Sorghum is grown in the subtropics in north-eastern Australia, where production is risky due to limited planting opportunities and highly variable rainfall during the crop cycle. To improve grain yields of sorghum there, plant breeders have adopted the empirical approach of selecting directly for grain yield, because traits likely to confer improved adaptation have not been clearly defined. Even for readily-observed traits such as maturity type, no clear selection goal had been identified for this highly variable environment. This paper examined the use of isopopulations as a tool for defining traits for selection in plant breeding programs, and discussed the merits of this approach relative to other alternatives. Phenology of sorghum in no...
Sorghum in Australia is grown in water-limited environments of varying extent, generating substantia...
Past sorghum hybrid trials in north-eastern Australia have detected substantial genotype by environm...
Genotype x environment (GxE) interactions due to variation in soil moisture and rainfall complicate ...
Sorghum is grown in the subtropics in north-eastern Australia, where production is risky due to limi...
Sorghum is grown in the subtropics in north-eastern Australia, where production is risky due to limi...
The variable nature of rainfall in north-eastern Australia confounds the process of selecting sorghu...
Crop breeders in the semi-arid tropics often confront a combination of moisture and nutrient stress ...
Crop breeders in the semi-arid tropics often confront a combination of moisture and nutrient stress ...
Crop breeders in the semi-arid tropics often confront a combination of moisture and nutrient stress ...
Sorghum growing areas worldwide are normally under highly unpredictable rainfall patterns requiring ...
Multi-environment trials (METs) used to evaluate breeding lines vary in the number of years that the...
Reducing yield gaps in dryland cropping depends on our capacity to identify combinations of genetics...
Sorghum growing areas worldwide are normally under highly unpredictable rainfall patterns requiring ...
Sorghum growing areas worldwide are normally under highly unpredictable rainfall patterns requiring ...
Climatologists, breeders and agronomists need tools to translate variable climatic conditions in sem...
Sorghum in Australia is grown in water-limited environments of varying extent, generating substantia...
Past sorghum hybrid trials in north-eastern Australia have detected substantial genotype by environm...
Genotype x environment (GxE) interactions due to variation in soil moisture and rainfall complicate ...
Sorghum is grown in the subtropics in north-eastern Australia, where production is risky due to limi...
Sorghum is grown in the subtropics in north-eastern Australia, where production is risky due to limi...
The variable nature of rainfall in north-eastern Australia confounds the process of selecting sorghu...
Crop breeders in the semi-arid tropics often confront a combination of moisture and nutrient stress ...
Crop breeders in the semi-arid tropics often confront a combination of moisture and nutrient stress ...
Crop breeders in the semi-arid tropics often confront a combination of moisture and nutrient stress ...
Sorghum growing areas worldwide are normally under highly unpredictable rainfall patterns requiring ...
Multi-environment trials (METs) used to evaluate breeding lines vary in the number of years that the...
Reducing yield gaps in dryland cropping depends on our capacity to identify combinations of genetics...
Sorghum growing areas worldwide are normally under highly unpredictable rainfall patterns requiring ...
Sorghum growing areas worldwide are normally under highly unpredictable rainfall patterns requiring ...
Climatologists, breeders and agronomists need tools to translate variable climatic conditions in sem...
Sorghum in Australia is grown in water-limited environments of varying extent, generating substantia...
Past sorghum hybrid trials in north-eastern Australia have detected substantial genotype by environm...
Genotype x environment (GxE) interactions due to variation in soil moisture and rainfall complicate ...