Mass-production of beneficial insects for commercial pest management - physicochemical definition of oviposition sites for development of cost-efficient artificial substrates. The mass-production of beneficial insects for commercial purposes demands the development of cost-effective techniques for breeding and distributing them to growers. Many predatory beneficial insects lay their eggs in sites that prevent effective mass culturing. To circumvent this difficulty, it should be possible to defin ....Mass-production of beneficial insects for commercial pest management - physicochemical definition of oviposition sites for development of cost-efficient artificial substrates. The mass-production of beneficial insects for commercial purposes demands the development of cost-effective techniques for breeding and distributing them to growers. Many predatory beneficial insects lay their eggs in sites that prevent effective mass culturing. To circumvent this difficulty, it should be possible to define such oviposition sites in chemical and physical terms, and then use the information to develop artificial substrates that are convenient for mass rearing the insects and for disseminating them to growers. We will use the mealybug predator Cryptolaemus montrouszieri to test the feasibility of this approach and to assess its application to other beneficial species.Read moreRead less
Regulatory cellular microRNAs and their role in insect anti-viral responses. This project will use cutting edge approaches to reveal fundamental roles of small ribonucleic acid molecules (microRNAs) in insect anti-viral responses and immunity. By manipulating anti-viral immune responses, the project will assist in the design of novel approaches to pest control and abolish/limit transmission of vector-borne viruses such as Dengue virus.
Discovery Early Career Researcher Award - Grant ID: DE120101512
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Investigating the interaction of microRNAs-Wolbachia-Dengue virus in the mosquito vector, Aedes aegypti. This project focuses on using molecular techniques to discover fundamental roles of small RNA molecules (microRNAs) of a key mosquito vector in bacterial symbiosis and Dengue virus infection. It will lead to development of effective approaches in limiting spread of vector and transmission of life threatening viral diseases.
Host provisioning by Wolbachia: re-examining the invasion potential of a common invertebrate endosymbiont. Wolbachia are often described as reproductive parasites that manipulate their host for their own gain. This study will determine for the first time how Wolbachia can help its insect host during periods of nutritional stress. As Wolbachia are able to infect host populations it will be used in the near future to control insects that transmit disease or are commercial pests. Understanding how ....Host provisioning by Wolbachia: re-examining the invasion potential of a common invertebrate endosymbiont. Wolbachia are often described as reproductive parasites that manipulate their host for their own gain. This study will determine for the first time how Wolbachia can help its insect host during periods of nutritional stress. As Wolbachia are able to infect host populations it will be used in the near future to control insects that transmit disease or are commercial pests. Understanding how Wolbachia interacts with its host, as a parasite or beneficial, will improve its application in the field. Knowing how benefits are provided to the host will improve human health in the future. As Wolbachia are needed for filarial nematode development, disrupting the beneficial mechanisms identified in this study will improve filariasis control programsRead moreRead less
Cell-free immune reactions and suppression. Insects pests and insect vectors of diseases are managed by toxic substances, but insects have a cunning ability to persist. How pesticide-tolerant insect pests recognise and inactivate chemical and biological toxins is poorly understood. While vertebrates with a closed circulatory system use coagulation reactions mainly for wound-healing, invertebrates employ cell-free aggregation reactions for the sequestration and inactivation of potentially damagin ....Cell-free immune reactions and suppression. Insects pests and insect vectors of diseases are managed by toxic substances, but insects have a cunning ability to persist. How pesticide-tolerant insect pests recognise and inactivate chemical and biological toxins is poorly understood. While vertebrates with a closed circulatory system use coagulation reactions mainly for wound-healing, invertebrates employ cell-free aggregation reactions for the sequestration and inactivation of potentially damaging objects and substances. We use insect plasma to dissect recognition and inactivation of damaging objects and substances with the aim to understand tolerance and its inhibition to design novel strategies in delaying tolerance to pesticides in insect pests.Read moreRead less
Life hanging on a thread; disrupting the structure and function of lepidopteran silking behaviour. The production and use of silk by many invertebrates is vital for their survival. We develop a means of visualising and understanding the role of silking behaviour as a survival mechanism for Helicoverpa larvae (a key world-wide pest) with a view to disrupting silking. This novel project allows us to understand not just where larvae go but what they do along the way. The project outcomes will have ....Life hanging on a thread; disrupting the structure and function of lepidopteran silking behaviour. The production and use of silk by many invertebrates is vital for their survival. We develop a means of visualising and understanding the role of silking behaviour as a survival mechanism for Helicoverpa larvae (a key world-wide pest) with a view to disrupting silking. This novel project allows us to understand not just where larvae go but what they do along the way. The project outcomes will have wide application to the study and control of lepidopteran pests in natural and agricultural ecosystems and is of interest to applied and fundamental projects associated with insect pest control, behaviour and ecology.Read moreRead less
Novel control strategies for mosquitoes threatening Australia. Increased global transport and human mobility have led to the spread and establishment of potential disease vectors and pathogens of public health importance in many parts of the world from which these were absent or had been eradicated. Aversion of this risk can be more effective when applying area-wide rather than focal (e.g. insecticide) control efforts. We will further the development of genetic and biological control tactics. We ....Novel control strategies for mosquitoes threatening Australia. Increased global transport and human mobility have led to the spread and establishment of potential disease vectors and pathogens of public health importance in many parts of the world from which these were absent or had been eradicated. Aversion of this risk can be more effective when applying area-wide rather than focal (e.g. insecticide) control efforts. We will further the development of genetic and biological control tactics. We aim to reduce the risks posed by two important dengue-vectoring mosquitoes: the yellow fever and the Asian tiger mosquito. This will lead to environmentally friendly and sustainable mosquito control and protect the Australian population and its regional neighbours against the threats of mosquito-borne disease.Read moreRead less
Origin of animal sensory and nervous systems: a case study in cell type evolution. The origin of the nerve cell and the nervous system allowed the first animals to interact with their biotic and abiotic environment in rapid and complex ways. These capabilities are the primary agents for success in the animal kingdom, underpinning the ability to capture food, avoid predation, and find a mate. These same nerve cells have bestowed on the human brain cognitive abilities that have driven our biologic ....Origin of animal sensory and nervous systems: a case study in cell type evolution. The origin of the nerve cell and the nervous system allowed the first animals to interact with their biotic and abiotic environment in rapid and complex ways. These capabilities are the primary agents for success in the animal kingdom, underpinning the ability to capture food, avoid predation, and find a mate. These same nerve cells have bestowed on the human brain cognitive abilities that have driven our biological and cultural evolution. Despite the phenomenal importance of the nerve cell, we know almost nothing about its origin and early evolution. This basic research project seeks to make a major contribution towards addressing this gap in knowledge.Read moreRead less
Putting smells into context: Using in vivo technologies to understand plant-insect odour signalling. How insects find host plants is central to understanding their basic ecology and management. We use a novel cross-disciplinary approach to target a key pest insect's responses to a host-plant, genetically modified to smell different. This insect pest, the cotton bollworm, costs the Australian economy millions in lost revenue every year. Reliance on insecticides to control insect pests is exacerba ....Putting smells into context: Using in vivo technologies to understand plant-insect odour signalling. How insects find host plants is central to understanding their basic ecology and management. We use a novel cross-disciplinary approach to target a key pest insect's responses to a host-plant, genetically modified to smell different. This insect pest, the cotton bollworm, costs the Australian economy millions in lost revenue every year. Reliance on insecticides to control insect pests is exacerbated by increasing insecticidal resistance and is a major economic, environmental and health concern. Our research will open the door to novel control strategies that use the natural odours of plants to reduce their attractiveness to insect pests.Read moreRead less
Biocontrol of crown-of-thorns starfish using genomics and proteomics. This project aims to address destructive outbreaks of the crown-of-thorns starfish (COTS), a voracious predator of corals and a major threat to coral reefs. This project builds upon recent sequencing of COTS genome and proteomes to identify communication factors that attract COTS to each other. Based on these natural attractants, the project will fabricate COTS-specific baits for future large scale deployment. Currently COTS a ....Biocontrol of crown-of-thorns starfish using genomics and proteomics. This project aims to address destructive outbreaks of the crown-of-thorns starfish (COTS), a voracious predator of corals and a major threat to coral reefs. This project builds upon recent sequencing of COTS genome and proteomes to identify communication factors that attract COTS to each other. Based on these natural attractants, the project will fabricate COTS-specific baits for future large scale deployment. Currently COTS are culled using expensive diver-based approaches. Outcomes for this project are expected to augment, if not alleviate, these inefficient biocontrol approaches and provide an environmentally-benign and scalable solution to one of the biggest threats to the health and resilience of the Great Barrier Reef and reefs worldwide.Read moreRead less