Yield and quality performance of hybrid rice in Jianghan Plain under combined meteorological disasters

doi:10.14088/j.cnki.issn0439-8114.2024.09.003

Abstract

Abstract: In 2020, a typical rice disaster year, continuous sunny and high temperature weather happened in the early and middle August, followed by a long period of low temperature plus sparse sunshine in the middle and late September in Hubei Province. Observing rice yield and quality parameters under such combined disasters was of great significance for the risk control in rice industry. Seven main varieties, including Quanyouhuazhan, Quanliangyouefengsimiao, Y Liangyou No.1, Jingliangyouhuazhan, Zhaoyou 6377, Y Liangyou 900 and Longliangyouhuazhan, were selected in this experiment. They were sowed in two stages and experienced high temperature （C1）, and low temperature and sparse sunlight （C2）. The changes of yield and quality related indexes with sowing date and weather conditions were measured. The results showed that the yield and quality of all varieties were affected to some extents under the conditions of high temperature, and low temperature and sparse sunlight, and different varieties were affected to different degrees. The yield of Quanyouhuazhan and Y Liangyou No.1 under C1 was significantly lower than that under C2, the yield of Y Liangyou 900 under C1 was significantly higher than that under C2 （P<0.05）, and there was no significant difference in other varieties between the two sowing treatments. As for the quality indexes, compared with C1, the quality indexes such as head rice rate, chalkiness degree and chalkiness rate of most varieties decreased significantly under the C2 sowing period. By comparing the yield and quality performance of related varieties under normal weather conditions, it was concluded that Quanliangyouefengsimiao, Jingliangyouhuazhan, Zhaoyou 6377 and Longliangyouhuazhan had good tolerance to high temperature, and low temperature and sparse sunlight. Quanhuayouzhan and Y Liangyou 900 were sensitive to both high temperature, and low temperature and sparse sunlight. Combined meteorological disasters had their own characteristics according to their types, and the harm of low temperature and sparse sunlight disasters might exceed the harm of high temperature heat damage.

Key words: combined meteorological disasters, high temperature, low temperature and sparse sunlight, hybrid rice, yield, quality, Jianghan Plain

CLC Number:

CHEN Long-zhou, LUO Hai-wei, YANG Qing-qing, HU Yu-ting, LIU Yang-xuan, LIU Yue, YAN Peng, MU Qi-lin, TIAN Xiao-hai. Yield and quality performance of hybrid rice in Jianghan Plain under combined meteorological disasters[J]. HUBEI AGRICULTURAL SCIENCES, 2024, 63(9): 10-14.

References

[1] IPCC.Climate change 2021:The physical science basis[A].MASSON-DELMOTTE V,ZHAI P,PIRANI A,et al. Contribution of working group I to the sixth assessment report of the intergovernmental panel on climate change[M]. Cambridge, UK: Cambridge university press, 2021.2215-2225.
[2] 范国太. 南优二号作一季稻种植的空秕问题[J].湖北农业科学,1979(18):13-18.
[3] 黄义德,曹流俭,武立权,等.2003年安徽省中稻花期高温热害的调查与分析[J].安徽农业大学学报,2004,31(4):385-388.
[4] 王才林,仲维功.高温对水稻结实率的影响及其防御对策[J].江苏农业科学,2004,32(1):15-18.
[5] 任久江. 高低温对杂交水稻结实率危害规律的探讨[J].气象,1979,5(9):22-24.
[6] 王文,许志丽,蔡晓军,等.基于PDSI的长江中下游地区干旱分布特征[J].高原气象,2016,35(3):693-707.
[7] 万素琴,陈晨,刘志雄,等.气候变化背景下湖北省水稻高温热害时空分布[J].中国农业气象,2009,30(S2):316-319.
[8] 郑昌玲,张艳红,刘维.2019年夏季气象条件对农业生产的影响[J].中国农业气象,2019,40(11):733-735.
[9] 范进进,秦鹏程,史瑞琴,等.气候变化背景下湖北省高温干旱复合灾害变化特征[J].干旱气象,2022,40(5):780-790.
[10] 程雯. 高温热害对稻田各时期的影响及其对策[J].南方农业,2022,16(2):201-203.
[11] 何少波,陈运祺.水稻高温热害的防控[J].湖南农业,2023(7):17.
[12] 叶佩. 气候变化背景下湖北中稻高温热害评估[D].南京:南京信息工程大学,2022.
[13] 张斌贝. 低温寡照对中稻生产的影响分析[J].种子科技,2017,35(8):119.
[14] 王慧亮,王学雷,厉恩华,等.江汉平原主要气候变化特征[J].世界科技研究与发展,2009,31(6):1130-1133.
[15] 贺程程,周霞,杨峰,等.江汉平原气候变化及其对农业生态的影响与对策[J].气象科技进展,2018,8(5):116-119.
[16] 苏荣瑞,耿一风,田皓,等.江汉平原58年寒露风对双季晚稻的影响[J].湖北农业科学,2012,51(22):5020-5023.
[17] TIAN X, MATSUI T, LI S, et al.Heat-induced floret sterility of hybrid rice (Oryza sativa L.) cultivars under humid and low wind conditions in the field of Jianghan Basin, China[J]. Plant production science, 2010, 13(3): 243-251.
[18] 周守华,黄永平,熊勤学.江汉平原盛夏冷害的发生趋势和气候背景[J].中国农业气象,2008,29(2):234-236.
[19] 刘冲,熊昌元,吴晨阳,等.水稻组合气象灾害的一个实例研究[J].气候变化研究快报,2013,2(4):7.
[20] 吴晨阳,周兵,吕和平,等.高温与寡照阴雨复合灾害性天气对沿江平原晚稻生产的影响与启示[J].湖北农业科学,2019, 58(21):30-34.
[21] 陈红阳. 灌浆结实期低温胁迫对水稻碳代谢及产量的影响[D].哈尔滨:东北农业大学,2022.
[22] 刘迎霞,娄运生,王坤,等.不同遮阴处理下施肥对水稻生长及生理特性的影响[J].农业环境科学学报,2021,40(12):2603-2613.
[23] 邓艾兴,李歌星,吕玉平,等.齐穗后遮阴时长对西北稻区粳稻产量和品质的影响[J].作物学报,2023,49(7):1930-1941.
[24] 程露,项阳,逄洪波,等.水稻苗期耐冷种质资源筛选及耐冷性综合评价[J].中国农业大学学报,2022,27(2):34-45.
[25] 高园,沈升,刘科,等.杂交水稻新品种在自然高温下的耐热性评价[J].杂交水稻,2019,34(6):68-74.
[26] 闫浩亮,王松,王雪艳,等.不同水稻品种在高温逼熟下的表现及其与气象因子的关系[J].中国水稻科学,2021,35(6):617-628.