91³ÉÈ˰涶Òô

Antibiotics from natural sources are an essential part of modern medicine; however, their function in the environment is poorly understood.

 In this project, we perform manipulation experiments both at UNSW and at Sydney Institute for Marine Science (SIMS) combined with a range of –omic technologies (e.g. deep sequencing of phylogenetic marker genes, genomics, transcriptomics, etc.) to define how antibiotic-producing bacteria from marine macroalgae determine ecological interactions. This project addresses the fundamental question of the impact of antibiotics in natural systems and the role of antibiotic-producing bacteria in safeguarding important habitat-forming macroalgae against environmental stress. 

People

Associate Professor | Postgraduate Coordinator Suhelen Egan
Associate Professor | Postgraduate Coordinator
opens in a new window

Related

Coastal microbial observatories

Our large-scale coastal microbial observatory program investigates the temporal and spatial dynamics of microbial communities in the water column. We observe sediments and coral, seaweeds, sponges and seagrasses.

Microbial contribution to life in the deep sea

Despite the lack of sunlight and nutrients, many deep-sea environments are full of coral reefs and sponge gardens. We’re aiming to understand how the metabolic capacity and versatility of symbiotic bacteria support their growth.

Functional diversity and redundancy of marine communities

In this important project, we aim to define the assembly of microbial communities by functional properties rather than by the species.Â