文献类型：期刊文献

中文题名：黄土高原沟壑区藻类结皮的水土保持效应

英文题名：Effects of Soil and Water Conservation of Algae Crust in Hilly and Gully Regions on Loess Plateau

作者：康磊[1] 孙长忠[1] 殷丽[2] 汤志敏[1] 贺淑霞[1]

机构：[1]中国林业科学研究院华北林业实验中心;[2]北京市国土资源局门头沟分局

年份：2012

卷号：26

期号：1

起止页码：47-52

中文期刊名：水土保持学报

外文期刊名：Journal of Soil and Water Conservation

收录：CSTPCD;;北大核心:【北大核心2011】；CSCD:【CSCD2011_2012】；

基金：国家自然科学基金项目(30670339)

语种：中文

中文关键词：藻类结皮;地表径流;土壤侵蚀;土壤水分;黄土高原

外文关键词：algae crust; runoff; soil erosion; soil moisture; Loess Plateau

分类号：S714.7;S154.384

摘要：从降雨径流、水分蒸发两方面探讨黄土高原沟壑区藻类结皮的水土保持效应。结果表明:①藻类结皮可显著增加0-10cm土层内土壤孔隙度,最大增加幅度总孔隙度为7.4%,毛管孔隙度为14.2%;对更深土层的土壤孔隙度无显著影响。②荒草坡、樟子松林和油松林3种植被类型下,有藻类结皮试验区径流量与无结皮对照区有显著差异,径流量分别减少了28.1%～32.5%、34.4%～43.1%和30.8%～31.6%。③3种植被类型下,藻类结皮的土壤侵蚀量与无结皮对照土壤侵蚀量有显著差异,分别比无结皮区土壤侵蚀量减少了58.8%～70.6%,48.9%～62.6%和38.3%～57.1%。④通过逐步回归分析,建立了不同植被类型下藻类结皮的径流量、土壤侵蚀量与降雨因子的回归方程。⑤藻类结皮对土壤水分变化的影响土层为20-60cm,在该范围内藻类结皮的土壤含水量显著高于无结皮区。
The effect of soil and water conservation of algae crust widespread in hilly and gully regions on Loess Plateau had been researched from two aspects which were rainfall infiltration-runoff and evaporation of soil water.The results were as follows： ①Algae crust could increase the 0-10 cm depth soil porosity.The maximum increase of total porosity was 7.4%,and the capillary was 14.2%.Algae crust had no significant effect on the soil porosity of the deeper layer.②In wasterland,mongolian scotch pine and Chinese pine forest,the runoff between the algae crust and non-crust had a significant difference.Compared with the runoff of non-crust,the runoff of algae crust in the three types of vegetation reduced by 28.1%～32.5%,34.4%～43.1% and 30.8%～31.6%.③In the three types vegetation,the amount of soil erosion between algae crust and non-crust had a significant difference.Compared with the amount of soil erosion of non-crust,the amount of soil erosion of algae crust in the three types of vegetation reduced by 58.8%～70.6%,48.9%～62.6% and 38.3%～57.1%.④By stepwise regression analysis,the different regression equations between runoff,soil erosion of algae crust and rainfall factor in different vegetation types could be obtained.⑤The soil moisture of 20-60 cm depth could be affect by algae crust.In this depth the soil moisture of algae crust was significantly higher than non-crust zone.