Breaking critical barriers in soil formation of bauxite residues (2020-2024)

Abstract

Conventional methods of bauxite residue rehabilitation require expensive and unsustainable covering topsoil. Building on recent breakthroughs in eco-engineering tailings into soil, the project aims to develop a field-based technology using marine microbes and halophytic plants to accelerate in-situ soil formation from bauxite residues (incl seawater neutralised bauxite residues) under field conditions. The technology will be underpinned by understanding the roles of marine microbe consortia and eco-engineering inputs in accelerating key mineralogical, geochemical, physical and biological changes in bauxite residues. This technology is expected to be transferable and adaptable across other alumina refineries in Australia.

Experts

Professor Longbin Huang

Program Leader/Prof Res Fellow: Centre for Mined Land Rehabilitation; Faculty of Engineering, Architecture and Information Technology

Longbin Huang

Professor Phil Hugenholtz

Centre Director of Australian Centre for Ecogenomics (ACE): Australian Centre for Ecogenomics; Faculty of Science

Affiliate of ARC COE for Plant Success in Nature and Agriculture: ARC COE for Plant Success in Nature and Agriculture; Faculty of Science

Affiliate of Centre for Marine Science: Centre for Marine Science; Faculty of Science

Professor: School of Chemistry and Molecular Biosciences; Faculty of Science

Phil Hugenholtz

Dr Tuan Nguyen

Senior Research Fellow: School of Chemical Engineering; Faculty of Engineering, Architecture and Information Technology

Tuan Nguyen

Adjunct Professor Ram Dalal AM

Adjunct Professor: School of Agriculture and Food Sustainability; Faculty of Science

Ram Dalal AM