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Hyperspectral analysis of the content of the alkali-hydrolysed nitrogen in the soil of a millet field

Author

Listed:
  • Tingyu Zhu

    (College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong, P.R. China)

  • Zhiqiang Wang

    (College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong, P.R. China)

  • Zilin Zhang

    (College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong, P.R. China)

  • Xiuhan He

    (College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong, P.R. China)

  • Gangao Li

    (College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong, P.R. China)

  • Zongbao Huang

    (College of Information Science and Engineering, Shanxi Agricultural University, Jinzhong, P.R. China)

  • Lili Guo

    (Agricultural Extension Center, Qin County, Changzhi, P.R. China)

  • Zhiwei Li

    (College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong, P.R. China
    College of Information Science and Engineering, Shanxi Agricultural University, Jinzhong, P.R. China)

  • Huiling Du

    (Department of Basic Sciences, Shanxi Agricultural University, Jinzhong, P.R. China)

Abstract

Hyperspectral imaging technology has emerged as a prominent research area for quantitatively estimating soil nutrient content owing to its non-destructive, rapid, and convenient features. Our work collected the data from soil samples using the hyperspectrometer. Then, the data were processed. The competitive adaptive reweighted sampling (CARS) algorithm reduced the original 148 bands to 13, which accounted for 8.8% of the total bands. These selected bands possess a certain level of interpretability. Based on the modelling results, it can be concluded that the prediction model constructed by the least squares support vector machine (LSSVM) exhibited the highest accuracy. The coefficient determination, root mean square error, and ratio performance deviation were 0.8295, 2.95, and 2.42, respectively. These findings can provide theoretical support for the application of hyperspectral technology in detecting the content of the AHN in soil. Moreover, they can also serve as a reference for the rapid detection of other soil components.

Suggested Citation

  • Tingyu Zhu & Zhiqiang Wang & Zilin Zhang & Xiuhan He & Gangao Li & Zongbao Huang & Lili Guo & Zhiwei Li & Huiling Du, 2023. "Hyperspectral analysis of the content of the alkali-hydrolysed nitrogen in the soil of a millet field," Plant, Soil and Environment, Czech Academy of Agricultural Sciences, vol. 69(12), pages 596-607.
  • Handle: RePEc:caa:jnlpse:v:69:y:2023:i:12:id:421-2023-pse
    DOI: 10.17221/421/2023-PSE
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    References listed on IDEAS

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    1. Haonian Li & Zhongju Meng & Xiaohong Dang & Puchang Yang, 2022. "Checkerboard Barriers Attenuate Soil Particle Loss and Promote Nutrient Contents of Soil," Sustainability, MDPI, vol. 14(17), pages 1-18, August.
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