Title page for ETD etd-08022011-095734


Type of Document Dissertation
Author DuRant, Sarah Elizabeth
Author's Email Address sdurant@vt.edu
URN etd-08022011-095734
Title The role of incubation temperature in determining avian phenotype: implications for avian ecology, life history evolution, and conservation.
Degree PhD
Department Fisheries and Wildlife Sciences
Advisory Committee
Advisor Name Title
Hopkins, William A. Committee Chair
Hawley, Dana M. Committee Member
Hepp, Gary R. Committee Member
Moore, Ignacio T. Committee Member
Walters, Jeffrey R. Committee Member
Keywords
  • stress endocrinology
  • bioenergetics
  • eco-immunology
  • maternal effects
Date of Defense 2011-07-21
Availability unrestricted
Abstract
The early developmental environment has a profound influence on an individual’s life history trajectory and parents have tremendous influence over this environment. Despite the wealth of research demonstrating that incubation temperature affects a suite of traits important to fitness in reptiles, we are only now discovering that nest temperatures are a defining component of the avian developmental environment. Aspects of the nest environment may be an important and overlooked maternal effect in birds as nearly all birds physically incubate their eggs, thus providing a clear link between parental behavior and the developmental environment of the avian embryo. My research used an interdisciplinary approach, uniting concepts from life history theory, bioenergetics. immunology, and physiological ecology to investigate the importance of incubation temperature to avian phenotype. I found that incubation temperature affects a suite of traits important for future development, survival and reproduction in a species of birds. Using a population of wood ducks (Aix sponsa) that has been the subject of long term studies I investigated the effects of incubation temperature on embryonic developmental patterns and energy expenditure, and body size and condition, stress endocrinology, thermoregulatory performance, and immunocompetence in hatchling wood ducks. In all experiments freshly laid wood duck eggs were collected from nest boxes located in SC, transported to Virginia Tech and incubated at one of three temperatures (35.0, 35.9, 37.0˚C) that fell within the range of naturally-incubated wood duck nest temperatures. I found that less than 1˚C differences in incubation temperature affected duckling growth and body condition, stress endocrinology, immune responses, and energy expended to thermoregulate. Many of these effects persisted days to weeks after hatching. In most cases, ducklings that hatched from eggs incubated at lowest temperature performed poorer than ducklings that hatched from eggs incubated at the higher temperatures. Incubation temperature also affected wood duck embryonic developmental trajectories and energy expended during incubation with embryos from the low incubation temperature expended more energy and developing slower than ducklings incubated at the higher temperatures. Embryonic energy expenditure could contribute to effects observed on hatchling phenotype. Because I demonstrate that incubation temperature affects hatchling phenotypic quality, the variability upon which natural selection acts, my findings have implications for avian ecology, life history evolution and conservation.
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