Hawaiian picture‐winged Drosophila exhibit adaptive population divergence along a narrow climatic gradient on Hawaii Island

Anthropogenic influences on global processes and climatic conditions are increasingly affecting ecosystems throughout the world. Hawaii Island’s native ecosystems are well studied and local long‐term climatic trends well documented, making these ecosystems ideal for evaluating how native taxa may re...

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Bibliographic Details
Published in:Ecology and evolution 2019-03, Vol.9 (5), p.2436-2448
Main Authors: Eldon, Jon, Bellinger, M. Renee, Price, Donald K.
Format: Article
Language:English
Subjects:
Adaptation
Ambient temperature
Anthropogenic factors
Climate change
Climatic conditions
Differential thermal analysis
Divergence
Drosophila
Ecosystems
Elevation
Gene expression
Hawaiian Drosophila
Human influences
Insects
local adaptation
Males
Original Research
Physiological responses
Physiology
Population
population divergence
Populations
Temperature effects
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Summary:Anthropogenic influences on global processes and climatic conditions are increasingly affecting ecosystems throughout the world. Hawaii Island’s native ecosystems are well studied and local long‐term climatic trends well documented, making these ecosystems ideal for evaluating how native taxa may respond to a warming environment. This study documents adaptive divergence of populations of a Hawaiian picture‐winged Drosophila, D. sproati, that are separated by only 7 km and 365 m in elevation. Representative laboratory populations show divergent behavioral and physiological responses to an experimental low‐intensity increase in ambient temperature during maturation. The significant interaction of source population by temperature treatment for behavioral and physiological measurements indicates differential adaptation to temperature for the two populations. Significant differences in gene expression among males were mostly explained by the source population, with eleven genes in males also showing a significant interaction of source population by temperature treatment. The combined behavior, physiology, and gene expression differences between populations illustrate the potential for local adaptation to occur over a fine spatial scale and exemplify nuanced response to climate change. This study documents adaptive divergence of populations of a Hawaiian picture‐winged Drosophila, D. sproati, that are separated by only 7km and 365m in elevation, and are not genetically differentiated at common neutral markers. Representative laboratory populations show divergent response in behavior, physiology, and gene expression to an experimental low‐intensity increase in ambient temperature during maturation.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.4844