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flowering
Using gene-based information to adapt wheat flowering time to avoid heat, frost and drought stresses in current and future climates
Varying the timing of reproductive stages of growth relative to climatic stresses is a useful adaptation to maintain yields. In future …
Bangyou Zheng
,
Karine Chenu
,
Scott Chapman
Project
Quantification of the effects of VRN1 and Ppd-D1 to predict spring wheat (Triticum aestivum) heading time across diverse environments
Heading time is a major determinant of the adaptation of wheat to different environments, and is critical in minimizing risks of frost, …
Bangyou Zheng
,
Ben Biddulph
,
Dora Li
,
Haydn Kuchel
,
Scott Chapman
Project
DOI
Association genetics for earliness components and QTL-based ecophysiological predictions of heading date provide tools to optimize heading date through breeding
Matthieu Bogard
,
Bangyou Zheng
,
Hayden Kuchel
,
Ben Biddulph
,
Scott Chapman
Project
Wheat flowering
Genetics and physiology of wheat development to flowering: tools to breed for improved adaptation and yield potential
Breeding for the future: what are the potential impacts of future frost and heat events on sowing and flowering time requirements for Australian bread wheat (Triticum aestivium) varieties?
Extreme climate, especially temperature, can severely reduce wheat yield. As global warming has already begun to increase mean …
Bangyou Zheng
,
Karine Chenu
,
Fernanda Dreccer
,
Scott Chapman
Project
DOI
Frost and heat limits to the wheat flowering ‘window’ in present and future climates
To pollinate and set grain, Australian wheat needs to flower in spring in a ‘window’ when risks of frost or heat stress are low. Other …
Bangyou Zheng
,
Karine Chenu
,
Fernanda Dreccer
,
Scott Chapman
Project
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