考虑可动-不动水体假设的河套灌区适宜秋灌定额UBMOD模拟  

作　　者：毛威[1] 朱焱[1] 伍靖伟[1] 杨金忠[1] Mao Wei;Zhu Yan;Wu Jingwei;Yang Jinzhong(The State Key Laboratory of Water Resource and Hydropower Engineering Science,Wuhan University,Wuhan 430072,China)

机构地区：[1]武汉大学水资源与水电工程科学国家重点实验室,武汉430072

出　　处：《农业工程学报》2022年第2期58-66,共9页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家自然科学基金资助项目(52009094,51779178)。

摘　　要：针对土壤盐分物理非平衡运移定量描述的问题,为了探究内蒙古河套灌区根系层盐分累积与淋洗规律及适宜秋灌定额,该研究考虑可动-不动水体假设,构建UBMOD水盐运移模型,模拟分析了河套灌区永联试验区根系层土壤盐分累积与淋洗规律,探究不同水文年型、不同灌溉定额、不同灌溉水矿化度与不同秋灌定额条件下永联试验区根系层土壤盐分的淋洗规律,得出该研究区的适宜秋灌定额。结果表明,2008年作物生育期根系层盐分存储指数(Salt StorageIndex,SSI)为5.3%,秋灌期SSI为-21.1%,土壤盐分主要被淋洗至100cm以下的深层土壤,2019年秋灌期SSI为-14.2%。对秋灌定额影响较大的因素为水文年型和灌溉水矿化度。对于永联试验区,当秋灌定额大于等于120 mm,灌溉水矿化度小于1.5 g/L时,可以将根系层全盐量淋洗至2 g/kg以下。研究可为河套灌区的水盐调控提供理论依据。The Hetao Irrigation District is a representative agricultural production base in the arid region of western China.The water resources shortage and soil salinization have induced to rely heavily on the water diversion from the Yellow River.Nowadays,almost 1/3 of diverted water resources have been used for soil salt leaching during the autumn irrigation period,in order to control the soil salinity in the root zone.Furthermore,the amount of autumn irrigation water has been required to significantly cut down,as stricter management of water resources was released in recent years.Therefore,it is necessary to access the soil salt accumulation and leaching processes in the root zone under the suitable autumn irrigation quota.Much effort has been made on the soil water movement and solute transport with experiment and modeling for the Hetao Irrigation District.However,the commonly-used advective-dispersive equation cannot fully consider the anomalous transport in the heterogeneous porous media in practice.In this study,a new soil water movement and solute transport model was developed to predict the soil salt accumulation and leaching in the root zones using the mass balance principle,named UBMOD.The mobile-immobile assumption was adopted to describe anomalous transport.Yonglian Experimental Station was selected as a study area.The data were collected to monitor the soil water movement and salt transport at 13 points in 2008.The immobile soil water content fractionβ,the longitudinal dispersion D;,and the first-order mass transfer coefficient between the mobile and immobile region were calibrated and validated using the monitored data,and their values were 0.2,0.4 m,and 0.001 d;,respectively.The soil water movement and salt transport were more intense in the mobile region(including the soil salt leaching caused by infiltration and salt accumulation caused by evapotranspiration),whereas,those were slower in the immobile region,when considering the mobile-immobile water.The results showed that the soil salt content signifi

关 键 词：土壤 盐分 灌溉 可动-不动水体假设 盐渍化调控 

分 类 号：S156.41[农业科学—土壤学] S275[农业科学—农业基础科学]