Soil properties following borrow pit reclamation with insufficient topsoil amended with peat and biochar

Nawu, Takudzwa; Zvomuya, Francis; Adesanya, Theresa; Amarakoon, Inoka; Bekele, Asfaw

doi:10.1002/ldr.4970

Cited by 1 publication

(2 citation statements)

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“…The superior performance of peat relative to biochar may be related to greater nitrogen availability and moisture retention properties of peat‐amended relative to biochar‐amended soil (Table 3), which likely resulted in faster tree growth for PTRD50 than BTRD50. Nawu et al (2023) reported high TKN concentration in suboptimal TRD amended with peat (PTRD50) compared to BTRD50 following reclamation in the same study.…”

Section: Discussionmentioning

confidence: 76%

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Revegetation of disturbed land reclaimed with suboptimal topsoil replacement depth and organic amendments

Nawu,

Zvomuya,

Adesanya

et al. 2024

Land Degrad Dev

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Successful reclamation and revegetation of disturbed sites depends on the availability of sufficient topsoil. Current regulations in western Canada require the replacement of ≥80% of the original topsoil depth (TRD) to restore pre‐disturbance productivity. However, salvaged topsoil at many legacy and other disturbed sites is often insufficient to achieve the 80% TRD (TRD80). This 5‐year study examined vegetation responses to 50% TRD without organic amendment (TRD50) or amended with either peat (PTRD50) or biochar (BTRD50), relative to the TRD80 treatment, following borrow site reclamation in northeastern Alberta, Canada. Amendments were applied once at rates calculated to bring organic carbon in the topsoil to concentrations approximating those in the TRD80 treatment. Tree and shrub seedling mixes were transplanted following amendment application and vegetation attributes were measured annually thereafter. Results showed that PTRD50 performed as well as TRD80 and outperformed BTRD50 with respect to native species' canopy cover and tree seedling height. Canopy covers of forb and non‐native species decreased significantly whereas those of graminoid and native species increased over time for all treatments. Across treatments, native plant species richness increased by 5% per year while non‐native species richness decreased by 19% per year. Overall, peat showed a satisfactory rate of recovery and a trajectory toward the natural boreal forest, indicating its potential to improve reclamation success at disturbed boreal sites where salvaged soil is insufficient to attain equivalent land capability. This finding will provide an additional tool for regulators seeking to refine land reclamation guidelines for such sites in boreal forest regions.

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Section: Discussionmentioning

confidence: 76%

“…Soil sampling and analysis were described in detail by Nawu et al (2023). Briefly, initial soil samples were collected in 2014 for baseline characterization before the start of the experiment (Table 1).…”

Section: Methodsmentioning

confidence: 99%