Affiliation:
1. Department of Soil Science Federal University of Lavras Lavras Minas Gerais Brazil
2. Department of Rural Engineering University Eduardo Mondlane Maputo Mozambique
3. Agricultural and Food Engineering Department Indian Institute of Technology Kharagpur India
4. Department of Experimental Statistics Louisiana State University Baton Rouge Louisiana USA
5. Environmental Laboratory US Army Engineer Research and Development Center Vicksburg Mississippi USA
6. Department of Earth and Atmospheric Sciences Central Michigan University Mount Pleasant Michigan USA
Abstract
AbstractNovel technologies help to monitor the environmental impact of human activities, but tests involving datasets from several countries, encompassing a large variability of soil properties, are still scarce. This study utilized proximal sensors to predict soil organic carbon (OC) and soil texture of samples from Brazil, France, India, Mozambique, and United States. A total of 1749 samples were analyzed by portable X‐ray fluorescence (pXRF) spectrometry and visible near‐infrared diffuse reflectance spectroscopy. Sand (R2 = 0.89), silt (0.87), and clay (0.84) predictions were very accurate, despite contrasting climates, soil parent materials, and weathering degrees. Soil OC predictions were similarly successful (0.74) using samples from five countries. pXRF was the optimal sensor for soil texture predictions. The addition of international data may improve local models. Proximal soil sensing can be successfully used with a multinational soil database offering a clean, rapid, and accurate alternative to estimate soil texture and OC with international datasets.
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4 articles.
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