Technology

'BioClay' a Ground-Breaking Discovery for World Food Security

January 11, 2017 | University of Queensland

BioClay a ground-breaking discovery for world food security
Professor Neena Mitter's discovery will provide an environmentally sustainable alternative to chemicals and pesticides.
Photo credit: University of Queensland

A University of Queensland team has made a discovery that could help conquer the greatest threat to global food security – pests and diseases in plants.

Research leader Professor Neena Mitter said BioClay – an environmentally sustainable alternative to chemicals and pesticides – could be a game-changer for crop protection.

"In agriculture, the need for new control agents grows each year, driven by demand for greater production, the effects of climate change, community and regulatory demands, and toxicity and pesticide resistance," she said.

"Our disruptive research involves a spray of nano-sized degradable clay used to release double-stranded RNA, that protects plants from specific disease-causing pathogens."

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The research, by scientists from the Queensland Alliance for Agriculture and Food Innovation (QAAFI) and UQ's Australian Institute for Bioengineering and Nanotechnology (AIBN) is published in Nature Plants.

Professor Mitter said the technology reduced the use of pesticides without altering the genome of the plants.

"Once BioClay is applied, the plant 'thinks' it is being attacked by a disease or pest insect and responds by protecting itself from the targeted pest or disease.

"A single spray of BioClay protects the plant and then degrades, reducing the risk to the environment or human health."

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She said BioClay met consumer demands for sustainable crop protection and residue-free produce.

"The cleaner approach will value-add to the food and agri-business industry, contributing to global food security and to a cleaner, greener image of Queensland."

AIBN's Professor Zhiping Xu said BioClay combined nanotechnology and biotechnology.

"It will produce huge benefits for agriculture in the next several decades, and the applications will expand into a much wider field of primary agricultural production," Professor Xu said.

This article has been republished from materials provided by University of Queensland. Note: material may have been edited for length and content. For further information, please contact the cited source.

Research paper:

Neena Mitter, et al. Clay nanosheets for topical delivery of RNAi for sustained protection against plant viruses. Nature Plants, 2017; DOI: 10.1038/nplants.2016.207 

 

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