Reducing young women’s offending through improved service delivery . Young women’s contact with justice and welfare agencies has increased rapidly across Australia and the world, creating a crisis that is costly and harmful, especially for young Indigenous women. Pathways into these systems are gendered; but the systems were designed to address the needs of young male offenders. This project therefore aims to discover how these systems could be better designed to improve outcomes for young women ....Reducing young women’s offending through improved service delivery . Young women’s contact with justice and welfare agencies has increased rapidly across Australia and the world, creating a crisis that is costly and harmful, especially for young Indigenous women. Pathways into these systems are gendered; but the systems were designed to address the needs of young male offenders. This project therefore aims to discover how these systems could be better designed to improve outcomes for young women. The project uses a novel approach that gives young women a voice in how five Anglicare end-users (the research partners) and other end-users can enhance their service provision in the welfare and justice sectors and become models of best practice.Read moreRead less
Revealing the impacts of super-charged photosynthesis on leaf respiration. This project aims to use state-of-the-art technologies to develop a novel framework that links a super-charged version of photosynthesis (known as C4 photosynthesis) to changes in nocturnal leaf respiration. A quarter of global land photosynthesis occurs in C4 plants that include several important cereal crops. Although advances have been made in modelling C4 photosynthesis, these advances are unable to model variations i ....Revealing the impacts of super-charged photosynthesis on leaf respiration. This project aims to use state-of-the-art technologies to develop a novel framework that links a super-charged version of photosynthesis (known as C4 photosynthesis) to changes in nocturnal leaf respiration. A quarter of global land photosynthesis occurs in C4 plants that include several important cereal crops. Although advances have been made in modelling C4 photosynthesis, these advances are unable to model variations in nocturnal respiration. Expected outcomes include equations that predict respiration in C4 plants growing in current/future climates. Benefits to include knowledge needed to engineer faster-growing crops and providing climate modelers the ability to more accurately predict carbon exchange in C4-dominated ecosystems. Read moreRead less