EGU22-5230
https://doi.org/10.5194/egusphere-egu22-5230
EGU General Assembly 2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Recovery of compacted subsoil : introducing the ROCSUB project

Alice Johannes1, Mario Fontana2, Johannes Köstel1,3, Thomas Keller1,3, Peter Weisskopf1, and Luca Bragazza2
Alice Johannes et al.
  • 1Agroecology Division, Agroscope, Zürich, Switzerland (alice.johannes@agroscope.admin.ch)
  • 2Plant-Production Systems Division, Agroscope, Nyon, Switzerland
  • 3Department of Soil and Environment, Swedish University of Agricultural Science, Uppsala, Sweden

Severe subsoil compaction can occur during construction due to heavy construction machinery or storage of excavation material. This has consequences on many soil functions such as water storage and purification capacity, water and nutrient uptake by plants, etc. The consequences of subsoil compaction are known but the means and time for recovery are not well documented. Subsoil recovery is sometimes even considered unreachable at human scale.

The aim of the ROCSUB project (Restoration Of Compacted SUBsoil) is to monitor the effects of subsoil compaction on the long term and evaluate the potential of two different restoration methods (mechanical and biological) and the time needed for recovery.

The experiment started in 2020 and takes place on a field in western Switzerland with loamy texture. The subsoil was severely compacted by a heavy pile of excavation material. Compaction occurred directly on the subsoil, after topsoil removal. Visible signs of compaction were detected up to 70 cm depth.

The experiment is designed along three mechanical axes (compacted, mechanically loosened, control) and three vegetal axes (permanent grass, crop, willow trees) with four replication of each combination, resulting in 36 plots. The mechanical loosening was performed with an excavator and willow trees were selected as the most promising bioengineering method for restoring the subsoil structure.

Following properties are monitored or sampled on a yearly basis: soil moisture via TDR probe, yield, plant biomass and physiology, soil structure properties including bulk density, air capacity, water holding capacity, air permeability. The soil structure evolution is also assessed via X-ray computed tomography.

Preliminary results show an improvement in plant biomass (grass and willow) after mechanical loosening treatment. We expect plants of the compacted plots to suffer most during extreme weather conditions (dry or wet). The mechanically loosened treatment is expected to recover drainage function rapidly while water holding capacity should take more time. The combination of mechanical loosening and willow tree is expected to recover most subsoil functions fastest.

How to cite: Johannes, A., Fontana, M., Köstel, J., Keller, T., Weisskopf, P., and Bragazza, L.: Recovery of compacted subsoil : introducing the ROCSUB project, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-5230, https://doi.org/10.5194/egusphere-egu22-5230, 2022.