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Dr Melissa Corbett

Senior Lecturer
Diagnostic and Therapeutic Sciences

Bioleaching Microorganisms

Dr Melissa Corbett is a Senior Lecturer at the Curtin University Medical School. As a teaching and research academic, she has been working in the field of bioleaching for 17 years, focusing on the solubilisation of phosphates ores for the recovery of rare earth elements, as well as bioprospecting for salt tolerant microorganisms. Alongside conducting research and supervising honours and PhD students, she lectures undergraduate students in the field of microbiology and genetics. She has broad experience in environmental, medical and molecular microbiology. She is currently the Deputy Director of Graduate research as well as the Deputy Coordinator for Laboratory Medicine.


Dr Melissa Corbett also collaborates with Earth & Plaent Sciences (Curtin) and Edith Cowan University for the rewearch on rare earth element recovery. Additionally Dr Corbett has collaborations with Dr Ross Graham who is working on iron metabolism and is also collaborating with Assoc. Prof Kylie Munyard's research on horse zoonoses.
  • Professional member of The Australian Society of Microbiology

Research Focus

Dr Corbett's research field is Bioleaching of low grade ores for the recovery of critical rare earth elements to support Australia's modern technologies, economies and national security. She is also interested in the transmission of infectious diseases from animals to humans.

Research Team

Katelyn Boase

Research Associate

Publications

ABSTRACT

Rare earth element (REE) recovery from waste streams, mine tailings or recyclable components using bioleaching is gaining traction due to the shortage and security of REE supply as well as the environmental problems that occur from processing and refining. Four heterotrophic microbial species with known phosphate solubilizing capabilities were evaluated for their ability to leach REE from a high-grade monazite when provided with either galactose, fructose or maltose. Supplying fructose resulted in the greatest amount of REE leached from the ore due to the largest amount of organic acid produced. Gluconic acid was the dominant organic acid identified produced by the cultures, followed by acetic acid. The monazite proved difficult to leach with the different carbon sources, with preferential release of Ce over La, Nd and Pr.

Corbett, M. K., A. Gifford, N. Fimognari, and E. L. J. Watkin. 2024. Analysis of element yield, bacterial community structure and the impact of carbon sources for bioleaching rare earth elements from high grade monazite.Research in Microbiology 175 (1-2)
ABSTRACT

The adsorption behaviour of micro-organisms during the initial attachment stage of biofilm formation affects subsequent stages. The available area for attachment and the chemophysical properties of a surface affect microbial attachment performance. This study focused on the initial attachment behaviour of Klebsiella aerogenes on monazite by measuring the ratio of planktonic against sessile subpopulations (P:S ratio), and the potential role of extracellular DNA (eDNA). eDNA production, effects of physicochemical properties of the surface, particle size, total available area for attachment, and the initial inoculation size on the attachment behaviour were tested. K. aerogenes attached to monazite immediately after exposure to the ore; however, the P:S ratio significantly (p = 0.05) changed in response to the particle size, available area, and inoculation size. Attachment occurred preferentially on larger-sized (~50 µm) particles, and either decreasing the inoculation size or increasing the available area further promoted attachment. Nevertheless, a portion of the inoculated cells always remained in a planktonic state. K. aerogenes produced lower eDNA in response to the changed surface chemical properties when monazite was replaced by xenotime. Using pure eDNA to cover the monazite surface significantly (p ≤ 0.05) hindered bacterial attachment due to the repulsive interaction between the eDNA layer and bacteria.

Van Alin, A., M. K. Corbett, H. Fathollahzadeh, M. C. Tjiam, A. Putnis, J. Eksteen, A. H. Kaksonen, and E. Watkin. 2023. Klebsiella aerogenes Adhesion Behaviour during Biofilm Formation on Monazite.Microorganisms 11 (5)

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