Development Of The Biofouling Ascidian Ciona robusta
title_sort effect of ph on the early development of the biofouling ascidian ciona robusta
publisher Works
publishDate 2023
url https://works.swarthmore.edu/fac-biology/654
https://doi.org/10.6620/ZS.2023.62-04
https://zoolstud.sinica.edu.tw/Journals/62/62-04.html
long_lat ENVELOPE(-65.317,-65.317,-65.933,-65.933)
geographic Tadpole
geographic_facet Tadpole
genre Ocean acidification
genre_facet Ocean acidification
op_source Biology Faculty Works
op_relation https://works.swarthmore.edu/fac-biology/654
doi:10.6620/ZS.2023.62-04
https://zoolstud.sinica.edu.tw/Journals/62/62-04.html
op_doi https://doi.org/10.6620/ZS.2023.62-04
_version_ 1788064148293156864

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