形态地形参数对土壤深度变化和腐殖层厚度的影响与侵蚀-累积过程的关系:斯洛伐克 Ipeľská Pahorkatina 丘陵研究

Marek Moravčík, V. Petlušová, P. Petluš
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引用次数: 0

摘要

摘要 本研究考察了斯洛伐克一个研究地区土壤类型的空间分布及其易受侵蚀和堆积过程影响的程度。涉及 71 个探头的实地研究确定了各种土壤类型,其中主要是 Regosols 和 Cutanic Luvisols。研究发现,在 69.97% 的探针中发现了侵蚀和堆积过程,并观察到土壤层的变化。土壤分析表明,土壤深度、腐殖质厚度与坡度、坡长、坡长和陡度因子(LS 因子)等地形特征之间存在不同的关系。具体而言,我们证实土壤深度与腐殖质厚度之间存在中等程度的正相关关系(r = 0.597,n = 71,p < 0.001)。浅层土壤(0-30 厘米)的土壤深度与腐殖质层厚度之间呈极强的正相关(r = 0.978,n = 33,p < 0.001)。相反,在中等深度土壤(30-60 厘米)中则没有发现相关性(r = 0.018,n = 14,p < 0.948)。在深层土壤中,我们发现了中等强度的正相关关系(r = 0.345,n = 24,p = 0.098)。虽然坡度和坡长与土壤深度和腐殖质厚度有关系,但 LS 因子并没有表现出明显的相关性。这些发现强调了了解土壤动态对土地管理方法的重要性,尤其是在易受侵蚀的地区。建议包括继续监测侵蚀土壤和实施侵蚀控制措施,以在气候变化的挑战下保持土壤健康和农业生产的可持续性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Morphometric Relief Parameters on Soil Depth Changes and Humus Horizon Thickness in Relation to Erosion-Accumulation Processes: A Study in the Ipeľská Pahorkatina Hills, Slovakia
Abstract This study examines the spatial distribution of soil types and their susceptibility to erosion and accumulation processes in a study area in Slovakia. Field research involving 71 probes identified various soil types, with Regosols and Cutanic Luvisols being predominant. The study found that erosion-accumulation processes were detected in 69.97% of the probes, with changes observed in soil horizons. Soil analysis revealed different relations between soil depth, humus thickness, and terrain characteristics such as slope, slope length, and slope length and steepness factor (LS factor). Specifically, we confirmed a moderately strong positive correlation between soil depth and humus thickness (r = 0.597, n = 71, p < 0.001). Shallow soils (0–30 cm) exhibited a very strong positive correlation between soil depth and humus horizon thickness (r = 0.978, n = 33, p < 0.001). Conversely, no relationship was found in moderately deep soils (30–60 cm) (r = 0.018, n = 14, p < 0.948). For deep soils, we identified a moderately strong positive correlation (r = 0.345, n = 24, p = 0.098). While slope and slope length showed relationships with soil depth and humus thickness, the LS factor did not exhibit a clear correlation. These findings underscore the importance of understanding soil dynamics in informing land management practices, especially in areas susceptible to erosion. Recommendations include continued monitoring of eroded soils and implementing erosion control measures to maintain soil health and sustainability in agricultural production amidst climate change challenges.
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