Menu

Javascript is not activated in your browser. This website needs javascript activated to work properly.
You are here

Timing of maternal exposure to toxic cyanobacteria and offspring fitness in Daphnia magna : Implications for the evolution of anticipatory maternal effects

Author:
  • Reinder Radersma
  • Alexander Hegg
  • Daniel W.A. Noble
  • Tobias Uller
Publishing year: 2018-12
Language: English
Pages: 12727-12736
Publication/Series: Ecology and Evolution
Volume: 8
Issue: 24
Document type: Journal article
Publisher: Wiley-Blackwell

Abstract english

Organisms that regularly encounter stressful environments are expected to use cues to develop an appropriate phenotype. Water fleas (Daphnia spp.) are exposed to toxic cyanobacteria during seasonal algal blooms, which reduce growth and reproductive investment. Because generation time is typically shorter than the exposure to cyanobacteria, maternal effects provide information about the local conditions subsequent generations will experience. Here, we evaluate if maternal effects in response to microcystin, a toxin produced by cyanobacteria, represent an inheritance system evolved to transmit information in Daphnia magna. We exposed mothers as juveniles and/or as adults, and tested the offspring's fitness in toxic and non-toxic environments. Maternal exposure until reproduction reduced offspring fitness, both in the presence and in the absence of toxic cyanobacteria. However, this effect was accompanied by a small positive fitness effect, relative to offspring from unexposed mothers, in the presence of toxic cyanobacteria. This effect was mainly elicited in response to maternal exposure to toxic cyanobacteria early in life and less so during reproduction. None of these effects were explained by changes in egg size. A meta-analysis using our and others’ experiments suggests that the adaptive value of maternal effects to cyanobacteria exposure is weak at best. We suggest that the beneficial maternal effect in our study is an example of phenotypic accommodation spanning generations, rather than a mechanism evolved to transmit information about cyanobacteria presence between generations.

Keywords

  • Evolutionary Biology
  • egg size
  • fitness
  • microcystin
  • parental effects
  • stress
  • tolerance
  • transgenerational effects

Other

Published
  • ISSN: 2045-7758
E-mail: alexander [dot] hegg [at] biol [dot] lu [dot] se

Doctoral student

Evolutionary ecology

+46 46 222 93 19

E-C221

Sölvegatan 37, Lund

50

Research group

Evolutionary Biology

Projects

Extra-Genetic Inheritance and Evolution

Supervisors

Main supervisor

Tobias Uller

Assistant supervisor

Jessica Abbott