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Main Authors: Missionário, Madalena, Bertalan, Réka, Calado, Ricardo, Dupont, Sam, Costa, Pedro M, Vinagre, Catarina, Madeira, Diana
Format: Artículo científico
Language:en
Published: Marine environmental research 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41330244/
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author Missionário, Madalena
Bertalan, Réka
Calado, Ricardo
Dupont, Sam
Costa, Pedro M
Vinagre, Catarina
Madeira, Diana
author_facet Missionário, Madalena
Bertalan, Réka
Calado, Ricardo
Dupont, Sam
Costa, Pedro M
Vinagre, Catarina
Madeira, Diana
Missionário, Madalena
Bertalan, Réka
Calado, Ricardo
Dupont, Sam
Costa, Pedro M
Vinagre, Catarina
Madeira, Diana
collection PubMed - marine biology
contents Living on the edge: Temperature and salinity performance curves across levels of biological organization in a shallow water shrimp. Missionário, Madalena Bertalan, Réka Calado, Ricardo Dupont, Sam Costa, Pedro M Vinagre, Catarina Madeira, Diana Animals Salinity Palaemonidae Temperature Climate Change Male Female Acclimatization Phenotypic plasticity enables organisms to cope with natural environmental variability. However, climate change is intensifying this variability, causing more pronounced fluctuations in sea surface temperature and salinity, particularly in shallow, semi-confined habitats such as coastal lagoons and saltpans. To better understand how species inhabiting these highly dynamic environments cope with temperature and salinity fluctuations - and to assess potential sex-specific responses - performance of the widely distributed caridean shrimp Palaemon varians was tested along two experimental gradients: a salinity gradient (10, 20, 30 and 40) and a temperature gradient (10, 15, 20, 30 °C). Species cumulative survival and whole-organism indicators (Critical Thermal maximum - CTmax and Routine Metabolic Rate - RMR), as well as sex-specific Cellular Stress Responses (CSR) were measured to elucidate acclimation capacity and sex-specific biochemical trade-offs. Survival remained high across all salinity levels but significantly declined at elevated temperature, particularly at 30 °C. While RMR was unaffected by changes in temperature or salinity, CTmax remained unchanged with varying salinity but increased by more than 5 % with elevated temperature, indicating some degree of thermal acclimation. Salinity had no significant effect on CSR; however, sex-based differences emerged, with males displaying nearly 60 % higher superoxide dismutase activity and about 40 % higher total protein levels than females, with distinct biochemical performance curves. While these sex-based differences were not apparent under temperature change, both cool and warm extremes significantly increased antioxidant activity, despite antioxidants displaying low thermal sensitivity (Q). These findings suggest that while P. varians exhibits physiological plasticity in response to environmental gradients, sex-specific trade-offs between antioxidant defences and energy reserves, possibly related to reproductive investment, do occur. Moreover, shrimp displayed a narrow thermal safety margin (2.7-6.7 °C), which, combined with divergent energy allocation strategies between sexes, can constrain the future viability of shallow-water shrimp populations under escalating climate change pressures.
format Artículo científico
id pubmed_41330244
institution PubMed
language en
publishDate 2026
publisher Marine environmental research
record_format pubmed
spellingShingle Living on the edge: Temperature and salinity performance curves across levels of biological organization in a shallow water shrimp.
Missionário, Madalena
Bertalan, Réka
Calado, Ricardo
Dupont, Sam
Costa, Pedro M
Vinagre, Catarina
Madeira, Diana
Animals
Salinity
Palaemonidae
Temperature
Climate Change
Male
Female
Acclimatization
Living on the edge: Temperature and salinity performance curves across levels of biological organization in a shallow water shrimp. Missionário, Madalena Bertalan, Réka Calado, Ricardo Dupont, Sam Costa, Pedro M Vinagre, Catarina Madeira, Diana Animals Salinity Palaemonidae Temperature Climate Change Male Female Acclimatization Phenotypic plasticity enables organisms to cope with natural environmental variability. However, climate change is intensifying this variability, causing more pronounced fluctuations in sea surface temperature and salinity, particularly in shallow, semi-confined habitats such as coastal lagoons and saltpans. To better understand how species inhabiting these highly dynamic environments cope with temperature and salinity fluctuations - and to assess potential sex-specific responses - performance of the widely distributed caridean shrimp Palaemon varians was tested along two experimental gradients: a salinity gradient (10, 20, 30 and 40) and a temperature gradient (10, 15, 20, 30 °C). Species cumulative survival and whole-organism indicators (Critical Thermal maximum - CTmax and Routine Metabolic Rate - RMR), as well as sex-specific Cellular Stress Responses (CSR) were measured to elucidate acclimation capacity and sex-specific biochemical trade-offs. Survival remained high across all salinity levels but significantly declined at elevated temperature, particularly at 30 °C. While RMR was unaffected by changes in temperature or salinity, CTmax remained unchanged with varying salinity but increased by more than 5 % with elevated temperature, indicating some degree of thermal acclimation. Salinity had no significant effect on CSR; however, sex-based differences emerged, with males displaying nearly 60 % higher superoxide dismutase activity and about 40 % higher total protein levels than females, with distinct biochemical performance curves. While these sex-based differences were not apparent under temperature change, both cool and warm extremes significantly increased antioxidant activity, despite antioxidants displaying low thermal sensitivity (Q). These findings suggest that while P. varians exhibits physiological plasticity in response to environmental gradients, sex-specific trade-offs between antioxidant defences and energy reserves, possibly related to reproductive investment, do occur. Moreover, shrimp displayed a narrow thermal safety margin (2.7-6.7 °C), which, combined with divergent energy allocation strategies between sexes, can constrain the future viability of shallow-water shrimp populations under escalating climate change pressures.
title Living on the edge: Temperature and salinity performance curves across levels of biological organization in a shallow water shrimp.
topic Animals
Salinity
Palaemonidae
Temperature
Climate Change
Male
Female
Acclimatization
url https://pubmed.ncbi.nlm.nih.gov/41330244/