基于格点的秋季连阴雨风险预估方法研究

秋季连阴雨不利于秋收作物的收获贮藏,也影响夏收作物的生长发育,掌握秋季连阴雨的规律,制作发布基于格点的精细化秋季连阴雨风险等级预估产品,有助于农事作业避开灾害性天气,为农业生产提供气象保障。仅考虑连续降水日数,2022年10月8—17日秋季连阴雨中高风险等级被高估,主要原因是SPCC省级格点降水预报产品预报偏差及未考虑日照时数。基于此,增加了SPCC省级格点总云量预报数据,在连续降水日数的基础上,增加过程日平均降水量和过程日平均云量两个指标,给出格点的云南省秋季连阴雨风险等级的预估方法。新方法可修正10月8—17日云南省大部地区的秋季连阴雨风险等级预估偏差。

长江中下游水稻开花灌浆期气象要素与结实率和粒重的相关性分析

【目的】通过历史分析,揭示已发生的气候变化对长江中下游水稻生产的影响,为适应气候变化背景下不断增加的高温危害提供依据。【方法】应用1981～2003年长江中下游的湖北、湖南、安徽、江西、江苏和浙江的48个早稻和30个中稻站点的水稻常规观测及同期的气象观测数据,利用SAS软件建立水稻开花期、乳熟前期和乳熟后期平均最高气温和日降水量与空壳率、秕谷率和千粒重的统计回归关系,分析水稻各生育期气象要素对水稻生产的影响。【结果】早稻的空壳率随着各个生育期平均最高气温的升高而减小,随着平均日降水量的增加而增大;中稻空壳率与开花期的气象要素关系明显,它随着开花期的平均日降水量和平均最高气温的升高而升高;早、中稻秕谷率都随着乳熟后期平均日降水量的增加而增大,随着平均最高气温的升高而减小;早稻千粒重与乳熟前期和乳熟后期的平均最高气温呈正相关,与乳熟前期和乳熟后期的平均日降水量呈负相关。中稻千粒重与乳熟后期的日降水量呈负相关,与乳熟后期的平均最高气温呈正相关。【结论】对早稻产生负面影响的是整个生殖生长期的过量降水,对中稻产生负面影响的是开花期和乳熟后期的持续高温或阴雨天气。与全球变暖相应的长江中下游高温危害主要影响的是中稻,对早稻影响较小。

四川盆地水稻产量构成要素与气象要素的相关性分析

通过对历史数据进行分析,揭示已发生的气候变化对四川盆地水稻生产的影响。应用1981-2009年四川盆地22个站点的水稻观测数据及与其对应的气象观测数据,对水稻拔节孕穗期、抽穗开花期和灌浆乳熟期的平均最高气温、平均日降水量和平均日照时数与水稻空壳率、秕谷率和千粒重建立统计回归关系,分析气象要素对水稻生产的影响。结果表明,盆西平原区(Ⅰ)空壳率随抽穗扬花期平均最高气温的升高而减少,随拔节孕穗期降水量的增加而增加,随抽穗扬花期和灌浆乳熟期平均日照时数的增加而减少;盆中浅丘区(Ⅱ)秕谷率随乳熟期平均最高气温的升高而降低;盆南丘陵区(Ⅲ)空壳率随平均最高气温和平均日照时数的升高而增加,千粒重随平均最高气温的升高而降低,随平均日降水量的增加而增加;气象要素对盆东平行岭谷区(Ⅳ)的影响较小。由此说明,影响四川盆地水稻空壳率的主要生育期为拔节孕穗期、抽穗开花期和灌浆乳熟期,影响秕谷率的主要生育期为灌浆乳熟期,影响千粒重的时期主要为拔节孕穗期;干旱对盆南丘陵区(Ⅲ)拔节孕穗期水稻产量构成要素的影响较大,与气候变暖相应的高温危害对四川盆地产量构成要素的影响较小。本研究为准确评估气候变化对水稻生产造成的影响及采取相应措施提供理论依据。

鲍邱河流域“94.7暴雨洪水”分析

1994年7月12日鲍邱河流域发生特大暴雨。西罗村水文站以上流域平均日降水量322.3mm,暴雨中心在流域上游三河市高楼镇附近,实测到的暴雨中心最大点日量460mm(中赵甫乡),相应重现期为238年一遇。流域内产生地面径流6759万m^3,最大洪峰流量据推算为462m^3/s。特大暴雨使流域内出现了建国以来最严重的洪涝灾害,鲍邱河中、上游河水漫溢,下游4处决口,100多个村被水围困,44个村进水;流域内农田积水达3.73万ha,成灾2.55万ha,积水深度一般在0.3～1.0m,12人死亡;据估算工。

Changes in Climatic Factors and Extreme Climate Events in Northeast China during 1961-2010

This study focuses on examining the characteristics of climate factors and extreme climate events in Northeast China during 1961- 2010 by using daily data from 104 stations, including surface air temperature, precipitation, wind speed, sunshine duration, and snow depth. Results show that annual mean temperature increased at a significant rate of 0.35℃ per decade, most notably in the Lesser Khingan Mountains and in winter. Annual rainfall had no obvious linear trend, while rainy days had a significant decreasing trend. So, the rain intensity increased. High-temperature days had a weak increasing trend, and low-temperature days and cold wave showed significant decreasing trends with rates of 3.9 d per decade and -0.64 times per decade, respectively. Frequency and spatial scope of low-temperature hazard reduced significantly. Warm days and warm nights significantly increased at 1.0 and 2.4 d per decade, while cold days and cold nights decreased significantly at -1.8 and -4.1 d per decade, respectively. The nighttime warming rate was much higher than that for daytime, indicating that nighttime warming had a greater contribution to the overall warming trend than daytime warming. The annual mean wind speed, gale days, and sunshine duration had significant decreasing trends at rates of-0.21 m s-1 per decade, -4.0 d per decade and -43.3 h per decade, respectively. The snow cover onset dates postponed at a rate of 1.2 d per decade, and the snow cover end date advanced at 1.5 d per decade, which leads to shorter snow cover duration by -2.7 d per decade. Meanwhile, the maximum snow depth decreased at -0.52 cm per decade. In addition, the snow cover duration shows a higher correlation with precipitation than with temperature, which suggests that precipitation plays a more important role in maintaining snow cover duration than temperature.