Promising novel approach to control wild radish weed populations

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By Natalia Bateman and Michael Groszmann, CoETP,  July 7, 2020


Wild radish is a major weed for Australian cereals, accounting for $53-72 million per year in crop losses. Now, Australian researchers are shedding light into an innovative molecular approach that, used in conjunction with improving weed management farming practices, could help towards controlling this formidable weed.

“Wild radish is developing resistance to many commonly used herbicides, which is a huge problem. In this study, we explored the possibility of manipulating enzymes that produce a plant hormone called gibberellin (GA) that controls growth and fertility in plants. Our results show that even mild deficiencies of this hormone can cause considerable reductions in growth and fertility,” says lead researcher Dr Michael Groszmann, form the ARC Centre of Excellence for Translational Photosynthesis (CoETP) at The Australian National University (ANU).

Wild radish (Raphanus raphanistrum) is a hugely successful weed because of its amazing capacity to establish and grow quickly, and to produce copious numbers of seeds.

“It makes sense to inhibit the hormone that promotes these processes in wild radish in order to control the weed”, says Dr Groszmann.

The research article explores two approaches.  The first looked at the possibility of developing an inhibitor of the GA producing enzyme that is specific to wild radish.  “For this to be possible, the wild radish and the crop enzymes that manufacture GA would have to be sufficiently different” explains Dr Groszmann.

The scientists found that the evolutionary diversions between the weed and the crop gibberellin-producing enzymes are enough to be able to develop a specific inhibitor that affects wild radish but not the crop..

However, it was their second approach that holds the most promise, as it uniquely embraces the history of modern-day crops for a potential solution.  During the Green Revolution of the 50s and 60s, scientists used mutations that targeted GA to produce dwarf high-yielding varieties of cereals such as wheat, rice, and barley.  Over the past decade, co-author on the paper Dr Peter Chandler of CSIRO has developed new improved versions of these original dwarfing varieties.

“The interesting bit for us was when we tested these new dwarfing mutations that increased yield, some also had the added benefit of being insensitive to inhibitors of the GA enzyme.  This means we wouldn’t necessarily need to develop a wild radish specific inhibitor, but rather we could spray with an existing chemical that generally blocks GA.  These new crop varieties would not be affected; however, the spray would still inhibit the growth and fertility of the wild radish weed” says Dr Groszmann.

Their novel molecular approach offers a promising innovative avenue to control wild radish populations. Targeting GA seems not only feasible, but could be a viable inclusion in wild radish management programs.

This work was initially supported by the CRC for Australia Weed Management and later on it continued under the support of CSIRO and the ARC CoE for Translational Photosynthesis.

This research was originally published in March 2020 here:

Groszmann M, Chandler PM, Ross JJ, Swain SM. 2020. Manipulating gibberellin control over growth and fertility as a possible target for managing wild radish weed populations in cropping systems. Frontiers in Plant Science, 11, 190. Read paper

For an interview please contact:

Dr Michael Groszmann, Researcher ARC Centre of Excellence for Translational Photosynthesis and ANU Research School of Biology

Phone: +61 2 6125 8144 e-mail: Michael.Groszmann@anu.edu.au Twitter: @TurboPlants

Media Assistance:

Natalia Bateman, Communications officer, ARC Centre of Excellence for Translational Photosynthesis. e-mail: communications@photosynthesis,org,au m. +61 0401 083 380