Sperm swimming in the polychaete Galeolaria caespitosa shows substantial inter-individual variability in response to future ocean acidification

The rapidity of ocean acidification intensifies selection pressure for resilient phenotypes, particularly during sensitive early life stages. The scope for selection is greater in species with greater within-species variation in responses to changing environments, thus enhancing the potential for ad...

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Bibliographic Details
Published in:Marine Pollution Bulletin
Main Authors: Schlegel, Peter, Havenhand, Jon N., Obadia, Nicolas, Williamson, Jane E.
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Broadcast spawning
CO
Galeolaria caespitosa
PH
Phenotypic variation
Serpulidae
Ocean acidification
Online Access:https://researchers.mq.edu.au/en/publications/93e41b4b-872c-4969-b6dc-f83321d88321
https://doi.org/10.1016/j.marpolbul.2013.10.040
https://research-management.mq.edu.au/ws/files/62416778/Publisher%20version.pdf
http://www.scopus.com/inward/record.url?scp=84892432287&partnerID=8YFLogxK
Description
Summary:The rapidity of ocean acidification intensifies selection pressure for resilient phenotypes, particularly during sensitive early life stages. The scope for selection is greater in species with greater within-species variation in responses to changing environments, thus enhancing the potential for adaptation. We investigated among-male variation in sperm swimming responses (percent motility and swimming speeds) of the serpulid polychaete Galeolaria caespitosa to near- (δpH -0.3) and far-future ocean acidification (δpH -0.5). Responses of sperm swimming to acidification varied significantly among males and were overall negative. Robust sperm swimming behavior under near-future ocean acidification in some males may ameliorate climate change impacts, if traits associated with robustness are heritable, and thereby enhance the potential for adaptation to far-future conditions. Reduced sperm swimming in the majority of male G. caespitosa may decrease their fertilization success in a high CO 2 future ocean. Resultant changes in offspring production could affect recruitment success and population fitness downstream.

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