Günter P. Wagner
- Published in print:
- 2014
- Published Online:
- October 2017
- ISBN:
- 9780691156460
- eISBN:
- 9781400851461
- Item type:
- chapter
- Publisher:
- Princeton University Press
- DOI:
- 10.23943/princeton/9780691156460.003.0006
- Subject:
- Biology, Evolutionary Biology / Genetics
This chapter examines the developmental mechanisms underlying evolutionary novelties. It first considers the role of the environment in evolutionary innovations, with particular emphasis on how ...
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This chapter examines the developmental mechanisms underlying evolutionary novelties. It first considers the role of the environment in evolutionary innovations, with particular emphasis on how environmental perturbations result in the release of cryptic genetic variation. It then explores where the positional information for novel characters comes from before explaining derived mechanical stimuli and the origin of novelties in the avian hind limb skeleton. It also discusses the origin of character identity networks and the evolution of novel signaling centers, focusing on two novel morphological characters: the butterfly eyespot and the turtle carapace. Finally, it reflects on the developmental biology of novelties, emphasizing the complex and multifaceted nature of the evolutionary changes in the developmental mechanisms that contribute to the origin of novel body parts.Less
This chapter examines the developmental mechanisms underlying evolutionary novelties. It first considers the role of the environment in evolutionary innovations, with particular emphasis on how environmental perturbations result in the release of cryptic genetic variation. It then explores where the positional information for novel characters comes from before explaining derived mechanical stimuli and the origin of novelties in the avian hind limb skeleton. It also discusses the origin of character identity networks and the evolution of novel signaling centers, focusing on two novel morphological characters: the butterfly eyespot and the turtle carapace. Finally, it reflects on the developmental biology of novelties, emphasizing the complex and multifaceted nature of the evolutionary changes in the developmental mechanisms that contribute to the origin of novel body parts.
Sonia E. Sultan
- Published in print:
- 2015
- Published Online:
- October 2015
- ISBN:
- 9780199587070
- eISBN:
- 9780191814013
- Item type:
- chapter
- Publisher:
- Oxford University Press
- DOI:
- 10.1093/acprof:oso/9780199587070.003.0007
- Subject:
- Biology, Ecology, Developmental Biology
Selection arises from the encounter between phenotypes, which are environmentally influenced, and environments, which in turn are modified by the organisms themselves. This chapter examines selective ...
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Selection arises from the encounter between phenotypes, which are environmentally influenced, and environments, which in turn are modified by the organisms themselves. This chapter examines selective evolution in the context of these reciprocal effects. First, new insights into phenotypic variation and heredity are summarized to expand a strictly allelic evolutionary model. A key point is that immediate as well as inherited environmental influences affect fitness variation and, consequently, play an evolutionary role. A section on the evolution of reaction norms explains environmentally contingent patterns of genetic variance (G × E interaction and cryptic variation) and argues that plasticity can buffer selective impact, facilitate evolutionary divergence, or both. The impact of heritable epigenetic factors on selective dynamics is then discussed. A section on selective feedbacks due to niche construction (eco-evolutionary feedbacks) provides case studies and reviews theoretical insights, including coevolutionary implications. A final section considers how reciprocal organism–environment effects can be integrated to inform studies of adaptation and selection.Less
Selection arises from the encounter between phenotypes, which are environmentally influenced, and environments, which in turn are modified by the organisms themselves. This chapter examines selective evolution in the context of these reciprocal effects. First, new insights into phenotypic variation and heredity are summarized to expand a strictly allelic evolutionary model. A key point is that immediate as well as inherited environmental influences affect fitness variation and, consequently, play an evolutionary role. A section on the evolution of reaction norms explains environmentally contingent patterns of genetic variance (G × E interaction and cryptic variation) and argues that plasticity can buffer selective impact, facilitate evolutionary divergence, or both. The impact of heritable epigenetic factors on selective dynamics is then discussed. A section on selective feedbacks due to niche construction (eco-evolutionary feedbacks) provides case studies and reviews theoretical insights, including coevolutionary implications. A final section considers how reciprocal organism–environment effects can be integrated to inform studies of adaptation and selection.