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Small effective size limits performance in a novel environment.

Christopher G Oakley1

  • 1Department of Biological Science Florida State University Tallahassee FL USA.

Evolutionary Applications
|February 2, 2018
PubMed
Summary
This summary is machine-generated.

Small plant populations struggle in novel habitats due to low genetic diversity and fixed mutations. Larger populations show higher fitness in new environments, especially on roadsides, indicating adaptation challenges.

Keywords:
Hypericumhuman disturbanceinvasionmutational meltdownnovel environmentroadsidesmall population

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Area of Science:

  • Ecology
  • Evolutionary Biology
  • Conservation Biology

Background:

  • Species responses to human-induced habitat change are crucial for invasive species control and conservation.
  • Small effective population sizes may hinder adaptation to novel environments due to limited genetic variation or fixed deleterious mutations.

Purpose of the Study:

  • To investigate the relationship between population size and fitness in a novel habitat.
  • To understand the factors limiting or facilitating species' adaptation to human-altered environments.

Main Methods:

  • Estimating fitness of endangered plant (Hypericum cumulicola) populations of known sizes.
  • Transplanting individuals into native scrub and novel unpaved roadside habitats.
  • Analyzing the relationship between population size, habitat type, and individual fitness (fecundity).

Main Results:

  • A positive correlation between population size and mean fitness was observed exclusively in the novel roadside habitat.
  • Plant fitness was over 200% higher in the roadside habitat compared to the native scrub, primarily driven by increased fecundity.
  • Results suggest fixed deleterious mutations may impact the fitness of small populations in new environments.

Conclusions:

  • Population size is a significant factor influencing fitness in novel habitats.
  • The unpaved roadside habitat facilitated higher plant fitness, likely due to increased reproductive output.
  • Fixed deleterious mutations may play a role in the reduced fitness of small populations adapting to new environments.