Prediction of Soil Lead Content Using Visible and Near-Infrared Spectroscopy

机译：可见和近红外光谱法预测土壤铅含量

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Soil contamination by heavy metals has been an environmental problem. Visible and near infrared spectroscopy (VNIRS) is a promising alternative to predict soil contaminant elements. Generally, the prediction is performed using the entire VNIR region of 400 – 2400 nm. Based on absorption of lead (Pb) on soil spectrally active constituents, a spectral region of 400 – 1100 nm was used to predict Pb content in soil. A combination of genetic algorithm and partial least squares regression (GA-PLSR) was adopted to develop the prediction model. Compared with the prediction using the entire VNIR region of 400 – 2400 nm, the prediction accuracy was improved by using the spectral region of 400 – 1100 nm for different divisions of calibration and validation sets. The result indicates the spectral region of 400 – 1100 nm is effective to predict Pb content in soil, and the method has potential to be applied in field condition.

机译：重金属污染土壤一直是环境问题。可见和近红外光谱（VNIRS）是预测土壤污染物元素的有前途的替代方法。通常，使用400-2400 nm的整个VNIR区域进行预测。根据土壤中光谱活性成分对铅（Pb）的吸收，使用400 – 1100 nm的光谱区域来预测土壤中的Pb含量。结合遗传算法和偏最小二乘回归（GA-PLSR）建立了预测模型。与使用整个VNIR区域400 – 2400 nm进行预测相比，通过将400 – 1100 nm的光谱区域用于不同的校准和验证集划分，可以提高预测精度。结果表明，在400 – 1100 nm的光谱区域可有效预测土壤中的Pb含量，该方法具有在野外条件下应用的潜力。

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《Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing》|2018年|1-5|共5页
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Xia Zhang; Weichao Sun; Wenchao Qi; Xing Wu;
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Soil; Lead; Calibration; Absorption; Predictive models; Iron;

机译：土壤;铅;校准;吸收;预测模型;铁;

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1. Assessment of Visible and Near-Infrared Spectroscopy in Estimation of Lead and Nickel Heavy Metals content in Soil (Case study: Rey Lands) [J] . Samiei Fard R., Matinfar H. Journal of Science and Technology of Agriculture and Natural Resources . 2018,第4期

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4. Prediction of Soil Lead Content Using Visible and Near-Infrared Spectroscopy [C] . Xia Zhang, Weichao Sun, Wenchao Qi, Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing . 2018

机译：使用可见和近红外光谱预测土壤铅含量
5. The Prediction of Gold Recovery by Carbon-in-Leach Cyanidation using Visible Near-infrared (VNIR) Spectroscopy of Pulverized Ore Samples from the Cortez Hills Underground Mine [D] . Olson, Jeffrey. 2016

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6. Classification of Granite Soils and Prediction of Soil Water Content Using Hyperspectral Visible and Near-Infrared Imaging [O] . Hwan-Hui Lim, Enok Cheon, Deuk-Hwan Lee, 2020

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7. Assessment of Visible and Near-Infrared Spectroscopy in Estimation of Lead and Nickel Heavy Metals content in Soil (Case study: Rey Lands) [O] . R Samiei Fard, H Matinfar 2018

机译：在土壤中估算铅和镍重金属含量估计的可见和近红外光谱（案例研究：Rey Lands）

Prediction of Soil Lead Content Using Visible and Near-Infrared Spectroscopy

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