Effect and enlightenment of high temperature and oligarine rainy composite catastrophic weather on late rice production in plain region along the Yangtze river

doi:10.14088/j.cnki.issn0439-8114.2019.21.005

Abstract

Abstract: During the late rice production in plain region along the Yangtze river in 2017, there was a catastrophic weather by the combination of extreme high temperature and oligophores rainy, which had a serious impact on late rice production, the yield was greatly reduced. By analyzing the main weather processes during the growth of late rice in Lujiang county, a typical area of plain region along the Yangtze river, the effects of meteorological conditionsand catastrophic weather processes on the yield and formation of late rice were discussed. The results indicated that the continuous high temperature weather from July 12 to August 7 showed the characteristics of high average temperature, high extreme temperature and long duration, and the "strength" and "force" of temperature were the highest in the past ten years. The continuous oligarine rainy weather from August 29 to October 19 showed the characteristics of many days of widowhood and concentration, long duration of rain and heavy rainfall, the number of days of oligophores was the highest in the past decade. The combined catastrophic weather reduced the development quality of late rice population in different degrees, severely reduced the indicators of various economic traits, aggravated the occurrence of major pests and diseases, and the actual yield fell by 30 percent in late rice. Some countermeasures were put forward for the future production of late rice in plain region along the Yangtze river.

Key words: catastrophic weather, late rice, production, effect, plain region along the Yangtze river

CLC Number:

S511
S166

WU Chen-yang, ZHOU Bing, LYU He-ping, WU Xiao-wen, PAN Zhi-jun, GONG Chuan-ying, ZHANG Xiao-hong, YIN Lin, HE Hai-bing. Effect and enlightenment of high temperature and oligarine rainy composite catastrophic weather on late rice production in plain region along the Yangtze river[J]. HUBEI AGRICULTURAL SCIENCES, 2019, 58(21): 30-34.

References

[1] 田小海,松井勤,李守华,等.水稻花期高温胁迫研究进展与展望[J].应用生态学报,2007,18(11):2632-2636.
[2] 田小海,罗海伟,周恒多,等.中国水稻热害研究历史、进展与展望[J].中国农学通报,2009,25(22):166-168.
[3] WASSMANN R,JAGADISH S V K,HEUER S,et al. Climate change affecting rice production:The physiological and agronomic basis for possible adaptation strategies[J].Advances in agronomy,2009,101:59-122.
[4] 吴文革,陈刚,许有尊,等.双季稻北缘区早稻机插适宜行距的研究[J].中国农机化学报,2014,35(4):4-16.
[5] 辛良杰,李秀彬.近年来我国南方双季稻区复种的变化及其政策启示[J].自然资源学报,2009,24(1):58-65.
[6] 戴海燕,隋景跃,张黎,等.灾害性天气预报预警和精细化服务策略[J].南方农机,2019(5):95.
[7] 马雅丽,栾青,王志伟,等.山西省主要农业气象灾害变化特征及其对农作物产量的影响[J].中国农业气象,2010,31(S1):150-154.
[8] 田贵良,林志宇.气象灾害对粮食生产的影响研究——以福建省为例[J].灾害学,2016,31(1):148-152.
[9] 林志宇,田贵良.气象灾害对福建粮食产量影响的灰色关联分析[J].中国农业气象,2016,37(1):77-83.
[10] 钱永兰,毛留喜,周广胜.全球主要粮食作物产量变化及其气象灾害风险评估[J].农业工程学报,2016,32(1):226-235.
[11] MATSUI T,OMASA K,HORIE T.High temperature at flowering inhibits swelling of pollen grains,a driving force for thecae dehiscence in rice(Oryza sativa L.)[J].Plant production science,2009,3(4):430-434.
[12] 李守华,田小海,黄永平,等.江汉平原近50年中稻花期危害高温发生的初步分析[J].中国农业气象,2007,28(1):5-8.
[13] 郭际,施贝贝,徐凯迪,等.江苏省单季稻应对高温热害和低温冷害的气温保险指数及风险区划[J].江苏农业科学,2019, 47(2):312-316.
[14] 董华林,汪本福,费震江,等.长江中下游地区(武汉点)优质高效中籼稻品种比较试验初报[J].湖北农业科学,2018,57(24):19-25.
[15] 张皓,申双和,史艳姝,等.上海单季晚粳稻主要生育性状的动态模拟[J].中国农业气象,2018,39(8):518-530.
[16] 朱德泉,储婷婷,武立权,等.宽窄行配置对机插中晚稻生长特性及产量的影响[J].农业工程学报,2018,34(18):102-112.
[17] 潘孝晨,唐海明,肖小平,等.不同耕作方式及泥浆沉实时间对机插晚稻干物质积累及产量的影响[J].作物研究,2018,32(5):359-364,384.
[18] 龙志长,刘顺意,谢佰承.气候变暖对长沙双季稻生育期的影响[J].作物研究,2018,32(6):467-473.