The evolutionary effect of the domestication process in a model organism. A significant proportion of research in the field of evolutionary biology, focuses on captive populations of laboratory-bred animals. Little is known about the impact of the domestication process on these species, raising questions about the relevance of such studies. The Australian zebra finch is the avian model species of choice in evolutionary biology laboratories in Europe and the USA and the focus of many high profile ....The evolutionary effect of the domestication process in a model organism. A significant proportion of research in the field of evolutionary biology, focuses on captive populations of laboratory-bred animals. Little is known about the impact of the domestication process on these species, raising questions about the relevance of such studies. The Australian zebra finch is the avian model species of choice in evolutionary biology laboratories in Europe and the USA and the focus of many high profile publications. Our investigation into the affect of domestication on the evolutionary biology of this key model species will have a high international impact, raising the profile of Australian research, in addition to providing fundamental knowledge across several areas of reproductive biology.Read moreRead less
From developmental stability to organismic senility: Hox genes and telomere impact on life history evolution. Australia benefits from training researchers and technicians in new, break-through biotechnology and from applying this knowledge to relevant, cutting-edge questions in highly publicized research fields. This project contains both these ingredients. Our model species (a lizard) has a relatively high level of offspring malformations (ca 15%), which makes it much more likely to detect thei ....From developmental stability to organismic senility: Hox genes and telomere impact on life history evolution. Australia benefits from training researchers and technicians in new, break-through biotechnology and from applying this knowledge to relevant, cutting-edge questions in highly publicized research fields. This project contains both these ingredients. Our model species (a lizard) has a relatively high level of offspring malformations (ca 15%), which makes it much more likely to detect their underlying genetic mechanism. Furthermore, we can also assess how these animals survive and reproduce in relation to how quickly they age, which can be measured by assessing the shortening of telomeres per unit time. Thus, this collaboration provides an opportunity to train Australian researchers and in that process generate very high profile research.Read moreRead less