Organ health and development in larval kingfish are unaffected by ocean acidification and warming

Anthropogenic CO(2) emissions are causing global ocean warming and ocean acidification. The early life stages of some marine fish are vulnerable to elevated ocean temperatures and CO(2) concentrations, with lowered survival and growth rates most frequently documented. Underlying these effects, damag...

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Bibliographic Details
Published in:PeerJ
Main Authors: Frommel, Andrea Y., Brauner, Colin J., Allan, Bridie J.M., Nicol, Simon, Parsons, Darren M., Pether, Steve M.J., Setiawan, Alvin N., Smith, Neville, Munday, Philip L.
Format: Text
Language:English
Published: PeerJ Inc. 2019
Subjects:
Aquaculture
Fisheries and Fish Science
Ocean acidification
Online Access:http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6911692/
http://www.ncbi.nlm.nih.gov/pubmed/31844598
https://doi.org/10.7717/peerj.8266
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Summary:Anthropogenic CO(2) emissions are causing global ocean warming and ocean acidification. The early life stages of some marine fish are vulnerable to elevated ocean temperatures and CO(2) concentrations, with lowered survival and growth rates most frequently documented. Underlying these effects, damage to different organs has been found as a response to elevated CO(2) in larvae of several species of marine fish, yet the combined effects of acidification and warming on organ health are unknown. Yellowtail kingfish, Seriola lalandi, a circumglobal subtropical pelagic fish of high commercial and recreational value, were reared from fertilization under control (21 °C) and elevated (25 °C) temperature conditions fully crossed with control (500 µatm) and elevated (1,000 µatm) pCO(2) conditions. Larvae were sampled at 11 days and 21 days post hatch for histological analysis of the eye, gills, gut, liver, pancreas, kidney and liver. Previous work found elevated temperature, but not elevated CO(2), significantly reduced larval kingfish survival while increasing growth and developmental rate. The current histological analysis aimed to determine whether there were additional sublethal effects on organ condition and development and whether underlying organ damage could be responsible for the documented effects of temperature on survivorship. While damage to different organs was found in a number of larvae, these effects were not related to temperature and/or CO(2) treatment. We conclude that kingfish larvae are generally vulnerable during organogenesis of the digestive system in their early development, but that this will not be exacerbated by near-future ocean warming and acidification.

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