Temperature variation makes ectotherms more sensitive to climate change.
Krijn P. Paaijmans,Krijn P. Paaijmans,Rebecca L. Heinig,Rebecca A. Seliga,Justine I. Blanford,Simon Blanford,Courtney C. Murdock,Matthew B. Thomas +7 more
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Using a mosquito as a model organism, it is found that temperature fluctuation reduces rate processes such as development under warm conditions, increases processes under cool conditions, and reduces both the optimum and the critical maximum temperature.Abstract:
Ectotherms are considered to be particularly vulnerable to climate warming. Descriptions of habitat temperatures and predicted changes in climate usually consider mean monthly, seasonal or annual conditions. Ectotherms, however, do not simply experience mean conditions, but are exposed to daily fluctuations in habitat temperatures. Here, we highlight how temperature fluctuation can generate ‘realized’ thermal reaction (fitness) norms that differ from the ‘fundamental’ norms derived under standard constant temperatures. Using a mosquito as a model organism, we find that temperature fluctuation reduces rate processes such as development under warm conditions, increases processes under cool conditions, and reduces both the optimum and the critical maximum temperature. Generalizing these effects for a range of terrestrial insects reveals that prevailing daily fluctuations in temperature should alter the sensitivity of species to climate warming by reducing ‘thermal safety margins’. Such effects of daily temperature dynamics have generally been ignored in the climate change literature.read more
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Increased temperature variation poses a greater risk to species than climate warming
David A. Vasseur,John P. DeLong,Benjamin Gilbert,Hamish S. Greig,Hamish S. Greig,Christopher D. G. Harley,Kevin S. McCann,Van M. Savage,Van M. Savage,Tyler D. Tunney,Mary I. O'Connor +10 more
TL;DR: This work couple fine-grained climate projections to thermal performance data from 38 ectothermic invertebrate species and contrast projections with those of a simple model to show that projections based on mean temperature change alone differ substantially from those incorporating changes to the variation, and to the mean and variation in concert.
Journal ArticleDOI
Insects in Fluctuating Thermal Environments
TL;DR: Fuctuating temperatures could be used to enhance or weaken insects in applied rearing programs, and any prediction of insect performance in the field-including models of climate change or population performance-must account for the effect of fluctuating temperatures.
Journal ArticleDOI
Detecting the impact of temperature on transmission of Zika, dengue, and chikungunya using mechanistic models.
Erin A. Mordecai,Jeremy M. Cohen,Michelle Evans,Prithvi Gudapati,Leah R. Johnson,Leah R. Johnson,Catherine A. Lippi,Kerri L. Miazgowicz,Courtney C. Murdock,Jason R. Rohr,Sadie J. Ryan,Van M. Savage,Van M. Savage,Marta S. Shocket,Marta S. Shocket,Anna M. Stewart Ibarra,Matthew B. Thomas,Daniel P. Weikel +17 more
TL;DR: Temperature-dependent transmission based on a mechanistic model is an important predictor of human transmission occurrence and incidence in tropical and subtropical regions and in temperate areas even if vectors are present.
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What Can Plasticity Contribute to Insect Responses to Climate Change
TL;DR: Plastic responses and their evolution should be considered when predicting vulnerability to climate change-but meaningful empirical data lag behind theory, as evidence for the latter remains weak.
Journal ArticleDOI
Species better track climate warming in the oceans than on land
Jonathan Lenoir,Romain Bertrand,Lise Comte,Lise Comte,Luana Bourgeaud,Tarek Hattab,Jérôme Murienne,Gaël Grenouillet,Gaël Grenouillet +8 more
TL;DR: Compiling a global geo-database of >30,000 range shifts, the authors show that marine species closely track shifting isotherms, whereas terrestrial species lag behind, probably due to wider thermal safety margins and movement constraints imposed by human activities.
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Impacts of climate warming on terrestrial ectotherms across latitude.
Curtis Deutsch,Joshua J. Tewksbury,Raymond B. Huey,Kimberly S. Sheldon,Cameron K. Ghalambor,David C. Haak,Paul R. Martin,Paul R. Martin +7 more
TL;DR: The results show that warming in the tropics, although relatively small in magnitude, is likely to have the most deleterious consequences because tropical insects are relatively sensitive to temperature change and are currently living very close to their optimal temperature, so that warming may even enhance their fitness.