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咸水滴灌下塔克拉玛干沙漠腹地人工防护林土壤水盐动态
引用本文:丁新原,周智彬,徐新文,王永东,江 源,鲁晶晶,常 青. 咸水滴灌下塔克拉玛干沙漠腹地人工防护林土壤水盐动态[J]. 土壤学报, 2016, 53(1): 103-116. DOI: 10.11766/trxb201505130096
作者姓名:丁新原  周智彬  徐新文  王永东  江 源  鲁晶晶  常 青
作者单位:1. 中国科学院新疆生态与地理研究所,荒漠与绿洲生态国家重点实验室,乌鲁木齐 830011;中国科学院大学,北京 100049;北京师范大学资源学院,北京 100875;2. 中国科学院新疆生态与地理研究所,荒漠与绿洲生态国家重点实验室,乌鲁木齐 830011;3. 北京师范大学资源学院,北京,100875;4. 中国科学院新疆生态与地理研究所,荒漠与绿洲生态国家重点实验室,乌鲁木齐 830011;中国科学院大学,北京 100049
基金项目:水利部公益性行业科研专项(201401049)、中国科学院战略性先导科技专项(XDA05050504)、国家自然科学基金项目(41271341)和塔里木油田分公司综合项目(971012080007)
摘    要:为揭示咸水滴灌下塔克拉玛干沙漠腹地人工防护林的土壤水盐动态规律,研究了4-7月份各灌水周期内土壤水盐的时间变化特征和二维空间分布格局。结果表明:(1)咸水滴灌下的防护林土壤水盐动态具有显著的周期性规律;一个周期内(1~15 d),水分先后经历了快速下降(1~4d)、缓慢变化(4~10 d)和基本稳定(10~15 d)三个时期,整体呈幂函数递减规律(y=8.746t-0.270,t=1,2,3…);盐分则先后经历了脱盐(1~7 d)和积盐(7~15 d)两个阶段,整体变化规律符合抛物线函数(y=0.009t2-0.138t+2.269,t=1,2,3…)。(2)水平0~60 cm空间上的土壤水分呈一元线性递减分布,而盐分呈一元线性递增分布;垂直0~120 cm空间上的土壤水分表现为较明显的单峰曲线,其峰值位于20 cm土层处,而盐分分布满足逆函数模型,并在表土层距滴头45~60 cm处有显著积盐现象,含盐量高达10~20 g kg-1。由于受灌溉、蒸发、气温、降雨、植被等环境因素及土壤自身空间变异性等的影响,具体不同时空尺度上的绿地土壤水盐动态既具有一致性规律又表现出差异性特征。本文可对区域土壤水盐动态预测、盐渍化评估以及灌水制度进一步优化等提供科学支撑。

关 键 词:咸水滴灌  水盐动态  人工防护林  塔克拉玛干沙漠
收稿时间:2015-02-11
修稿时间:2015-07-10

Dynamics of Soil Water and Salt in Soil under Artificial Plantation Shelterbelt Drip-irrigated with Saline Water in the Center of the Taklimakan Desert
DING Xinyuan,ZHOU Zhibin,XU Xinwen,WANG Yongdong,JIANG Yuan,LU Jingjing and CHANG Qing. Dynamics of Soil Water and Salt in Soil under Artificial Plantation Shelterbelt Drip-irrigated with Saline Water in the Center of the Taklimakan Desert[J]. Acta Pedologica Sinica, 2016, 53(1): 103-116. DOI: 10.11766/trxb201505130096
Authors:DING Xinyuan  ZHOU Zhibin  XU Xinwen  WANG Yongdong  JIANG Yuan  LU Jingjing  CHANG Qing
Abstract:Soil water,as the major component of water in desert ecosystems,is the most important environmental factor which limits the growth and productivity of the vegetation. Specifically,soil water plays a significant role in the development,evolution and productivity of sand soils,as well as in maintaining the structure stability and function of desert ecosystems. Besides,it can make a great difference on the windbreak and sand-fixation,etc. The Tarim Desert Highway,crossing the Taklimakan desert,is protected by the artificial plantation shelterbelts along the highway. Due to high evaporation demand and extremely low rainfall in this region,it is very difficult to maintain the water balance of the sandy soil along the plantation shelter, thus leading to failure in meeting the normal water demand of plants without irrigation. Consequently,how to meet the water demand of plants is the key problem to sustain the plantation shelterbelt. Currently,pumped saline groundwater has been utilized to supplement the soil water loss in the shelterbelt. However,the soil salinization,caused by the long-term saline water(especially the saline water of high salinity)irrigation, inevitably hampers the construction and maintenance of the plantation shelterbelt. Solution for this problem is highly dependent on the understanding of the soil water and salt dynamics. Based on these,it is very necessary to carry out the dynamics of the soil water and salt in this region,and so on. In order to reveal the laws of spatial and temporal dynamics of the soil water and salt in the soil under artificial shelterbelt drip-irrigated with saline water in the center of the Taklimakan Desert,a field study was carried out to monitor temporal variation and two-dimensional spatial distribution of soil water and salt in the soil between April and July during which four irrigation events occurred at the interval of 15 days. Results show that(1)in the soil under artificial shelterbelt drip-irrigated with saline water,dynamics of the soil water and salt displayed an obvious periodic rule,that is,within an irrigation cycle(15 days),soil water dropped rapidly in content during the first period from D1 to D4,slowed down in changing during the second period from D4 to D10 and leveled off during the third period from D10 to D15,and the variation as a whole fitted the law of diminishing power function(y=8.746t-0.270,t=1,2,3…),while soil salt was being leached out in the first 7 days and then accumulating in the following 8 days(7~15 d),and the variation as a whole fitted the equation of Parabolic Function(y=0.009t2-0.138t+2.269,t=1,2,3…);and(2)in the 0~60 cm soil layer,soil water displayed a monistic linear diminishing pattern in horizontal distribution,while soil salt,a monistic linear increasing pattern;and in the 0~120 cm soil profile,the distribution of soil water displayed a single-peak curve with the peak appearing at 20 cm in soil depth,while the distribution of soil salt fitted the inverse function model,and salt accumulated in the surface of soil(0~5 cm)forming a circle around the nozzle 45~60 cm in radius,where the salt content might reach as high as 10~20 g kg-1. Our results suggest that the dynamics of soil water and salt in the artificial plantation shelterbelts,affected by varying environmental factors such as irrigation,evaporation,air temperature,precipitation,vegetation,as well as the spatial variability of the soil properties,exhibit both generality and differentiation,regardless of spatio-temporal scales. Thus our study may provide theoretical basis for predicting dynamics of the soil water and salt, evaluating soil salinization and further optimizing the present irrigation regime for the artificial plantation shelterbelts in this region.
Keywords:Saline water drip-irrigation   Dynamics of water and salt   Artificial plantation shelterbelt   Taklimakan Desert
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