Climate change cannot be entirely responsible for soil carbon loss observed in England and Wales, 1978-2003

Evaluating changes in soil organic matter with climate using CENTURY in England and Wales

Sakrabani, Ruben
Hollis, John

March 2018

Soil organic C (SOC) dynamics are complex, and models have been developed for predicting future chan...

Evidence for large microbial-mediated losses of soil carbon under anthropogenic warming

García-Palacios, Pablo
Crowther, Thomas W.
Dacal, Marina
Hartley, Iain P.
Reinsch, Sabine
Rinnan, Riikka
Rousk, Johannes
van den Hoogen, Johan
Ye, Jian-Sheng
Bradford, Mark A.

July 2021

Anthropogenic warming is expected to accelerate global soil organic carbon (SOC) losses via microbia...

Carbon loss in the organic soil under agricultural use in several European countries

Li, Xiaofeng

January 2018

Global warming occurred in the past without manmade activities, the Earth was warme6d 5 degrees Cels...

Climate change cannot be entirely responsible for soil carbon loss observed in England and Wales, 1978-2003

Chapman, Stephen J.
Scott, W. Andy
Black, Helaina I.J.
Wattenbach, Martin
Milne, Ronnie
Campbell, Colin D.
Lilly, Allan
Ostle, Nick
Lumsdon, David G.
Millard, Pater
Towers, Willie
Zaehle, Sönke
Smith, Jo U.

December 2007

We present results from modelling studies, which suggest that, at most, only about 10-20% of recentl...

Climate change cannot be entirely responsible for soil carbon loss observed in England and Wales

Smith, Peter
Chapman, Stephen J.
Scott, W. Andy
Black, Helaina I.J.
Wattenbach, Martin
Milne, Ronnie
Campbell, Colin D.
Lilly, Allan
Ostle, Nick
Levy, Peter E.
Lumsdon, David G.
Millard, Peter
Towers, Willie
Zaehle, Sonke
Smith, Jo U.

January 2007

We present results from modelling studies, which suggest that, at most, only about 10–20% of recentl...

Carbon losses from all soils across England and Wales 1978-2003

Bellamy, P. H.
Loveland, P. J.
Bradley, R. I.
Lark, R. M.
Kirk, G. J. D.

January 2005

More than twice as much carbon is held in soils as in vegetation or the atmosphere(1), and changes i...

Is there an impact of climate change on soil carbon contents in England and Wales?

Barraclough, D.
Smith, P.
Worrall, F.
Black, H.
Bhogal, A.

April 2015

It is not yet clear how soils are responding to a warming climate. A major study using the National ...

Carbon losses from all soils across England and Wales 1978−200

Bellamy, Patricia H.
Loveland, Peter J.
Bradley, R. Ian
Lark, R. Murray
Kirk, Guy J. D.

September 2005

Most terrestrial carbon is held in soils, more than twice as much as in vegetation or the atmospher...

Carbon unlocked from soils

Schulze, E.
Freibauer, A.

January 2005

Changes in climate and land use are implicated as the main factors in the large-scale loss of carbon...

Can we model observed soil carbon changes from a dense inventory? A case study over England and Wales using three versions of the ORCHIDEE ecosystem model (AR5, AR5-PRIM and O-CN)

Guenet, B.
Moyano, F.
Vuichard, N.
Kirk, G.
Bellamy, P.
Zaehle, S.
Ciais, P.

December 2013

A widespread decrease of the topsoil carbon content was observed over England and Wales during the p...

Quantifying global soil carbon losses in response to warming

Crowther, T. W.
Todd-Brown, K. E.O.
Rowe, C. W.
Wieder, W. R.
Carey, J. C.
MacHmuller, M. B.
Snoek, B. L.
Fang, S.
Zhou, G.
Allison, S. D.
Blair, J. M.
Bridgham, S. D.
Burton, A. J.
Carrillo, Y.
Reich, P. B.
Clark, J. S.
Classen, A. T.
Dijkstra, F. A.
Elberling, B.
Emmett, B. A.
Estiarte, M.
Frey, S. D.
Guo, J.
Harte, J.
Jiang, L.
Johnson, B. R.
Kroël-Dulay, G.
Larsen, K. S.
Laudon, H.
Lavallee, J. M.
Luo, Y.
Lupascu, M.

November 2016

Predicting soil carbon loss with warming

van Gestel, Natasja
Shi, Zheng
van Groenigen, Kees Jan
Osenberg, Craig W
Andresen, Louise C
Dukes, Jeffrey S
Hovenden, Mark J
Luo, Yiqi
Michelsen, Anders
Pendall, Elise
Reich, Peter B
Schuur, Edward AG
Hungate, Bruce A

February 2018

The majority of the Earth's terrestrial carbon is stored in the soil. If anthropogenic warming stimu...

Evidence against recent climate-induced destabilisation of soil carbon from 14C analysis of riverine dissolved organic matter

Evans, Chris D.
Freeman, Chris
Cork, Lorna G.
Thomas, David N.
Reynolds, Brian
Billett, Michael F.
Garnett, Mark H.
Norris, David

January 2007

The stability of global soil carbon (C) represents a major uncertainty in forecasting future climate...

Evaluating changes in soil organic matter with climate using CENTURY in England and Wales

Sakrabani, Ruben
Hollis, John

March 2018

Soil organic C (SOC) dynamics are complex, and models have been developed for predicting future chan...

Evidence for large microbial-mediated losses of soil carbon under anthropogenic warming

García-Palacios, Pablo
Crowther, Thomas W.
Dacal, Marina
Hartley, Iain P.
Reinsch, Sabine
Rinnan, Riikka
Rousk, Johannes
van den Hoogen, Johan
Ye, Jian-Sheng
Bradford, Mark A.

July 2021

Anthropogenic warming is expected to accelerate global soil organic carbon (SOC) losses via microbia...

Carbon loss in the organic soil under agricultural use in several European countries

Li, Xiaofeng

January 2018

Global warming occurred in the past without manmade activities, the Earth was warme6d 5 degrees Cels...

Climate change cannot be entirely responsible for soil carbon loss observed in England and Wales, 1978-2003

Chapman, Stephen J.
Scott, W. Andy
Black, Helaina I.J.
Wattenbach, Martin
Milne, Ronnie
Campbell, Colin D.
Lilly, Allan
Ostle, Nick
Lumsdon, David G.
Millard, Pater
Towers, Willie
Zaehle, Sönke
Smith, Jo U.

December 2007

We present results from modelling studies, which suggest that, at most, only about 10-20% of recentl...

Climate change cannot be entirely responsible for soil carbon loss observed in England and Wales

Smith, Peter
Chapman, Stephen J.
Scott, W. Andy
Black, Helaina I.J.
Wattenbach, Martin
Milne, Ronnie
Campbell, Colin D.
Lilly, Allan
Ostle, Nick
Levy, Peter E.
Lumsdon, David G.
Millard, Peter
Towers, Willie
Zaehle, Sonke
Smith, Jo U.

January 2007

We present results from modelling studies, which suggest that, at most, only about 10–20% of recentl...

Carbon losses from all soils across England and Wales 1978-2003

Bellamy, P. H.
Loveland, P. J.
Bradley, R. I.
Lark, R. M.
Kirk, G. J. D.

January 2005

More than twice as much carbon is held in soils as in vegetation or the atmosphere(1), and changes i...

Is there an impact of climate change on soil carbon contents in England and Wales?

Barraclough, D.
Smith, P.
Worrall, F.
Black, H.
Bhogal, A.

April 2015

It is not yet clear how soils are responding to a warming climate. A major study using the National ...

Carbon losses from all soils across England and Wales 1978−200

Bellamy, Patricia H.
Loveland, Peter J.
Bradley, R. Ian
Lark, R. Murray
Kirk, Guy J. D.

September 2005

Most terrestrial carbon is held in soils, more than twice as much as in vegetation or the atmospher...

Carbon unlocked from soils

Schulze, E.
Freibauer, A.

January 2005

Changes in climate and land use are implicated as the main factors in the large-scale loss of carbon...

Can we model observed soil carbon changes from a dense inventory? A case study over England and Wales using three versions of the ORCHIDEE ecosystem model (AR5, AR5-PRIM and O-CN)

Guenet, B.
Moyano, F.
Vuichard, N.
Kirk, G.
Bellamy, P.
Zaehle, S.
Ciais, P.

December 2013

A widespread decrease of the topsoil carbon content was observed over England and Wales during the p...

Quantifying global soil carbon losses in response to warming

Crowther, T. W.
Todd-Brown, K. E.O.
Rowe, C. W.
Wieder, W. R.
Carey, J. C.
MacHmuller, M. B.
Snoek, B. L.
Fang, S.
Zhou, G.
Allison, S. D.
Blair, J. M.
Bridgham, S. D.
Burton, A. J.
Carrillo, Y.
Reich, P. B.
Clark, J. S.
Classen, A. T.
Dijkstra, F. A.
Elberling, B.
Emmett, B. A.
Estiarte, M.
Frey, S. D.
Guo, J.
Harte, J.
Jiang, L.
Johnson, B. R.
Kroël-Dulay, G.
Larsen, K. S.
Laudon, H.
Lavallee, J. M.
Luo, Y.
Lupascu, M.

November 2016

Predicting soil carbon loss with warming

van Gestel, Natasja
Shi, Zheng
van Groenigen, Kees Jan
Osenberg, Craig W
Andresen, Louise C
Dukes, Jeffrey S
Hovenden, Mark J
Luo, Yiqi
Michelsen, Anders
Pendall, Elise
Reich, Peter B
Schuur, Edward AG
Hungate, Bruce A

February 2018

The majority of the Earth's terrestrial carbon is stored in the soil. If anthropogenic warming stimu...

Evidence against recent climate-induced destabilisation of soil carbon from 14C analysis of riverine dissolved organic matter

Evans, Chris D.
Freeman, Chris
Cork, Lorna G.
Thomas, David N.
Reynolds, Brian
Billett, Michael F.
Garnett, Mark H.
Norris, David

January 2007

The stability of global soil carbon (C) represents a major uncertainty in forecasting future climate...

Evaluating changes in soil organic matter with climate using CENTURY in England and Wales

Sakrabani, Ruben
Hollis, John

March 2018

Soil organic C (SOC) dynamics are complex, and models have been developed for predicting future chan...

Evidence for large microbial-mediated losses of soil carbon under anthropogenic warming

García-Palacios, Pablo
Crowther, Thomas W.
Dacal, Marina
Hartley, Iain P.
Reinsch, Sabine
Rinnan, Riikka
Rousk, Johannes
van den Hoogen, Johan
Ye, Jian-Sheng
Bradford, Mark A.

July 2021

Anthropogenic warming is expected to accelerate global soil organic carbon (SOC) losses via microbia...

Carbon loss in the organic soil under agricultural use in several European countries

Li, Xiaofeng

January 2018

Global warming occurred in the past without manmade activities, the Earth was warme6d 5 degrees Cels...

Climate change cannot be entirely responsible for soil carbon loss observed in England and Wales, 1978-2003

Abstract

Extracted data

Climate change cannot be entirely responsible for soil carbon loss observed in England and Wales, 1978-2003

Abstract

Extracted data

Related items

Related items