洛贡河泛滥平原地形序列上土壤的可侵蚀性与农业实践的关系

IF 0.4 Q4 SOIL SCIENCE
S. Basga, J. Temga, D. Tsozué, A. Gove, Bourou Sali, J. Nguetnkam
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引用次数: 0

摘要

了解农业实践和坡度对土壤可蚀性的综合影响对促进土壤可蚀性的合理利用具有重要意义,也是土壤可蚀性可持续保护的关键参数。本研究的目的是表征洛贡洪泛区的垂直土壤,并评估其与农业实践和坡度相关的可蚀性,以便提出推广的良好管理策略。通过描述其剖面类型来描述垂直土壤的特征,并通过沿地形序列(上、中、下坡)3个位置的表土取样来评估其可蚀性。利用理化数据计算可蚀性指标。所研究的垂直体被归类为渐变垂直体。它们是粘土(粘土的19-42%),微碱性(pH~7.3),具有较高的有机质(OM)含量和阳离子交换能力。与石英伴生的粘土矿物主要为蒙脱石和高岭石。水可分散粘土、粘土弥散比和弥散比由上坡向下坡递减,而粘土聚集呈相反趋势。因此,上坡和中坡修剪过的垂直土壤比未修剪过的坡坡更容易被侵蚀。从统计分析来看,Na +、Ca ++和K +对垂直溶胶的可蚀性有促进作用,Mg ++、OM和无定形Fe对团聚体的稳定性有促进作用。管理这些垂直土壤将倾向于限制氮和钾丰富的投入(尿素和氮磷钾肥料);控制限制策略并鼓励大量的OM投入。垂直于斜坡的免耕或少耕是要实施的做法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Erodibility of Vertisols in relation to agricultural practices along a toposequence in the Logone floodplain
Knowledge of the combining effect of agricultural practices and slope on soil erodibility is important to promote their suitable use and constitutes a key parameter for their sustainable conservation. The aim of this study was to characterize vertisols from the Logone floodplain and evaluate their erodibility in relation to the agricultural practices and slope in order to suggest the well managing strategies to be diffused. Vertisols were characterized by describing their profile type and their erodibility was assessed by sampling topsoils at 3 positions along a toposequence (upslope, midslope and footslope). Erodibility indexes were computed by exploiting physicochemical data. The studied vertisols were classified as gleyic Vertisols. They are clayey (19-42% of clay), slightly basic (pH~7.3) and display high organic matter (OM) content and cation exchange capacity. Smectites and kaolinite were the main clay minerals associated with quartz. The water dispersible clay, clay dispersion ratio and dispersion ratio diminished from the upslope to the footslope, while clay aggregation showed an opposite trend. Hence, vertisols from the upslope and midslope cropped were more erodible than those from the not cropped footslope. From the statistical analysis, it appeared that Na + , Ca ++ and K + contributed to vertisols erodibility while Mg ++ , OM and amorphous Fe promoted aggregate stability. Managing these vertisols will tend to limit N and K rich inputs (urea and NPK fertilizers); control liming strategies and encourage substantial OM inputs. No-tillage or minimum tillage oriented perpendicularly to the slope are the practices to be implemented.
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来源期刊
Soil & Environment
Soil & Environment SOIL SCIENCE-
CiteScore
1.10
自引率
0.00%
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审稿时长
4 weeks
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