Manipulative tests of metabolic theory. This project aims to take a new interdisciplinary approach to understanding how energy flows through individuals, populations, communities, and ecosystems. The project expects to develop a new framework for understanding the function of biological systems, bringing together the fields of physiology, ecology, and evolutionary biology, generating research publications, and training students in interdisciplinary research. The proposed research is anticipated ....Manipulative tests of metabolic theory. This project aims to take a new interdisciplinary approach to understanding how energy flows through individuals, populations, communities, and ecosystems. The project expects to develop a new framework for understanding the function of biological systems, bringing together the fields of physiology, ecology, and evolutionary biology, generating research publications, and training students in interdisciplinary research. The proposed research is anticipated to provide a means for understanding how management interventions can alter energy flows in biological systems, bringing benefits across the areas of climate change adaptation, conservation science, agriculture and aquaculture, and fisheries management.Read moreRead less
A new model for animal growth. This project aims to test and further develop a new theory for how animals grow. The new growth theory brings together the fields of physiology, ecology, and evolutionary biology, generating research publications, and training students. The proposed research is anticipated to provide a fundamentally new means for understanding how animals divide energy among growth and reproduction, paving the way for organismal allocation to these processes to be optimised by sele ....A new model for animal growth. This project aims to test and further develop a new theory for how animals grow. The new growth theory brings together the fields of physiology, ecology, and evolutionary biology, generating research publications, and training students. The proposed research is anticipated to provide a fundamentally new means for understanding how animals divide energy among growth and reproduction, paving the way for organismal allocation to these processes to be optimised by selective breeding or genetic manipulation, yielding potential benefits for aquaculture (enhanced growth) or re-introduction (enhanced reproduction).Read moreRead less