Tropical forests are a net carbon source based on aboveground measurements of gain and loss. Baccini, A., Walker, W., Carvalho, L., Farina, M., Sulla-Menashe, D., & Houghton, R. A. Science, 358(6360):230–234, October, 2017. ![Tropical forests are a net carbon source based on aboveground measurements of gain and loss [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex Forests out of balance Are tropical forests a net source or net sink of atmospheric carbon dioxide? As fundamental a question as that is, there still is no agreement about the answer, with different studies suggesting that it is anything from a sizable sink to a modest source. Baccini et al. used 12 years of MODIS satellite data to determine how the aboveground carbon density of woody, live vegetation has changed throughout the entire tropics on an annual basis. They find that the tropics are a net carbon source, with losses owing to deforestation and reductions in carbon density within standing forests being double that of gains resulting from forest growth. Science, this issue p. 230 The carbon balance of tropical ecosystems remains uncertain, with top-down atmospheric studies suggesting an overall sink and bottom-up ecological approaches indicating a modest net source. Here we use 12 years (2003 to 2014) of MODIS pantropical satellite data to quantify net annual changes in the aboveground carbon density of tropical woody live vegetation, providing direct, measurement-based evidence that the world’s tropical forests are a net carbon source of 425.2 ± 92.0 teragrams of carbon per year (Tg C year–1). This net release of carbon consists of losses of 861.7 ± 80.2 Tg C year–1 and gains of 436.5 ± 31.0 Tg C year–1. Gains result from forest growth; losses result from deforestation and from reductions in carbon density within standing forests (degradation or disturbance), with the latter accounting for 68.9% of overall losses. Tropical forests release more CO2 to the atmosphere than they remove from it. Tropical forests release more CO2 to the atmosphere than they remove from it.
@article{baccini_tropical_2017,
title = {Tropical forests are a net carbon source based on aboveground measurements of gain and loss},
volume = {358},
copyright = {Copyright © 2017 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. http://www.sciencemag.org/about/science-licenses-journal-article-reuseThis is an article distributed under the terms of the Science Journals Default License.},
issn = {0036-8075, 1095-9203},
url = {http://science.sciencemag.org/content/358/6360/230},
doi = {10.1126/science.aam5962},
abstract = {Forests out of balance
Are tropical forests a net source or net sink of atmospheric carbon dioxide? As fundamental a question as that is, there still is no agreement about the answer, with different studies suggesting that it is anything from a sizable sink to a modest source. Baccini et al. used 12 years of MODIS satellite data to determine how the aboveground carbon density of woody, live vegetation has changed throughout the entire tropics on an annual basis. They find that the tropics are a net carbon source, with losses owing to deforestation and reductions in carbon density within standing forests being double that of gains resulting from forest growth.
Science, this issue p. 230
The carbon balance of tropical ecosystems remains uncertain, with top-down atmospheric studies suggesting an overall sink and bottom-up ecological approaches indicating a modest net source. Here we use 12 years (2003 to 2014) of MODIS pantropical satellite data to quantify net annual changes in the aboveground carbon density of tropical woody live vegetation, providing direct, measurement-based evidence that the world’s tropical forests are a net carbon source of 425.2 ± 92.0 teragrams of carbon per year (Tg C year–1). This net release of carbon consists of losses of 861.7 ± 80.2 Tg C year–1 and gains of 436.5 ± 31.0 Tg C year–1. Gains result from forest growth; losses result from deforestation and from reductions in carbon density within standing forests (degradation or disturbance), with the latter accounting for 68.9\% of overall losses.
Tropical forests release more CO2 to the atmosphere than they remove from it.
Tropical forests release more CO2 to the atmosphere than they remove from it.},
language = {en},
number = {6360},
urldate = {2019-04-03},
journal = {Science},
author = {Baccini, A. and Walker, W. and Carvalho, L. and Farina, M. and Sulla-Menashe, D. and Houghton, R. A.},
month = oct,
year = {2017},
pmid = {28971966},
pages = {230--234}
}
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No claim to original U.S. Government Works. http://www.sciencemag.org/about/science-licenses-journal-article-reuseThis is an article distributed under the terms of the Science Journals Default License.","issn":"0036-8075, 1095-9203","url":"http://science.sciencemag.org/content/358/6360/230","doi":"10.1126/science.aam5962","abstract":"Forests out of balance Are tropical forests a net source or net sink of atmospheric carbon dioxide? As fundamental a question as that is, there still is no agreement about the answer, with different studies suggesting that it is anything from a sizable sink to a modest source. Baccini et al. used 12 years of MODIS satellite data to determine how the aboveground carbon density of woody, live vegetation has changed throughout the entire tropics on an annual basis. They find that the tropics are a net carbon source, with losses owing to deforestation and reductions in carbon density within standing forests being double that of gains resulting from forest growth. Science, this issue p. 230 The carbon balance of tropical ecosystems remains uncertain, with top-down atmospheric studies suggesting an overall sink and bottom-up ecological approaches indicating a modest net source. Here we use 12 years (2003 to 2014) of MODIS pantropical satellite data to quantify net annual changes in the aboveground carbon density of tropical woody live vegetation, providing direct, measurement-based evidence that the world’s tropical forests are a net carbon source of 425.2 ± 92.0 teragrams of carbon per year (Tg C year–1). This net release of carbon consists of losses of 861.7 ± 80.2 Tg C year–1 and gains of 436.5 ± 31.0 Tg C year–1. Gains result from forest growth; losses result from deforestation and from reductions in carbon density within standing forests (degradation or disturbance), with the latter accounting for 68.9% of overall losses. Tropical forests release more CO2 to the atmosphere than they remove from it. 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No claim to original U.S. Government Works. http://www.sciencemag.org/about/science-licenses-journal-article-reuseThis is an article distributed under the terms of the Science Journals Default License.},\n\tissn = {0036-8075, 1095-9203},\n\turl = {http://science.sciencemag.org/content/358/6360/230},\n\tdoi = {10.1126/science.aam5962},\n\tabstract = {Forests out of balance\nAre tropical forests a net source or net sink of atmospheric carbon dioxide? As fundamental a question as that is, there still is no agreement about the answer, with different studies suggesting that it is anything from a sizable sink to a modest source. Baccini et al. used 12 years of MODIS satellite data to determine how the aboveground carbon density of woody, live vegetation has changed throughout the entire tropics on an annual basis. They find that the tropics are a net carbon source, with losses owing to deforestation and reductions in carbon density within standing forests being double that of gains resulting from forest growth.\nScience, this issue p. 230\nThe carbon balance of tropical ecosystems remains uncertain, with top-down atmospheric studies suggesting an overall sink and bottom-up ecological approaches indicating a modest net source. Here we use 12 years (2003 to 2014) of MODIS pantropical satellite data to quantify net annual changes in the aboveground carbon density of tropical woody live vegetation, providing direct, measurement-based evidence that the world’s tropical forests are a net carbon source of 425.2 ± 92.0 teragrams of carbon per year (Tg C year–1). This net release of carbon consists of losses of 861.7 ± 80.2 Tg C year–1 and gains of 436.5 ± 31.0 Tg C year–1. Gains result from forest growth; losses result from deforestation and from reductions in carbon density within standing forests (degradation or disturbance), with the latter accounting for 68.9\\% of overall losses.\nTropical forests release more CO2 to the atmosphere than they remove from it.\nTropical forests release more CO2 to the atmosphere than they remove from it.},\n\tlanguage = {en},\n\tnumber = {6360},\n\turldate = {2019-04-03},\n\tjournal = {Science},\n\tauthor = {Baccini, A. and Walker, W. and Carvalho, L. and Farina, M. and Sulla-Menashe, D. and Houghton, R. A.},\n\tmonth = oct,\n\tyear = {2017},\n\tpmid = {28971966},\n\tpages = {230--234}\n}\n\n","author_short":["Baccini, A.","Walker, W.","Carvalho, L.","Farina, M.","Sulla-Menashe, D.","Houghton, R. 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