Abstract We constructed an F2:3 population of 180 individuals from a cross between the maize genotypes 082 (high phosphorus use efficiency) and Ye107 (low phosphorus use efficiency). We used the population to perform quantitative trait loci (QTL) mapping for eight ear traits (ear diameter [ED], ear length [EL], ear weight [EW], ear kernel weight [EKW], row number per ear [ERN], bald tip length [BTL], kernel number per row [RKN] and number of seeds per plant [NSP]) in three low‐phosphorus environments. A total of 36 QTL for ear traits were detected in at least one of three single environments and were located on all maize chromosomes except for chromosome 10; the explained phenotypic variation ranged from 5.91% to 12.80%. The QTL JAqEKW5‐1, JAqEL3‐1, JAqEW1‐1, JAqBTL1‐1 and JAqNSP5‐2 were identified and stably expressed in single‐environment and joint‐environment analyses. Some novel QTL that have not been reported previously were also detected. Most of the identified QTL had stable effects in all low‐phosphorus environments, suggesting that they may be useful for molecular breeding to develop low‐phosphorus tolerant maize varieties.
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