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国家自然科学基金(31170385)

作品数:2 被引量:18H指数:2
相关作者:徐冰鑫赵洋陈永乐更多>>
相关机构:中国科学院更多>>
发文基金:国家自然科学基金国家重点基础研究发展计划更多>>
相关领域:农业科学生物学更多>>

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Topographic differentiations of biological soil crusts and hydraulic properties in fixed sand dunes, Tengger Desert被引量:14
2015年
Biological soil crusts (BSCs) play an important role in surface soil hydrology. Soils dominated with moss BSCs may have higher infiltration rates than those dominated with cyanobacteria or algal BSCs. However, it is unnown whether improved infiltration in moss BSCs is accompanied by an increase in soil hydraulic conductivity or water retention capacity. We investigated this question in the Tengger Desert, where a 43-year-old revegetation program has promoted the formation of two distinct types of BSCs along topographic positions, i.e. the moss-dominated BSCs on the interdune land and windward slopes of the fixed sand dunes, and the al- gal-dominated BSCs on the crest and leeward slopes. Soil water retention capacity and hydraulic conductivity were measured using an indoor evaporation method and a field infiltration method. And the results were fitted to the van Genuchten-Mualem model. Unsaturated hydraulic conductivities under greater water pressure (〈-0.01 MPa) and water retention capacities in the entire pressure head range were higher for both crust types than for bare sand. However, saturated and unsaturated hydraulic conductivities in the near-saturation range (〉-0.01 MPa) showed decreasing trends from bare sand to moss crusts and to algal crusts. Our data suggested that topographic differentiation of BSCs significantly affected not only soil water retention and hydraulic conductivities, but also the overall hydrology of the fixed sand dunes at a landscape scale, as seen in the reduction and spatial variability in deep soil water storage.
Zhi Shan ZHANGYong Le CHENBin Xing XULei HUANGHui Juan TANXue Jun DONG
油蒿(Artemisia ordosica)退化阶段对生物土壤结皮拓殖和发育的影响被引量:4
2016年
2013年8月,在腾格里沙漠东南缘1990年建立的人工固沙植被区,分别对油蒿(Artemisia ordosica)生殖株、半死株和死株3个退化阶段植株西北、西南、东北和东南4个方向生物土壤结皮(BSCs)类型、盖度和厚度进行了调查。结果表明:油蒿灌丛周围共出现了3类BSCs,分别为藻类结皮、地衣结皮和藓类结皮,藻类结皮分布范围最广。油蒿生殖株、半死株、死株灌丛均表现出西北方向BSCs盖度最大分别为89.75%、98.55%、80.40%;东南方向的盖度最小分别为23.10%、35.40%、25.44%;BSCs的厚度同样表现为西北方向最大分别为4.48、6.86、5.14mm,东南方向最小分别为2.14、3.26、2.80mm。油蒿生殖株、半死株和死株3个退化阶段BSCs总盖度表现为半死株>生殖株>死株,厚度表现为半死株>死株>生殖株。不同退化阶段的油蒿显著影响BSCs的拓殖和发育,尤其是处于BSCs演替后期的地衣结皮和藓类结皮;油蒿植株的生长过程的也是干旱、半干旱区地表微地貌逐渐变化的过程。
赵洋陈永乐徐冰鑫
关键词:油蒿生物土壤结皮
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