![]() ![]() Our climate scenarios show that whilst elevated (e) alone might limit the area where the reduced-tillering trait is advantageous, the most likely climate scenario of e combined with increased temperature and reduced rainfall consistently increased the area where restricted tillering has an advantage. Our results show a small but consistent yield advantage of the reduced-tillering trait in the most water-limited environments both under current and likely future conditions. We used a spatial analysis approach with a daily time-step coupled radiation and transpiration efficiency model to simulate the impact of the reduced-tillering trait on wheat yield under different climate change scenarios across Australia's arable land. ![]() ![]() Reducing the number of tillers per plant using a tiller inhibition (tin) gene has been considered as an important trait for wheat production in dryland environments. ![]()
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February 2023
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