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Environmental and physiological drivers of immune function in frogs. This project aims to investigate how ultraviolet B radiation and temperature interact during early development to influence amphibian physiology. The environment can shape ecological processes through effects on an individuals' physiology. The project will combine genetic, biochemical and physiological approaches to investigate the effects of ultraviolet B and temperature on a key fitness determinant – immune system function. T ....Environmental and physiological drivers of immune function in frogs. This project aims to investigate how ultraviolet B radiation and temperature interact during early development to influence amphibian physiology. The environment can shape ecological processes through effects on an individuals' physiology. The project will combine genetic, biochemical and physiological approaches to investigate the effects of ultraviolet B and temperature on a key fitness determinant – immune system function. The project expects to provide information on how environmental conditions experienced during development influence the growth and fitness of frogs. This will improve our capacity to forecast potential ecological-level effects of environmental change on amphibians.Read moreRead less
Extreme acid tolerance: Overcoming the challenges of life at low pH. This project aims to investigate tolerance to low pH freshwaters, focusing on the mechanisms that underpin acid tolerance, physiological plasticity, the interactions between low pH and other environmental variables (e.g. temperature), and the costs and/or trade-offs to living in such physiologically challenging environments. Low pH waters are toxic to most animals, yet some freshwater vertebrates have managed to colonise some o ....Extreme acid tolerance: Overcoming the challenges of life at low pH. This project aims to investigate tolerance to low pH freshwaters, focusing on the mechanisms that underpin acid tolerance, physiological plasticity, the interactions between low pH and other environmental variables (e.g. temperature), and the costs and/or trade-offs to living in such physiologically challenging environments. Low pH waters are toxic to most animals, yet some freshwater vertebrates have managed to colonise some of the lowest pH environments on Earth. In our rapidly changing world, this study is expected to provide an important fundamental understanding of the capacity of some organisms to flourish at environmental extremes and their ability to respond to increased variability both within and between environmental stressors.Read moreRead less
How does the interaction between environmental drivers determine the impact of global change on animals? There is an urgent need to determine how vulnerable natural populations are to simultaneous changes in more than one environmental driver. This project will take an integrative approach, using molecular, physiological and ecological tools, to determine whether cellular responses to the interaction between UV-B radiation and temperature vary between populations, and within individuals over tim ....How does the interaction between environmental drivers determine the impact of global change on animals? There is an urgent need to determine how vulnerable natural populations are to simultaneous changes in more than one environmental driver. This project will take an integrative approach, using molecular, physiological and ecological tools, to determine whether cellular responses to the interaction between UV-B radiation and temperature vary between populations, and within individuals over time. This project will bridge the gap between physiology and ecology by testing whether molecular responses translate into fitness benefits for the organism to gain an understanding at a level that is relevant for conservation. Read moreRead less
Living in a changing climate: the impacts of temperature during aestivation on burrowing frogs. Although arid zones of Australia are characterised by extremes of temperature, little is known about the thermal ecology of frogs inhabiting these regions. This project will determine the effects of temperature on the physiology of an arid-adapted frog and determine whether likely increases in global temperatures will impact its survival.
Testing metabolic theories in ecology. There are striking similarities in the way plants and animals take up and use energy (metabolism), despite enormous variation in size and life-style. This project will make the first experimental comparison of the predictions of the two major theories for these broad patterns. The results will significantly progress this controversial and exciting field.
Evolutionary roots of social bonds in female mammals. The social networks and friendships of wild female kangaroos and how these benefit individuals will be studied. This project will help us understand how the propensity of mammals to form friendships evolved; this understanding of the evolutionary roots of friendships will help in understanding why friendships affect peoples' health and mortality.
How different is different: highly contrasting colours in animal patterns. Red apples in green trees and blue berries on the ground create very different visual signals to animals. Furthermore, elaborate animal colour patterns have evolved to render them conspicuous or camouflaged against their background. Despite the ecological and evolutionary importance of animal colour patterns, little is known about how larger colour contrasts and complex patterns are perceived by animals. This project aim ....How different is different: highly contrasting colours in animal patterns. Red apples in green trees and blue berries on the ground create very different visual signals to animals. Furthermore, elaborate animal colour patterns have evolved to render them conspicuous or camouflaged against their background. Despite the ecological and evolutionary importance of animal colour patterns, little is known about how larger colour contrasts and complex patterns are perceived by animals. This project aims to fill this knowledge gap specifically it endeavours: to provide useful tools for behavioural ecologists and visual neuroscientists, and to understand for the first time the full gamut of colour signalling in both terrestrial and aquatic environments.Read moreRead less
Understanding the ecological effects of genetic diversity: causes, consequences and relative importance. This project will examine the effect of genetic diversity on key demographic parameters (for example, population growth rates) for organisms from three groups, including a commercially important oyster. This project provides valuable information that can be used by managers of wild and cultivated populations to minimise impacts of human activities and maximise yields.
Sex in the city: social harmony and conflict resolution in insect societies. Explaining the organization of cooperative societies is a significant challenge to the field of evolutionary biology. Insect societies play a pivotal role in achieving this aim, as colonies of many species persist with apparent harmony despite the presence of numerous queens competing for reproductive dominance. This study evaluates alternative hypotheses for the resolution of reproductive conflict and the maintenance a ....Sex in the city: social harmony and conflict resolution in insect societies. Explaining the organization of cooperative societies is a significant challenge to the field of evolutionary biology. Insect societies play a pivotal role in achieving this aim, as colonies of many species persist with apparent harmony despite the presence of numerous queens competing for reproductive dominance. This study evaluates alternative hypotheses for the resolution of reproductive conflict and the maintenance and evolution of cooperative societies, by examining colonies of the Australian multi-queened social wasp genus Ropalidia. Outcomes include robust tests of prominent hypotheses, explanations for cooperation's diversity and persistence, and the development of powerful molecular and behavioral techniques within Australia.
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Co-divergence or opportunism: the evolution of trematode parasitism in the sea. This proposal is for fundamental research into how a major group of parasites (trematodes) has evolved in interaction with its hosts. The work is mainly the kind of 'basic science' that underpins other science without having intended immediate community benefit. However, the work depends strongly on the important task of developing better knowledge of trematodes in Australian native animals. Some of these parasite ....Co-divergence or opportunism: the evolution of trematode parasitism in the sea. This proposal is for fundamental research into how a major group of parasites (trematodes) has evolved in interaction with its hosts. The work is mainly the kind of 'basic science' that underpins other science without having intended immediate community benefit. However, the work depends strongly on the important task of developing better knowledge of trematodes in Australian native animals. Some of these parasites are pathogens of bivalves (scallops, giant clams and oysters) but almost nothing is known about them here. Another benefit of the study is in the training of several postgraduate students who will be able to contribute to the further study and management of parasites in Australia.Read moreRead less