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A Comprehensive Analysis of Machine Learning-Based Assessment and Prediction of Soil Enzyme Activity

Author

Listed:
  • Yogesh Shahare

    (Department of Information Technology, Mahatma Gandhi Mission’s College of Engineering and Technology (MGMCET), Navi Mumbai 410 209, India)

  • Mukund Partap Singh

    (School of Computer Science & Engineering Technology, Bennett University, Greater Noida 201310, India)

  • Prabhishek Singh

    (School of Computer Science & Engineering Technology, Bennett University, Greater Noida 201310, India)

  • Manoj Diwakar

    (Computer Science and Engineering Department, Graphic Era (Deemed to be University), Dehradun 248002, India)

  • Vijendra Singh

    (School of Computer Science, University of Petroleum and Energy Studies, Dehradun 248007, India)

  • Seifedine Kadry

    (Department of Applied Data Science, Noroff University College, 4612 Kristiansand, Norway
    Artificial Intelligence Research Center (AIRC), Ajman University, Ajman 346, United Arab Emirates
    Department of Electrical and Computer Engineering, Lebanese American University, Byblos 13-5053, Lebanon
    MEU Research Unit, Middle East University, Amman 11831, Jordan)

  • Lukas Sevcik

    (University of Zilina, 010 26 Zilina, Slovakia)

Abstract

Different soil characteristics in different parts of India affect agriculture growth. Crop growth and crop production are significantly impacted by healthy soil. Soil enzymes mediate almost all biochemical reactions in the soil. Understanding the biological processes of soil carbon and nitrogen cycling requires defining the significance of prospective elements at the play of soil enzymes and evaluating their activities. A combination of Multiple Linear Regression (MLR), Random Forest (RF) models, and Artificial Neural Networks (ANN) was employed in this study to assess soil enzyme activity, including amylase and urease activity, soil physical properties, such as sand, silt, clay, and soil chemical properties, including organic matter (SOM), nitrogen (N), phosphorus (P), soil organic carbon (SOC), pH, and fertility level. Compared to other methods for estimating soil phosphatase, cellulose, and urease activity, the RF model significantly outperforms the MLR model. In addition, due to its ability to manage dynamic and hierarchical relationships between enzyme activities, the RF model outperforms other models in evaluating soil enzyme activity. This study collected 3972 soil samples from 25 villages in the Bhandara district of Maharashtra, India, with chemical, physical, and biological parameters. Overall, 99% accuracy was achieved for cellulase enzyme activity and 94% for N-acetyl-glucosaminidase enzyme activity using the Random Forest model. Crops have been suggested based on the best performance accuracy algorithms and evaluation performance metrics.

Suggested Citation

  • Yogesh Shahare & Mukund Partap Singh & Prabhishek Singh & Manoj Diwakar & Vijendra Singh & Seifedine Kadry & Lukas Sevcik, 2023. "A Comprehensive Analysis of Machine Learning-Based Assessment and Prediction of Soil Enzyme Activity," Agriculture, MDPI, vol. 13(7), pages 1-18, June.
  • Handle: RePEc:gam:jagris:v:13:y:2023:i:7:p:1323-:d:1182058
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