不同潜水埋深下土壤水盐运移特征及其交互效应

为探讨盐水矿化度下土壤水盐分布特征对潜水埋深的响应规律及其水盐交互效应,以黄河三角洲建群种柽柳(Tamarix chinensis Lour)栽植的土壤柱体为研究对象,模拟设置0.3、0.6、0.9、1.2、1.5和1.8 m共6种潜水水位,测定分析各水位处理下不同土壤剖面的相对含水率、含盐量及土壤溶液绝对浓度等水盐参数。结果表明:随潜水水位的增加,整个土柱水分均值显著降低,土壤含盐量和溶液绝对浓度均值先升高后降低,1.2 m水位是土壤水盐变化的转折点,此水位下各土壤剖面的含盐量和土壤溶液绝对浓度均达最高。土柱水分和盐分变化幅度最大的水位分别在中水位0.9∽1.2 m,浅水位0.6 m,土壤溶...

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Bibliographic Details
Published in农业工程学报 Vol. 31; no. 15; pp. 93 - 100
Main Author 夏江宝 赵西梅 赵自国 陈印平 刘俊华
Format Journal Article
LanguageChinese
Published 滨州学院山东省黄河三角洲生态环境重点实验室,滨州,256603%滨州学院山东省黄河三角洲生态环境重点实验室,滨州 256603 2015
山东农业大学资源与环境学院,泰安 271018%滨州学院山东省黄河三角洲生态环境重点实验室,滨州 256603
南京林业大学生物与环境学院,南京 210037
Subjects
土壤水分
土壤溶液浓度
地下水
柽柳
潜水水位
盐分
salinity
土壤水分
潜水水位
soil moisture
土壤溶液浓度
盐分
地下水
groundwater level
柽柳
groundwater
Tamarix chinensis Lour
soil solution concentration
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ISSN1002-6819
DOI10.11975/j.issn.1002-6819.2015.15.013

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Summary:为探讨盐水矿化度下土壤水盐分布特征对潜水埋深的响应规律及其水盐交互效应,以黄河三角洲建群种柽柳(Tamarix chinensis Lour)栽植的土壤柱体为研究对象,模拟设置0.3、0.6、0.9、1.2、1.5和1.8 m共6种潜水水位,测定分析各水位处理下不同土壤剖面的相对含水率、含盐量及土壤溶液绝对浓度等水盐参数。结果表明:随潜水水位的增加,整个土柱水分均值显著降低,土壤含盐量和溶液绝对浓度均值先升高后降低,1.2 m水位是土壤水盐变化的转折点,此水位下各土壤剖面的含盐量和土壤溶液绝对浓度均达最高。土柱水分和盐分变化幅度最大的水位分别在中水位0.9∽1.2 m,浅水位0.6 m,土壤溶液绝对浓度变化最剧烈的是深水位1.5∽1.8 m。随土壤深度的增加,土壤水分显著升高,土壤盐分先降低后升高,表土层盐分均值最高达1.36%,但土壤溶液绝对浓度显著减小。土壤含盐量、土壤相对含水率与潜水水位分别呈极显著(P〈0.01)和显著(P〈0.05)负相关,土壤相对含水率与盐分呈极显著正相关(P〈0.01)。地下盐水矿化度下,柽柳幼苗栽植深度应超过20 cm深,适宜潜水水位在1.5∽1.8 m,栽植深度以30∽40 cm较好。研究结果可为地下盐水作用条件下土壤次生盐渍化的防治和柽柳栽植管理提供参考。
Bibliography:11-2047/S
soil moisture; salinity; groundwater; groundwater level; soil solution concentration; Tamarix chinensis Lour
Soil salt and water closely related to groundwater depth mainly affect vegetation distribution pattern and community succession of the Yellow River Delta. Thus,it is important to explain the changing process of water and salt in groundwater and soil and their effects on the occurrence of the secondary salinization. This study aimed to understand the response of soil water-salt distribution characteristics to groundwater depth and their interactive effects under saline groundwater conditions. To achieve the objective, a laboratory experiment was carried out in a controllable greenhouse of Shangdong Provincial Key Laboratory of Eco-Environmental Science for Yellow River Delta, Binzhou University, China in 2014. Soils were collected from Yellow River downstream and air-dried. A total of 18 soil columns planted with Tamarix chinensis Lour, a constructive species in the Yellow River Delta were prepa
ISSN:1002-6819
DOI:10.11975/j.issn.1002-6819.2015.15.013