Overcoming limits of miniaturisation to enhance spatial memory capacities. Ensuring optimal efficiency at the smallest possible physical limit is a challenge for technical systems, which has been elegantly solved by biological systems. This project aims to identify how insects with miniature brains enhance their memory capacities. It will leverage previous ARC funded research on navigation of Australian ants and apply sophisticated analytical tools to quantify the neural connectivity in the brai ....Overcoming limits of miniaturisation to enhance spatial memory capacities. Ensuring optimal efficiency at the smallest possible physical limit is a challenge for technical systems, which has been elegantly solved by biological systems. This project aims to identify how insects with miniature brains enhance their memory capacities. It will leverage previous ARC funded research on navigation of Australian ants and apply sophisticated analytical tools to quantify the neural connectivity in the brain in the context of spatial memory. Expected outcomes include understanding how expensive neural tissue can be miniaturised for efficient spatial navigation, identifying the consequences of miniaturisation for developing miniature and autonomous agents, enhancing research capacity and institutional collaborations.Read moreRead less
The role of dopamine in the regulation of worker sterility in the honey bee. This project will open new doors into the knowledge of honey bees' sterility. We will not only show that certain genes control honey bee sterility but also that there is interactions between these genes and environmental cues such as the pheromones released by the queen. The project will provide significant material for a better understanding of honey bees society. Honey bees remain the most important pollinator world w ....The role of dopamine in the regulation of worker sterility in the honey bee. This project will open new doors into the knowledge of honey bees' sterility. We will not only show that certain genes control honey bee sterility but also that there is interactions between these genes and environmental cues such as the pheromones released by the queen. The project will provide significant material for a better understanding of honey bees society. Honey bees remain the most important pollinator world wide, and their conservation is a major concern both to agriculturalists and the general public. The project will be of immense scientific interest, and likely to be regarded as a major breakthrough. The project will also foster a strong intellectual collaboration between New Zealand and Australia.Read moreRead less
Assessing animal exposure to urticating caterpillar hairs and developing management strategies to reduce the consequence of foetal abortion in mares. Equine Amnionitis and Foetal Loss (EAFL) accounts for about a third of mares aborting in thoroughbred horse studs in southern Queensland, New South Wales and Victoria. Previous studies have shown that processionary caterpillars and their irritating setae (hairs) can cause EAFL. This project aims to determine the likelihood that other caterpillar sp ....Assessing animal exposure to urticating caterpillar hairs and developing management strategies to reduce the consequence of foetal abortion in mares. Equine Amnionitis and Foetal Loss (EAFL) accounts for about a third of mares aborting in thoroughbred horse studs in southern Queensland, New South Wales and Victoria. Previous studies have shown that processionary caterpillars and their irritating setae (hairs) can cause EAFL. This project aims to determine the likelihood that other caterpillar species are involved based on hair morphology and a surrogate model system. A full risk assessment of the exposure of mares to these hairs in situ will be undertaken, based on the ecology and biology of the species. Outcomes include a management strategy for EAFL-causing insects and a reduction of EAFL within the industry.Read moreRead less
Comprehending and modelling the workings of the animal brain. Truly understanding how the brain operates is a grand challenge of 21st century neuroscience. Progress toward this goal can be made through studying small-brained animals, like the honey bee. This project aims to use microscopy and pharmacology to analyse the neural mechanisms by which bees learn and classify complex things. This will enable the construction of a computational model of decision making in the bee brain. Analysing this ....Comprehending and modelling the workings of the animal brain. Truly understanding how the brain operates is a grand challenge of 21st century neuroscience. Progress toward this goal can be made through studying small-brained animals, like the honey bee. This project aims to use microscopy and pharmacology to analyse the neural mechanisms by which bees learn and classify complex things. This will enable the construction of a computational model of decision making in the bee brain. Analysing this model will test what is understood about the operation of the animal brain, and what simulates it. This project aims to reveal how neural circuits make complex decisions; establish key principles and foundational studies for comprehending larger more complex brains, and yield new approaches to machine learning.Read moreRead less
Social insects as model systems in complexity science. Many optimisation algorithms are based on the behaviour of social insects. These algorithms function well under static conditions, when there is only one optimal solution. This project will determine how individual insect behaviour affects collective behaviour. Outcomes will allow the development of better algorithms.
Molecular identification of blowflies of forensic importance and thermal effects on their behaviour: tools to enhance forensic entomology in Australia. In suspicious deaths in which a body is found three or more days post-mortem, carrion-breeding blowflies provide time since death estimates. These estimates are currently slow and relatively broad due to (a) an inability to adequately distinguish immatures morphologically, and (b) insufficient information on the biological responses of different ....Molecular identification of blowflies of forensic importance and thermal effects on their behaviour: tools to enhance forensic entomology in Australia. In suspicious deaths in which a body is found three or more days post-mortem, carrion-breeding blowflies provide time since death estimates. These estimates are currently slow and relatively broad due to (a) an inability to adequately distinguish immatures morphologically, and (b) insufficient information on the biological responses of different species to temperature. We will develop rapid molecular assays to distinguish blowfly species, and comprehensively chart the behavioural effects of temperature on the most forensically important blowflies. Molecular and adult morphological data will also be used to examine the evolution of the carrion-breeding blowflies.Read moreRead less
The nature and consequences of environmentally-generated phenotypic variation in natural populations. The ambient environment can generate both heritable and non-heritable variation in individual traits, but the role of such variation in evolution is poorly understood. This project will use a powerful model organism, the Australian neriid flies, to elucidate the evolutionary implications of environmentally-generated variation.
Signal manipulation in orb-web spiders. A number of diverse orb-web spiders adorn their webs with conspicuous silk bands called decorations or stabilimenta. Their function remains controversial, but they may act as a visual signal to either attract prey, deter predators or prevent web damage by large non-prey animals. We will test these hypotheses on several Australian orb-web species using field and laboratory experiments. Furthermore, we will investigate the effect of web decorations on specie ....Signal manipulation in orb-web spiders. A number of diverse orb-web spiders adorn their webs with conspicuous silk bands called decorations or stabilimenta. Their function remains controversial, but they may act as a visual signal to either attract prey, deter predators or prevent web damage by large non-prey animals. We will test these hypotheses on several Australian orb-web species using field and laboratory experiments. Furthermore, we will investigate the effect of web decorations on species radiation and hence diversity using molecular techniques to establish phylogenies. This will, at least in part, help resolve this century old debate surrounding web decorations.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101281
Funder
Australian Research Council
Funding Amount
$384,589.00
Summary
Mechanisms influencing the evolutionary trajectories of extended phenotypes. Although we know how the environment and predator-prey interactions shape traits, we have a poor grasp of the evolution of extended phenotypes. The webs of spiders have switched repeatedly between two- and three-dimensional forms over time, so are excellent models for assessing extended phenotype evolution. This project will use innovative experiments to assess whether the prey capture performance of webs or their visib ....Mechanisms influencing the evolutionary trajectories of extended phenotypes. Although we know how the environment and predator-prey interactions shape traits, we have a poor grasp of the evolution of extended phenotypes. The webs of spiders have switched repeatedly between two- and three-dimensional forms over time, so are excellent models for assessing extended phenotype evolution. This project will use innovative experiments to assess whether the prey capture performance of webs or their visibility to insects drove the repeated This project will provide insights into the interactive roles of the environment and prey in shaping extended phenotype diversification. Read moreRead less
Diversity and Defence: Characterisation of Extremely Variable Defensive Proteins from Sea Urchins. Antibiotic resistance is a global problem. In this project, we will study a new class of potential antibiotics - purpuratins - from sea urchins. Purpuratins are unique when compared to other antimicrobials because of their extreme structural diversity. By investigating that diversity, we will shed new light on biological methods for targeted drug design. This information will be critical to the de ....Diversity and Defence: Characterisation of Extremely Variable Defensive Proteins from Sea Urchins. Antibiotic resistance is a global problem. In this project, we will study a new class of potential antibiotics - purpuratins - from sea urchins. Purpuratins are unique when compared to other antimicrobials because of their extreme structural diversity. By investigating that diversity, we will shed new light on biological methods for targeted drug design. This information will be critical to the development of tailor-made antibiotics that are fine-tuned to kill particular micro-organisms. Our work represents a collaboration between researchers in Australia and the United States. It contributes directly to international scientific co-operation whilst providing high level training for young Australian researchers and students. Read moreRead less