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Does selection on increased cold tolerance in the adult stage confer resistance throughout development?
Author(s) -
DIERKS A.,
KÖLZOW N.,
FRANKE K.,
FISCHER K.
Publication year - 2012
Publication title -
journal of evolutionary biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.289
H-Index - 128
eISSN - 1420-9101
pISSN - 1010-061X
DOI - 10.1111/j.1420-9101.2012.02547.x
Subject(s) - biology , selection (genetic algorithm) , inbreeding , adaptation (eye) , pupa , larva , offspring , zoology , directional selection , evolutionary biology , ecology , genetics , genetic variation , demography , population , gene , pregnancy , artificial intelligence , neuroscience , sociology , computer science
Artificial selection is a powerful approach to unravel constraints on genetic adaptation. Although it has been frequently used to reveal genetic trade‐offs among different fitness‐related traits, only a few studies have targeted genetic correlations across developmental stages. Here, we test whether selection on increased cold tolerance in the adult stage increases cold resistance throughout ontogeny in the butterfly Bicyclus anynana . We used lines selected for decreased chill‐coma recovery time and corresponding controls, which had originally been set up from three levels of inbreeding (outbred control, one or two full‐sib matings). Four generations after having terminated selection, a response to selection was found in 1‐day‐old butterflies (the age at which selection took place). Older adults showed a very similar although weaker response. Nevertheless, cold resistance did not increase in either egg, larval or pupal stage in the selection lines but was even lower compared to control lines for eggs and young larvae. These findings suggest a cost of increased adult cold tolerance, presumably reducing resource availability for offspring provisioning and thereby stress tolerance during development, which may substantially affect evolutionary trajectories.