Tamm Review: Influence of forest management activities on soil organic carbon stocks: A knowledge synthesis

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Tamm Review: Influence of forest management activities on soil organic carbon stocks : A knowledge synthesis. / Mayer, Mathias; Prescott, Cindy E.; Abaker, Wafa E.A.; Augusto, Laurent; Cécillon, Lauric; Ferreira, Gabriel W.D.; James, Jason; Jandl, Robert; Katzensteiner, Klaus; Laclau, Jean Paul; Laganière, Jérôme; Nouvellon, Yann; Paré, David; Stanturf, John A.; Vanguelova, Elena I.; Vesterdal, Lars.

In: Forest Ecology and Management, Vol. 466, 118127, 2020.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Mayer, M, Prescott, CE, Abaker, WEA, Augusto, L, Cécillon, L, Ferreira, GWD, James, J, Jandl, R, Katzensteiner, K, Laclau, JP, Laganière, J, Nouvellon, Y, Paré, D, Stanturf, JA, Vanguelova, EI & Vesterdal, L 2020, 'Tamm Review: Influence of forest management activities on soil organic carbon stocks: A knowledge synthesis', Forest Ecology and Management, vol. 466, 118127. https://doi.org/10.1016/j.foreco.2020.118127

APA

Mayer, M., Prescott, C. E., Abaker, W. E. A., Augusto, L., Cécillon, L., Ferreira, G. W. D., James, J., Jandl, R., Katzensteiner, K., Laclau, J. P., Laganière, J., Nouvellon, Y., Paré, D., Stanturf, J. A., Vanguelova, E. I., & Vesterdal, L. (2020). Tamm Review: Influence of forest management activities on soil organic carbon stocks: A knowledge synthesis. Forest Ecology and Management, 466, [118127]. https://doi.org/10.1016/j.foreco.2020.118127

Vancouver

Mayer M, Prescott CE, Abaker WEA, Augusto L, Cécillon L, Ferreira GWD et al. Tamm Review: Influence of forest management activities on soil organic carbon stocks: A knowledge synthesis. Forest Ecology and Management. 2020;466. 118127. https://doi.org/10.1016/j.foreco.2020.118127

Author

Mayer, Mathias ; Prescott, Cindy E. ; Abaker, Wafa E.A. ; Augusto, Laurent ; Cécillon, Lauric ; Ferreira, Gabriel W.D. ; James, Jason ; Jandl, Robert ; Katzensteiner, Klaus ; Laclau, Jean Paul ; Laganière, Jérôme ; Nouvellon, Yann ; Paré, David ; Stanturf, John A. ; Vanguelova, Elena I. ; Vesterdal, Lars. / Tamm Review: Influence of forest management activities on soil organic carbon stocks : A knowledge synthesis. In: Forest Ecology and Management. 2020 ; Vol. 466.

Bibtex

@article{ff31dd6067ec4b53b3866d0b9f5bd10c,
title = "Tamm Review: Influence of forest management activities on soil organic carbon stocks: A knowledge synthesis",
abstract = "Almost half of the total organic carbon (C) in terrestrial ecosystems is stored in forest soils. By altering rates of input or release of C from soils, forest management activities can influence soil C stocks in forests. In this review, we synthesize current evidence regarding the influences of 13 common forest management practices on forest soil C stocks. Afforestation of former croplands generally increases soil C stocks, whereas on former grasslands and peatlands, soil C stocks are unchanged or even reduced following afforestation. The conversion of primary forests to secondary forests generally reduces soil C stocks, particularly if the land is converted to an agricultural land-use prior to reforestation. Harvesting, particularly clear-cut harvesting, generally results in a reduction in soil C stocks, particularly in the forest floor and upper mineral soil. Removal of residues by harvesting whole-trees and stumps negatively affects soil C stocks. Soil disturbance from site preparation decreases soil C stocks, particularly in the organic top soil, however improved growth of tree seedlings may outweigh soil C losses over a rotation. Nitrogen (N) addition has an overall positive effect on soil C stocks across a wide range of forest ecosystems. Likewise, higher stocks and faster accumulation of soil C occur under tree species with N-fixing associates. Stocks and accumulation rates of soil C also differ under different tree species, with coniferous species accumulating more C in the forest floor and broadleaved species tending to store more C in the mineral soil. There is some evidence that increased tree species diversity could positively affect soil C stocks in temperate and subtropical forests, but tree species identity, particularly N-fixing species, seems to have a stronger impact on soil C stocks than tree species diversity. Management of stand density and thinning have small effects on forest soil C stocks. In forests with high populations of ungulate herbivores, reduction in herbivory levels can increase soil C stocks. Removal of plant biomass for fodder and fuel is related to a reduction in the soil C stocks. Fire management practices such as prescribed burning reduce soil C stocks, but less so than wildfires which are more intense. For each practice, we identify existing gaps in knowledge and suggest research to address the gaps.",
author = "Mathias Mayer and Prescott, {Cindy E.} and Abaker, {Wafa E.A.} and Laurent Augusto and Lauric C{\'e}cillon and Ferreira, {Gabriel W.D.} and Jason James and Robert Jandl and Klaus Katzensteiner and Laclau, {Jean Paul} and J{\'e}r{\^o}me Lagani{\`e}re and Yann Nouvellon and David Par{\'e} and Stanturf, {John A.} and Vanguelova, {Elena I.} and Lars Vesterdal",
year = "2020",
doi = "10.1016/j.foreco.2020.118127",
language = "English",
volume = "466",
journal = "Forest Ecology and Management",
issn = "0378-1127",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Tamm Review: Influence of forest management activities on soil organic carbon stocks

T2 - A knowledge synthesis

AU - Mayer, Mathias

AU - Prescott, Cindy E.

AU - Abaker, Wafa E.A.

AU - Augusto, Laurent

AU - Cécillon, Lauric

AU - Ferreira, Gabriel W.D.

AU - James, Jason

AU - Jandl, Robert

AU - Katzensteiner, Klaus

AU - Laclau, Jean Paul

AU - Laganière, Jérôme

AU - Nouvellon, Yann

AU - Paré, David

AU - Stanturf, John A.

AU - Vanguelova, Elena I.

AU - Vesterdal, Lars

PY - 2020

Y1 - 2020

N2 - Almost half of the total organic carbon (C) in terrestrial ecosystems is stored in forest soils. By altering rates of input or release of C from soils, forest management activities can influence soil C stocks in forests. In this review, we synthesize current evidence regarding the influences of 13 common forest management practices on forest soil C stocks. Afforestation of former croplands generally increases soil C stocks, whereas on former grasslands and peatlands, soil C stocks are unchanged or even reduced following afforestation. The conversion of primary forests to secondary forests generally reduces soil C stocks, particularly if the land is converted to an agricultural land-use prior to reforestation. Harvesting, particularly clear-cut harvesting, generally results in a reduction in soil C stocks, particularly in the forest floor and upper mineral soil. Removal of residues by harvesting whole-trees and stumps negatively affects soil C stocks. Soil disturbance from site preparation decreases soil C stocks, particularly in the organic top soil, however improved growth of tree seedlings may outweigh soil C losses over a rotation. Nitrogen (N) addition has an overall positive effect on soil C stocks across a wide range of forest ecosystems. Likewise, higher stocks and faster accumulation of soil C occur under tree species with N-fixing associates. Stocks and accumulation rates of soil C also differ under different tree species, with coniferous species accumulating more C in the forest floor and broadleaved species tending to store more C in the mineral soil. There is some evidence that increased tree species diversity could positively affect soil C stocks in temperate and subtropical forests, but tree species identity, particularly N-fixing species, seems to have a stronger impact on soil C stocks than tree species diversity. Management of stand density and thinning have small effects on forest soil C stocks. In forests with high populations of ungulate herbivores, reduction in herbivory levels can increase soil C stocks. Removal of plant biomass for fodder and fuel is related to a reduction in the soil C stocks. Fire management practices such as prescribed burning reduce soil C stocks, but less so than wildfires which are more intense. For each practice, we identify existing gaps in knowledge and suggest research to address the gaps.

AB - Almost half of the total organic carbon (C) in terrestrial ecosystems is stored in forest soils. By altering rates of input or release of C from soils, forest management activities can influence soil C stocks in forests. In this review, we synthesize current evidence regarding the influences of 13 common forest management practices on forest soil C stocks. Afforestation of former croplands generally increases soil C stocks, whereas on former grasslands and peatlands, soil C stocks are unchanged or even reduced following afforestation. The conversion of primary forests to secondary forests generally reduces soil C stocks, particularly if the land is converted to an agricultural land-use prior to reforestation. Harvesting, particularly clear-cut harvesting, generally results in a reduction in soil C stocks, particularly in the forest floor and upper mineral soil. Removal of residues by harvesting whole-trees and stumps negatively affects soil C stocks. Soil disturbance from site preparation decreases soil C stocks, particularly in the organic top soil, however improved growth of tree seedlings may outweigh soil C losses over a rotation. Nitrogen (N) addition has an overall positive effect on soil C stocks across a wide range of forest ecosystems. Likewise, higher stocks and faster accumulation of soil C occur under tree species with N-fixing associates. Stocks and accumulation rates of soil C also differ under different tree species, with coniferous species accumulating more C in the forest floor and broadleaved species tending to store more C in the mineral soil. There is some evidence that increased tree species diversity could positively affect soil C stocks in temperate and subtropical forests, but tree species identity, particularly N-fixing species, seems to have a stronger impact on soil C stocks than tree species diversity. Management of stand density and thinning have small effects on forest soil C stocks. In forests with high populations of ungulate herbivores, reduction in herbivory levels can increase soil C stocks. Removal of plant biomass for fodder and fuel is related to a reduction in the soil C stocks. Fire management practices such as prescribed burning reduce soil C stocks, but less so than wildfires which are more intense. For each practice, we identify existing gaps in knowledge and suggest research to address the gaps.

U2 - 10.1016/j.foreco.2020.118127

DO - 10.1016/j.foreco.2020.118127

M3 - Journal article

AN - SCOPUS:85082833000

VL - 466

JO - Forest Ecology and Management

JF - Forest Ecology and Management

SN - 0378-1127

M1 - 118127

ER -

ID: 239669122