土壤粒径分布与保水函数形状相似假设的评价

IF 2.4 4区 农林科学 Q2 AGRICULTURAL ENGINEERING
Ugo Lazzaro, Caterina Mazzitelli, Benedetto Sica, Paola Di Fiore, Nunzio Romano, Paolo Nasta
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引用次数: 0

摘要

文献中有两种土壤传递函数(ptf),可以根据土壤粒径分布(PSD)、烤箱干燥土壤体积密度(b)和饱和土壤含水量(s)的知识来估计土壤保水函数(WRF): i) Arya和Heitman模型(PTF-AH)和ii) Mohammadi和Vanclooster模型(PTF-MV)。这些物理经验ptf依赖于PSD和WRF之间形状相似的假设,并且不需要校准输入参数。在第一阶段,使用收集在坎帕尼亚(意大利南部)的4128个土壤样本对27个PSD模型进行了评估。根据均方根残差(RMSR)、修正的赤池信息准则(AICc)和调整的决定系数(R2adj)对这些模型进行排序。在第二阶段,利用282个土壤样品的3个PSD和WRF数据子集(DS-1、DS-2和DS-3),利用第一阶段选择的3个最佳PSD模型对2个ptf进行评价。只有当RMSR值低于wrf的现场标准偏差(*)时,形状相似假设才被认为是可以接受的,这被视为一个容差阈值,由Kosugi和Hopmans(1998)提出的基于物理的标度方法计算得出。在第一个研究区(DS-1),其特征是相当均匀,质地肥沃的火山土,PTF-AH优于PTF-MV,两种ptf在可接受阈值(即RMSR <*)。在其他2个非均质样地(DS-2和DS-3,土壤质地类型从粘土、粘土壤土到壤土甚至砂质壤土),PTF-MV (RMSR超过的比例为3% ~ 6%)优于PTF-AH (RMSR超过的比例为8% ~ 30%),且大部分RMSR值大于原始研究结果。平均相对误差(MRE)显示PTF-MV系统地低估了测量的wrf,而PTF-AH提供负的MRE值表明总体高估。当使用无校准ptf来预测大面积的wrf时,我们的研究结果提供了关键的评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On evaluating the hypothesis of shape similarity between soil particle-size distribution and water retention function
Two pedotransfer functions (PTFs) are available in the literature enabling the soil water retention function (WRF) to be estimated from knowledge of the soil particle-size distribution (PSD), oven-dry soil bulk density (b), and saturated soil water content (s): i) the Arya and Heitman model (PTF-AH) and ii) the Mohammadi and Vanclooster model (PTF-MV). These physico-empirical PTFs rely on the hypothesis of shape similarity between PSD and WRF, and do not require the calibration of the input parameters. In the first stage, twenty-seven PSD models were evaluated using 4,128 soil samples collected in Campania (southern Italy). These models were ranked according to the root mean square residuals (RMSR), corrected Akaike Information Criterion (AICc), and adjusted coefficient of determination (R2adj). In the second stage, three subsets of PSD and WRF data (DS-1, DS-2, and DS-3), comprising 282 soil samples, were used to evaluate the two PTFs using the best three PSD models selected in the first stage. The hypothesis of shape similarity was assumed as acceptable only when the RMSR value was lower than the field standard deviation of the WRFs (*), which is viewed as a tolerance threshold and computed from the physically-based scaling approach proposed by Kosugi and Hopmans (1998). In the first study area (DS-1), characterized by a fairly uniform, loamy textured volcanic soil, the PTF-AH outperformed the PTF-MV and both PTFs provided reasonable performance within the acceptance threshold (i.e., RMSR < *). In the other two heterogeneous field sites (DS-2 and DS-3, characterized by soil textural classes that span from clay and clay-loam to loam and even sandy-loam soils), the PTF-MV (with 3% to 6% RMSR surpassing *) outperformed the PTF-AH (with 8% to 30% RMSR surpassing *) and the majority of RMSR values were larger than those obtained in the original studies. The mean relative error (MRE) revealed that the PTF-MV systematically underestimates the measured WRFs, whereas the PTF-AH provided negative MRE values indicating an overall overestimation. The outcomes of our study provide a critical evaluation when using calibration-free PTFs to predict WRFs over large areas.
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来源期刊
Journal of Agricultural Engineering
Journal of Agricultural Engineering AGRICULTURAL ENGINEERING-
CiteScore
2.30
自引率
5.60%
发文量
40
审稿时长
10 weeks
期刊介绍: The Journal of Agricultural Engineering (JAE) is the official journal of the Italian Society of Agricultural Engineering supported by University of Bologna, Italy. The subject matter covers a complete and interdisciplinary range of research in engineering for agriculture and biosystems.
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