Harnessing seaweed genes to mitigate methane emissions from livestock . Novel climate solutions are crucial as agriculture is responsible for 25% of global greenhouse gas emissions. This project aims to understand the molecular components for the production of bioactive natural products in a seaweed that, when fed to cattle and sheep, cuts out methane emissions. The project will apply genomic techniques to determine the key genes involved and the ecological factors that influence their expressio ....Harnessing seaweed genes to mitigate methane emissions from livestock . Novel climate solutions are crucial as agriculture is responsible for 25% of global greenhouse gas emissions. This project aims to understand the molecular components for the production of bioactive natural products in a seaweed that, when fed to cattle and sheep, cuts out methane emissions. The project will apply genomic techniques to determine the key genes involved and the ecological factors that influence their expression across the seaweed life cycle. The findings will provide a platform to harness the full potential of seaweed as a natural additive in livestock feeds. This multidisciplinary project will enhance research capacity and strengthen international collaborations.Read moreRead less
Translating genomic discoveries into improved commercial outcomes for the South Sea pearl industry. The purpose of this project is to understand the relationship between gene expression and pearl quality. By identifying the relationship between genes and pearls this project will determine the best conditions to grow selected pearl oyster stocks for the Australian South Sea pearl industry.