Zhiyuan Yang ,Qingyue Cheng ,Ruining Lai ,Yuemei Zhu ,Jinyue Zhang ,Chuanhai Shu ,Feijie Li ,Tengfei Lv ,Yongjian Sun ,Jun Ma,Na Li*
Agriculture-Basel(IF=2.925,3区),2022, 12(2), 250
https://www.mdpi.com/2077-0472/12/2/250/htm
Abstract
Two-line hybrid rice (2LH) is accompanied by more nitrogen (N) input. To explore the difference in response of two-line and three-line hybrid rice (3LH) to N application, a three-year split-plot experiment was conducted. Three 2LHs and three 3LHs were set as main plots, and four N rates including 0 kg ha−1 (N0), 90 kg ha−1 (N90), 150 kg ha−1 (N150), and 210 kg ha−1 (N210) were set as subplots. 3LH had more panicles and yielded 7.95%, 6.31%, and 5.48% higher than 2LH in N0, N90, and N150, respectively. 2LH had a greater panicle weight in N210 and yielded 1.45% higher than 3LH. Leaf area index (LAI) had the greatest effect on the yields of both 2LH and 3LH, while the contribution of light extinction coefficient (K) was 46.35% and 12.80% those of LAI, respectively. The LAI, K, and radiation interception rate (RIR) of 2LH were smaller than those of 3LH in N0 and N90. The K of 2LH increased significantly as the N rate increased from 150 kg ha−1 to 210 kg ha−1, while that of 3LH showed no significant change, making the maximum RIR of 2LH greater than that of 3LH. 2LH, which intercepted more radiation through greater leaf extension to achieve higher yields, was able to use nitrogen fertilizer efficiently under a high N rate in China.
Keywords: two-line hybrid rice (2LH); three-line hybrid rice (3LH); nitrogen rate; grain yield; nitrogen tolerability