Ocean acidification alters morphology of all otolith types in Clark’s anemonefish ( Amphiprion clarkii)

Ocean acidification, the ongoing decline of surface ocean pH and [CO 3 2- ] due to absorption of surplus atmospheric CO 2 , has far-reaching consequences for marine biota, especially calcifiers. Among these are teleost fishes, which internally calcify otoliths, critical elements of the inner ear and...

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Main Authors: Holmberg, Robert, Wilcox-Freeburg, Eric, Rhyne, Andrew L, Tlusty, Michael F, Stebbins, Alan, Nye Jr., Steven W, Honig, Aaron, Johnston, Amy E, San Antonio, Christine M, Bourque, Bradford, Hannigan, Robyn E
Format: Other/Unknown Material
Language:unknown
Published: PeerJ 2018
Subjects:
Ocean acidification
Online Access:http://dx.doi.org/10.7287/peerj.preprints.27040
https://peerj.com/preprints/27040.pdf
https://peerj.com/preprints/27040.xml
https://peerj.com/preprints/27040.html
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spelling crpeerj:10.7287/peerj.preprints.27040 2024-06-02T08:12:29+00:00 Ocean acidification alters morphology of all otolith types in Clark’s anemonefish ( Amphiprion clarkii) Holmberg, Robert Wilcox-Freeburg, Eric Rhyne, Andrew L Tlusty, Michael F Stebbins, Alan Nye Jr., Steven W Honig, Aaron Johnston, Amy E San Antonio, Christine M Bourque, Bradford Hannigan, Robyn E 2018 http://dx.doi.org/10.7287/peerj.preprints.27040 https://peerj.com/preprints/27040.pdf https://peerj.com/preprints/27040.xml https://peerj.com/preprints/27040.html unknown PeerJ http://creativecommons.org/licenses/by/4.0/ posted-content 2018 crpeerj https://doi.org/10.7287/peerj.preprints.27040 2024-05-07T14:13:44Z Ocean acidification, the ongoing decline of surface ocean pH and [CO 3 2- ] due to absorption of surplus atmospheric CO 2 , has far-reaching consequences for marine biota, especially calcifiers. Among these are teleost fishes, which internally calcify otoliths, critical elements of the inner ear and vestibular system. There is evidence in the literature that ocean acidification increases otolith size and alters shape, perhaps impacting otic mechanics and thus sensory perception. However, existing analyses of otolith morphological responses to ocean acidification are limited to 2-dimensional morphometrics and shape analysis. Here, we reared larval Clark’s anemonefish, Amphiprion clarkii (Bennett, 1830), in various seawater pH treatments analogous to future ocean scenarios in a 3x-replicated experimental design. Upon settlement, we removed all otoliths from each individual fish and analyzed them for treatment effects on morphometrics including area, perimeter, and circularity; further, we used scanning electron microscopy to screen otoliths visually for evidence of treatment effects on lateral development, surface roughness, and vaterite replacement. Our results corroborate those of other experiments with other taxa that observed otolith growth with elevated pCO 2 , and provide evidence that lateral development and surface roughness increased as well; we observed at least one of these effects in all otolith types. Finally, we review previous work investigating ocean acidification impacts on otolith morphology and hypotheses concerning function, placing our observations in context. These impacts may have consequences teleost fitness in the near-future ocean. Other/Unknown Material Ocean acidification PeerJ Publishing
institution Open Polar
collection PeerJ Publishing
op_collection_id crpeerj
language unknown
description Ocean acidification, the ongoing decline of surface ocean pH and [CO 3 2- ] due to absorption of surplus atmospheric CO 2 , has far-reaching consequences for marine biota, especially calcifiers. Among these are teleost fishes, which internally calcify otoliths, critical elements of the inner ear and vestibular system. There is evidence in the literature that ocean acidification increases otolith size and alters shape, perhaps impacting otic mechanics and thus sensory perception. However, existing analyses of otolith morphological responses to ocean acidification are limited to 2-dimensional morphometrics and shape analysis. Here, we reared larval Clark’s anemonefish, Amphiprion clarkii (Bennett, 1830), in various seawater pH treatments analogous to future ocean scenarios in a 3x-replicated experimental design. Upon settlement, we removed all otoliths from each individual fish and analyzed them for treatment effects on morphometrics including area, perimeter, and circularity; further, we used scanning electron microscopy to screen otoliths visually for evidence of treatment effects on lateral development, surface roughness, and vaterite replacement. Our results corroborate those of other experiments with other taxa that observed otolith growth with elevated pCO 2 , and provide evidence that lateral development and surface roughness increased as well; we observed at least one of these effects in all otolith types. Finally, we review previous work investigating ocean acidification impacts on otolith morphology and hypotheses concerning function, placing our observations in context. These impacts may have consequences teleost fitness in the near-future ocean.
format Other/Unknown Material
author Holmberg, Robert
Wilcox-Freeburg, Eric
Rhyne, Andrew L
Tlusty, Michael F
Stebbins, Alan
Nye Jr., Steven W
Honig, Aaron
Johnston, Amy E
San Antonio, Christine M
Bourque, Bradford
Hannigan, Robyn E
spellingShingle Holmberg, Robert
Wilcox-Freeburg, Eric
Rhyne, Andrew L
Tlusty, Michael F
Stebbins, Alan
Nye Jr., Steven W
Honig, Aaron
Johnston, Amy E
San Antonio, Christine M
Bourque, Bradford
Hannigan, Robyn E
Ocean acidification alters morphology of all otolith types in Clark’s anemonefish ( Amphiprion clarkii)
author_facet Holmberg, Robert
Wilcox-Freeburg, Eric
Rhyne, Andrew L
Tlusty, Michael F
Stebbins, Alan
Nye Jr., Steven W
Honig, Aaron
Johnston, Amy E
San Antonio, Christine M
Bourque, Bradford
Hannigan, Robyn E
author_sort Holmberg, Robert
title Ocean acidification alters morphology of all otolith types in Clark’s anemonefish ( Amphiprion clarkii)
title_short Ocean acidification alters morphology of all otolith types in Clark’s anemonefish ( Amphiprion clarkii)
title_full Ocean acidification alters morphology of all otolith types in Clark’s anemonefish ( Amphiprion clarkii)
title_fullStr Ocean acidification alters morphology of all otolith types in Clark’s anemonefish ( Amphiprion clarkii)
title_full_unstemmed Ocean acidification alters morphology of all otolith types in Clark’s anemonefish ( Amphiprion clarkii)
title_sort ocean acidification alters morphology of all otolith types in clark’s anemonefish ( amphiprion clarkii)
publisher PeerJ
publishDate 2018
url http://dx.doi.org/10.7287/peerj.preprints.27040
https://peerj.com/preprints/27040.pdf
https://peerj.com/preprints/27040.xml
https://peerj.com/preprints/27040.html
genre Ocean acidification
genre_facet Ocean acidification
op_rights http://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.7287/peerj.preprints.27040
_version_ 1800758918193872896

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