The Interplay Between Selection And Constraints On Adaptive Divergence And Phenotypic Evolution
Author
Summary, in English
Under natural or sexual selection, individuals with advantageous traits or
combinations of traits will be more successful than their peers at surviving
and/or reproducing. Provided these traits are heritable, meaning that they
have a genetic basis, the traits combinations which are selected for, will
increase in frequency in the population. When selection is intense and
persistent, adaptive traits may become ubiquitous in the population, and we
may then say that this population has evolved and become adapted.
However, this process might not always occur rapidly. This is because
adaptive evolution occurs only when the individuals of a population are
diverse in their trait combinations and when there is a significant amount of
genetic variation for the trait(s) upon which selection is acting.
However, if the adaptive optimum of a combination of traits is situated in a
direction where there is little variation available, adaptation will be slowed down, and we will say it is constrained. This is precisely what I attempted to study in this thesis. The outcome of the interplay between selection and constraints might lead to evolution, to divergence between populations, and finally to the emergence of new species and biodiversity. By using different statistical techniques used in quantitative genetics or geometric morphometrics, combined with behavioral and breeding experiments, I
tried to draw some conclusions on the role of constraints both in the early
stages of adaptation and divergence (using isopod lake populations as a
model system) and in the latter stages of divergence and speciation (using
damselfly species as model organisms). My main conclusions are that in
the context of strong divergent selection, constraints may be overcome and
adaptation may proceed, provided that gene flow between populations is
restrained.
combinations of traits will be more successful than their peers at surviving
and/or reproducing. Provided these traits are heritable, meaning that they
have a genetic basis, the traits combinations which are selected for, will
increase in frequency in the population. When selection is intense and
persistent, adaptive traits may become ubiquitous in the population, and we
may then say that this population has evolved and become adapted.
However, this process might not always occur rapidly. This is because
adaptive evolution occurs only when the individuals of a population are
diverse in their trait combinations and when there is a significant amount of
genetic variation for the trait(s) upon which selection is acting.
However, if the adaptive optimum of a combination of traits is situated in a
direction where there is little variation available, adaptation will be slowed down, and we will say it is constrained. This is precisely what I attempted to study in this thesis. The outcome of the interplay between selection and constraints might lead to evolution, to divergence between populations, and finally to the emergence of new species and biodiversity. By using different statistical techniques used in quantitative genetics or geometric morphometrics, combined with behavioral and breeding experiments, I
tried to draw some conclusions on the role of constraints both in the early
stages of adaptation and divergence (using isopod lake populations as a
model system) and in the latter stages of divergence and speciation (using
damselfly species as model organisms). My main conclusions are that in
the context of strong divergent selection, constraints may be overcome and
adaptation may proceed, provided that gene flow between populations is
restrained.
Department/s
Publishing year
2009
Language
English
Document type
Dissertation
Publisher
Animal Ecology
Topic
- Ecology
Keywords
- Selection
- Constraints
- Adaptive Divergence
- G-matrix
- Gene Flow.
- Speciation
Status
Published
Project
- SUFOR
Research group
- Evolutionary Population Biology (Erik Svensson)
Supervisor
ISBN/ISSN/Other
- ISBN: 978-91-7105-304-6
Defence date
20 November 2009
Defence time
10:00
Defence place
Blå Hallen, Ekologihuset, Sölvegatan 37, Lund
Opponent
- Andrew Hendry