Three-dimensional quantification of soil pore structure in wind-deposited loess under different vegetation types using industrial X-ray computed tomography

Qiao Jiangbo; Liu Xingting; Zhu Yuanjun; Jia Xiaoxu; Shao Mingan

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Three-dimensional quantification of soil pore structure in wind-deposited loess under different vegetation types using industrial X-ray computed tomography

机译：工业X射线计算机断层扫描在不同植被类型下风沉积黄土地区土壤孔隙结构的三维量化

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摘要

Quantifying the soil pore structure is critical for understanding plant growth and water/solute movements in the soil. However, most previous studies quantified the soil pore structure in a shallow layer by using low resolution medical computed tomography (CT), whereas few have quantified the soil pore structure in deep soil layers with high resolution CT. In this study, we quantified the soil pore structure of wind-deposited loess under different vegetation types (wheat, weeds, apple orchard, and Robinia pseudoacacia) at depths from 0 to 4.5 m by industrial CT. The results showed that the soil pore number and porosity tended to decreased with depth, but there were no significance differences below 2 m among all vegetation types. For different depths and vegetation types, the number of pores measuring 0-100 mu m was highest, followed by those measuring.

机译：量化土壤孔隙结构对于理解植物生长和土壤中的水/溶质运动至关重要。然而，以往的研究大多采用低分辨率医学计算机断层扫描（CT）对浅层土壤孔隙结构进行量化，而很少采用高分辨率CT对深层土壤孔隙结构进行量化。在这项研究中，我们通过工业CT量化了0至4.5m深处不同植被类型（小麦、杂草、苹果园和刺槐）下风积黄土的土壤孔隙结构。结果表明，土壤孔隙数和孔隙度随深度的增加而减少，但在2m以下各植被类型间差异不显著。对于不同深度和植被类型，0-100μm的孔隙数量最高，其次是测量的孔隙。

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来源
《Catena: An Interdisciplinary Journal of Soil Science Hydrology-Geomorphology Focusing on Geoecology and Landscape Evolution》 |2021年第1期|共12页
作者
Qiao Jiangbo; Liu Xingting; Zhu Yuanjun; Jia Xiaoxu; Shao Mingan;
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作者单位

Northwest A&

F Univ State Key Lab Soil Eros &

Dryland Agr Loess Plate Yangling 712100 Shaanxi Peoples R China;

Northwest A&

F Univ State Key Lab Soil Eros &

Dryland Agr Loess Plate Yangling 712100 Shaanxi Peoples R China;

Northwest A&

F Univ State Key Lab Soil Eros &

Dryland Agr Loess Plate Yangling 712100 Shaanxi Peoples R China;

Chinese Acad Sci Key Lab Ecosyst Network Observat &

Modeling Inst Geog Sci &

Nat Resources Res Beijing 100101 Peoples R China;

Northwest A&

F Univ State Key Lab Soil Eros &

Dryland Agr Loess Plate Yangling 712100 Shaanxi Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类土壤学;地质学;
关键词
Deep profile; Soil structure; Vegetation type; X-ray computed tomography;

机译：深度外形;土壤结构;植被类型;X射线计算断层扫描;

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Three-dimensional quantification of soil pore structure in wind-deposited loess under different vegetation types using industrial X-ray computed tomography

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