Physiological mechanisms of adaptive developmental plasticity in Rana temporaria island populations

Background: Adaptive plasticity is essential for many species to cope with environmental heterogeneity. In particular, developmental plasticity allows organisms with complex life cycles to adaptively adjust the timing of ontogenetic switch points. Size at and time to metamorphosis are reliable fitne...

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Published in:BMC Evolutionary Biology
Main Authors: Burraco, Pablo, Valdes, Ana Elisa, Johansson, Frank, Gomez-Mestre, Ivan
Format: Article in Journal/Newspaper
Language:English
Published: Uppsala universitet, Fysiologisk botanik 2017
Subjects:
Amphibians
Corticosterone
Developmental plasticity
Evolutionary physiology
Oxidative stress
Telomere length
Developmental Biology
Utvecklingsbiologi
Northern Sweden
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-329934
https://doi.org/10.1186/s12862-017-1004-1
id ftuppsalauniv:oai:DiVA.org:uu-329934
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spelling ftuppsalauniv:oai:DiVA.org:uu-329934 2024-02-11T10:07:11+01:00 Physiological mechanisms of adaptive developmental plasticity in Rana temporaria island populations Burraco, Pablo Valdes, Ana Elisa Johansson, Frank Gomez-Mestre, Ivan 2017 application/pdf http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-329934 https://doi.org/10.1186/s12862-017-1004-1 eng eng Uppsala universitet, Fysiologisk botanik Uppsala universitet, Institutionen för ekologi och genetik CSIC, Donana Biol Stn, Dept Wetland Ecol, Ecol Evolut & Dev Grp, E-41092 Seville, Spain. Stockholm Univ, Dept Ecol Environm & Plant Sci, SE-10691 Stockholm, Sweden. BIOMED CENTRAL LTD BMC Evolutionary Biology, 2017, 17, http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-329934 doi:10.1186/s12862-017-1004-1 ISI:000404927600001 info:eu-repo/semantics/openAccess Amphibians Corticosterone Developmental plasticity Evolutionary physiology Oxidative stress Telomere length Developmental Biology Utvecklingsbiologi Article in journal info:eu-repo/semantics/article text 2017 ftuppsalauniv https://doi.org/10.1186/s12862-017-1004-1 2024-01-17T23:33:46Z Background: Adaptive plasticity is essential for many species to cope with environmental heterogeneity. In particular, developmental plasticity allows organisms with complex life cycles to adaptively adjust the timing of ontogenetic switch points. Size at and time to metamorphosis are reliable fitness indicators in organisms with complex cycles. The physiological machinery of developmental plasticity commonly involves the activation of alternative neuroendocrine pathways, causing metabolic alterations. Nevertheless, we have still incomplete knowledge about how these mechanisms evolve under environments that select for differences in adaptive plasticity. In this study, we investigate the physiological mechanisms underlying divergent degrees of developmental plasticity across Rana temporaria island populations inhabiting different types of pools in northern Sweden. Methods: In a laboratory experiment we estimated developmental plasticity of amphibian larvae from six populations coming from three different island habitats: islands with only permanent pools, islands with only ephemeral pools, and islands with a mixture of both types of pools. We exposed larvae of each population to either constant water level or simulated pool drying, and estimated their physiological responses in terms of corticosterone levels, oxidative stress, and telomere length. Results: We found that populations from islands with only temporary pools had a higher degree of developmental plasticity than those from the other two types of habitats. All populations increased their corticosterone levels to a similar extent when subjected to simulated pool drying, and therefore variation in secretion of this hormone does not explain the observed differences among populations. However, tadpoles from islands with temporary pools showed lower constitutive activities of catalase and glutathione reductase, and also showed overall shorter telomeres. Conclusions: The observed differences are indicative of physiological costs of increased developmental ... Article in Journal/Newspaper Northern Sweden Uppsala University: Publications (DiVA) BMC Evolutionary Biology 17 1
institution Open Polar
collection Uppsala University: Publications (DiVA)
op_collection_id ftuppsalauniv
language English
topic Amphibians
Corticosterone
Developmental plasticity
Evolutionary physiology
Oxidative stress
Telomere length
Developmental Biology
Utvecklingsbiologi
spellingShingle Amphibians
Corticosterone
Developmental plasticity
Evolutionary physiology
Oxidative stress
Telomere length
Developmental Biology
Utvecklingsbiologi
Burraco, Pablo
Valdes, Ana Elisa
Johansson, Frank
Gomez-Mestre, Ivan
Physiological mechanisms of adaptive developmental plasticity in Rana temporaria island populations
topic_facet Amphibians
Corticosterone
Developmental plasticity
Evolutionary physiology
Oxidative stress
Telomere length
Developmental Biology
Utvecklingsbiologi
description Background: Adaptive plasticity is essential for many species to cope with environmental heterogeneity. In particular, developmental plasticity allows organisms with complex life cycles to adaptively adjust the timing of ontogenetic switch points. Size at and time to metamorphosis are reliable fitness indicators in organisms with complex cycles. The physiological machinery of developmental plasticity commonly involves the activation of alternative neuroendocrine pathways, causing metabolic alterations. Nevertheless, we have still incomplete knowledge about how these mechanisms evolve under environments that select for differences in adaptive plasticity. In this study, we investigate the physiological mechanisms underlying divergent degrees of developmental plasticity across Rana temporaria island populations inhabiting different types of pools in northern Sweden. Methods: In a laboratory experiment we estimated developmental plasticity of amphibian larvae from six populations coming from three different island habitats: islands with only permanent pools, islands with only ephemeral pools, and islands with a mixture of both types of pools. We exposed larvae of each population to either constant water level or simulated pool drying, and estimated their physiological responses in terms of corticosterone levels, oxidative stress, and telomere length. Results: We found that populations from islands with only temporary pools had a higher degree of developmental plasticity than those from the other two types of habitats. All populations increased their corticosterone levels to a similar extent when subjected to simulated pool drying, and therefore variation in secretion of this hormone does not explain the observed differences among populations. However, tadpoles from islands with temporary pools showed lower constitutive activities of catalase and glutathione reductase, and also showed overall shorter telomeres. Conclusions: The observed differences are indicative of physiological costs of increased developmental ...
format Article in Journal/Newspaper
author Burraco, Pablo
Valdes, Ana Elisa
Johansson, Frank
Gomez-Mestre, Ivan
author_facet Burraco, Pablo
Valdes, Ana Elisa
Johansson, Frank
Gomez-Mestre, Ivan
author_sort Burraco, Pablo
title Physiological mechanisms of adaptive developmental plasticity in Rana temporaria island populations
title_short Physiological mechanisms of adaptive developmental plasticity in Rana temporaria island populations
title_full Physiological mechanisms of adaptive developmental plasticity in Rana temporaria island populations
title_fullStr Physiological mechanisms of adaptive developmental plasticity in Rana temporaria island populations
title_full_unstemmed Physiological mechanisms of adaptive developmental plasticity in Rana temporaria island populations
title_sort physiological mechanisms of adaptive developmental plasticity in rana temporaria island populations
publisher Uppsala universitet, Fysiologisk botanik
publishDate 2017
url http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-329934
https://doi.org/10.1186/s12862-017-1004-1
genre Northern Sweden
genre_facet Northern Sweden
op_relation BMC Evolutionary Biology, 2017, 17,
http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-329934
doi:10.1186/s12862-017-1004-1
ISI:000404927600001
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1186/s12862-017-1004-1
container_title BMC Evolutionary Biology
container_volume 17
container_issue 1
_version_ 1790605348429627392

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