夜色视频

21 August 2019

The application of a revolutionary alternative to chemical fungicides to protect Australia’s $5 trillion global food and agribusiness sector is being spearheaded by researchers at 夜色视频.

夜色视频’s said the team from the newly launched $17.5m was building on 夜色视频’s BioClay technology to create a ‘smart’ form of biological crop protection.  

“We will be bringing biological-based fungicides to Australian broadacre and horticultural crops, resulting in reduced chemical use, increased crop productivity, and improved sustainability across the supply chain,” she said.

“This technology involves topical application of RNA interference using clay particles as carriers.

“There is no genetic modification and the clay is completely biodegradable.”

Professor Mitter said that meant the BioClay would not result in chemical residues in food or run-off into waterways.

“Globally, an estimated 40 per cent of food grown is lost to crop pests and pathogens.”

She said the fungal pathogens targeted by the Hub were selected in close consultation with Research and Development Corporations and industry partners.

“We will tackle issues such as fungicide resistance or targets where no effective control measures are currently available.”

The project involves staff from , , ,  and .

“The Hub comprises an expert multidisciplinary team including science, commercial and policy experts, with the aim of increasing productivity, market access and enhanced environmental credentials of Australian food,” Professor Mitter said.

Hub Partner Oganisations:

Nufarm Australia limited; DuluxGroup (Australia) Pty Ltd; Bioplatforms Australia Ltd; AusVeg Ltd; Grains Research & Development Corporation; Cotton Research & Development Corporation; Horticulture Innovation Australia Limited; Department of Agriculture and Fisheries Queensland; Department of Primary Industries - NSW; Australian Wine Research Institute; South Australian Research and Development Institute; Wine Australian; Griffith University; Curtin University; La Trobe University, University of Tasmania; University of California, Riverside.

Media: Professor Neena Mitter, n.mitter@uq.edu.au, +61 7 334 66513; Margaret Puls, m.puls@uq.edu.au, +61 (0) 419 578 356.