Discovery Early Career Researcher Award - Grant ID: DE220100381
Funder
Australian Research Council
Funding Amount
$444,000.00
Summary
Facilitating detection of new psychoactive substances in wastewater. This project aims to develop and apply novel analytical methods for detecting new psychoactive substances (NPS) in wastewater. NPS are a dynamic, complex addition to the illicit drug market, and a persistent analytical challenge for wastewater analysis. This project expects to fill the current knowledge gap in detection and identification of these substances in wastewater. This will provide substantial benefits both to Australi ....Facilitating detection of new psychoactive substances in wastewater. This project aims to develop and apply novel analytical methods for detecting new psychoactive substances (NPS) in wastewater. NPS are a dynamic, complex addition to the illicit drug market, and a persistent analytical challenge for wastewater analysis. This project expects to fill the current knowledge gap in detection and identification of these substances in wastewater. This will provide substantial benefits both to Australia and internationally by aiding development of early warning drug monitoring systems, providing the rapid deployment of interventions to reduce drug-related harm in the local community, while facilitating law and government agencies to better direct resources.Read moreRead less
A global platform for identifying emerging chemical threats. This project aims to develop an automated early warning social network to systematically detect newly identified emerging chemical threats. Rapid identification of chemical exposures is key to managing chemical threats and associated risks. Global collaboration and sharing of archived, high-resolution mass spectrometry data through open/social platforms will revolutionise data processing and chemical threat identification. This project ....A global platform for identifying emerging chemical threats. This project aims to develop an automated early warning social network to systematically detect newly identified emerging chemical threats. Rapid identification of chemical exposures is key to managing chemical threats and associated risks. Global collaboration and sharing of archived, high-resolution mass spectrometry data through open/social platforms will revolutionise data processing and chemical threat identification. This project will result in a new and cost-effective approach for the identification, tracking and prioritisation of emerging chemical threats and address key national and global health risks. The outcomes include the first spatial and temporal distribution of new emerging chemical threats in Australia.Read moreRead less
Uncovering Antarctica’s Secret Chemical Voyagers for Expedited Regulation. This project aims to strengthen global chemical policy by rapidly identifying chemicals that demonstrate environmental persistence and mobility, two requisite risk criteria for regulatory action. It will take the novel approach of applying powerful non-target chemical screening approaches to Antarctic environmental media, leveraging the remoteness of Antarctica to derive unambiguous evidence against the key risk criteria. ....Uncovering Antarctica’s Secret Chemical Voyagers for Expedited Regulation. This project aims to strengthen global chemical policy by rapidly identifying chemicals that demonstrate environmental persistence and mobility, two requisite risk criteria for regulatory action. It will take the novel approach of applying powerful non-target chemical screening approaches to Antarctic environmental media, leveraging the remoteness of Antarctica to derive unambiguous evidence against the key risk criteria. Research will uncover a new catalogue of proven persistent and mobile chemicals, and further assess their ubiquity and biomagnification potential in the Antarctic system. Project findings will be directly disseminated to policymakers, facilitating expedited regulatory decision-making for improved Planetary Health outcomes.Read moreRead less
Reducing glyphosate exposure from high use practices. This project aims to investigate methods of reducing occupational exposure to glyphosate, a ubiquitous pollutant of emerging concern. This will be achieved through developing new cost-effective analytical and sampling tools and refining methods for integrating human exposure (biomonitoring) data with surveillance data on the pathways of glyphosate exposure from high use. The project will generate new targeted knowledge on (sub) population-spe ....Reducing glyphosate exposure from high use practices. This project aims to investigate methods of reducing occupational exposure to glyphosate, a ubiquitous pollutant of emerging concern. This will be achieved through developing new cost-effective analytical and sampling tools and refining methods for integrating human exposure (biomonitoring) data with surveillance data on the pathways of glyphosate exposure from high use. The project will generate new targeted knowledge on (sub) population-specific chemical exposures in Australia, and globally. Such data are critical to inform public health and chemical regulation policy, and provide clear guidance aimed at reducing exposures, to assess the effectiveness of existing regulations, and provide a framework for implementing surveys in the future.Read moreRead less