Soil carbon 4 per mille

Soil carbon 4 per mille

The ‘4 per mille Soils for Food Security and Climate’ was launched at the COP21 with an aspiration to increase global soil organic matter stocks by 4 per 1000 (or 0.4 %) per year as a compensation for the global emissions of greenhouse gases by anthropogenic sources. This paper surveyed the soil organic carbon (SOC) stock estimates and sequestration potentials from 20 regions in the world (New Zealand, Chile, South Africa, Australia, Tanzania, Indonesia, Kenya, Nigeria, India, China Taiwan, South Korea, China Mainland, United States of America, France, Canada, Belgium, England & Wales, Ireland, Scotland, and Russia). We asked whether the 4 per mille initiative is feasible for the region. The outcomes highlight region specific efforts and scopes for soil carbon sequestration. Reported soil C sequestration rates globally show that under best management practices, 4 per mille or even higher sequestration rates can be accomplished. High C sequestration rates (up to 10 per mille) can be achieved for soils with low initial SOC stock (topsoil less than 30 t C ha− 1), and at the first twenty years after implementation of best management practices. In addition, areas which have reached equilibrium will not be able to further increase their sequestration. We found that most studies on SOC sequestration only consider topsoil (up to 0.3 m depth), as it is considered to be most affected by management techniques. The 4 per mille number was based on a blanket calculation of the whole global soil profile C stock, however the potential to increase SOC is mostly on managed agricultural lands. If we consider 4 per mille in the top 1m of global agricultural soils, SOC sequestration is between 2-3 Gt C year− 1, which effectively offset 20–35% of global anthropogenic greenhouse gas emissions. As a strategy for climate change mitigation, soil carbon sequestration buys time over the next ten to twenty years while other effective sequestration and low carbon technologies become viable. The challenge for cropping farmers is to find disruptive technologies that will further improve soil condition and deliver increased soil carbon. Progress in 4 per mille requires collaboration and communication between scientists, farmers, policy makers, and marketeers.

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Main Authors: Minasny, Budiman, Malone, Brendan P., McBratney, Alex B., Angers, Denis A., Arrouays, Dominique, Chambers, Adam, Chaplot, Vincent, Chen, Zueng Sang, Cheng, Kun, Das, Bhabani S., Field, Damien J., Gimona, Alessandro, Hedley, Carolyn B., Hong, Suk Young, Mandal, Biswapati, Marchant, Ben P., Martin, Manuel, McConkey, Brian G., Mulder, Vera Leatitia, O'Rourke, Sharon, Richer-de-Forges, Anne C., Odeh, Inakwu, Padarian, José, Paustian, Keith, Pan, Genxing, Poggio, Laura, Savin, Igor, Stolbovoy, Vladimir, Stockmann, Uta, Sulaeman, Yiyi, Tsui, Chun Chih, Vågen, Tor Gunnar, van Wesemael, Bas, Winowiecki, Leigh
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Climate change, Greenhouse gases, Soil carbon, Soil carbon sequestration,
Online Access:https://research.wur.nl/en/publications/soil-carbon-4-per-mille-2
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spelling dig-wur-nl-wurpubs-5585332024-12-04 Minasny, Budiman Malone, Brendan P. McBratney, Alex B. Angers, Denis A. Arrouays, Dominique Chambers, Adam Chaplot, Vincent Chen, Zueng Sang Cheng, Kun Das, Bhabani S. Field, Damien J. Gimona, Alessandro Hedley, Carolyn B. Hong, Suk Young Mandal, Biswapati Marchant, Ben P. Martin, Manuel McConkey, Brian G. Mulder, Vera Leatitia O'Rourke, Sharon Richer-de-Forges, Anne C. Odeh, Inakwu Padarian, José Paustian, Keith Pan, Genxing Poggio, Laura Savin, Igor Stolbovoy, Vladimir Stockmann, Uta Sulaeman, Yiyi Tsui, Chun Chih Vågen, Tor Gunnar van Wesemael, Bas Winowiecki, Leigh Article/Letter to editor Geoderma 292 (2017) ISSN: 0016-7061 Soil carbon 4 per mille 2017 The ‘4 per mille Soils for Food Security and Climate’ was launched at the COP21 with an aspiration to increase global soil organic matter stocks by 4 per 1000 (or 0.4 %) per year as a compensation for the global emissions of greenhouse gases by anthropogenic sources. This paper surveyed the soil organic carbon (SOC) stock estimates and sequestration potentials from 20 regions in the world (New Zealand, Chile, South Africa, Australia, Tanzania, Indonesia, Kenya, Nigeria, India, China Taiwan, South Korea, China Mainland, United States of America, France, Canada, Belgium, England & Wales, Ireland, Scotland, and Russia). We asked whether the 4 per mille initiative is feasible for the region. The outcomes highlight region specific efforts and scopes for soil carbon sequestration. Reported soil C sequestration rates globally show that under best management practices, 4 per mille or even higher sequestration rates can be accomplished. High C sequestration rates (up to 10 per mille) can be achieved for soils with low initial SOC stock (topsoil less than 30 t C ha− 1), and at the first twenty years after implementation of best management practices. In addition, areas which have reached equilibrium will not be able to further increase their sequestration. We found that most studies on SOC sequestration only consider topsoil (up to 0.3 m depth), as it is considered to be most affected by management techniques. The 4 per mille number was based on a blanket calculation of the whole global soil profile C stock, however the potential to increase SOC is mostly on managed agricultural lands. If we consider 4 per mille in the top 1m of global agricultural soils, SOC sequestration is between 2-3 Gt C year− 1, which effectively offset 20–35% of global anthropogenic greenhouse gas emissions. As a strategy for climate change mitigation, soil carbon sequestration buys time over the next ten to twenty years while other effective sequestration and low carbon technologies become viable. The challenge for cropping farmers is to find disruptive technologies that will further improve soil condition and deliver increased soil carbon. Progress in 4 per mille requires collaboration and communication between scientists, farmers, policy makers, and marketeers. en application/pdf https://research.wur.nl/en/publications/soil-carbon-4-per-mille-2 10.1016/j.geoderma.2017.01.002 https://edepot.wur.nl/511498 Climate change Greenhouse gases Soil carbon Soil carbon sequestration https://creativecommons.org/licenses/by-nc-nd/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Climate change
Greenhouse gases
Soil carbon
Soil carbon sequestration
Climate change
Greenhouse gases
Soil carbon
Soil carbon sequestration
spellingShingle Climate change
Greenhouse gases
Soil carbon
Soil carbon sequestration
Climate change
Greenhouse gases
Soil carbon
Soil carbon sequestration
Minasny, Budiman
Malone, Brendan P.
McBratney, Alex B.
Angers, Denis A.
Arrouays, Dominique
Chambers, Adam
Chaplot, Vincent
Chen, Zueng Sang
Cheng, Kun
Das, Bhabani S.
Field, Damien J.
Gimona, Alessandro
Hedley, Carolyn B.
Hong, Suk Young
Mandal, Biswapati
Marchant, Ben P.
Martin, Manuel
McConkey, Brian G.
Mulder, Vera Leatitia
O'Rourke, Sharon
Richer-de-Forges, Anne C.
Odeh, Inakwu
Padarian, José
Paustian, Keith
Pan, Genxing
Poggio, Laura
Savin, Igor
Stolbovoy, Vladimir
Stockmann, Uta
Sulaeman, Yiyi
Tsui, Chun Chih
Vågen, Tor Gunnar
van Wesemael, Bas
Winowiecki, Leigh
Soil carbon 4 per mille
description The ‘4 per mille Soils for Food Security and Climate’ was launched at the COP21 with an aspiration to increase global soil organic matter stocks by 4 per 1000 (or 0.4 %) per year as a compensation for the global emissions of greenhouse gases by anthropogenic sources. This paper surveyed the soil organic carbon (SOC) stock estimates and sequestration potentials from 20 regions in the world (New Zealand, Chile, South Africa, Australia, Tanzania, Indonesia, Kenya, Nigeria, India, China Taiwan, South Korea, China Mainland, United States of America, France, Canada, Belgium, England & Wales, Ireland, Scotland, and Russia). We asked whether the 4 per mille initiative is feasible for the region. The outcomes highlight region specific efforts and scopes for soil carbon sequestration. Reported soil C sequestration rates globally show that under best management practices, 4 per mille or even higher sequestration rates can be accomplished. High C sequestration rates (up to 10 per mille) can be achieved for soils with low initial SOC stock (topsoil less than 30 t C ha− 1), and at the first twenty years after implementation of best management practices. In addition, areas which have reached equilibrium will not be able to further increase their sequestration. We found that most studies on SOC sequestration only consider topsoil (up to 0.3 m depth), as it is considered to be most affected by management techniques. The 4 per mille number was based on a blanket calculation of the whole global soil profile C stock, however the potential to increase SOC is mostly on managed agricultural lands. If we consider 4 per mille in the top 1m of global agricultural soils, SOC sequestration is between 2-3 Gt C year− 1, which effectively offset 20–35% of global anthropogenic greenhouse gas emissions. As a strategy for climate change mitigation, soil carbon sequestration buys time over the next ten to twenty years while other effective sequestration and low carbon technologies become viable. The challenge for cropping farmers is to find disruptive technologies that will further improve soil condition and deliver increased soil carbon. Progress in 4 per mille requires collaboration and communication between scientists, farmers, policy makers, and marketeers.
format Article/Letter to editor
topic_facet Climate change
Greenhouse gases
Soil carbon
Soil carbon sequestration
author Minasny, Budiman
Malone, Brendan P.
McBratney, Alex B.
Angers, Denis A.
Arrouays, Dominique
Chambers, Adam
Chaplot, Vincent
Chen, Zueng Sang
Cheng, Kun
Das, Bhabani S.
Field, Damien J.
Gimona, Alessandro
Hedley, Carolyn B.
Hong, Suk Young
Mandal, Biswapati
Marchant, Ben P.
Martin, Manuel
McConkey, Brian G.
Mulder, Vera Leatitia
O'Rourke, Sharon
Richer-de-Forges, Anne C.
Odeh, Inakwu
Padarian, José
Paustian, Keith
Pan, Genxing
Poggio, Laura
Savin, Igor
Stolbovoy, Vladimir
Stockmann, Uta
Sulaeman, Yiyi
Tsui, Chun Chih
Vågen, Tor Gunnar
van Wesemael, Bas
Winowiecki, Leigh
author_facet Minasny, Budiman
Malone, Brendan P.
McBratney, Alex B.
Angers, Denis A.
Arrouays, Dominique
Chambers, Adam
Chaplot, Vincent
Chen, Zueng Sang
Cheng, Kun
Das, Bhabani S.
Field, Damien J.
Gimona, Alessandro
Hedley, Carolyn B.
Hong, Suk Young
Mandal, Biswapati
Marchant, Ben P.
Martin, Manuel
McConkey, Brian G.
Mulder, Vera Leatitia
O'Rourke, Sharon
Richer-de-Forges, Anne C.
Odeh, Inakwu
Padarian, José
Paustian, Keith
Pan, Genxing
Poggio, Laura
Savin, Igor
Stolbovoy, Vladimir
Stockmann, Uta
Sulaeman, Yiyi
Tsui, Chun Chih
Vågen, Tor Gunnar
van Wesemael, Bas
Winowiecki, Leigh
author_sort Minasny, Budiman
title Soil carbon 4 per mille
title_short Soil carbon 4 per mille
title_full Soil carbon 4 per mille
title_fullStr Soil carbon 4 per mille
title_full_unstemmed Soil carbon 4 per mille
title_sort soil carbon 4 per mille
url https://research.wur.nl/en/publications/soil-carbon-4-per-mille-2
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