一、第一或通讯作者论文
1. Huang LY, Wang F, Liu Y, Zhang YB. Night temperature determines the interannual yield variation in hybrid and inbred rice widely used in Central China through different effects on reproductive growth. Frontiers in Plant Science. 2021, 646168. (植物科学类2区,影响因子5.753)
2. Huang LY,Wang F, Liu Y, Tian XH, Zhang YB. Can optimizing seeding rate and planting density alleviate the yield loss of double-season rice caused by prolonged seedling age? Crop Science. 2021, 1-16. (农林科学2区,影响因子2.319)
3. Chong HT, Jiang ZY, Shang LY, Shang C, Deng J, Zhang YB, Huang LY*. Dense planting with reduced nitrogen input improves grain yield, protein quality, and resource use efficiency in hybrid rice. Journal of Plant Growth Regulation. 2022. (植物科学3区,影响因子4.169)
4. Huang LY,Li XX, Zhang YB, FAha, Wang F. dep1 improves rice grain yield and nitrogen use efficiency simultaneously by enchancing nitrogen and dry matter translocation. (农林科学2区,影响因子2.848)
5. Huang LY, Yang DS, Li XX, Peng SB, Wang F. Coordination of high grain yield and high nitrogen use efficiency through large sink size and high post-heading source capacity in rice. Field Crops Research. 2019, 233, 49-58. (农林科学1区top期刊,影响因子5.224)
6. Huang LY, Sun F, Yuan S, Peng SB, Wang F. Responses of candidate green super rice and super hybrid rice varieties to simplified and reduced input practice. Field Crops Research. 2018, 218, 78-87. (农林科学1区top期刊,影响因子5.224)
7. Huang LY, Sun F, Yuan S, Peng SB, Wang F. Different mechanism underlying the yield advantage of ordinary hybrid and super hybrid rice over inbred rice under low and moderate N input conditions. Field Crops Research. 2018, 216, 150-157. (农林科学1区top期刊,影响因子5.224)
8. Huang LY, Sun Y, Peng SB, Wang F. Genotypic differences of Japonica rice responding to high temperature in China. Agronomy Journal. 2016, 108(2). (农林科学3区,影响因子2.24)
9. 种浩天,尚程,张运波,黄礼英. 增密减氮对不同类型水稻品种颖花形成的影响. 作物杂志, 2021. (北大核心)
10. 种浩天,尚程,张运波,黄礼英. 减氮对不同籼粳杂交稻品种产量和产量构成的影响. 中国稻米, 2021. (北大核心,接收)
二、部分非一作论文
1. Wang WL, Huang LY, Zhu GL, Zhang H, Wang ZQ, et al. Screening of rice cultivars for nitrogen use efficiency and yield stability under varying nitrogen levels. Journal of Plant Growth Regulation. 2021.
2. Li XX, Huang LY, Peng SB, Wang F. Inter-annual climate variability constrains rice genetic improvement in China. Food and Energy Security. 2021, 00: e299.
3. Yuan S, Goron T, Huang LY, Wu LL, Wang F. Rice leaf lateral asymmetry in the relationship between SPAD and area-based nitrogen concentration. Symmetry. 2017, 9(6), 83.
4. Wu LL, Yuan S, Huang LY, Sun F, Zhu GL, Li GH, Peng SB, Wang F. Physiological mechanisms underlying the high-grain yield and high-nitrogen use efficiency of elite rice varieties under a low rate of nitrogen application in China. Frontiers in Plant Science. 2016, 7, 1024.
5. Hu Z, Liu Y, Huang LY, Peng SB, Nie LX, Cui KH, Huang JL. Premature heading and yield losses caused by prolonged seedling age in double cropping rice. Field Crops Research. 2015, 183, 147-155.
6. Lu J, Wang DY, Liu K, Chu G, Huang LY, Tian XH, Zhang YB. Inbred varieties outperformed hybrid rice varieties under dense planting with reducing nitrogen. Scientific Reports. 2020, 10 :8769.
7. Lu J, Liu K, Deng J, Feng XQ, Xiong X, Huang LY, Tian XH, Zhang YB. Evaluating the effect of population density and the contribution of early canopy closure to grain yield of hybrid rice. Journal of Plant Growth Regulation. 2021.