用回归树法确定热带泥炭地土壤宏量营养素的影响因素和变量

Heru Bagus Pulunggono, Yusuf Azmi Madani Madani, Moh Zulfajrin, Y. Yusrizal
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摘要

在过去的几十年里,机器学习/ML算法分析人类和环境因素和变量在控制土壤养分方面的影响的能力已经得到了深入的研究。不幸的是,利用ML来估计热带泥炭土壤中常量营养素及其控制因素的研究非常缺乏。在本研究中,我们基于油棕/OP和OP+灌木数据集,训练了基于回归树/RT和ml的土壤迁移模型来预测泥炭土的总氮、磷和钾。我们的研究结果表明,数据集可能包含异常值、非线性关系和异方差,这使得基于rt的模型在估计两个数据集的总N和P方面比多元线性回归/MLR模型(作为基准)表现更好,而在k方面则不然。每个基于rt的模型中重要变量的差异部分显示了土地利用在泥炭养分模型中的重要作用。样品采集深度、有机碳和灰分含量成为调节整个预测养分的重要因素和变量。与此同时,与油棕树的距离和pH值分别是OP和OP+灌木样地全磷预测模型的显著特征。本研究提出使用基于ml的土壤转移模型来分析和解释复杂的热带泥炭数据,作为基于线性回归的替代方法。我们的初步研究还揭示了土壤转移模型的发展可能性,农业从业者、研究人员、公司和农民可以使用这些模型以表格和空间形式预测热带泥炭地的宏量营养素
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Identifying the Underlying Factors and Variables Governing Macronutrients in Cultivated Tropical Peatland Using Regression Tree Approach
The capability of machine learning/ML algorithms to analyze the effect of human and environmental factors and variables in controlling soil nutrients has been profoundly studied over the last decades. Unfortunately, ML utilization to estimate macronutrients and their governing factors in cultivated tropical peat soil are extremely scarce. In this study, we trained regression tree/RT, ML-based pedotransfer models to predict total N, P, and K in peat soils based on oil palm/OP and OP+bush datasets. Our results indicated that the dataset might contain outliers, non-linear relationships, and heteroscedasticity, allowing RT-based models to perform better compared to multiple linear regression/MLR models (as a benchmark) in estimating total N and P in both datasets, contrastingly, not in K. The difference of important variables in each RT-based model partially showed the vital role of land use in nutrient modeling in peat. The depth of sample collection, organic C, and ash content became the prominent factor and variables in regulating the entire predicted nutrients. Meanwhile, the distance from the oil palm tree and pH were the salient features of total P prediction models in OP and OP+bush sites, respectively. This study proposed employing ML-based pedotransfer models in analyzing and interpreting complex tropical peat data as an alternative to linear-based regression. Our initial study also shed more light on the development possibility of the pedotransfer models that agricultural practician, researchers, companies, and farmers can use to predict macronutrients, both in tabular and spatial terms, in cultivated tropical peatlands
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