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A Boundary Plane Approach to Map Hotspots for Achievable Soil Carbon Sequestration and Soil Fertility Improvement

Author

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  • Kristin Piikki

    (Agroecosystems and Sustainable Landscapes (ASL) Research Area, International Center for Tropical Agriculture (CIAT), Nairobi 00100, Kenya)

  • Mats Söderström

    (Agroecosystems and Sustainable Landscapes (ASL) Research Area, International Center for Tropical Agriculture (CIAT), Nairobi 00100, Kenya
    Department of Soil and Environment, Swedish University of Agricultural Sciences, 532 23 Skara, Sweden)

  • Rolf Sommer

    (Agriculture and Land Use Change, WWF Deutschland, 10117 Berlin, Germany)

  • Mayesse Da Silva

    (International Center for Tropical Agriculture—CIAT, ASL Research Area, Cali 760001, Colombia)

  • Sussy Munialo

    (Department of Plant Science and Crop Protection, College of Agriculture and Veterinary Sciences, University of Nairobi, Kangemi 00625, Kenya
    World Agroforestry Center (ICRAF), Nairobi 00100, Kenya
    Department of Soil and Environment, Swedish University of Agricultural Sciences, 750 07 Uppsala, Sweden)

  • Wuletawu Abera

    (International Center for Tropical Agriculture—CIAT, ASL Research Area, Addis Ababa 1000, Ethiopia)

Abstract

Soil organic carbon (SOC) sequestration is important in the global carbon cycle and an integral part of many initiatives and policies to mitigate climate change. For efficient targeting of measures leading to SOC sequestration, it is necessary to know the actual SOC content (%) and a realistic target SOC content (in contrast to the saturation content, which may not be easily achievable) under local biophysical and socioeconomic conditions. We developed a new method for the practical assessment of achievable SOC sequestration concerning soil texture based on a non-linear boundary plane approach, also applicable for mapping of SOC sequestration hotspots. The method was tested at two spatial scales (a 125 km 2 catchment and a 4 km 2 sub-area of that catchment) in a region in Western Kenya characterized by smallholder farming. Moreover, we assessed the associated benefits of increasing the SOC content from a crop production perspective and found significant correlations between SOC and other soil properties (pH, cation exchange capacity, and various plant-available macro- and micronutrients). This indicates a possible improvement in soil fertility when the SOC content is raised to the modeled target levels, which should be attainable without major changes in land use or agricultural systems.

Suggested Citation

  • Kristin Piikki & Mats Söderström & Rolf Sommer & Mayesse Da Silva & Sussy Munialo & Wuletawu Abera, 2019. "A Boundary Plane Approach to Map Hotspots for Achievable Soil Carbon Sequestration and Soil Fertility Improvement," Sustainability, MDPI, vol. 11(15), pages 1-17, July.
    • Handle: RePEc:gam:jsusta:v:11:y:2019:i:15:p:4038-:d:251793
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    References listed on IDEAS

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    1. Johannes Lehmann & Markus Kleber, 2015. "The contentious nature of soil organic matter," Nature, Nature, vol. 528(7580), pages 60-68, December.
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    Cited by:

    1. Yuyang Yu & Jing Li & Zixiang Zhou & Li Zeng & Cheng Zhang, 2019. "Estimation of the Value of Ecosystem Carbon Sequestration Services under Different Scenarios in the Central China (the Qinling-Daba Mountain Area)," Sustainability, MDPI, vol. 12(1), pages 1-18, December.

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