The intensity of sexual selection with density and age and its importance in the evolution of animal populations. Australia is internationally highly regarded for the quality of its research into the basic biology of its fauna. This study will provide information on the breeding biology of an endemic marine species distributed across the Northern tropics of Australia. It addresses a pure research question of great theoretical interest. However, it also provides valuable training opportunities fo ....The intensity of sexual selection with density and age and its importance in the evolution of animal populations. Australia is internationally highly regarded for the quality of its research into the basic biology of its fauna. This study will provide information on the breeding biology of an endemic marine species distributed across the Northern tropics of Australia. It addresses a pure research question of great theoretical interest. However, it also provides valuable training opportunities for postgraduate students in the practicalities of conducting tropical field biology and the execution of field experiments. These are essential skills that can readily be transferred to applied biological problems. Maintaining a pool of skilled field biologists is essential for the on-going success of programmes in conservation and ecosystem management. Read moreRead less
Fighting for space: How do weaker individuals compete? Animals fight for territories and larger, stronger individuals usually win. How then, in fiddler crabs, do small males and weaponless females defend their territories against larger males? I will investigate four contexts in which strength alone may not determine fighting success. I predict that: (a) positional and motivational advantages allow territory owners to repel intruders; (b) weak individuals compete with stronger neighbours by 'nag ....Fighting for space: How do weaker individuals compete? Animals fight for territories and larger, stronger individuals usually win. How then, in fiddler crabs, do small males and weaponless females defend their territories against larger males? I will investigate four contexts in which strength alone may not determine fighting success. I predict that: (a) positional and motivational advantages allow territory owners to repel intruders; (b) weak individuals compete with stronger neighbours by 'nagging' rather than by winning fights; (c) residents form coalitions to fend off intruders; and d) females, who lack the large claws of males, employ novel alternative tactics to maintain territories.This study will test important theories of territoriality and in so doing make a major contribution to behavioural ecology.
Read moreRead less
Escalation of a coevolutionary arms race between cuckoos and their hosts: cognitive causes and evolutionary consequences. Cuckoos lay their eggs in the nests of other species, provoking an evolutionary arms race in which hosts evolve defences against parasitism and cuckoos evolve ever more cunning tricks to gain reproductive success. In principle, the degree of specialization required to defeat host defences could cause cuckoo speciation. Our previous research has revealed that the arms race bet ....Escalation of a coevolutionary arms race between cuckoos and their hosts: cognitive causes and evolutionary consequences. Cuckoos lay their eggs in the nests of other species, provoking an evolutionary arms race in which hosts evolve defences against parasitism and cuckoos evolve ever more cunning tricks to gain reproductive success. In principle, the degree of specialization required to defeat host defences could cause cuckoo speciation. Our previous research has revealed that the arms race between the Horsfield's bronze-cuckoo and its superb fairy-wren host has reached a uniquely advanced stage, hitherto undescribed, and previously thought imposssible to attain. We aim to investigate the mechanisms underlying this specialization and investigate whether it is driving speciation of the Chrysococcyx cuckoos.Read moreRead less
Moving between day and night: Navigational strategies and foraging costs of temporal niche partitioning. This study involves fundamental research to identify the navigational strategies and the foraging cost in animals that occupy different temporal niches. It will make use of the unique research opportunities in Australia, by working with endemic fauna that allows scientists to address questions that would otherwise be hard to answer. The project will introduce the novel technique of differenti ....Moving between day and night: Navigational strategies and foraging costs of temporal niche partitioning. This study involves fundamental research to identify the navigational strategies and the foraging cost in animals that occupy different temporal niches. It will make use of the unique research opportunities in Australia, by working with endemic fauna that allows scientists to address questions that would otherwise be hard to answer. The project will introduce the novel technique of differential GPS to track the paths of ants which has the potential to revolutionise the field of insect navigation. Salience-dependent navigational strategies analysed in this study will be of great interest in the field of engineering and robotics.Read moreRead less
Moving to be seen: a comprehensive analysis of movement-based signal design. Papers on visual motion processing and animal signal design regularly feature in major journals, and the programs of international conferences. We can thus be confident that theoretical advances will attract international attention. We will develop further state-of-the-art methods in motion analysis, with our overall approach likely to serve as a framework for future research programs, although our techniques will have ....Moving to be seen: a comprehensive analysis of movement-based signal design. Papers on visual motion processing and animal signal design regularly feature in major journals, and the programs of international conferences. We can thus be confident that theoretical advances will attract international attention. We will develop further state-of-the-art methods in motion analysis, with our overall approach likely to serve as a framework for future research programs, although our techniques will have applications outside of biology. In addition, we will learn much about the social behaviour of a group of native reptiles about which relatively little is known. Research on the social behaviour of animals is readily comprehended by non-specialists and plays an important role in attracting young people to careers in science.Read moreRead less
Evolution of cooperative breeding in birds. The incidence of cooperative breeding in birds varies from 0 to 100% between families of birds, and from <1 to >25% among birds from different regions. However, there has been no theory that successfully predicts these differences. Recent comparative analysis shows the differences result largely from the early evolution of obligate cooperative breeding in some groups, and their subsequent slow rates of speciation. I will use model systems to investiga ....Evolution of cooperative breeding in birds. The incidence of cooperative breeding in birds varies from 0 to 100% between families of birds, and from <1 to >25% among birds from different regions. However, there has been no theory that successfully predicts these differences. Recent comparative analysis shows the differences result largely from the early evolution of obligate cooperative breeding in some groups, and their subsequent slow rates of speciation. I will use model systems to investigate how birds can become committed to cooperative breeding despite the inevitable conflicts, and how one group of birds have been freed from the general rules governing the evolution of sociality.Read moreRead less
Why do females mate with multiple partners? Tests of key hypotheses in the wild. Female animals commonly mate with several males at each reproductive cycle, but we do not know why. Six plausible, testable hypotheses have been proposed to explain how females could benefit directly, or by obtaining advantageous genes for their offspring. The few empirical investigations so far carried out have been in captivity and have not considered all alternative explanations. I propose to experimentally test ....Why do females mate with multiple partners? Tests of key hypotheses in the wild. Female animals commonly mate with several males at each reproductive cycle, but we do not know why. Six plausible, testable hypotheses have been proposed to explain how females could benefit directly, or by obtaining advantageous genes for their offspring. The few empirical investigations so far carried out have been in captivity and have not considered all alternative explanations. I propose to experimentally test the key hypotheses in the wild, using a small mammal uniquely-suited to this purpose because of its unusual, but well-known reproductive strategy. The results will improve our understanding of the role of female behaviour in evolutionary processes.Read moreRead less
The influence of breeding synchrony on avian reproductive strategies. Australia has a strong international reputation for research on avian evolutionary biology, in part, because of our diverse and unique avifauna. This research will resolve one of the more contentious issues in this field concerning the influence of breeding synchrony on a range of reproductive behaviours. Our experimental approach incorporates a series of new and innovative techniques and will help maintain Australia's leading ....The influence of breeding synchrony on avian reproductive strategies. Australia has a strong international reputation for research on avian evolutionary biology, in part, because of our diverse and unique avifauna. This research will resolve one of the more contentious issues in this field concerning the influence of breeding synchrony on a range of reproductive behaviours. Our experimental approach incorporates a series of new and innovative techniques and will help maintain Australia's leading role in this area. The project will provide intensive training for students and also promote awareness about Australia's bird life to a wide audience, including rural communities who have a critical role in the long-term preservation of many species.Read moreRead less
The evolution of sequential polyandry: An experimental approach. The notion that polyandry has evolved as an adaptive female strategy remains highly controversial because empirical work lags far behind theoretical advances. This study will empirically test current hypotheses for the evolution of polyandry using the Australian frog Pseudophryne bibroni as a model species. Aspects of the reproductive biology of this species make it ideal for critically testing diverse hypotheses that can not be ea ....The evolution of sequential polyandry: An experimental approach. The notion that polyandry has evolved as an adaptive female strategy remains highly controversial because empirical work lags far behind theoretical advances. This study will empirically test current hypotheses for the evolution of polyandry using the Australian frog Pseudophryne bibroni as a model species. Aspects of the reproductive biology of this species make it ideal for critically testing diverse hypotheses that can not be easily tested in groups with internal fertilisation or with simultaneous polyandry. Understanding why females mate with multiple males will have extreme implications for sexual selection and mating system theory.Read moreRead less
Evolving with sexually transmitted infections. This project aims to understand how sexually transmitted infections (STIs) affect the evolution of host mating systems. STIs threaten the health of most sexually-reproducing organisms. In evolutionary terms, their mode of transmission imposes distinct selection patterns on hosts. This project will use an Australian beetle and its sexually transmitted mite to investigate how STIs lead to evolutionary changes in host mating behaviour and explore the g ....Evolving with sexually transmitted infections. This project aims to understand how sexually transmitted infections (STIs) affect the evolution of host mating systems. STIs threaten the health of most sexually-reproducing organisms. In evolutionary terms, their mode of transmission imposes distinct selection patterns on hosts. This project will use an Australian beetle and its sexually transmitted mite to investigate how STIs lead to evolutionary changes in host mating behaviour and explore the genetic basis for STI resistance. This project is expected to affect the evolution of host mating biology and lead to sex-specific optimal levels of disease resistance, which can influence disease dynamics and host-disease coevolution.Read moreRead less