Dr. Javier A. Fernandez is a Research Fellow at The University of Queensland. His research specializes in crop physiology, plant nutrition, corn production, and crop modelling reflected by over 30 articles (refereed journal publications, extension articles, conference proceedings, and others). He is currently engaged in the use of statistical, digital, and model technologies to assess crop growth and development, with the overall goal of enhancing production, resource use efficiency, and sustainability of agricultural systems in Australia. Javier received his BS in Agricultural Engineering from Universidad Nacional del Nordeste in Argentina, and his PhD in Agronomy from Kansas State University. He is recipient of several honours and awards from university, professional societies, and governmental organizations, including two Fulbright Commission scholarships.
Affiliate of Centre for Environmental Responsibility in Mining
Centre for Environmental Responsibility in Mining
Faculty of Engineering, Architecture and Information Technology
Professorial Research Fellow
Sustainable Minerals Institute
Faculty of Engineering, Architecture and Information Technology
Availability:
Available for supervision
Media expert
Nature-based rehabilitation science and technology, with a focus on ecological engineering of mine wastes (e.g., AMD-waste rocks, tailings (coal tailings, magnetite tailings, bauxite residues (or red mud), Cu/Pb-Zn tailings)) into earth materials (e.g., soil, engineered rocks) and resilient landforms for cost-effective sustainable rehabilitation at mine waste landscapes.
Professor Huang is a full professor and the group leader of Ecological Engineering in Mining, in the Sustainable Minerals Institute, University of Queensland. Since 2010, Prof Huang has pioneered new concepts and technological framework to manage and rehabilitate mine wastes (e.g., tailings, acidic and metalliferous waste rocks), through putting pedogenesis in engineering nutshell, i.e., eco-engineering of pedogenesis in mine wastes. He is leading an industry-enaged and interdisciplinary research group that is partnered with leading mining companies and empowered by multidisciplinary knowledge and skills on: environmental molecular microbiology, environmental mineralogy, soil science, native plant rhizosphere (micro)biology, soil-plant relations, and bio-chemical engineering of environmental materials (e.g., functional carbon and mineral absorbents, environmental geopolymers).
He is highly experienced in industry-partnered research and translation of knowledge into field-based technologies for tackling large environmental challenges in the mining industry, for example, technologies for tackling global tailings problem. Since 2010, he has led many large and industry-partnered research projects attracting about $21M funding. The research aims to deliver transformative knowledge and practices (i.e., technologies/methdologies) in the rehabilitation of mine wastes (e.g., tailings, mineral residues, spoils, waste rocks) and mined landscapes for non-polluting and ecologically and financially sustainable outcomes. Prof Huang has successfully demonstrated innovative methodology and technology to achieve nature-based outcomes in treating and rehabilitating tailings and waste rocks. Prof Huang’s research program was featured in Rio Tinto’s media releases as one of the four most successful global R&D partnerships in 2024. Prof Huang led the development of the first field-feasible technology to treat and dealkalize alkaline bauxite residues for sustainable rehabilitation. His industry-partnered research was recognised in 2019 UQ’s Partners in Research Excellence Award (Resilient Environments) (Rio Tinto and QAL). Prof Huang is also developing new knowledge and technologies for achieving non-polluting and ecologically sustainable rehabilitation of, for example, coal mine spoils and tailings, Fe-ore tailings, bauxite tailings (from mining bauxite), and Cu/Pb-Zn tailings.
Membership of Board, Committee and Society
Professional associations and societies
2010 – Present Australian Soil Science Society.
2023 – Present AuSIMM
2015 – Present American Society of Mining and Reclamation (ASMR)
Editorial boards/services
2025 - present: Member of Editorial Board, Energy & Environment Nexus
Affiliate of ARC COE for Plant Success in Nature and Agriculture
ARC COE for Plant Success in Nature and Agriculture
Faculty of Science
Professorial Research Fellow
Queensland Alliance for Agriculture and Food Innovation
Availability:
Available for supervision
Prof. David Jordan is a sorghum breeder and geneticist with more than 20 years experience working in both the public and private sector.
For the last decade he has led the public sorghum pre-breeding program in Australia which is a partnership between the University of Queensland (UQ), The Queensland Department of Agriculture and Fisheries (DAF) and the Grains research and Develop Corporation (GRDC). This is a long running and successful research effort with a reputation for integrating across disciplines and linking research efforts from the strategic to the applied. Breeding lines from this program are widely used commercially in Australia and internationally with 100% of the commercial sorghum grown in Australia having genetics from the program. At the same time the research group continues to produce research papers at the forefront of sorghum research.
In recent years he had led projects focused on improving the lives of resource poor farmers in Africa that rely on sorghum.
My research focusses on soil health in cropping and pasture systems, specialising in soil carbon and soil organic matter dynamics, microbial ecology, and plant-soil interactions. I am interested in how agronomic interventions impact soil health and in developing methods to reverse soil fertility decline and build healthier, more productive soils. This includes understanding the impacts of tillage, cover cropping, crop rotational diversity, nutrient management, and organic amendments on soil functional processes and crop development and productivity.
I have extensive experience in designing and analyzing field and glasshouse experiments and implementing advanced statistical models using R. I have excellent verbal and written communication skills, maintain positive relationships with collaborators both nationally and internationally, and publish manuscripts in peer-reviewed scientific journals.
