Genetic solution in the works to maintain high barley yields

Genetic solution in the works to maintain high barley yields

Grains
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The Grains Research and Development Corporation's (GRDC) capacity building investment has supported the work of Camilla Hill, who is investigating the practical application of genetics to plant breeding.

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Dr Camilla Hill is working on a project which aims to identify genes that infer heat tolerance in barley varieties.

Dr Camilla Hill is working on a project which aims to identify genes that infer heat tolerance in barley varieties.

A CHANGING climate has made heat stress an inevitable risk to barley yields for Australian growers, but there's optimism a genetic solution could be at hand to preserve productivity.

The Grains Research and Development Corporation's (GRDC) capacity building investment has supported the work of Camilla Hill, who is investigating the practical application of genetics to plant breeding.

Dr Hill is working on a GRDC investment, in conjunction with Murdoch University's Western Crop Genetics Alliance, which aims to identify genes that infer heat tolerance in barley varieties to deliver new genetic resources to Australian barley breeders.

"The information we've collected will allow the identification of new markers to breed barley varieties with enhanced spikelet fertility under heat stress," Dr Hill said.

Glasshouse trials, combined with heat chambers and field studies, have been conducted using 500 barley varieties from around the world.

Dr Hill's work has involved testing these barley varieties to analyse how they're affected by heat stress - looking at key stress indicators such as grain plumpness, thousand kernel weight and screening.

"We've found that in both the glasshouse and the field, earlier-flowering genetics were successful strategies to mitigate heat damage and resulted in higher grain fertility, grain yield and grain quality traits," Dr Hill said.

"More than 7000 genetic variants across 132 spikelet fertility and heat-tolerance-related genes have been identified throughout the projects."

The genetic material and molecular tools from Dr Hill's work will provide new resources for breeding for best phenology adaptation, high grain yield, high spikelet fertility and improved heat tolerance.

GRDC senior regional manager - west, Peter Bird said supporting the work of up-and-coming researchers such as Dr Hill was vital for building future capacity in the Australian grains industry.

"To deliver world-class grains research, development and extension, the Australian grains industry needs to attract and nurture the world's best talent," Mr Bird said.

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