Assortative mating by flowering time and its effect on correlated traits in variable environments.

Assortative mating by flowering time and its effect on correlated traits in variable environments.
Authors: 
Rubin MJ, Schmid KM, Friedman J
Summary
Publication Date
2019 Jan
Abstract

Reproductive timing is a key life-history trait that impacts the pool of available mates, the environment experienced during flowering, and the expression of other traits through genetic covariation. Selection on phenology, and its consequences on other life-history traits, has considerable implications in the context of ongoing climate change and shifting growing seasons. To test this, we grew field-collected seed from the wildflower Mimulus guttatus in a greenhouse to assess the standing genetic variation for flowering time and covariation with other traits. We then created full-sib families through phenological assortative mating and grew offspring in three photoperiod treatments representing seasonal variation in daylength. We find substantial quantitative genetic variation for the onset of flowering time, which covaried with vegetative traits. The assortatively-mated offspring varied in their critical photoperiod by over two hours, so that families differed in their probability of flowering across treatments Allocation to flowering and vegetative growth changed across the daylength treatments, with consistent direction and magnitude of covariation among flowering time and other traits. Our results suggest that future studies of flowering time evolution should consider the joint evolution of correlated traits and shifting seasonal selection to understand how environmental variation influences life histories.

Publication Type
Journal Article
DOI
10.1002/ece3.4765
Citation
Rubin MJ, Schmid KM, Friedman J. Assortative mating by flowering time and its effect on correlated traits in variable environments.. Ecology and evolution. 2019 Jan; 9(1):471-481.
Series Name: 
Ecology and evolution
Page Numbers: 
471-481
Publisher: