Magnetic susceptibility of the slope soils for predicting of agronomic characteristics

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS Geofizicheskiy Zhurnal-Geophysical Journal Pub Date : 2023-02-22 DOI:10.24028/gj.v44i6.273646
O. Kruglov, O. Menshov, V. Koliada, M. Shevchenko, A. Achasova, P. Nazarok, O. Andreeva
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Abstract

The article is related to the study of the localization of agronomic heterogeneities of the soil distributed on slopes. To study this important agricultural areas, we usedthe mathematical modeling of erosion processes and the survey of the magnetic susceptibility of the arable horizon of the soils. The experiment design includes the typical chernozemof the slope.The soil sampling was performed according to DSTU 4287:2004, determination of organic carbon content according to DSTU 4289:2004, and determination of statistical indicators using Statistica®. The visualization of the study results was carried out in the QGis software. Magnetic susceptibility (MS) was measured using a KLY-2 magnetometer. Modeling of soil erosion processes involved USLE universal soil loss equation. A 1:10,000 topographic map was adopted as the topographic basis. The research territory is the fields of the National Biotechnological University (V.V. Dokuchaev KhNAU) on the southern outskirts of the city of Kharkiv. The 70 soil samples were collected from the arable layer (horizon A). Due to the course of water erosion processes, a long-term soil washout and a widespread complex spatial complex of washed-out soils took place on the site, which is a typical case for eroded sloping lands of the Forest Steppe. In non-eroded watersheds (in the north-western direction), typical heavy loamy medium-humus chernozems are developed. Sampling was carried out using an irregular grid, the sampling density was about 5 samples per hectare.We detected that mathematical modeling of erosion processes can be used to predict the location of inhomogeneities in the agronomic properties of the ground cover of sloping lands. However, given the shortcomings of the main models of potential soil losses associated with the alternation of zones of erosion and deposition require to clarify and verify the obtained results. Hence, we propose to apply the statistical characteristics of the spatial distribution of values of the magnetic susceptibility of the soil. The most important parameters are the average values and coefficient of variation of MS.
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斜坡土壤磁化率对农艺性状的预测
本文是关于分布在斜坡上的土壤的农艺异质性定位的研究。为了研究这一重要的农业区,我们使用了侵蚀过程的数学模型和土壤可耕地层的磁化率调查。试验设计包括典型的黑钙化边坡。土壤取样按DSTU 4287:2004进行,有机碳含量测定按DSTU 4289:2004进行,统计指标测定使用Statistica®。在QGis软件中对研究结果进行可视化。磁化率(MS)采用KLY-2型磁强计测定。采用USLE通用土壤流失方程对土壤侵蚀过程进行建模。采用1:10 000的地形图作为地形基础。研究领域是哈尔科夫市南郊国立生物技术大学(V.V. Dokuchaev KhNAU)的领域。70个土壤样品采集自耕地层(层A)。由于水侵蚀过程的过程,场地发生了长期的土壤冲刷和广泛的复杂的土壤空间综合体,这是森林草原侵蚀坡地的典型案例。在非侵蚀流域(西北方向)发育典型的重质中腐殖黑钙土。采样采用不规则网格,采样密度约为每公顷5个样本。我们发现,侵蚀过程的数学模型可以用来预测坡地地被物农艺性质不均匀性的位置。然而,考虑到与侵蚀和沉积带交替相关的潜在土壤流失的主要模型的缺点,需要澄清和验证所获得的结果。因此,我们建议应用土壤磁化率值空间分布的统计特征。其中最重要的参数是质谱的平均值和变异系数。
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来源期刊
Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
自引率
60.00%
发文量
50
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