Citation Information

  • Title : Monitoring soil organic carbon stock changes in agricultural landscapes: Issues and a proposed approach
  • Source : Canadian Journal of Soil Science
  • Publisher : Canadian Society of Soil Science/Agricultural Institute of Canada
  • Volume : 86
  • Issue : 3
  • Pages : 451-463
  • Year : 2006
  • DOI : 10.4141/S05-105
  • ISBN : 10.4141/S05-105
  • Document Type : Journal Article
  • Language : English
  • Authors:
    • VandenBygaart, A. J.
  • Climates: Continental (D). Steppe (BSh, BSk). Warm summer continental/Hemiboreal (Dsb, Dfb, Dwb). Continental subarctic/Boreal/Taiga (Dsc, Dfc, Dwc).
  • Cropping Systems:
  • Countries: Canada.

Summary

The distribution of soil organic carbon (SOC) in the landscape is governed by multiple factors and processes occurring at multiple scales. Thus, an understanding of landscape processes and pedology should aid in designing approaches to study SOC stock changes. Numerous factors affect distribution of SOC in the landscape at varying spatial and temporal scales. Each of these is summarized to set the stage for outlining a proposed approach to monitoring SOC in the agricultural landscape. Many tools are used to assess the variability of soil properties at varying spatial scales. Pedological knowledge and interpretation of landscape processes can be used to understand the spatial distribution of SOC in the landscape. I show that semi-variograms and the minimum detectable difference may be of limited value in deriving a universal approach to assess SOC change. Issues to be considered or resolved before initiating a monitoring system include depth of sampling and influence of management, compositing and sub-sampling, changes in bulk density, landscape effects and SOC dynamics. After considering these issues, I propose an approach to monitor SOC stock change in agroecosystems, acknowledging that any methodology likely cannot be strictly and universally applicable. The approach considers issues such as location, plot layout, and experimental and statistical design. Such an approach, derived from a landscape and pedology perspective, may make the measurement and verification of SOC at varying scales a less daunting task.

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