No evidence for direct thermal carryover effects on starvation tolerance in the obligate blood‐feeder, Glossina morsitans morsitans

Author:

Weaving Hester1ORCID,Lord Jennifer S.2ORCID,Haines Lee23ORCID,English Sinead1ORCID

Affiliation:

1. School of Biological Sciences University of Bristol Bristol UK

2. Department of Vector Biology Liverpool School of Tropical Medicine Liverpool UK

3. Department of Biological Sciences University of Notre Dame Notre Dame Indiana USA

Abstract

AbstractThermal stress during development can prime animals to cope better with similar conditions in later life. Alternatively, negative effects of thermal stress can persist across life stages and result in poorer quality adults (negative carryover effects). As mean temperatures increase due to climate change, evidence for such effects across diverse taxa is required. Using Glossina morsitans morsitans, a species of tsetse fly and vector of trypanosomiasis, we asked whether (i) adaptive developmental plasticity allows flies to survive for longer under food deprivation when pupal and adult temperatures are matched; or (ii) temperature stress during development persists into adulthood, resulting in a greater risk of death. We did not find any advantage of matched pupal and adult temperature in terms of improved starvation tolerance, and no direct negative carryover effects were observed. There was some evidence for indirect carryover effects—high pupal temperature produced flies of lower body mass, which, in turn, resulted in greater starvation risk. However, adult temperature had the largest impact on starvation tolerance by far: flies died 60% faster at 31°C than those experiencing 25°C, consequently reducing survival time from a median of 8 (interquartile range (IQR) 7–9) to 5 (IQR 5–5.25) days. This highlights differences in temperature sensitivity between life stages, as there was no direct effect of pupal temperature on starvation tolerance. Therefore, for some regions of sub‐Saharan Africa, climate change may result in a higher mortality rate in emerging tsetse while they search for their first blood meal. This study reinforces existing evidence that responses to temperature are life stage specific and that plasticity may have limited capacity to buffer the effects of climate change.

Funder

Biotechnology and Biological Sciences Research Council

Medical Research Council

Royal Society

Publisher

Wiley

Subject

Nature and Landscape Conservation,Ecology,Ecology, Evolution, Behavior and Systematics

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