An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system

Ocean acidification (OA) is likely to exert selective pressure on natural populations. Our ability to predict which marine species will adapt to OA and what underlies this adaptive potential is of high conservation and resource management priority. Using a naturally low-pH vent site in the Mediterra...

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Published in:Evolutionary Applications
Main Authors: Lucey, Noelle M., Lombardi, Chiara, Florio, Maurizio, DeMarchi, Lucia, Nannini, Matteo, Rundle, Simon D., Gambi, Maria Cristina, Calosi, Piero
Format: Article in Journal/Newspaper
Language:French
Published: 2016
Subjects:
Ocean acidification
Online Access:https://semaphore.uqar.ca/id/eprint/2164/
https://semaphore.uqar.ca/id/eprint/2164/1/Noelle_M._Lucey_et_al_juin2016.pdf
https://doi.org/10.1111/eva.12400
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spelling ftunivquebecar:oai:semaphore.uqar.ca:2164 2023-11-05T03:44:30+01:00 An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system Lucey, Noelle M. Lombardi, Chiara Florio, Maurizio DeMarchi, Lucia Nannini, Matteo Rundle, Simon D. Gambi, Maria Cristina Calosi, Piero 2016-10 application/pdf https://semaphore.uqar.ca/id/eprint/2164/ https://semaphore.uqar.ca/id/eprint/2164/1/Noelle_M._Lucey_et_al_juin2016.pdf https://doi.org/10.1111/eva.12400 fr fre https://semaphore.uqar.ca/id/eprint/2164/1/Noelle_M._Lucey_et_al_juin2016.pdf Lucey, Noelle M., Lombardi, Chiara, Florio, Maurizio, DeMarchi, Lucia, Nannini, Matteo, Rundle, Simon D., Gambi, Maria Cristina et Calosi, Piero orcid:0000-0003-3378-2603 (2016). An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system. Evolutionary Applications, 9 (9). pp. 1054-1071. Article Évalué par les pairs 2016 ftunivquebecar https://doi.org/10.1111/eva.12400 2023-10-07T23:10:41Z Ocean acidification (OA) is likely to exert selective pressure on natural populations. Our ability to predict which marine species will adapt to OA and what underlies this adaptive potential is of high conservation and resource management priority. Using a naturally low-pH vent site in the Mediterranean Sea (Castello Aragonese, Ischia) mirroring projected future OA conditions, we carried out a reciprocal transplant experiment to investigate the relative importance of phenotypic plasticity and local adaptation in two populations of the sessile, calcifying polychaete Simplaria sp. (Annelida, Serpulidae, Spirorbinae): one residing in low pH and the other from a nearby ambient (i.e. high) pH site. We measured a suite of fitness-related traits (i.e. survival, reproductive output, maturation, population growth) and tube growth rates in laboratory-bred F2 generation individuals from both populations reciprocally transplanted back into both ambient and low-pH in situ habitats. Both populations showed lower expression in all traits, but increased tube growth rates, when exposed to low-pH compared with high-pH conditions, regardless of their site of origin suggesting that local adaptation to low-pH conditions has not occurred. We also found comparable levels of plasticity in the two populations investigated, suggesting no influence of long-term exposure to low pH on the ability of populations to adjust their phenotype. Despite high variation in trait values among sites and the relatively extreme conditions at the low pH site (pH < 7.36), response trends were consistent across traits. Hence, our data suggest that, for Simplaria and possibly other calcifiers, neither local adaptations nor sufficient phenotypic plasticity levels appear to suffice in order to compensate for the negative impacts of OA on long-term survival. Our work also emphasizes the utility of field experiments in natural environments subjected to high level of pCO2 for elucidating the potential for adaptation to future scenarios of OA. -- Keywords : ... Article in Journal/Newspaper Ocean acidification Université du Québec à Rimouski (UQAR): Sémaphore Evolutionary Applications 9 9 1054 1071
institution Open Polar
collection Université du Québec à Rimouski (UQAR): Sémaphore
op_collection_id ftunivquebecar
language French
description Ocean acidification (OA) is likely to exert selective pressure on natural populations. Our ability to predict which marine species will adapt to OA and what underlies this adaptive potential is of high conservation and resource management priority. Using a naturally low-pH vent site in the Mediterranean Sea (Castello Aragonese, Ischia) mirroring projected future OA conditions, we carried out a reciprocal transplant experiment to investigate the relative importance of phenotypic plasticity and local adaptation in two populations of the sessile, calcifying polychaete Simplaria sp. (Annelida, Serpulidae, Spirorbinae): one residing in low pH and the other from a nearby ambient (i.e. high) pH site. We measured a suite of fitness-related traits (i.e. survival, reproductive output, maturation, population growth) and tube growth rates in laboratory-bred F2 generation individuals from both populations reciprocally transplanted back into both ambient and low-pH in situ habitats. Both populations showed lower expression in all traits, but increased tube growth rates, when exposed to low-pH compared with high-pH conditions, regardless of their site of origin suggesting that local adaptation to low-pH conditions has not occurred. We also found comparable levels of plasticity in the two populations investigated, suggesting no influence of long-term exposure to low pH on the ability of populations to adjust their phenotype. Despite high variation in trait values among sites and the relatively extreme conditions at the low pH site (pH < 7.36), response trends were consistent across traits. Hence, our data suggest that, for Simplaria and possibly other calcifiers, neither local adaptations nor sufficient phenotypic plasticity levels appear to suffice in order to compensate for the negative impacts of OA on long-term survival. Our work also emphasizes the utility of field experiments in natural environments subjected to high level of pCO2 for elucidating the potential for adaptation to future scenarios of OA. -- Keywords : ...
format Article in Journal/Newspaper
author Lucey, Noelle M.
Lombardi, Chiara
Florio, Maurizio
DeMarchi, Lucia
Nannini, Matteo
Rundle, Simon D.
Gambi, Maria Cristina
Calosi, Piero
spellingShingle Lucey, Noelle M.
Lombardi, Chiara
Florio, Maurizio
DeMarchi, Lucia
Nannini, Matteo
Rundle, Simon D.
Gambi, Maria Cristina
Calosi, Piero
An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system
author_facet Lucey, Noelle M.
Lombardi, Chiara
Florio, Maurizio
DeMarchi, Lucia
Nannini, Matteo
Rundle, Simon D.
Gambi, Maria Cristina
Calosi, Piero
author_sort Lucey, Noelle M.
title An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system
title_short An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system
title_full An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system
title_fullStr An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system
title_full_unstemmed An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system
title_sort in situ assessment of local adaptation in a calcifying polychaete from a shallow co2 vent system
publishDate 2016
url https://semaphore.uqar.ca/id/eprint/2164/
https://semaphore.uqar.ca/id/eprint/2164/1/Noelle_M._Lucey_et_al_juin2016.pdf
https://doi.org/10.1111/eva.12400
genre Ocean acidification
genre_facet Ocean acidification
op_relation https://semaphore.uqar.ca/id/eprint/2164/1/Noelle_M._Lucey_et_al_juin2016.pdf
Lucey, Noelle M., Lombardi, Chiara, Florio, Maurizio, DeMarchi, Lucia, Nannini, Matteo, Rundle, Simon D., Gambi, Maria Cristina et Calosi, Piero orcid:0000-0003-3378-2603 (2016). An in situ assessment of local adaptation in a calcifying polychaete from a shallow CO2 vent system. Evolutionary Applications, 9 (9). pp. 1054-1071.
op_doi https://doi.org/10.1111/eva.12400
container_title Evolutionary Applications
container_volume 9
container_issue 9
container_start_page 1054
op_container_end_page 1071
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