Soil factors determining the fine-root biomass in soil regeneration after a post-fire and soil reconstruction in reclaimed post-mining sites under different tree species

Świątek, Bartłomiej; Pietrzykowski, Marcin

doi:10.1016/j.catena.2021.105449

Cited by 10 publications

(3 citation statements)

References 54 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Pietrzykowski et al ( 2021 ) estimated carbon sink allocation in BGB of a 12-year-old willow coppice plantation on fluvisol soil in Southern Poland and found the accumulation in coarse roots and fine roots at 1.5 Mg C ha −1 year −1 and 1.2 Mg C ha −1 year −1 respectively that mitigate the effects of high CO 2 concentration over a short time span. In similar climatic condition, Świątek and Pietrzykowski ( 2021 ) conducted a study to determine the soil factors that increase fine root biomass under pine ( Pinus sylvestris ), birch ( Betula pendula ), and larch ( Larix decidua ) plantation in reconstructed (PME) forest ecosystems. The findings of this study confirmed the significance of fine root biomass to evaluate the soil regeneration and pedogenesis dynamics in reconstructed ecosystems.…”

Section: Factors Affecting Carbon Sequestration Potential Of Reclaime...mentioning

confidence: 99%

Steering restoration of coal mining degraded ecosystem to achieve sustainable development goal-13 (climate action): United Nations decade of ecosystem restoration (2021–2030)

Bandyopadhyay

Maiti

2022

Environ Sci Pollut Res

View full text Add to dashboard Cite

For millennium, mining sector is a source not only of mineral extraction for industrialization, economic expansion, and urban sprawling, but also of socio-environmental concern. It, therefore, has been the central attention of the business and public policy sustainable development scheme for several years. Thus, gradually, mining industries are getting involved with the concerns such as carbon emissions mitigation and carbon accounting to govern a rhetorical shift towards “sustainable mining”. However, there is scarce knowledge about how the emergence of a “green and self-sustaining” forestry reclamation strategy coupled with potential carbon sequestration capacity in degraded mining areas will be an impeccable option for achieving sustainable development goal-13 (SDG-13: climate action) and ecosystem services during United Nation decade of ecosystem restoration. This paper reviews the extent to which reforestation and sustainable land management practices that employed to enhance ecosystem carbon pool and atmospheric CO 2 sequestration capacity to offset CO 2 emission and SOC (soil organic carbon) losses, as consequences of coal mining, to partially mitigate global climate crisis. Moreover, future research is required on mining innovation concepts and its challenges for designing an SDG impact framework, so that it not only synergies amongst SDGs, but also trade-offs between each individual “politically legitimized post-2015 development agenda” (i.e. UNSDGs) could be depicted in a systematic way. In a developing country like India, it is also an utmost need to assess the environmental impact and economic performance of such technological innovation and its possible synergistic effect. Graphical abstract Supplementary Information The online version contains supplementary material available at 10.1007/s11356-022-23699-x.

show abstract

Section: Factors Affecting Carbon Sequestration Potential Of Reclaime...mentioning

confidence: 99%

Steering restoration of coal mining degraded ecosystem to achieve sustainable development goal-13 (climate action): United Nations decade of ecosystem restoration (2021–2030)

Bandyopadhyay

Maiti

2022

Environ Sci Pollut Res

View full text Add to dashboard Cite

show abstract

“…Table 1. Basic soil properties under birch, larch, and pine growing on reconstructed forest ecosys tem (PM), regenerated forest ecosystem (PF), and control plots (CS) (mean ± SE) [43]. It is noted in the literature that the mesh size of the litterbags used in such experiments could be an important factor influencing the pace of fine root decomposition.…”

Section: Study Results and Discussionmentioning

confidence: 99%

“…Basic soil properties under birch, larch, and pine growing on reconstructed forest ecosystem (PM), regenerated forest ecosystem (PF), and control plots (CS) (mean ± SE)[43].…”

mentioning

confidence: 99%

Impact of Leaf Litter and Fine Roots in the Pool of Carbon, Nitrogen and Phosphorus Accumulated in Soil in Various Scenarios of Regeneration and Reconstruction of Forest Ecosystems

Świątek

Pietrzykowski

2022

Forests

Self Cite

View full text Add to dashboard Cite

This study determined the rate of decomposition of fine roots and leaf litter from birch, larch, and pine, and compared the impact of fine root decomposition and leaf litter on carbon, nitrogen, and phosphorus accumulation in various regenerated and reconstructed forest ecosystems. The control plots were located on podzol soils in managed forest non-degraded habitats. Over a one-year experimental season, the decomposition of birch and larch fine roots released less carbon in comparison to leaf litter. The carbon mass-loss rates were 16% for birch roots and 15% for larch roots, while for birch and larch litter, the rates were 36% and 27%, respectively. For nitrogen, mass-loss rates were 48% for birch fine roots and 60% for larch and pine fine roots, whereas for pine and birch litter the rates were 14%, and 33% for larch litter. The results of our study prove the important role of fine root input to the soil’s carbon, nitrogen, and phosphorus pool and additionally their significance for CO2 sequestration within the studied regenerated terrestrial ecosystems.

show abstract

Ecological Restoration of Degraded Soils Through Protective Afforestation

Pietrzykowski

Woś

Pająk

2023

Agroecological Approaches for Sustainable Soil Management

View full text Add to dashboard Cite

Soil factors determining the fine-root biomass in soil regeneration after a post-fire and soil reconstruction in reclaimed post-mining sites under different tree species

Cited by 10 publications

References 54 publications

Steering restoration of coal mining degraded ecosystem to achieve sustainable development goal-13 (climate action): United Nations decade of ecosystem restoration (2021–2030)

Steering restoration of coal mining degraded ecosystem to achieve sustainable development goal-13 (climate action): United Nations decade of ecosystem restoration (2021–2030)

Impact of Leaf Litter and Fine Roots in the Pool of Carbon, Nitrogen and Phosphorus Accumulated in Soil in Various Scenarios of Regeneration and Reconstruction of Forest Ecosystems

Ecological Restoration of Degraded Soils Through Protective Afforestation

Contact Info

Product

Resources

About