山丘区中小河流滩地土壤物理性质及空间分布特征

曹伟杰; 夏继红; 汪颖俊; 毕利东; 林立怀; 伊紫函; 余根听; 丁鸣鸣

引用本文:	曹伟杰,夏继红,汪颖俊,等.山丘区中小河流滩地土壤物理性质及空间分布特征[J].灌溉排水学报,2017,36(3):.
	CAO Weijie,XIA Jihong,WANG Yingjun,et al.山丘区中小河流滩地土壤物理性质及空间分布特征[J].灌溉排水学报,2017,36(3):.

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山丘区中小河流滩地土壤物理性质及空间分布特征
曹伟杰，夏继红，汪颖俊，毕利东，林立怀，伊紫函，余根听，丁鸣鸣
河海大学水利水电学院，南京 210098；龙游县水利局，浙江龙游 324400；南京市水务局，南京 210098

摘要:

为探求山丘区中小河流滩地土壤物理性质及空间分布特征，以浙江省龙游县灵山港滩地为试验对象，通过野外取样与室内测定分析，分析研究了山丘区中小河流滩地表层土壤的密度、体积质量、孔隙度、饱和含水率、颗粒组成等滩地土壤物理性质变化与空间分布特征。结果表明，河道沿线滩地土壤物理性质空间差异性显著，主要表现为：①从上游至下游，滩地土壤密度沿程降低，中游区段土壤体积质量最小，总孔隙度以及饱和含水率最大。②土壤颗粒组成以粗颗粒（粗砂，细砂）为主，在河道纵向上，随着河道坡降变缓，水流能态减小，粗颗粒质量分数降低，细颗粒（粉粒，黏粒）质量分数及土壤粒径分维值（D）增加，滩地土壤颗粒沿程细化。③由于水流条件及植被类型的影响，在不同滩位上，高滩处林地土壤细颗粒组质量分数及土壤粒径分维值最高，分别为36.38%和2.66，土壤粒径分维值能够反映出不同沉积环境对土壤颗粒分布的影响。

关键词: 中小河流；滩地；土壤物理性质；分形维数

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Soil Physical Properties and Spatial Distribution Characteristics of Floodplains in Medium or Small Hilly Rivers

CAO Weijie, XIA Jihong, WANG Yingjun, BI Lidong, LIN Lihuai, YI Zihan, YU Genting, DING Mingming

College of Water Conservancy and Hydropower Engineering, Hohai University, Nanjing 210098, China；.Longyou Water Conservancy Bureau, Longyou 324400, China; Nanjing Water Conservancy Bureau, Nanjing 210098, China

Abstract:

To explor the soil physical properties and spatial distribution characteristics of floodplains in medium or small hilly river, the soil density, soil bulk density, porosity, saturated water holding capacity, particle composition and fractal dimension of floodplains were studied in Longyou County, Zhejiang Province using field survey methods and laboratory analysis. There were significant differences in soil physical properties in different river segments and land patterns, which was presented in detail as: ① soil density decreased from upstream to downstream. In middle reaches, the total porosity and saturation water holding capacity the soil were the largest and the bulk density was the smallest; ② soil particles were mainly composed of coarse particles (coarse sand, fine sand). As the river gradient slackened, the content of coarse particles decreased and fine particles (silt, clay) content and the value of fractal dimension (D) increased. Fine soil particles become more and more from upstream to downstream.③ Because of the influence of the flow condition and vegetation types, on a different beach elevation the content of fine particles and the value of fractal dimension (D) of the woodland soil were the highest in high floodplain, which was 36.38 and 2.66 respectively. Soil particle fractal dimension can reflect the influence of sedimentary environment and the land use ways on soil particle size distribution.

Key words: medium or small hilly river; floodplains; soil physical properties; fractal dimension