Spatial variability of clay minerals in a semi-arid region of Turkiye

IF 3.1 2区 农林科学 Q2 SOIL SCIENCE
Hikmet Günal , Nurullah Acir
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Abstract

Clay minerals are the source of many chemical and physical properties that influence the provision of soil-based ecosystem services. This study aimed to identify the most significant soil characteristics contributing to the spatial variability of clay minerals in a semi-arid region of Turkiye. Additionally, the study assessed the predictive capabilities of Classification and Regression Tree (CART), Random Forest Regression (RF) and eXtreme Gradient Boosting Regression (XGBoost) in estimating soil clay mineral content. Smectite+vermiculite (SMVR) was the most abundant clay mineral in the study area, followed by illite and kaolinite. Hyperparameter tuning significantly improved model accuracy, with root mean square error (RMSE) reductions ranging from 2.53% to 97.3%. The machine learning algorithms demonstrated varying performances in spatial prediction accuracy. The RF model achieved the lowest RMSE (8.587%) and the highest R2 values (0.796) for predicting SMVR. The XGBoost outperformed other models for kaolinite (RMSE: 4.814%, R2:0.713) and illite (RMSE:7.368%, R2:0.613). Exchangeable cations, particularly magnesium (Mg) and calcium (Ca), were identified as crucial factors influencing the spatial distribution of clay minerals. Among these, M concentration had the strongest influence on predicting both SMVR (38.1%) and illite (26.3%). Conversely, for kaolinite prediction, Ca concentration played the most significant role (38.7%), followed by Mg (19.93%). In conclusion, this study demonstrates the effectiveness of machine learning models, particularly XGBoost which achieved the lowest RMSE for all clay minerals investigated. These models offer a valuable tool for predicting clay mineral content in the Kazova Plain. The findings highlight the importance of parent material, weathering processes, and specific soil properties, such as exchangeable cations, in shaping clay mineral distribution. This knowledge not only contributes to a deeper understanding of soil formation in semi-arid environments but also practical applications. For instance, by predicting the abundance of SVMR, known for its high cation exchange capacity land managers can develop targeted strategies for optimizing fertilizer application in the Kazova Plain.

土尔其半干旱地区粘土矿物的空间变异性
粘土矿物是影响土壤生态系统服务的许多化学和物理特性的来源。本研究旨在确定导致土尔其半干旱地区粘土矿物空间变化的最重要土壤特性。此外,研究还评估了分类回归树(CART)、随机森林回归(RF)和极端梯度提升回归(XGBoost)在估算土壤粘土矿物含量方面的预测能力。在研究区域,直闪石+蛭石(SMVR)是含量最高的粘土矿物,其次是伊利石和高岭石。超参数调整大大提高了模型的准确性,均方根误差(RMSE)降低了 2.53% 到 97.3%。机器学习算法在空间预测精度方面表现各异。RF 模型预测 SMVR 的 RMSE 最低(8.587%),R2 值最高(0.796)。XGBoost 在高岭石(RMSE:4.814%,R2:0.713)和伊利石(RMSE:7.368%,R2:0.613)方面的表现优于其他模型。可交换阳离子,尤其是镁(Mg)和钙(Ca),被认为是影响粘土矿物空间分布的关键因素。其中,镁浓度对预测 SMVR(38.1%)和伊利石(26.3%)的影响最大。相反,对于高岭石的预测,钙浓度的作用最大(38.7%),其次是镁(19.93%)。总之,这项研究证明了机器学习模型的有效性,尤其是 XGBoost 模型,它在所有调查的粘土矿物中实现了最低的 RMSE。这些模型为预测卡佐瓦平原的粘土矿物含量提供了宝贵的工具。研究结果凸显了母质、风化过程和特定土壤特性(如可交换阳离子)在形成粘土矿物分布方面的重要性。这些知识不仅有助于加深对半干旱环境中土壤形成的理解,还有助于实际应用。例如,通过预测以高阳离子交换能力著称的 SVMR 的丰度,土地管理者可以制定有针对性的策略,优化卡佐瓦平原的肥料施用。
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
Geoderma Regional
Geoderma Regional Agricultural and Biological Sciences-Soil Science
CiteScore
6.10
自引率
7.30%
发文量
122
审稿时长
76 days
期刊介绍: Global issues require studies and solutions on national and regional levels. Geoderma Regional focuses on studies that increase understanding and advance our scientific knowledge of soils in all regions of the world. The journal embraces every aspect of soil science and welcomes reviews of regional progress.
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