J. C. Coulson scite author profile

This review examines the direct effects of climate change on insect herbivores. Temperature is identified as the dominant abiotic factor directly affecting herbivorous insects. There is little evidence of any direct effects of CO2 or UVB. Direct impacts of precipitation have been largely neglected in current research on climate change. Temperature directly affects development, survival, range and abundance. Species with a large geographical range will tend to be less affected. The main effect of temperature in temperate regions is to influence winter survival; at more northerly latitudes, higher temperatures extend the summer season, increasing the available thermal budget for growth and reproduction. Photoperiod is the dominant cue for the seasonal synchrony of temperate insects, but their thermal requirements may differ at different times of year. Interactions between photoperiod and temperature determine phenology; the two factors do not necessarily operate in tandem. Insect herbivores show a number of distinct life‐history strategies to exploit plants with different growth forms and strategies, which will be differentially affected by climate warming. There are still many challenges facing biologists in predicting and monitoring the impacts of climate change. Future research needs to consider insect herbivore phenotypic and genotypic flexibility, their responses to global change parameters operating in concert, and awareness that some patterns may only become apparent in the longer term.

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Parallel long-term trends across four marine trophic levels and weather

Aebischer

Coulson

Colebrookl

1990

Nature

386

202

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The Influence of the Pair-Bond and Age on the Breeding Biology of the Kittiwake Gull Rissa tridactyla

Coulson¹

1966

The Journal of Animal Ecology

399

165

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An Investigation of the Biotic Factors Determining the Rates of Plant Decomposition on Blanket Bog

Coulson¹,

Butterfield²

1978

The Journal of Ecology

236

152

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Differences in the Quality of Birds nesting in the Centre and on the Edges of a Colony

Coulson

1968

Nature

275

151

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J. C. Coulson

Herbivory in global climate change research: direct effects of rising temperature on insect herbivores

Parallel long-term trends across four marine trophic levels and weather

The Influence of the Pair-Bond and Age on the Breeding Biology of the Kittiwake Gull Rissa tridactyla

An Investigation of the Biotic Factors Determining the Rates of Plant Decomposition on Blanket Bog

Differences in the Quality of Birds nesting in the Centre and on the Edges of a Colony

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