| Autor: |
Castano-Sanz V; Department of Ecology and Evolution, Doñana Biological Station (CSIC) , Seville, Spain., Gomez-Mestre I; Department of Ecology and Evolution, Doñana Biological Station (CSIC) , Seville, Spain., Rodriguez-Exposito E; Department of Ecology and Evolution, Doñana Biological Station (CSIC) , Seville, Spain., Garcia-Gonzalez F; Department of Ecology and Evolution, Doñana Biological Station (CSIC) , Seville, Spain.; Centre for Evolutionary Biology, School of Biological Sciences, University of Western Australia , Crawley, Western Australia, Australia. |
| Abstrakt: |
Environmental variation often induces plastic responses in organisms that can trigger changes in subsequent generations through non-genetic inheritance mechanisms. Such transgenerational plasticity thus consists of environmentally induced non-random phenotypic modifications that are transmitted through generations. Transgenerational effects may vary according to the sex of the organism experiencing the environmental perturbation, the sex of their descendants or both, but whether they are affected by past sexual selection is unknown. Here, we use experimental evolution on an insect model system to conduct a first test of the involvement of sexual selection history in shaping transgenerational plasticity in the face of rapid environmental change (exposure to pesticide). We manipulated evolutionary history in terms of the intensity of sexual selection for over 80 generations before exposing individuals to the toxicant. We found that sexual selection history constrained adaptation under rapid environmental change. We also detected inter- and transgenerational effects of pesticide exposure in the form of increased fitness and longevity. These cross-generational influences of toxicants were sex dependent (they affected only male descendants), and intergenerational, but not transgenerational, plasticity was modulated by sexual selection history. Our results highlight the complexity of intra-, inter- and transgenerational influences of past selection and environmental stress on phenotypic expression. |
