Abstract
Previous studies have revealed that the japonica/indica hybrid rice has a higher yield potential, biomass production, and nitrogen (N) accumulation than japonica rice in China, however, at a single N application rate. It remains unclear whether it also occurs at a higher or lower N application rate under the same field condition. To investigate the effects of nitrogen application rates on grain yield, N uptake, dry matter accumulation, and agronomic N use efficiency, field experiments were conducted in Jinhua City, Zhejiang Province during three consecutive growth seasons in 2016, 2017, and 2018. Two japonica/indica hybrid varieties (Yongyou 12 and Yongyou 538) and two japonica varieties (Xiushui 134 and Jia 58) were exposed to five N application rates (0, 150, 225, 300, and 375 kg ha−1). The results showed that grain yields of all the varieties increased with increasing nitrogen application rates, except for Jia 58 whose optimum nitrogen level was 225 kg ha−1, because no significant difference was observed between N225 and N300. Across the four rice varieties, N uptake increased significantly with increased N-fertilizer rates at all the growth stages (p < 0.05). Across the three planting years, the average grain yield of japonica/indica hybrid rice was higher than that of japonica rice by 75.6% at N0, 57.2% at N150, 41.1% at N225, 38.3% at N300, and 45.8% at N375. We also found that as compared with japonica rice, the japonica/indica hybrid rice had more grain yield, higher dry matter, and higher N uptake at all growth stages, regardless of the N application rate.
Highlights
Rice (Oryza sativa L.) is one of the most important staple crops [1,2] feeding approximately three billion people in the world [3]
Across N treatments in all planting years, dry matter of Yongyou 12, Yongyou 538, and Xiushui 134 tended to increase with N-fertilizer rates, and were highest in the N375 treatment at all the growth stages, except for Yongyou 538 in 2018, it was not significantly different from those in N300 treatment Yongyou 12 at the maturity stage, Yongyou 538 at inand
Further research is needed to assess the effects of nitrogen application rates used in this study, on the grain yield of Yongyou 12, Yongyou 538, and Jia 58
Summary
Rice (Oryza sativa L.) is one of the most important staple crops [1,2] feeding approximately three billion people in the world [3]. In 1996, a “super” rice program was launched to breed rice varieties with high yield potential in. As of 2019, 132 “super” rice varieties were released by the Ministry of Agriculture of. These “super” rice cultivars, especially the japonica/indica hybrid rice, have made tremendous contributions to food security in China. Great progress has been achieved in solving some of these obstacles, and high-yielding japonica/indica hybrids have been bred successfully and made available in China [9]. The Yongyou japonica/indica hybrid series, which is a late-maturity type, was one of the representative high-yielding japonica/indica hybrids. Yongyou 12 has achieved 15 t ha−1 yield performance in production for two executive years in Zhejiang Province, China [10,11]
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