sg:pub.10.1007/s12080-019-0414-7 - Springer Nature SciGraph

Article Info

DATE

2019-03-20

AUTHORS

Masato Yamamichi, Nelson G. Hairston, Mark Rees, Stephen P. Ellner

ABSTRACT

In life histories with generation overlap, selection that acts differently on different life-stages can produce reservoirs of genetic variation, for example, in long-lived iteroparous adults or long-lived dormant propagules. Such reservoirs provide “migration from the past” to the current population, and depending on the trend of environmental change, they have the potential either to slow adaptive evolution or accelerate it by re-introducing genotypes not affected by recent selection (e.g., through storage effect in a fluctuating environment). That is, the effect of generation overlap is a “double-edged sword,” with each edge cutting in a different direction. Here, we use sexual (quantitative trait) and asexual (clonal) models to explore the effects of generation overlap on adaptive evolution in a fluctuating environment, either with or without a trend in the mean environment state. Our analyses show that when environmental stochasticity scaled by strength of selection is intermediate and when the trend in mean environment is slow, intermediate values of generation overlap can maximize the rate of response to selection and minimize the adaptation lag between the trait mean and the environmental trend. Otherwise, increased generation overlap results in smaller selection response and larger adaptation lag. In the former case, low generation overlap results in low heritable trait variance, while high generation overlap increases the “migration load” from the past. Therefore, to understand the importance of rapid evolution and eco-evolutionary dynamics in the wild for organisms with overlapping generations, we need to understand the interaction of generation overlap, environmental stochasticity, and strength of selection. More... »

PAGES

1-17

References to SciGraph publications

2003-01. Egg banks in freshwater zooplankton: evolutionary and ecological archives in the sediment in HYDROBIOLOGIA

2017-03. Evolutionary stability of coexistence due to the storage effect in a two-season model in THEORETICAL ECOLOGY

1988-11. Rate of evolution slowed by a dormant propagule pool in NATURE

2004-08. Dormancy in freshwater zooplankton: Induction, termination and the importance of benthic-pelagic coupling in AQUATIC SCIENCES

1995-08. Genetic polymorphism in a temporally varying environment: effects of delayed germination or diapause in HEREDITY

2011-02. Microbial seed banks: the ecological and evolutionary implications of dormancy in NATURE REVIEWS MICROBIOLOGY

1963-03. Polymorphism due to selection of varying direction in JOURNAL OF GENETICS

Journal

TITLE

Theoretical Ecology

ISSUE

N/A

VOLUME

N/A

Subjects

FOR: Genetics

FOR: Biological Sciences

Author Affiliations

Cornell University

Swiss Federal Institute of Aquatic Science and Technology

University of Sheffield

From Grant

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s12080-019-0414-7

DOI

http://dx.doi.org/10.1007/s12080-019-0414-7

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1112897086

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54	″	schema:description	In life histories with generation overlap, selection that acts differently on different life-stages can produce reservoirs of genetic variation, for example, in long-lived iteroparous adults or long-lived dormant propagules. Such reservoirs provide “migration from the past” to the current population, and depending on the trend of environmental change, they have the potential either to slow adaptive evolution or accelerate it by re-introducing genotypes not affected by recent selection (e.g., through storage effect in a fluctuating environment). That is, the effect of generation overlap is a “double-edged sword,” with each edge cutting in a different direction. Here, we use sexual (quantitative trait) and asexual (clonal) models to explore the effects of generation overlap on adaptive evolution in a fluctuating environment, either with or without a trend in the mean environment state. Our analyses show that when environmental stochasticity scaled by strength of selection is intermediate and when the trend in mean environment is slow, intermediate values of generation overlap can maximize the rate of response to selection and minimize the adaptation lag between the trait mean and the environmental trend. Otherwise, increased generation overlap results in smaller selection response and larger adaptation lag. In the former case, low generation overlap results in low heritable trait variance, while high generation overlap increases the “migration load” from the past. Therefore, to understand the importance of rapid evolution and eco-evolutionary dynamics in the wild for organisms with overlapping generations, we need to understand the interaction of generation overlap, environmental stochasticity, and strength of selection.
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Rapid evolution with generation overlap: the double-edged effect of dormancy View Full Text