RT Journal Article
SR Electronic
T1 Evolution during uncorrelated environmental fluctuations: bet-hedging or phenotypic plasticity?
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 2023.01.22.523389
DO 10.1101/2023.01.22.523389
A1 Zuzana Sekajova
A1 Erlend I. F. Fossen
A1 Elena Rosa
A1 Irja I. Ratikainen
A1 Manon Tourniaire-Blum
A1 Elisabeth Bolund
A1 Martin I. Lind
YR 2023
UL http://biorxiv.org/content/early/2023/01/22/2023.01.22.523389.abstract
AB Evolution in fluctuating environments is predicted to select for phenotypic plasticity or bet-hedging, depending on the accuracy of environmental cues and type of fluctuations. While these two alternatives are often contrasted in theoretical studies, their evolution are seldom studied together in empirical work.We used experimental evolution in the nematode worm Caenorhabditis remanei to simultaneously study the evolution of plasticity and bet-hedging in environments differing only in their temperature variability. We exposed worms for 30 generations to either fast fluctuating or slowly increasing temperature, these two environments had the same average temperature over evolutionary time. After experimental evolution, we scored size at sexual maturity and fitness in full siblings reared in two different temperatures, optimal 20°C and mildly stressful 25°C.Experimental evolution in the fluctuating environment resulted in the evolution of increased body size plasticity but not increased bet-hedging, compared to evolution in the slowly changing environment. Plasticity followed the temperature size rule as size decreased with increasing temperature and this plastic response was adaptive. In addition, we discovered substantial standing genetic variation in body size, which represents a potential for further evolutionary change.Competing Interest StatementThe authors have declared no competing interest.