Relationships and Spatial Structure of Soil Physical Properties in a Ten-Year Corn-Cotton Rotation Field

IF 0.3 Q4 GEOGRAPHY

International Journal of Applied Geospatial Research Pub Date : 2021-07-01 DOI:10.4018/IJAGR.2021070103

Peter A. Y. Ampim, Alton B. Johnson, S. Adiku

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引用次数: 1

Abstract

This study quantified the relationships between soil, textural, and hydraulic properties at the field-scale for a conventional tilled Memphis silt loam that had undergone a 10-year corn and cotton rotation and described their spatial variability. Composite soil samples collected from the plow layer at 272 nodes on 15 x 15 m grids were analyzed for texture and bulk density. These values were used as pedotransfer functions to predict unsaturated (Ko) and saturated hydraulic (Ks) conductivities as well as the van Genuchten curve shape parameters α and n. Regression analyses quantified relationships between the measured and model predicted soil properties. While correlations between textural and model predicted soil properties including bulk density were significant (p<0.05), those between sand and clay, clay and n, clay and α were not. Sand and silt appeared to be better predictors of soil hydraulic conductivity and the van Genuchten curve shape parameters for the soil investigated. Spatial dependence was strong for sand, silt, bulk density, Ko, α and n, and moderate for clay and Ks.

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玉米-棉花十年轮作田土壤物理性质的关系及空间结构

这项研究量化了经过10年玉米和棉花轮作的传统耕作孟菲斯粉质壤土的土壤、质地和水力特性之间的关系，并描述了它们的空间变异性。在15 x 15 m网格上272个节点处从犁层采集的复合土壤样本进行了质地和堆积密度分析。这些值被用作土壤传递函数，以预测非饱和（Ko）和饱和水力（Ks）电导率以及van Genuchten曲线形状参数α和n。回归分析量化了测量和模型预测的土壤性质之间的关系。虽然质地和模型预测的土壤性质（包括容重）之间的相关性显著（p<0.05），但沙子和粘土、粘土和n、粘土和α之间的相关性不显著。沙子和淤泥似乎是土壤水力传导率和所调查土壤的van Genuchten曲线形状参数的更好预测因子。砂、粉土、堆积密度、Ko、α和n的空间相关性较强，粘土和Ks的空间相关性中等。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Applied Geospatial Research GEOGRAPHY-

CiteScore

1.20

自引率

0.00%

发文量