Impacts of temperature on immune performance in a desert anuran (Anaxyrus punctatus)

Desert species, especially ectotherms, experience temperature‐related challenges throughout their lives. Temperature affects many aspects of ectotherm physiology, including immune function. The goal of this study was to investigate how temperature affects the immune system of a common desert toad, A...

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Published in:Journal of zoology (1987) 2021-09, Vol.315 (1), p.49-57
Main Authors: Bakewell, L., Kelehear, C., Graham, S.P.
Format: Article
Language:English
Subjects:
adaptive immunity
Amphibians
Anaxyrus punctatus
Aquatic reptiles
desert species
Deserts
eco‐immunology
extreme environments
Hemagglutination
High temperature
Immune response
Immune system
Immunity
Immunological techniques
Immunology
Infectious diseases
Inflammation
Inflammatory response
innate immunity
Low temperature
Lysis
Species
Temperature
Temperature preferences
Vulnerability
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container_title Journal of zoology (1987)
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creator Bakewell, L.
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description Desert species, especially ectotherms, experience temperature‐related challenges throughout their lives. Temperature affects many aspects of ectotherm physiology, including immune function. The goal of this study was to investigate how temperature affects the immune system of a common desert toad, Anaxyrus punctatus. We used three well‐known eco‐immunological techniques (bacterial lysis, hemagglutination and phytohaemagglutinin assays) to measure aspects of immune performance across temperature. Field and preferred temperatures were used to determine the temperatures utilized in the immunological assays. We found that temperature affects bactericidal and hemagglutination capacity in this species, but not inflammatory response. We also found that bactericidal and hemagglutination capacity are optimal at extremely high temperatures compared to the preferred temperature of this species or extremely low temperatures. These results have implications for disease management in desert amphibians as well as the vulnerability of this species to emerging infectious diseases. We used three well‐known eco‐immunological techniques (bacterial lysis, hemagglutination and phytohaemagglutinin assays) to measure aspects of immune performance across temperature in a desert amphibian Anaxyrus punctatus. We found that temperature affects bactericidal and hemagglutination capacity in this species, but not inflammatory response. We also found that bactericidal and hemagglutination capacity are optimal at extremely high temperatures compared to the preferred temperature of this species or extremely low temperatures.
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Temperature affects many aspects of ectotherm physiology, including immune function. The goal of this study was to investigate how temperature affects the immune system of a common desert toad, Anaxyrus punctatus. We used three well‐known eco‐immunological techniques (bacterial lysis, hemagglutination and phytohaemagglutinin assays) to measure aspects of immune performance across temperature. Field and preferred temperatures were used to determine the temperatures utilized in the immunological assays. We found that temperature affects bactericidal and hemagglutination capacity in this species, but not inflammatory response. We also found that bactericidal and hemagglutination capacity are optimal at extremely high temperatures compared to the preferred temperature of this species or extremely low temperatures. These results have implications for disease management in desert amphibians as well as the vulnerability of this species to emerging infectious diseases. We used three well‐known eco‐immunological techniques (bacterial lysis, hemagglutination and phytohaemagglutinin assays) to measure aspects of immune performance across temperature in a desert amphibian Anaxyrus punctatus. We found that temperature affects bactericidal and hemagglutination capacity in this species, but not inflammatory response. 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1469-7998
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subjects adaptive immunity
Amphibians
Anaxyrus punctatus
Aquatic reptiles
desert species
Deserts
eco‐immunology
extreme environments
Hemagglutination
High temperature
Immune response
Immune system
Immunity
Immunological techniques
Immunology
Infectious diseases
Inflammation
Inflammatory response
innate immunity
Low temperature
Lysis
Species
Temperature
Temperature preferences
Vulnerability
title Impacts of temperature on immune performance in a desert anuran (Anaxyrus punctatus)
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