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Soil Quality Assessment and Its Spatial Variability in an Intensively Cultivated Area in India

Author

Listed:
  • Rajath Ellur

    (Zonal Agricultural Research Station, V C Farm, Mandya, University of Agricultural Sciences Bangalore, Gandalu 571405, India)

  • Ananthakumar Maddur Ankappa

    (Zonal Agricultural Research Station, V C Farm, Mandya, University of Agricultural Sciences Bangalore, Gandalu 571405, India)

  • Subramanian Dharumarajan

    (National Bureau of Soil Survey and Land Use Planning, Regional Centre, Bengaluru 560024, India)

  • Thimmegowda Puttavenkategowda

    (Zonal Agricultural Research Station, V C Farm, Mandya, University of Agricultural Sciences Bangalore, Gandalu 571405, India)

  • Thimmegowda Matadadoddi Nanjundegowda

    (Department of Agricultural Meteorology, University of Agricultural Sciences Bangalore, Bengaluru 560065, India)

  • Prakash Salekoppal Sannegowda

    (College of Agriculture, V C Farm, Mandya, University of Agricultural Sciences Bangalore, Mandya 571405, India)

  • Arun Pratap Mishra

    (Department of Forestry and Remote Sensing, Earthtree Enviro Private Limited, Shillong 793012, India)

  • Bojan Đurin

    (Department of Civil Engineering, University North, 42000 Varaždin, Croatia)

  • Dragana Dogančić

    (Faculty of Geotechnical Engineering, University of Zagreb, 42000 Varaždin, Croatia)

Abstract

Intensive agricultural practices lead to a deterioration in soil quality, causing a decline in farm productivity and quality, and disturbing the ecosystem balance in command areas. To achieve sustainable production and implement effective soil management strategies, understanding the state and spatial variability of soil quality is essential. The study aims to enhance the understanding of soil quality variability and provide actionable insights for sustainable soil management. In this regard, principal component analysis (PCA) and digital soil mapping were used to assess and map the spatial variability of the soil quality index (SQI) in the Cauvery command area, Mandya district, Karnataka, India. A total of 145 georeferenced soil samples were drawn at 0–15 cm depth and analyzed for physico-chemical properties. PCA was used to reduce the dataset into a minimum dataset as eight important soil indicators and to determine relative weightage factors, which were used for assessing SQI with linear and non-linear scoring methods. For spatial assessment of SQI, the random forest algorithm with environmental covariates was used to map eight soil indicators selected in the minimum dataset. The soil property maps were subjected to linear and non-linear scoring, followed by multiplying with corresponding weightage factors and summation to produce SQI maps. Results reveal that values of SQI calculated using linear scoring, range from 0.10 to 0.64, with a mean of 0.39, while non-linear scoring exhibits a wider range of 0.12 to 0.78 and a mean of 0.48. With a slight higher sensitivity index of 6.5, non-linear scoring proved to be the better scoring method compared to linear scoring. Spatial assessment shows that the R 2 and LCC between the calculated and predicted SQI were higher for non-linear scoring (0.66 and 0.66) compared to linear scoring (0.60 and 0.65). The SQI maps reveal high spatial variability with more than 40 percent of soils classified as moderate-to-low index. The soils with low SQI were distributed in eastern parts, whereas western parts exhibited high-to-very-high soil quality. To achieve production goals and improve soil quality in the eastern region, sustainable soil and crop management strategies must be developed, and their effects on soil quality should be assessed.

Suggested Citation

  • Rajath Ellur & Ananthakumar Maddur Ankappa & Subramanian Dharumarajan & Thimmegowda Puttavenkategowda & Thimmegowda Matadadoddi Nanjundegowda & Prakash Salekoppal Sannegowda & Arun Pratap Mishra & Boj, 2024. "Soil Quality Assessment and Its Spatial Variability in an Intensively Cultivated Area in India," Land, MDPI, vol. 13(7), pages 1-22, July.
    • Handle: RePEc:gam:jlands:v:13:y:2024:i:7:p:970-:d:1427139
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    References listed on IDEAS

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    1. Yi, Jun & Li, Huijie & Zhao, Ying & Shao, Ming'an & Zhang, Hailin & Liu, Muxing, 2022. "Assessing soil water balance to optimize irrigation schedules of flood-irrigated maize fields with different cultivation histories in the arid region," Agricultural Water Management, Elsevier, vol. 265(C).
    2. Bekele Shiferaw & Julius Okello & Ratna Reddy, 2009. "Adoption and adaptation of natural resource management innovations in smallholder agriculture: reflections on key lessons and best practices," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 11(3), pages 601-619, June.
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