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Original scientific paper

https://doi.org/10.5552/crojfe.2020.620

Recovery of Forest Soil Chemical Properties Following Soil Rehabilitation Treatments: an Assessment Six Years after Machine Impact

Meghdad Jourgholami orcid id orcid.org/0000-0003-3676-278X ; University of Tehran Faculty of Natural Resources Department of Forestry and Forest Economics P.O.Box: 31585–4314 Karaj IRAN
Somayeh Khajavi ; University of Tehran Faculty of Natural Resources Department of Forestry and Forest Economics P.O.Box: 31585–4314 Karaj IRAN
Eric R. Labelle ; Department of Wood and Forest Sciences Université Laval 2405 Rue de la Terrasse Québec, G1V OAG CANADA


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Abstract

Several rehabilitation treatments have been applied to mitigate runoff and sediment in machine trafficked areas following logging operations, while the knowledge on the consequence of these remediation techniques on the recovery of soil properties remains scarce. The objective of the study was to determine the effect of different rehabilitation treatments including sawdust mulch (SM), water diversion structure (WDS), untreated/bare trail (U), and undisturbed or control area (UND) on the recovery of soil chemical properties over a six-year period after machine-induced compaction occurred on three longitudinal trail gradients (10, 20, and 30%). In each treatment, the following soil properties were measured: litter thickness, pH, EC, soil organic C, total N, and available P, K, Ca, and Mg. Five sampling plots (with 10 m length and 4 m width) were positioned in each trail gradient classes and three of these plots were randomly considered for soil sampling. The results demonstrate that litter thickness differed among the three treatments, with the highest amount present on the UND area and lowest on the U treatment. Meanwhile, the highest pH (6.75), EC (0.21 Ds m−1), N (0.27%), available P (14.61 mg kg−1), available K (123.5 mg kg−1), available Ca (135.1 mg kg−1), and available Mg (42.1 mg kg−1) and the lowest C (1.21%) and C/N ratio (7.83%) were found on the SM with gradient of 10% compared to other gradient classes on SM, WDS and, U treatments. The recovery value of litter depth, pH, EC, C, N, C/N ratio, and available nutrients (P, K, Ca, and Mg) were higher on the SM than the WDS at the gradient of 10%, while significantly higher levels of these variables were measured under WDS installed on trail gradients of 30% and 20% when compared with the same gradients on SM. Results of the study revealed that soil chemical properties showed some evidence of recovery following SM and WDS rehabilitation treatments compared to U, although these properties did not fully recover within 6 years as compared to UND area.

Keywords

soil compaction; soil health; soil protection; mulching; water diversion structure

Hrčak ID:

233588

URI

https://hrcak.srce.hr/233588

Publication date:

31.1.2020.

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