Logging intensity drives variability in carbon stocks in lowland forests in Vietnam

•Aboveground carbon was lower in heavily logged forests, mainly of stems ≥60 cm dbh.•SOC in the 0–30 cm top layer stored ~50% of total carbon stocks in logged forests.•Logging intensity was the main factor explaining variability in aboveground carbon.•A new approach to estimate historical logging in...

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Published inForest ecology and management Vol. 460; p. 117863
Main Authors Stas, Suzanne M., Le, Tinh Cong, Tran, Hieu Dang, Hoang, Thi Thai Hoa, van Kuijk, Marijke, Le, An Van, Ngo, Duc Tung, van Oostrum, Ad, Phillips, Oliver L., Rutishauser, Ervan, Spracklen, Benedict D., Tran, Tuyet Thi Anh, Le, Trai Trong, Spracklen, Dominick V.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.03.2020
Subjects
Biomass
carbon
carbon sinks
Dead wood
emissions
Forest carbon
Forest degradation
Landsat
logging
lowland forests
Soil
soil properties
Southeast Asia
stems
topography
topsoil
Tree census
trees
tropics
Vietnam
Vietnam
Forest degradation
Southeast Asia
Forest carbon
Dead wood
Landsat
Tree census
Soil
Biomass
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Abstract •Aboveground carbon was lower in heavily logged forests, mainly of stems ≥60 cm dbh.•SOC in the 0–30 cm top layer stored ~50% of total carbon stocks in logged forests.•Logging intensity was the main factor explaining variability in aboveground carbon.•A new approach to estimate historical logging intensities is presented. Forest degradation in the tropics is generating large carbon (C) emissions. In tropical Asia, logging is the main driver of forest degradation. For effective implementation of REDD+ projects in logged forests in Southeast Asia, the impacts of logging on forest C stocks need to be assessed. Here, we assess C stocks in logged lowland forests in central Vietnam and explore correlations between logging intensity, soil, topography and living aboveground carbon (AGC) stocks. We present an approach to estimate historical logging intensities for the prevalent situation when complete records on logging history are unavailable. Landsat analysis and participatory mapping were used to quantify the density of historical disturbances, used as a proxy of logging intensities in the area. Carbon in AGC, dead wood, belowground carbon (BGC) and soil (SOC) was measured in twenty-four 0.25 ha plots that vary in logging intensity, and data on recent logging, soil properties, elevation and slope were also collected. Heavily logged forests stored only half the amount of AGC of stems ≥10 cm dbh as lightly logged forests, mainly due to a reduction in the number of large (≥60 cm dbh) trees. Carbon in AGC of small trees (5–10 cm dbh), dead wood and BGC comprised only small fractions of total C stocks, while SOC in the topsoil of 0–30 cm depth stored ~50% of total C stocks. Combining logging intensities with soil and topographic data showed that logging intensity was the main factor explaining the variability in AGC. Our research shows large reductions in AGC in medium and heavily logged forests. It highlights the critical importance of conserving big trees to maintain high forest C stocks and accounting for SOC in total C stock estimates.
AbstractList Forest degradation in the tropics is generating large carbon (C) emissions. In tropical Asia, logging is the main driver of forest degradation. For effective implementation of REDD+ projects in logged forests in Southeast Asia, the impacts of logging on forest C stocks need to be assessed. Here, we assess C stocks in logged lowland forests in central Vietnam and explore correlations between logging intensity, soil, topography and living aboveground carbon (AGC) stocks. We present an approach to estimate historical logging intensities for the prevalent situation when complete records on logging history are unavailable. Landsat analysis and participatory mapping were used to quantify the density of historical disturbances, used as a proxy of logging intensities in the area. Carbon in AGC, dead wood, belowground carbon (BGC) and soil (SOC) was measured in twenty-four 0.25 ha plots that vary in logging intensity, and data on recent logging, soil properties, elevation and slope were also collected. Heavily logged forests stored only half the amount of AGC of stems ≥10 cm dbh as lightly logged forests, mainly due to a reduction in the number of large (≥60 cm dbh) trees. Carbon in AGC of small trees (5–10 cm dbh), dead wood and BGC comprised only small fractions of total C stocks, while SOC in the topsoil of 0–30 cm depth stored ~50% of total C stocks. Combining logging intensities with soil and topographic data showed that logging intensity was the main factor explaining the variability in AGC. Our research shows large reductions in AGC in medium and heavily logged forests. It highlights the critical importance of conserving big trees to maintain high forest C stocks and accounting for SOC in total C stock estimates.
•Aboveground carbon was lower in heavily logged forests, mainly of stems ≥60 cm dbh.•SOC in the 0–30 cm top layer stored ~50% of total carbon stocks in logged forests.•Logging intensity was the main factor explaining variability in aboveground carbon.•A new approach to estimate historical logging intensities is presented. Forest degradation in the tropics is generating large carbon (C) emissions. In tropical Asia, logging is the main driver of forest degradation. For effective implementation of REDD+ projects in logged forests in Southeast Asia, the impacts of logging on forest C stocks need to be assessed. Here, we assess C stocks in logged lowland forests in central Vietnam and explore correlations between logging intensity, soil, topography and living aboveground carbon (AGC) stocks. We present an approach to estimate historical logging intensities for the prevalent situation when complete records on logging history are unavailable. Landsat analysis and participatory mapping were used to quantify the density of historical disturbances, used as a proxy of logging intensities in the area. Carbon in AGC, dead wood, belowground carbon (BGC) and soil (SOC) was measured in twenty-four 0.25 ha plots that vary in logging intensity, and data on recent logging, soil properties, elevation and slope were also collected. Heavily logged forests stored only half the amount of AGC of stems ≥10 cm dbh as lightly logged forests, mainly due to a reduction in the number of large (≥60 cm dbh) trees. Carbon in AGC of small trees (5–10 cm dbh), dead wood and BGC comprised only small fractions of total C stocks, while SOC in the topsoil of 0–30 cm depth stored ~50% of total C stocks. Combining logging intensities with soil and topographic data showed that logging intensity was the main factor explaining the variability in AGC. Our research shows large reductions in AGC in medium and heavily logged forests. It highlights the critical importance of conserving big trees to maintain high forest C stocks and accounting for SOC in total C stock estimates.
ArticleNumber 117863
Author Spracklen, Benedict D.
van Oostrum, Ad
Stas, Suzanne M.
Tran, Tuyet Thi Anh
Le, An Van
Hoang, Thi Thai Hoa
Tran, Hieu Dang
Ngo, Duc Tung
Phillips, Oliver L.
Le, Trai Trong
Le, Tinh Cong
van Kuijk, Marijke
Rutishauser, Ervan
Spracklen, Dominick V.
Author_xml – sequence: 1
  givenname: Suzanne M.
  surname: Stas
  fullname: Stas, Suzanne M.
  email: suzanne_stas@hotmail.com
  organization: School of Earth and Environment, University of Leeds, Leeds LS2 9JT, United Kingdom
– sequence: 2
  givenname: Tinh Cong
  surname: Le
  fullname: Le, Tinh Cong
  email: tinh.lc@thiennhienviet.org.vn
  organization: Viet Nature Conservation Centre, PO Box 89, No. 6 Dinh Le Street, Hanoi, Viet Nam
– sequence: 3
  givenname: Hieu Dang
  surname: Tran
  fullname: Tran, Hieu Dang
  email: danghieu.tran@thiennhienviet.org.vn
  organization: Viet Nature Conservation Centre, PO Box 89, No. 6 Dinh Le Street, Hanoi, Viet Nam
– sequence: 4
  givenname: Thi Thai Hoa
  surname: Hoang
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  email: hoangthithaihoa@huaf.edu.vn
  organization: Department of Soil Science, University of Agriculture and Forestry, Hue University, 102 Phung Hung Street, Hue, Viet Nam
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  givenname: Marijke
  surname: van Kuijk
  fullname: van Kuijk, Marijke
  email: m.vankuijk@uu.nl
  organization: Ecology and Biodiversity, Institute of Environmental Biology, Utrecht University, PO Box 80084, 3508 TB Utrecht, The Netherlands
– sequence: 6
  givenname: An Van
  surname: Le
  fullname: Le, An Van
  email: levanan@huaf.edu.vn
  organization: Center for Agriculture Forestry Research and Development, University of Agriculture and Forestry, Hue University, 102 Phung Hung Street, Hue, Viet Nam
– sequence: 7
  givenname: Duc Tung
  surname: Ngo
  fullname: Ngo, Duc Tung
  email: ngotungduc@huaf.edu.vn
  organization: Center for Agriculture Forestry Research and Development, University of Agriculture and Forestry, Hue University, 102 Phung Hung Street, Hue, Viet Nam
– sequence: 8
  givenname: Ad
  surname: van Oostrum
  fullname: van Oostrum, Ad
  email: ad.vanoostrum@wur.nl
  organization: ISRIC – World Soil Information, PO Box 353, 6700 AJ Wageningen, The Netherlands
– sequence: 9
  givenname: Oliver L.
  surname: Phillips
  fullname: Phillips, Oliver L.
  email: o.phillips@leeds.ac.uk
  organization: School of Geography, University of Leeds, Leeds LS2 9JT, United Kingdom
– sequence: 10
  givenname: Ervan
  surname: Rutishauser
  fullname: Rutishauser, Ervan
  email: er.rutishauser@gmail.com
  organization: Smithsonian Tropical Research Institute, Box 0843-03092, Balboa, Ancon, Panama
– sequence: 11
  givenname: Benedict D.
  surname: Spracklen
  fullname: Spracklen, Benedict D.
  email: b10spracklen@gmail.com
  organization: School of Earth and Environment, University of Leeds, Leeds LS2 9JT, United Kingdom
– sequence: 12
  givenname: Tuyet Thi Anh
  surname: Tran
  fullname: Tran, Tuyet Thi Anh
  email: tranthianhtuyet@huaf.edu.vn
  organization: Department of Soil Science, University of Agriculture and Forestry, Hue University, 102 Phung Hung Street, Hue, Viet Nam
– sequence: 13
  givenname: Trai Trong
  surname: Le
  fullname: Le, Trai Trong
  email: trai.letrong@thiennhienviet.org.vn
  organization: Viet Nature Conservation Centre, PO Box 89, No. 6 Dinh Le Street, Hanoi, Viet Nam
– sequence: 14
  givenname: Dominick V.
  surname: Spracklen
  fullname: Spracklen, Dominick V.
  email: dominick@env.leeds.ac.uk
  organization: School of Earth and Environment, University of Leeds, Leeds LS2 9JT, United Kingdom
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Keywords Forest degradation
Southeast Asia
Forest carbon
Dead wood
Landsat
Tree census
Soil
Biomass
Language English
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  start-page: 1
  year: 2015
  ident: 10.1016/j.foreco.2020.117863_b0055
  article-title: Fitting Linear Mixed-Effects Models using lme4
  publication-title: J. Stat. Softw.
  doi: 10.18637/jss.v067.i01
– ident: 10.1016/j.foreco.2020.117863_b0125
– volume: 2
  start-page: 24
  year: 2014
  ident: 10.1016/j.foreco.2020.117863_b0270
  article-title: Remote sensing of forest degradation in Southeast Asia-Aiming for a regional view through 5–30 m satellite data
  publication-title: Glob. Ecol. Conserv.
  doi: 10.1016/j.gecco.2014.07.007
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Snippet •Aboveground carbon was lower in heavily logged forests, mainly of stems ≥60 cm dbh.•SOC in the 0–30 cm top layer stored ~50% of total carbon stocks in logged...
Forest degradation in the tropics is generating large carbon (C) emissions. In tropical Asia, logging is the main driver of forest degradation. For effective...
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SubjectTerms Biomass
carbon
carbon sinks
Dead wood
emissions
Forest carbon
Forest degradation
Landsat
logging
lowland forests
Soil
soil properties
Southeast Asia
stems
topography
topsoil
Tree census
trees
tropics
Vietnam
Title Logging intensity drives variability in carbon stocks in lowland forests in Vietnam
URI https://dx.doi.org/10.1016/j.foreco.2020.117863
https://www.proquest.com/docview/2388737542
Volume 460
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