Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification

Estimating the heritability and genotype by environment (GxE) interactions of performance-related traits (e.g., growth, survival, reproduction) under future ocean conditions is necessary for inferring the adaptive potential of marine species to climate change. To date, no studies have used quantitat...

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Published in:Frontiers in Ecology and Evolution
Main Authors: Munday, Philip L., Schunter, Celia, Allan, Bridie M.J., Nicol, Simon, Pether, Stephen M.J., Pope, Stephen, Ravasi, Timothy, Setiawan, Alvin N., Smith, Neville, Domingos, Jose A.
Format: Article in Journal/Newspaper
Language:unknown
Published: Frontiers Research Foundation 2019
Subjects:
Ocean acidification
Online Access:https://researchonline.jcu.edu.au/60316/1/60316_Munday_et_al_2019.pdf
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spelling ftjamescook:oai:researchonline.jcu.edu.au:60316 2024-02-11T10:07:36+01:00 Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification Munday, Philip L. Schunter, Celia Allan, Bridie M.J. Nicol, Simon Pether, Stephen M.J. Pope, Stephen Ravasi, Timothy Setiawan, Alvin N. Smith, Neville Domingos, Jose A. 2019 application/pdf https://researchonline.jcu.edu.au/60316/1/60316_Munday_et_al_2019.pdf unknown Frontiers Research Foundation https://doi.org/10.3389/fevo.2019.00253 https://researchonline.jcu.edu.au/60316/ https://researchonline.jcu.edu.au/60316/1/60316_Munday_et_al_2019.pdf Munday, Philip L., Schunter, Celia, Allan, Bridie M.J., Nicol, Simon, Pether, Stephen M.J., Pope, Stephen, Ravasi, Timothy, Setiawan, Alvin N., Smith, Neville, and Domingos, Jose A. (2019) Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification. Frontiers in Ecology and Evolution, 7. 253. open Article PeerReviewed 2019 ftjamescook https://doi.org/10.3389/fevo.2019.00253 2024-01-22T23:44:30Z Estimating the heritability and genotype by environment (GxE) interactions of performance-related traits (e.g., growth, survival, reproduction) under future ocean conditions is necessary for inferring the adaptive potential of marine species to climate change. To date, no studies have used quantitative genetics techniques to test the adaptive potential of large pelagic fishes to the combined effects of elevated water temperature and ocean acidification. We used an experimental approach to test for heritability and GxE interactions in morphological traits of juvenile yellowtail kingfish, Seriola lalandi, under current-day and predicted future ocean conditions. We also tracked the fate of genetic diversity among treatments over the experimental period to test for selection favoring some genotypes over others under elevated temperature and CO2. Specifically, we reared kingfish to 21 days post hatching (dph) in a fully crossed 2 × 2 experimental design comprising current-day average summer temperature (21°C) and seawater pCO2 (500 μatm CO2) and elevated temperature (25°C) and seawater pCO2 (1,000 μatm CO2). We sampled larvae and juveniles at 1, 11, and 21 dph and identified family of origin of each fish (1,942 in total) by DNA parentage analysis. The animal model was used to estimate heritability of morphological traits and test for GxE interactions among the experimental treatments at 21 dph. Elevated temperature, but not elevated CO2 affected all morphological traits. Weight, length and other morphological traits in juvenile yellowtail kingfish exhibited low but significant heritability under current day and elevated temperature. However, there were no measurable GxE interactions in morphological traits between the two temperature treatments at 21 dph. Similarly, there was no detectable change in any of the measures of genetic diversity over the duration of the experiment. Nonetheless, one family exhibited differential survivorship between temperatures, declining in relative abundance between 1 and 21 dph at 21°C, ... Article in Journal/Newspaper Ocean acidification James Cook University, Australia: ResearchOnline@JCU Frontiers in Ecology and Evolution 7
institution Open Polar
collection James Cook University, Australia: ResearchOnline@JCU
op_collection_id ftjamescook
language unknown
description Estimating the heritability and genotype by environment (GxE) interactions of performance-related traits (e.g., growth, survival, reproduction) under future ocean conditions is necessary for inferring the adaptive potential of marine species to climate change. To date, no studies have used quantitative genetics techniques to test the adaptive potential of large pelagic fishes to the combined effects of elevated water temperature and ocean acidification. We used an experimental approach to test for heritability and GxE interactions in morphological traits of juvenile yellowtail kingfish, Seriola lalandi, under current-day and predicted future ocean conditions. We also tracked the fate of genetic diversity among treatments over the experimental period to test for selection favoring some genotypes over others under elevated temperature and CO2. Specifically, we reared kingfish to 21 days post hatching (dph) in a fully crossed 2 × 2 experimental design comprising current-day average summer temperature (21°C) and seawater pCO2 (500 μatm CO2) and elevated temperature (25°C) and seawater pCO2 (1,000 μatm CO2). We sampled larvae and juveniles at 1, 11, and 21 dph and identified family of origin of each fish (1,942 in total) by DNA parentage analysis. The animal model was used to estimate heritability of morphological traits and test for GxE interactions among the experimental treatments at 21 dph. Elevated temperature, but not elevated CO2 affected all morphological traits. Weight, length and other morphological traits in juvenile yellowtail kingfish exhibited low but significant heritability under current day and elevated temperature. However, there were no measurable GxE interactions in morphological traits between the two temperature treatments at 21 dph. Similarly, there was no detectable change in any of the measures of genetic diversity over the duration of the experiment. Nonetheless, one family exhibited differential survivorship between temperatures, declining in relative abundance between 1 and 21 dph at 21°C, ...
format Article in Journal/Newspaper
author Munday, Philip L.
Schunter, Celia
Allan, Bridie M.J.
Nicol, Simon
Pether, Stephen M.J.
Pope, Stephen
Ravasi, Timothy
Setiawan, Alvin N.
Smith, Neville
Domingos, Jose A.
spellingShingle Munday, Philip L.
Schunter, Celia
Allan, Bridie M.J.
Nicol, Simon
Pether, Stephen M.J.
Pope, Stephen
Ravasi, Timothy
Setiawan, Alvin N.
Smith, Neville
Domingos, Jose A.
Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification
author_facet Munday, Philip L.
Schunter, Celia
Allan, Bridie M.J.
Nicol, Simon
Pether, Stephen M.J.
Pope, Stephen
Ravasi, Timothy
Setiawan, Alvin N.
Smith, Neville
Domingos, Jose A.
author_sort Munday, Philip L.
title Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification
title_short Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification
title_full Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification
title_fullStr Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification
title_full_unstemmed Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification
title_sort testing the adaptive potential of yellowtail kingfish to ocean warming and acidification
publisher Frontiers Research Foundation
publishDate 2019
url https://researchonline.jcu.edu.au/60316/1/60316_Munday_et_al_2019.pdf
genre Ocean acidification
genre_facet Ocean acidification
op_relation https://doi.org/10.3389/fevo.2019.00253
https://researchonline.jcu.edu.au/60316/
https://researchonline.jcu.edu.au/60316/1/60316_Munday_et_al_2019.pdf
Munday, Philip L., Schunter, Celia, Allan, Bridie M.J., Nicol, Simon, Pether, Stephen M.J., Pope, Stephen, Ravasi, Timothy, Setiawan, Alvin N., Smith, Neville, and Domingos, Jose A. (2019) Testing the adaptive potential of yellowtail kingfish to ocean warming and acidification. Frontiers in Ecology and Evolution, 7. 253.
op_rights open
op_doi https://doi.org/10.3389/fevo.2019.00253
container_title Frontiers in Ecology and Evolution
container_volume 7
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