Soil deformation and its recovery in logging trails of drained boreal peatlands

Lepilin, Dmitrii; Laurén, Ari; Uusitalo, Jori; Tuittila, Eeva‐Stiina

doi:10.1139/cjfr-2018-0385

Cited by 11 publications

(18 citation statements)

References 50 publications

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“…As an inevitable consequence, installation of underground pipelines implicates extensive soil disturbance with adverse effects on soil physical properties through soil compaction and mixing of topsoil and subsoil because of construction right‐of‐way (ROW) activities (Naeth, McGill, & Bailey, 1987; Shi, Xiao, Wang, & Chen, 2014; Yu et al., 2010). Machinery‐induced excessive soil compaction reduces crop yield (Bell, 2010; Lowery & Schuler, 1991; Raper, Reaves, Shaw, van Santen, & Mask, 2005; Soon, Rice, Arshad, & Mills, 2000) through increases in soil bulk density and soil strength (Cambi et al., 2015; Kumar, Chen, Sadek, & Rahman, 2012; Lepilin, Laurén, Uusitalo, & Tuittila, 2019; Raper et al., 2005).…”

Section: Introductionmentioning

confidence: 99%

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Effect of subsoil tillage during pipeline construction activities on near‐term soil physical properties and crop yields in the right‐of‐way

Tekeste

Ebrahimi

Hanna

et al. 2020

Soil Use and Management

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Natural gas and oil consumption are projected (U.S. Energy Information Administration, 2019) to increase globally and domestically through 2040. According to the report released by the Interstate Natural Gas Association of America (INGAA, 2015), extraction and transportation of natural resources will require establishment of thousands of kilometres of new pipeline infrastructures. As an inevitable consequence, installation of underground pipelines implicates extensive soil disturbance with adverse effects on soil physical properties through soil compaction and mixing of topsoil and subsoil because of construction right-of-way (ROW) activities (Naeth,

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Section: Introductionmentioning

confidence: 99%

“…through increases in soil bulk density and soil strength (Cambi et al, 2015;Kumar, Chen, Sadek, & Rahman, 2012;Lepilin, Laurén, Uusitalo, & Tuittila, 2019;Raper et al, 2005).…”

mentioning

confidence: 99%

Effect of subsoil tillage during pipeline construction activities on near‐term soil physical properties and crop yields in the right‐of‐way

Tekeste

Ebrahimi

Hanna

et al. 2020

Soil Use and Management

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“…A common cause of seismic line disturbance after the initial creation is human use for recreational activities (Dabros et al, 2018). Without further disturbance, compacted peat has been shown to recover naturally within 15 years after disturbance (Lepilin et al, 2019). SC3 and BR1 seismic lines are all at least 34 years old at the time of sampling, allowing for many years of peat volume recovery.…”

Section: Substrate Qualitymentioning

confidence: 99%

How mounds are made matters: seismic line restoration techniques affect peat physical and chemical properties throughout the peat profile

et al. 2022

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Seismic lines are prominent linear disturbances across boreal Canada with large-scale consequences to wildlife and ecosystem function. Although seismic line restoration has been observed to improve tree growth and survival, application in peatlands has been shown to alter ecosystem functions such as hydrology and carbon storage. The most common active restoration method is called mechanical mounding where the classic technique inverts the peat profile. New mounding methods that maintain the peat profile may provide benefits by preserving existing vegetation and reducing disturbance. To determine the effects of different mounding methods on soil quality, peat cores were collected and analyzed from two different sites for various soil properties (C/N ratios, δ13C, δ15N, Fourier transform infrared (FTIR) spectroscopy humification indices). Vegetation surveys were also conducted. The two sites are both a collection of seismic lines crossing poor fens in Alberta. One site was treated with the classic method while the other was treated with two new mounding methods. Classic mechanical mounding significantly increased the degree of decomposition, indicative of lower substrate quality. Mechanical mounding also greatly reduced moss cover and introduced large amounts of bare ground cover. The two newer mounding methods did not result in these changes and were largely comparable to natural peat properties and vegetation communities. Preserving the peat profile in new mounding methods may support faster return of ecosystem function.

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“…Water retention characteristic is a fundamental soil property that links soil structure to water and aeration dynamics, redox conditions, and many accompanying biogeochemical processes (Bachmann and van der Ploeg, 2002;Lepilin et al, 2019). Soil water retention in the low suction range (0-10 kPa), which represents the filling and emptying of macropores (Perret et al, 1999), is strongly influenced by soil structure and pore size distribution (Hillel, 1998).…”

Section: Introductionmentioning

confidence: 99%

“…Pore characteristics have been earlier described by pore size distribution derived from the water retention characteristic (Laine-Kaulio, 2011;Lepilin et al, 2019) or by tortuosity indices derived from air permeability measurements (Laurén, 1997), both methods assuming homogeneous and isotropic soil structure (Beckwith et al, 2003). However, the CH 4 production and transport cannot be fully understood without considering the three-dimensional (3D) pore network structures in peat.…”

Soil deformation and its recovery in logging trails of drained boreal peatlands

Cited by 11 publications

References 50 publications

Effect of subsoil tillage during pipeline construction activities on near‐term soil physical properties and crop yields in the right‐of‐way

Effect of subsoil tillage during pipeline construction activities on near‐term soil physical properties and crop yields in the right‐of‐way

How mounds are made matters: seismic line restoration techniques affect peat physical and chemical properties throughout the peat profile

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