Long-term soil structure observatory for monitoring post-compaction evolution of soil structure
Long-term soil structure observatory for monitoring post-compaction evolution of soil structure
The projected intensification of agriculture to meet food targets of a rapidly growing world population are likely to accentuate already acute problems of soil compaction and deteriorating soil structure in many regions of the world. The key role of soil structure for soil functions, the sensitivity of soil structure to agronomic management practices, and the lack of reliable observations and metrics for soil structure recovery rates after compaction motivated the establishment of a long-term Soil Structure Observatory (SSO) at the Agroscope research institute in Zürich, Switzerland. The primary objective of the SSO is to provide long-term observation data on soil structure evolution after disturbance by compaction, enabling quantification of compaction recovery rates and times. The SSO was designed to provide information on recovery of compacted soil under different post-compaction soil management regimes, including natural recovery of bare and vegetated soil as well as recovery with and without soil tillage. This study focused on the design of the SSO and the characterization of the pre- and post-compaction state of the field. We deployed a monitoring network for continuous observation of soil state variables related to hydrologic and biophysical functions (soil water content, matric potential, temperature, soil air O2 and CO2 concentrations, O2 diffusion rates, and redox states) as well as periodic sampling and in situ measurements of infiltration, mechanical impedance, soil porosity, gas and water transport properties, crop yields, earthworm populations, and plot-scale geophysical measurements. Besides enabling quantification of recovery rates of compacted soil, we expect that data provided by the SSO will help improve our general understanding of soil structure dynamics.
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Keller, Thomas
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Colombi, Tino
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Ruiz, Siul
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Manalili, Mervin Pogs
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Rek, Jan
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Stadelmann, Viktor
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Wunderli, Hans
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Breitenstein, Dani
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Reiser, René
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Oberholzer, Hansrudolf
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Schymanski, Stanislaus
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Romero-ruiz, Alejandro
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Linde, Niklas
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Weisskopf, Peter
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Walter, Achim
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Or, Dani
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13 April 2017
Keller, Thomas
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Colombi, Tino
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Ruiz, Siul
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Manalili, Mervin Pogs
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Rek, Jan
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Stadelmann, Viktor
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Wunderli, Hans
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Breitenstein, Dani
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Reiser, René
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Oberholzer, Hansrudolf
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Schymanski, Stanislaus
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Romero-ruiz, Alejandro
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Linde, Niklas
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Weisskopf, Peter
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Walter, Achim
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Or, Dani
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Keller, Thomas, Colombi, Tino, Ruiz, Siul, Manalili, Mervin Pogs, Rek, Jan, Stadelmann, Viktor, Wunderli, Hans, Breitenstein, Dani, Reiser, René, Oberholzer, Hansrudolf, Schymanski, Stanislaus, Romero-ruiz, Alejandro, Linde, Niklas, Weisskopf, Peter, Walter, Achim and Or, Dani
(2017)
Long-term soil structure observatory for monitoring post-compaction evolution of soil structure.
Vadose Zone Journal, 16 (4), .
(doi:10.2136/vzj2016.11.0118).
Abstract
The projected intensification of agriculture to meet food targets of a rapidly growing world population are likely to accentuate already acute problems of soil compaction and deteriorating soil structure in many regions of the world. The key role of soil structure for soil functions, the sensitivity of soil structure to agronomic management practices, and the lack of reliable observations and metrics for soil structure recovery rates after compaction motivated the establishment of a long-term Soil Structure Observatory (SSO) at the Agroscope research institute in Zürich, Switzerland. The primary objective of the SSO is to provide long-term observation data on soil structure evolution after disturbance by compaction, enabling quantification of compaction recovery rates and times. The SSO was designed to provide information on recovery of compacted soil under different post-compaction soil management regimes, including natural recovery of bare and vegetated soil as well as recovery with and without soil tillage. This study focused on the design of the SSO and the characterization of the pre- and post-compaction state of the field. We deployed a monitoring network for continuous observation of soil state variables related to hydrologic and biophysical functions (soil water content, matric potential, temperature, soil air O2 and CO2 concentrations, O2 diffusion rates, and redox states) as well as periodic sampling and in situ measurements of infiltration, mechanical impedance, soil porosity, gas and water transport properties, crop yields, earthworm populations, and plot-scale geophysical measurements. Besides enabling quantification of recovery rates of compacted soil, we expect that data provided by the SSO will help improve our general understanding of soil structure dynamics.
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2017_Keller_etal_VZJ
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Accepted/In Press date: 22 February 2017
Published date: 13 April 2017
Identifiers
Local EPrints ID: 434335
URI: http://eprints.soton.ac.uk/id/eprint/434335
ISSN: 1539-1663
PURE UUID: 0a900ec5-8aee-4b43-95c9-e54070212e9a
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Date deposited: 19 Sep 2019 16:30
Last modified: 16 Mar 2024 04:07
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Contributors
Author:
Thomas Keller
Author:
Tino Colombi
Author:
Mervin Pogs Manalili
Author:
Jan Rek
Author:
Viktor Stadelmann
Author:
Hans Wunderli
Author:
Dani Breitenstein
Author:
René Reiser
Author:
Hansrudolf Oberholzer
Author:
Stanislaus Schymanski
Author:
Alejandro Romero-ruiz
Author:
Niklas Linde
Author:
Peter Weisskopf
Author:
Achim Walter
Author:
Dani Or
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