Info-chemicals for the environmentally sustainable management of autumn gum moth and scarab beetle pests of bluegum plantations. Insect pest control in Australian bluegum plantations currently relies on insecticides. Insecticides are incompatible with maintaining populations of native beneficial insects and achieving biotic regulation of pest populations. Info-chemicals offer ways of disrupting pest populations that are benign to beneficials because they only interfere with the responses of the ....Info-chemicals for the environmentally sustainable management of autumn gum moth and scarab beetle pests of bluegum plantations. Insect pest control in Australian bluegum plantations currently relies on insecticides. Insecticides are incompatible with maintaining populations of native beneficial insects and achieving biotic regulation of pest populations. Info-chemicals offer ways of disrupting pest populations that are benign to beneficials because they only interfere with the responses of the target insect. This project will pioneer the development of sex pheromone-based technologies for managing autumn gum moth and reveal potential applications of info-chemicals for managing scarab beetles. Application of info-chemical solutions to plantation pests will improve public perception of the industry and assist with forestry standard certification.Read moreRead less
Linking plant genetics and chemistry to maximise tree production in the softwood industry. This project aims to test a ‘gene to plantation’ approach for the management of pests in softwood forestry. The project aims to focus on the stripping of bark from Pinus radiata trees by mammals: a major threat to tree productivity in many regions of Australia and an economic burden for forestry companies. The project aims to use a wide complement of P. radiata germplasm to link genetics, bark defensive ch ....Linking plant genetics and chemistry to maximise tree production in the softwood industry. This project aims to test a ‘gene to plantation’ approach for the management of pests in softwood forestry. The project aims to focus on the stripping of bark from Pinus radiata trees by mammals: a major threat to tree productivity in many regions of Australia and an economic burden for forestry companies. The project aims to use a wide complement of P. radiata germplasm to link genetics, bark defensive chemistry and susceptibility to damage. It aims to identify genotypes with increased resistance, unravel defensive tree traits, screen for genetic markers and identify specific gene regions correlated with trait variation, and examine cross-correlations with other major tree productivity traits.Read moreRead less