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Identifying the Restoration Stages of Degraded Alpine Meadow Patches Using Hyperspectral Imaging and Machine Learning Techniques

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  • Wei Luo

    (College of Computer Technology and Applications, Qinghai University, Ningzhang Road, Xining 810016, China
    Qinghai Provincial Laboratory for Intelligent Computing and Application, Qinghai University, Ningzhang Road, Xining 810016, China)

  • Lu Wang

    (College of Computer Technology and Applications, Qinghai University, Ningzhang Road, Xining 810016, China
    Qinghai Provincial Laboratory for Intelligent Computing and Application, Qinghai University, Ningzhang Road, Xining 810016, China)

  • Lulu Cui

    (College of Computer Technology and Applications, Qinghai University, Ningzhang Road, Xining 810016, China
    Qinghai Provincial Laboratory for Intelligent Computing and Application, Qinghai University, Ningzhang Road, Xining 810016, China)

  • Min Zheng

    (College of Agriculture and Animal Husbandry, Qinghai University, Ningzhang Road, Xining 810016, China)

  • Xilai Li

    (College of Agriculture and Animal Husbandry, Qinghai University, Ningzhang Road, Xining 810016, China)

  • Chengyi Li

    (College of Agriculture and Animal Husbandry, Qinghai University, Ningzhang Road, Xining 810016, China)

Abstract

The accurate identification of different restoration stages of degraded alpine meadow patches is essential to effectively curb the deterioration trend of ‘Heitutan’ (areas of severely degraded alpine meadows in western China). In this study, hyperspectral imaging (HSI) and machine learning techniques were used to develop a method for accurately distinguishing the different restoration stages of alpine meadow patches. First, hyperspectral images representing the four restoration stages of degraded alpine meadow patches were collected, and spectral reflectance, vegetation indexes (VIs), color features (CFs), and texture features (TFs) were extracted. Secondly, valid features were selected by competitive adaptive reweighted sampling (CARS), ReliefF, recursive feature elimination (RFE), and F-test algorithms. Finally, four machine learning models, including the support vector machine (SVM), k-nearest neighbor (KNN), random forest (RF), and extreme gradient boosting (XGBoost), were constructed. The results demonstrated that the SVM model based on the optimal wavelengths (OWs) and prominent VIs achieved the best value of accuracy (0.9320), precision (0.9369), recall (0.9308), and F1 score (0.9299). In addition, the models that combine multiple sets of preferred features showed a significant performance improvement over the models that relied only on a single set of preferred features. Overall, the method combined with HSI and machine learning technology showed excellent reliability and effectiveness in identifying the restoration stages of meadow patches, and provided an effective reference for the formulation of grassland degradation management measures.

Suggested Citation

  • Wei Luo & Lu Wang & Lulu Cui & Min Zheng & Xilai Li & Chengyi Li, 2024. "Identifying the Restoration Stages of Degraded Alpine Meadow Patches Using Hyperspectral Imaging and Machine Learning Techniques," Agriculture, MDPI, vol. 14(7), pages 1-22, July.
    • Handle: RePEc:gam:jagris:v:14:y:2024:i:7:p:1097-:d:1431332
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    References listed on IDEAS

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    1. Yongmei Liu & Fan Zhao & Lei Wang & Wei He & Jianhong Liu & Yongqing Long, 2021. "Spatial Distribution and Influencing Factors of Soil Fungi in a Degraded Alpine Meadow Invaded by Stellera chamaejasme," Agriculture, MDPI, vol. 11(12), pages 1-12, December.
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