农业土壤中铬和汞浓度的检索:使用光谱信息、环境协变量,还是二者的融合?

IF 7 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Ecological Indicators Pub Date : 2024-09-14 DOI:10.1016/j.ecolind.2024.112594
Li Wang , Yong Zhou , Xiao Sun , Shangrong Wu , Lang Xia , Jing Sun , Yan Zha , Peng Yang
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引用次数: 0

摘要

耕地普遍受到潜在有毒元素(PTEs)的污染,这对粮食安全构成了严重威胁,并危及全世界为实现联合国可持续发展目标(SDGs)所做的努力。如何获得区域农业土壤中更可靠的 PTEs 浓度是一个亟待解决的问题。多谱段卫星遥感具有时空分辨率高、覆盖范围广、成本低等优点,为获取大面积农田土壤中 PTEs 的空间分布提供了可能。然而,由于土壤环境的复杂性和光谱信息的不足,通过多光谱卫星获取农田土壤中 PTEs 浓度的机制尚不明确,精度也有待提高。在本研究中,我们旨在评估光谱信息与环境协变量的融合是否比单独使用光谱信息更能准确地检索耕地中的 PTEs(特别是铬(Cr)和汞(Hg))。我们开发了三种机器学习算法--基于内核的支持向量机 (SVM)、基于神经网络的反向传播神经网络 (BPNN) 和基于树的极梯度提升 (XGBoost),用于检索农田土壤中的铬和汞浓度。结果表明,光谱信息和环境协变量的融合与 XGBoost 模型相结合,在检索农业土壤中的铬和汞浓度方面表现最佳,判定系数 (R2) 值分别为 0.73 和 0.74。环境协变量是确定农业土壤中铬和汞浓度的重要变量,但仅靠光谱信息来检索这些元素浓度的能力有限。铬的高浓度出现在中部城镇和南部丘陵山区。西北地区和南部丘陵山区的汞浓度较高。融合光谱信息和环境协变量来精确检索农业土壤中 PTE 浓度的潜力可为全球农业土壤健康信息监测提供参考。
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Retrieval of chromium and mercury concentrations in agricultural soils: Using spectral information, environmental covariates, or a fusion of both?

The universal contamination of arable land with potentially toxic elements (PTEs) poses a severe threat to food security and jeopardizes worldwide efforts to meet the United Nations Sustainable Development Goals (SDGs). How to obtain more reliable concentrations of PTEs in regional agricultural soils is a priority problem to be solved. Multispectral satellite remote sensing, with its advantages of high spatial and temporal resolution, broad coverage, and low cost, offers the potential to acquire spatial distribution of PTEs in agricultural soils over large areas. However, owing to the complexity of soil environments and the insufficiency of spectral information, the mechanism for retrieving concentrations of PTEs in agricultural soils via multispectral satellites is not yet clear, and the accuracy needs to be improved. In this study, we aimed to assess whether employing a fusion of spectral information and environmental covariates, results in more accurate retrievals of PTEs, specifically chromium (Cr) and mercury (Hg), in croplands than does employing spectral information alone. Three machine learning algorithms—kernel-based support vector machine (SVM), neural network-based back propagation neural network (BPNN), and tree-based extreme gradient boosting (XGBoost)—were developed to retrieve Cr and Hg concentrations in agricultural soils. The results showed that the fusion of spectral information and environmental covariates combined with the XGBoost model performed best in retrieving both Cr and Hg concentrations in agricultural soils with coefficient of determination (R2) values of 0.73 and 0.74, respectively. Environmental covariates were important variables for determining Cr and Hg concentrations in agricultural soils, but the ability to retrieve these element concentrations by utilizing spectral information alone was limited. High Cr concentrations occurred in central towns and southern hilly mountains. High Hg concentrations were detected in the northwestern region and southern hilly mountains. The potential of fusing spectral information and environmental covariates to precisely retrieve PTE concentrations in agricultural soils can serve as a reference for agricultural soil health information monitoring worldwide.

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来源期刊
Ecological Indicators
Ecological Indicators 环境科学-环境科学
CiteScore
11.80
自引率
8.70%
发文量
1163
审稿时长
78 days
期刊介绍: The ultimate aim of Ecological Indicators is to integrate the monitoring and assessment of ecological and environmental indicators with management practices. The journal provides a forum for the discussion of the applied scientific development and review of traditional indicator approaches as well as for theoretical, modelling and quantitative applications such as index development. Research into the following areas will be published. • All aspects of ecological and environmental indicators and indices. • New indicators, and new approaches and methods for indicator development, testing and use. • Development and modelling of indices, e.g. application of indicator suites across multiple scales and resources. • Analysis and research of resource, system- and scale-specific indicators. • Methods for integration of social and other valuation metrics for the production of scientifically rigorous and politically-relevant assessments using indicator-based monitoring and assessment programs. • How research indicators can be transformed into direct application for management purposes. • Broader assessment objectives and methods, e.g. biodiversity, biological integrity, and sustainability, through the use of indicators. • Resource-specific indicators such as landscape, agroecosystems, forests, wetlands, etc.
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