Mitochondria and Metabolism as Drivers of Climate Adaptation in Wild Populations of Eastern Yellow Robin
STEPHANIE FALK
10.26180/5e30ec270090d
https://bridges.monash.edu/articles/thesis/Mitochondria_and_Metabolism_as_Drivers_of_Climate_Adaptation_in_Wild_Populations_of_Eastern_Yellow_Robin/11755251
The modulation of energy metabolism is a crucial mechanism to adapt to climate. This thesis highlights that genetic and climatic factors interact to shape metabolic responses. I used an integrative approach to study the metabolic activity of cells and the whole organism in wild populations of a native Australian songbird. I showed that metabolism was strongly affected by the presence of water in the environment and the genetic variation encoded in the mitochondrial genome. These drivers of climate adaptation have rarely been highlighted, but should be considered to conserve species more effectively under climate change.
2020-01-29 02:21:25
Mitochondria
Metabolic Rate
Mitochondrial Phenotypes
OXPHOS
Respiration
Eco-Physiology
Mitochondrial Genotypes
Evolutionary Biology
Physiology
Ecology