干旱区生态环境知识资源中心(Arid): 矿物复合保水剂对新疆干旱区凝结水吸持效果研究

Arid

	矿物复合保水剂对新疆干旱区凝结水吸持效果研究
其他题名	Retention effect of mineral superabsorbent composite on condensation water in arid areas in Xinjiang
	李备; 张发旺; 李勇军; 孟建; 朱拥军; 石荣媛; 王雅琴
来源期刊	干旱区地理
ISSN	1000-6060
出版年	2021
卷号	44 期号:4 页码:1135-1140
中文摘要	采用称重法在新疆石河子市121团土壤改良实验站进行了矿物复合保水剂对干旱区凝结水的高效利用研究实验,根据实验数据分析了该地区凝结水的生成规律及矿物复合保水剂组成的人工保水层对凝结水的吸持效果。结果表明:凝结水来源于地下某深度到地表的水气和空气中的水气,发生时间基本在22:00-09:00,影响凝结水生成的主要因素有近地面大气温度、近地表土壤温度、空气相对湿度、风速等因素。由于向近地表土壤加入了矿物复合保水剂,使得混合层成为了一个人工保水层,该人工保水层对研究区的凝结水量和蒸发量都产生了影响,实验研究表明,人工保水层分布在近地表5~10 cm处对凝结水吸持效果最佳。
英文摘要	This study was undertaken at the comprehensive field test site of the soil improvement experimental station of the Shihezi 121 Regiment in the northern Xinjiang Uygur Autonomous Region,China;this site is in the middle of the northern foot of the Tianshan Mountains,along the south margin of the vast Gurbantunggut Desert.In the study,a weighing method is used to conduct an experiment on the efficiency of a mineral superabsorbent composite in the utilization of water from condensation in arid areas.On the basis of the obtained experimental data,analysis was conducted on the generation law of condensation water in the region,the condensation water retention effect of the artificial water retention layer formed after introducing the mineral superabsorbent composite to the topsoil,and the transport law of the zero-flux plane underground with temperature and time.In the experiment,a microlysimeter was used to verify the existence and quantity of condensation water in the region of interest.Through continuous observation,the generation time of the condensation water in the region was investigated.Using bottom-sealed and bottom-open test tubes of the microlysimeter,the condensation water was determined to come from two sources:the condensation of water vapor in the air onto the surface soil as the surface temperature dropped and the condensation of water vapor from the zero-flux plane at a certain depth under the surface soil.The experimental data indicate that the condensation water in the region forms primarily during the 22:00-09:00 time period.The condensation process begins at approximately 21:00,and the yield of condensation water is initially high,later reducing slightly at around 06:00.As the difference between the ground temperature and near-surface temperature narrows after sunrise,the condensation gradually decreases and transitions into evaporation.The main factors influencing the formation of condensation water are the near-surface air temperature, the near-surface soil temperature,the relative humidity in the air,and the wind speed.The introduction of a mineral superabsorbent composite to the near-surface soil was found to cause the mixed layer to become an artificial water retention layer,which affects the quantity of both condensation and evaporation in the region.The experimental results reveal that condensation water forms mainly at the soil surface;the volume of condensation water varies in the range of 0-10 cm,and the artificial water retention layer demonstrated the best retention effect on condensation water at a distance 5-10 cm from the surface.In arid areas,although the volume of condensation is much smaller than that of evaporation,the huge temperature difference between day and night is favorable to the formation of condensation water.The range of the change in the ground temperature mainly occurs within 0-45 cm underground and occurs faster than the change in the near-surface air temperature,thus favoring the formation of condensation water.Condensation water is extremely valuable to drought-enduring plants in arid areas.Studies on the water retention effect of the artificial layer formed by adding a mineral superabsorbent composite on condensation water in arid areas are very important for the protection of vegetation,the identification of potential ecoenvironmental improvements,and the control of desertification in arid and semiarid regions.
中文关键词	凝结水 ; 矿物复合保水剂 ; 人工保水层 ; 蒸发 ; 微渗计 ; 西北干旱地区
英文关键词	condensed water mineral composite water-retaining agent artificial water-retaining layer evaporation micro-osmometer arid region in northwest China
类型	Article
语种	中文
收录类别	CSCD
WOS类目	Agriculture
CSCD记录号	CSCD:7034589
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/377629
作者单位	李备, 中国地质科学院水文地质环境地质研究所;;中国地质调查局, ;;河北省地下水污染机理与修复重点实验室, 石家庄;;石家庄, 河北;;河北 050061;;050061, 中国.; 张发旺, 中国地质调查局水文地质环境地质调查中心, 保定, 河北 071051, 中国.; 李勇军, 新疆农八师农林牧局土壤改良试验站, 石河子, 新疆 832000, 中国.; 孟建, 新疆农八师农林牧局土壤改良试验站, 石河子, 新疆 832000, 中国.; 朱拥军, 新疆农八师农林牧局土壤改良试验站, 石河子, 新疆 832000, 中国.; 石荣媛, 新疆农八师农林牧局土壤改良试验站, 石河子, 新疆 832000, 中国.; 王雅琴, 新疆农八师农林牧局土壤改良试验站, 石河子, 新疆 832000, 中国.
推荐引用方式 GB/T 7714	李备,张发旺,李勇军,等. 矿物复合保水剂对新疆干旱区凝结水吸持效果研究[J],2021,44(4):1135-1140.
APA	李备.,张发旺.,李勇军.,孟建.,朱拥军.,...&王雅琴.(2021).矿物复合保水剂对新疆干旱区凝结水吸持效果研究.干旱区地理,44(4),1135-1140.
MLA	李备,et al."矿物复合保水剂对新疆干旱区凝结水吸持效果研究".干旱区地理 44.4(2021):1135-1140.