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Monitoring soil structure changes after compaction

Date:
June 19, 2017
Source:
American Society of Agronomy
Summary:
Soil compaction is a global threat to soil ecosystem services, causing tremendous costs to society. The costs of soil compaction are borne by the cumulative loss of soil functionality (e.g. yield loss) following a compaction event until the soil has functionally recovered. Although soil compaction is relatively widely studied, there is a lack of reliable observations and metrics for soil structure recovery rates after compaction.
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Soil compaction is a global threat to soil ecosystem services, causing tremendous costs to society. The costs of soil compaction are borne by the cumulative loss of soil functionality (e.g. yield loss) following a compaction event until the soil has functionally recovered. Although soil compaction is relatively widely studied, there is a lack of reliable observations and metrics for soil structure recovery rates after compaction.

In the April issue of Vadose Zone Journal, researchers describe the objectives, the design, the implementation, and monitoring concept of a long-term field experiment for monitoring post-compaction evolution of soil structure, referred to as a soil structure observatory.

Initial compaction increased soil bulk density to about 0.5-m depth, decreased fluid transport capability, and increased mechanical impedance. Initial results from the post-compaction monitoring indicate projected recovery rates of years to decades, with different recovery rates for different properties and decreasing recovery rates with soil depth.

Besides enabling quantification of recovery rates of compacted soil and better understanding of the recovery mechanisms, the authors expect that data provided by the soil structure observatory will help improve our general understanding of soil structure dynamics and help define strategies and guidelines for accelerating soil structure recovery, and more generally, improving soil structure in modern agriculture.


Story Source:

Materials provided by American Society of Agronomy. Note: Content may be edited for style and length.


Journal Reference:

  1. Thomas Keller, Tino Colombi, Siul Ruiz, Mervin Pogs Manalili, Jan Rek, Viktor Stadelmann, Hans Wunderli, Dani Breitenstein, René Reiser, Hansrudolf Oberholzer, Stanislaus Schymanski, Alejandro Romero-Ruiz, Niklas Linde, Peter Weisskopf, Achim Walter, Dani Or. Long-Term Soil Structure Observatory for Monitoring Post-Compaction Evolution of Soil Structure. Vadose Zone Journal, 2017; 16 (4): 0 DOI: 10.2136/vzj2016.11.0118

Cite This Page:

American Society of Agronomy. "Monitoring soil structure changes after compaction." ScienceDaily. ScienceDaily, 19 June 2017. <www.sciencedaily.com/releases/2017/06/170619092213.htm>.
American Society of Agronomy. (2017, June 19). Monitoring soil structure changes after compaction. ScienceDaily. Retrieved December 3, 2024 from www.sciencedaily.com/releases/2017/06/170619092213.htm
American Society of Agronomy. "Monitoring soil structure changes after compaction." ScienceDaily. www.sciencedaily.com/releases/2017/06/170619092213.htm (accessed December 3, 2024).

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