...) biological variation in thermal responses must be paired with refined spatiotemporal analyses of habitat temperature variation. Climate change Rocky shore Habitat Physiological diversity Temperature National Natural Science Foundation of China http://dx.doi.org/10.13039/501100001809...

...Gabriela M. Quinlan; Cody Feuerborn; Heather M. Hines; Christina M. Grozinger ABSTRACT Climate change poses a threat to organisms across the world, with cold-adapted species such as bumble bees ( Bombus spp.) at particularly high risk. Understanding how organisms respond to extreme heat events...

... of adult growth. Life history Climate change Gill-oxygen limitation theory (GOLT) Growth modelling Energy allocation Australian Research Council http://dx.doi.org/10.13039/501100000923 FT180100154 Deakin University http://dx.doi.org/10.13039/501100001778...

...Andrew J. Moura; Austin M. Garner; Carla A. Narvaez; Jack P. Cucchiara; Alyssa Y. Stark; Michael P. Russell ABSTRACT Climate change will increase the frequency and intensity of low-salinity (hyposalinity) events in coastal marine habitats. Sea urchins are dominant herbivores in these habitats...

...Katherine H. Malinski; Clyde E. Sorenson; M. Elizabeth Moore; Christopher S. Willett; Joel G. Kingsolver ABSTRACT Extreme high temperatures associated with climate change can affect species directly, and indirectly through temperature-mediated species interactions. In most host–parasitoid systems...

... the complexity for forecasting environmental impacts. Parental effects Thermal plasticity Epigenetics Performance curve Metabolism Locomotor performance Climate change Australian Research Council http://dx.doi.org/10.13039/501100000923 DP220101342 Plastic phenotypic responses...

...Samantha S. Fontaine; Kevin D. Kohl ABSTRACT Climate change and increasing global temperatures are a leading threat to ectothermic animals worldwide. Ectotherm persistence under climate change will depend on a combination of host and environmental factors; recently it has become clear that host...

... than laboratory. Arctic arthropods Phenotypic plasticity Thermal tolerance Climate change RNA sequencing Heat shock proteins Danish Council for Independent Research http://dx.doi.org/10.13039/501100004836 DFF8021-00014B European co-funded Partnership BiodivClim-191...

... acclimatization or plasticity, but this may vary across species ranges, especially if populations are adapted to local climatic conditions. Understanding how acclimatization potential varies among populations is therefore important in predicting species responses to climate change. We carried out a common garden...

... under warming and drying regimes based on projected climatic conditions in 2070. We predicted that amphibians experiencing the rapid pond drying and elevated pond temperatures associated with climate change would accelerate development, be smaller at metamorphosis and demonstrate long-term differences...

...Grace Rogerson; Samantha Bock; Yeraldi Loera; Benjamin Parrott; John F. Mulley ABSTRACT Considerations of the impact climate change has on reptiles are typically focused on habitat change or loss, range shifts and skewed sex ratios in species with temperature-dependent sex determination. Here, we...

... Summary: Exposure of deer mice to conditions simulating peak summer disrupts body temperature and reduces activity and body mass; daytime heat exposure may have detrimental impacts that persist at cooler night-time temperatures. Climate change Hyperthermia Thermal plasticity Thermoregulation...

... temperature exposures and housing design, and a greater understanding of both the thermal biology of the immune system and connections between immunity and the physiological responses to heat. Summary: Climate change-induced temperature increases will have both positive and negative effects on insect...

... that increased respiration and arm regeneration rates incur additional costs that may negatively impact survivorship. Thermotolerance Climate change Brittle star Scaling Respiration Lamar University http://dx.doi.org/10.13039/100007024 Australian Research Council http...

...Rachel L. Malison; James I. Frakes; Amanda L. Andreas; Priya R. Keller; Emily Hamant; Alisha A. Shah; H. Arthur Woods ABSTRACT Like all taxa, populations of aquatic insects may respond to climate change by evolving new physiologies or behaviors, shifting their range, exhibiting physiological...

... sensitivity of their hearts; this rapid cardiac thermal plasticity may help migratory fishes like Arctic char mitigate short-term thermal challenges. Heart rate Thermal variation Acclimation rate Climate change Thermal tolerance Cardiac function Polar Knowledge Canada http://dx.doi.org...

...Sarah J. Nancollas; Anne E. Todgham ABSTRACT Climate change is forecasted to increase temperature variability and stochasticity. Most of our understanding of thermal physiology of intertidal organisms has come from laboratory experiments that acclimate organisms to submerged conditions and steady...

... in protein function and which genes are downstream, indirect responders?; (2) how long does it take different proteins and genes to respond to temperature?; and (3) are the experimental temperature manipulations relevant to the climate the organism experiences or to predicted climate change scenarios...

...Jennifer L. Page; Andreas Nord; Davide M. Dominoni; Dominic J. McCafferty ABSTRACT Climate change and increasing air temperature may alter environmental conditions for developing birds, with a range of phenotypic consequences for offspring. The thermal environment during incubation may affect...

...Kevin T. Roberts; Caroline M. Williams ABSTRACT Understanding the energetic consequences of climate change is critical to identifying organismal vulnerabilities, particularly for dormant organisms relying on finite energy budgets. Ecophysiological energy use models predict long-term energy use from...