首页> 外文期刊>Catena: An Interdisciplinary Journal of Soil Science Hydrology-Geomorphology Focusing on Geoecology and Landscape Evolution >Changes in the profile characteristics of cultivated soils obtained from reconstructed farming plots undergoing agricultural intensification in a hilly mountainous region in southwest China with regard to anthropogenic pedogenesis
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Changes in the profile characteristics of cultivated soils obtained from reconstructed farming plots undergoing agricultural intensification in a hilly mountainous region in southwest China with regard to anthropogenic pedogenesis

机译:在中国西南部丘陵山区农业强化中获得农业强化中获得的栽培土壤概况特征的变化,关于人为基础

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摘要

Farming plot reconstruction engineering is important in mitigating cultivated land fragmentation and promoting intensified production in hilly mountainous regions. As an anthropogenic disturbance, farming plot reconstruction and subsequent agricultural intensification have considerable effects on cultivated land, ecological environments, and pedogenesis. Although researchers have given considerable attention to changes in the physical and nutrient properties of soil in reconstructed farming plots, the connection between soil engineering and anthropogenic pedogenesis is often neglected. In this paper, we compared samples obtained during farming plot reconstruction engineering and agricultural intensification in terms of different soil properties. The results indicated that reconstruction changed the soil profile patterns from A-C to A-B-C, thereby significantly increasing the soil thickness, bulk density, clay content, pH, soil organic carbon, total nitrogen, C/N ratio, and cation exchange capacity. The geochemical composition notably varied in topsoil; the chemical index of alteration (CIA) and the chemical index of weathering (CIW) decreased markedly, and the Na2O/K2O ratio (Na/K) increased slightly. After a period of agricultural intensification, the physical and chemical properties of soil improved gradually with a high coefficient of variation. However, the soil exhibited Mg and Ca leaching and K and Na accumulation, and the intensity of chemical weathering was not significantly stronger with higher CIA values, higher CIW values, and lower Na/K ratios. These changes indicated that the anthropogenic disturbances from soil engineering accelerated the physical weathering and uniformity of purple soil but depressed soil chemical weathering to some extent. The anthropogenic disturbances of agricultural intensification disrupted the homogeneity of soils but did not significantly promoted the physical and chemical weathering of purple soil. This study provides guidelines for rational soil usage in reconstructed farming plots and may aid in soil classification.
机译:农业地块重建工程在减轻耕地碎片和促进丘陵山区的加强生产方面很重要。作为一种人为干扰,农业地区重建和随后的农业强化对耕地,生态环境和基础具有相当大的影响。虽然研究人员对重建养殖地块土壤物理和养分性质的变化具有相当大的关注,但土壤工程和人为基础之间的关系通常被忽略。在本文中,我们比较了在不同土壤特性耕作重建工程和农业强化期间获得的样品。结果表明,重建将土壤轮廓图案从A-C改变为A-B-C,从而显着增加了土厚度,堆积密度,粘土含量,pH,土壤有机碳,总氮,C / N比和阳离子交换能力。地球化学组成显着变化在表土中;改变(CIA)的化学指标和耐候性(CIW)的化学指数显着降低,Na 2 O / K2O比(Na / K)略微增加。经过一段时间的农业强化,土壤的物理和化学性质逐渐改善,具有高的变异系数。然而,土壤表现出Mg和Ca浸出和K和Na积累,并且化学风化的强度对CIA值,更高的CIW值和低Na / K比具有显着越强。这些变化表明,土壤工程的人为紊乱加速了紫色土壤的物理风化和均匀性,但在一定程度上抑制了土壤化学化学化风化。农业强化的人为紊乱扰乱了土壤的均匀性,但没有显着促进紫色土壤的物理和化学风化。本研究规定了重建养殖地块中的理性土壤使用指导方针,可能有助于土壤分类。

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