Do wheat breeders have suitable genetic variation to overcome short coleoptiles and poor establishment in the warmer soils of future climates?

@article{Rebetzke2016DoWB,
  title={Do wheat breeders have suitable genetic variation to overcome short coleoptiles and poor establishment in the warmer soils of future climates?},
  author={Gregory J. Rebetzke and Bangyou Zheng and Scott C. Chapman},
  journal={Functional plant biology : FPB},
  year={2016},
  volume={43 10},
  pages={
          961-972
        }
}
Increases in air and soil temperatures will impact cereal growth and reduce crop yields. Little is known about how increasing temperatures will impact seedling growth and crop establishment. Climate forecast models predict that by 2060, mean and maximum air temperatures in the Australian wheatbelt will increase by 2-4°C during the March-June sowing period, and particularly at lower latitudes. Concomitant increases in soil temperature will shorten coleoptile length to reduce crop establishment… 
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Genetic improvement of wheat early vigor promote weed-competitiveness under Mediterranean climate
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The findings demonstrate the potential of genetic modification of dwarfing genes as promising approach to improve weed-competitiveness, and serve as basis for future breeding efforts to support sustainable wheat production under semi-arid Mediterranean climate.
Genetic improvement of wheat early vigor promote weed-competitiveness under Mediterranean climate.
Genome-Wide Association Study Uncovers Novel Genomic Regions Associated With Coleoptile Length in Hard Winter Wheat
TLDR
The genome-wide association study using a diverse panel of 298 winter wheat genotypes to dissect the genetic architecture of coleoptile length revealed several putative proteins of specific interest including cytochrome P450-like, expansins, and phytochrome A.
Laboratory Method to Evaluate Wheat Seedling Emergence from Deep Planting Depths
Planting depth effect on seedling emergence is an important concern for many crops grown around the world. Farmers in the low-precipitation (<300 mm annual) winter wheat (Triticum aestivum L.) (WW)
Direct and indirect costs of frost in the Australian wheatbelt 1
16 17 Breeding for improved reproductive frost tolerance could allow greater yield and economic 18 benefits to be achieved by (i) reducing direct frost damage and (ii) allowing earlier sowing to 19
Effect of GA sensitive Rht18 and GA insensitive Rht-D1b dwarfing genes on vegetative and reproductive growth in bread wheat.
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No differences were detected that could prevent the adoption of Rht18 in wheat breeding to overcome some of the limitations associated with the 'Green Revolution' genes.
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