Subjects: Geosciences >> Geography submitted time 2024-07-04 Cooperative journals: 《干旱区研究》
Abstract: It is of great significance for scientific management and efficient utilization of water resources in the basin to deeply explore the information of internal conversion process of land use types, measure the impact of land use change intensity on evapotranspiration, and accurately evaluate the temporal and spatial variation of ET. Based on the intensity analysis model, the intensity change characteristics of land use types at different levels in the Aksu River Basin from 2000 to 2020 and their impact on the actual evapotranspiration of the basin were revealed. The results showed that : ( 1 ) At the time interval level, the intensity of land use change in the basin increased first and then decreased, and the change was the most active from 2000 to 2005. At the land type level, the increase and decrease of cultivated land, construction land, water area and forest land area are more active. The increase of cultivated land area at the transfer level mainly comes from grassland ( 54.31% ) and unused land ( 26.26% ). ( 2 ) The average annual evapotranspiration of the basin is 166.56 mm. The interannual fluctuation is large, and the overall trend is increasing, with an annual growth rate of 3.68 mm·a-1. Evapotranspiration from April to October accounted for 71.76% of the annual evapotranspiration. The high value of actual evapotranspiration is distributed in mountainous forest land and cultivated land in plain area, and the low value area is distributed in piedmont desert area and oasis and desert transition zone. ( 3 ) The results of principal component analysis show that the driving force of ETa change in Aksu River Basin is the conversion intensity of grassland, cultivated land and unused land. The correlation coefficient between land use change intensity and actual evapotranspiration is 0.87, and there is a strong correlation between the two.
Subjects: Environmental Sciences, Resource Sciences >> Other Disciplines of Environmental Sciences, Resource Sciences submitted time 2021-03-02 Cooperative journals: 《干旱区研究》
Abstract:为研究新疆石河子市地下水化学特征及成因,采用描述性统计和Piper三线图对研究区19个潜水和25个浅层承压水水样的主要离子组分含量及水化学类型进行统计分析,并运用Schoeller图、Gibbs图和离子比值图等方法分析影响研究区地下水化学特征形成的主要因素。结果表明:石河子市浅层地下水为低矿化度的弱碱性水,水化学类型以HCO3-Ca和HCO3·SO4-Ca型为主,其次是HCO3·SO4-Na型。影响潜水水化学特征的主要是岩石风化作用和地表水蒸发浓缩后的渗透补给,影响浅层承压水水化学特征的主要因素是岩石风化作用;地下水中少量Ca2+和Mg2+来自碳酸盐的溶解,一部分Ca2+来自硫酸盐的溶解,Na+和Cl-主要来自岩盐的溶解;γ(Na+-Cl-)与γ(Ca2++Mg2+)-γ(HCO3-+SO42+)呈负相关关系,表明阳离子交换作用也是浅层地下水中化学组分形成的重要作用之一。
Subjects: Geosciences >> Hydrology submitted time 2020-06-12 Cooperative journals: 《干旱区地理》
Abstract: 干旱区平原水库具有水面积大、蒸发强烈等特点,本文采用直径100 mm的配重浮球来抑制平原水库的无效蒸发。以月为时间尺度,分别从浮球间孔隙造成的蒸发损失率和风浪环境中配重浮球湿润表面造成的蒸发损失率进行研究,最终建立浮球覆盖下水面蒸发抑制率和节水率计算模型。结果表明:(1)非冰冻期内,浮球间孔隙造成的蒸发损失率呈现先增大后减小,在7月达到全年最高值11.6%;冰冻期内(12月和1月),浮球间孔隙造成的蒸发损失率达到全年最低值9%。(2)相同覆盖面积下,浮球润湿率随风速的增大呈曲线增长,且覆盖面积越大,润湿率随风速的变化速率越慢。相同风速下,浮球润湿率随覆盖面积的增大呈直线下降。各覆盖面积下,单位面积节水率在7月达到最大值,分别为76.6%、78.1%、79.6%、81.2%;在4月达到最低值,分别为51.9%、54.0%、58.2%、61.3%。综上所述,配重浮球在风浪环境中稳定性好、防蒸发节水率高,是一种较为理想的防蒸发材料。
Subjects: Geosciences >> Hydrology submitted time 2020-01-02 Cooperative journals: 《干旱区研究》
Abstract: 基于新疆民丰县85组农田表层土壤样品中的6种微量营养元素(Fe、B、Mn、Cu、Zn、Mo)的实测含量,运用地统计学方法对研究区土壤中微量营养元素的含量及空间分布进行分析。结果表明:Cu、Fe、Mn元素的块金系数在25%~75%,为中等程度的空间自相关性,空间变异同时受到自然因素和人为因素的影响;土壤B、Zn、Mo元素的块金系数小于25%,具有强烈程度的空间自相关性,空间变异受到影响的因素主要有成土母质、气候等自然条件。Fe、B、Zn元素的平均含量处于较缺乏水平,Mn、Cu元素的平均含量处于中等水平,Mo元素的平均含量处于较丰富水平。研究区土壤中6种微量元素之间存在一定程度的相关性。土壤有机质和pH对土壤微量营养元素含量均有不同程度的影响。
Subjects: Geosciences >> Hydrology submitted time 2020-01-02 Cooperative journals: 《干旱区研究》
Abstract: 为探究新疆昌吉州东部平原区地下水水质演化过程,采用数理统计、Piper三线图、Gibbs图和离子比法对昌吉州东部平原区2016年63组地下水水质取样点及54组2012—2015年地下水水质监测数据进行分析。结果表明:昌吉州东部平原区2012年地下水阳离子平均含量总体为Ca2+>K++Na+>Mg2+,阴离子平均含量总体为HCO3->SO42->Cl-;从2013年开始,SO42-逐渐增大,Ca2+逐渐减小;到2016年阳离子平均含量总体为Ca2+>K++Na+>Mg2+,阴离子平均含量总体为HCO3->SO42->Cl-。水化学类型由2012年HCO3—Ca·Mg(Ca·Na、Ca·Na·Mg)型向2016年HCO3·SO4—Ca·Na·Mg(Ca·Mg、Ca·Na)演化,这主要与含水介质的风化作用和蒸发浓缩作用有关,而蒸发浓缩作用更加体现在承压水区的上部潜水中。地下水中Na+、K+、Cl-主要来自岩盐的溶解;Ca2+、Mg2+主要来自蒸发岩溶解;SO42-主要来自石膏(CaSO4·2H2O)和芒硝(Na2SO4·10H2O)的溶解。Cl-、SO42-除来自岩盐的溶解外,还受到人类活动的影响。
Hits
Hits
Downloads
Comment