农业旱涝指标及在江淮地区监测预警中的应用

The Agricultural Drought and Flood Index and Its Operational Application to Monitoring and Early-warning in Jianghuai Area

该文提出了一个可业务应用的农业旱涝监测预警气象指标——累积湿润指数。该指标以相对湿润度指数为基础,用作物需水量取代参考作物蒸散量,并考虑前期旱涝程度对当前旱涝状况的累积影响,具有农业意义。为方便农业气象业务应用,采用FAO Penman-Monteith模型的简化方法计算参考作物蒸散量,用气温资料对简化式进行校准,将误差减小到可满足应用要求 通过求算不同区域农田作物系数的加权平均值,得到宏观农田作物需水量,并确定了该指标分区域的旬旱涝等级标准。该指标用于旱涝监测,与土壤墒情的定性符合率为80%~90%,定量符合率为60%~70%,在旬时间尺度比土壤墒情指标更符合旱涝实况 用于下一旬旱涝预警,尽管受到中期降水量预报准确度影响,但由于含有前期旱涝实况信息,预警趋势大体正确,提高了旱涝预警的准确度。

An accumulated humidity index is introduced as agricultural drought and flood indicator and can be ap- plied to operation. The index bases on the relative humidity index, replacing evapotranspiration with the crop water requirements, and the influence of former drought and flood status to current ones is considered too. Each component＇s time efficiency and effect weight varies on different temperature condition. The effect weight of every ten days are also different. The reference evapotranspiration is estimated and calibrated using temperature data of actual measure- ment, and errors are eliminated to meet application requirement, thus FAO Penman-Monteith is available for operation. The macroscopical crop water requirements is obtained by compositive crop coefficients in different region, also the grades of drought and flood index of a ten day period in the humid and semi-hu- mid zones are established. Used in agricultural drought and flood monitoring, and the qualitative coincident between this index and the soil moisture indices reaches 80%--90%, and quantitative coincident percentage is 60%--70%. The soil moisture data of longer serial stations are more consistent with accumulated humidity index than with regional survey result; normal and relative normal drought and flood grade leads to the highest coinci- dent rate, drought the second, while flood leads to a relative low result. Since there is great difference be- tween the soil moisture and cumulated humidity index in the monitoring aging and means, 10% -20% er- rors can be considered acceptable. Considering the index of the coincident ratio for stations, every grade samples proportion of total and its coincident ratio, the accumulated humidity index reflects soil moisture status in general. This index is used in agricultural drought and flood early-warning, the reliability of which is influ- enced by medium-term forecast. It contains former droughts and flood facts, making the trend relatively accurate on the whole. Considering the operation requirement, the early-warning precision still needs im- provement. On one hand, the day-to-day data can be obtained by analyzing information of middle-term pre- cipitation course prediction; on the other hand, statistical method is used to predict the index on basis of temporal characteristics analysis, to adjust the error of precipitation prediction, and improve the accuracy of agricultural drought and flood early-warning. The agricultural drought and flood are primary agrometeorological disasters in China, so the monito- ring and the early-warning operation is a key agrometeorological job. At present, there are indexes on agri- cultural drought andflood such as soil moisture index, remote sensing index and meteorological index. But considering the complexity of agricultural drought and flood, the above indexes each has advantage and weakness, therefore strengthening research on compositive technique for the agricultural drought and flood is necessary.