Response to Editor to the comment by Delarue (2016) to our paper entitled "Persistent high temperature and low precipitation reduce peat carbon accumulation"

Response to comments by Hoffmann et al. on “Upland grasslands in Northern England were atmospheric carbon sinks regardless of management regime”

Eze, S
Palmer, SM
Chapman, PJ

January 2019

Hoffmann et al. suspected a likely overestimation of carbon (C) sink reported in our paper (Eze et a...

Data from: Peatland vascular plant functional types affect methane dynamics by altering microbial community structure

Robroek, Bjorn J.M.
Jassey, V.E.J.
Kox, M.A.R.
Berendsen, R.L.
Mills, R.T.E.
Cecillon, L.
Puissant, J.
Meima-Franke, M.
Bakker, P.
Bodelier, P.L.E.

January 2015

Item does not contain fulltext1. Peatlands are natural sources of atmospheric methane (CH4), an impo...

Tropical peatland carbon storage linked to global latitudinal trends in peat recalcitrance

Hodgkins, S.
Richardson, C.
Dommain, R.
Wang, H.
Glaser, P.
Verbeke, B.
Winkler, B.
Cobb, A.
Rich, V.
Missilmani, M.
Flanagan, N.
Ho, M.
Hoyt, A.
Harvey, C.
Vining, S.
Hough, M.
Moore, T.
Richard, P.
La Cruz, F.
Toufaily, J.
Hamdan, R.
Cooper, W.
Chanton, J.

September 2018

Peatlands represent large terrestrial carbon banks. Given that most peat accumulates in boreal regio...

Response to Editor to the comment by Delarue (2016) to our paper entitled "Persistent high temperature and low precipitation reduce peat carbon accumulation"

BRAGAZZA, L.
BUTTLER, A.
ROBROEK, B. J. M.
ALBRECHT, R.
JASSEY, V. E. J.
SIGNARBIEUX, C.
ZACCONE, CLAUDIO

January 2017

In his Letter to Editor, Delarue (2016) suggests that our observation of increased microbial activit...

Response to comment on “Peatland carbon stocks and burn history: Blanket bog peat core evidence highlights charcoal impacts on peat physical properties and long‐term carbon storage” by Evans et al.

Heinemeyer, Andreas
Burn, William Lee
Asena, Quinn
Jones, Anthony
Ashby, Mark

June 2019

We would like to thank the authors Evans et al. for submitting a comment on our recent publication “...

Role of microorganisms in the carbon cycling of peatlands

Mora Gomez, Juanita
Li, Qian
Leroy, Fabien
Gogo, Sébastien
Laggoun-Défarge, Fatima

October 2020

This is the final version of the following article : Role of microorganisms in the carbon cycling of...

Response to Editor to the comment by Schipper & Smith to our paper entitled "Continuous soil carbon storage of old permanent pastures in Amazonia"

Fontaine, Sébastien
Stahl, Clement
Klumpp, Katja
Picon-Cochard, Catherine
Grise, Marcia Mascarenha
Dezécache, Camille
Ponchant, Lise
Freycon, Vincent
Blanc, Lilian
Bonal, Damien
Burban, Benoît
Soussana, Jean-François
Blanfort, Vincent,
Alvarez, Gaël

January 2018

International audienceFirst of all, we recall that the message conveyed in our paper is that Amazoni...

Brief review on climate change and tropical peatlands

Lee Yit Leng
Osumanu Haruna Ahmed
Mohamadu Boyie Jalloh

March 2019

In 2008, the very extensive tropical peats were estimated to be about 182 million ha spanning South ...

Comment on: “Peatland carbon stocks and burn history: Blanket bog peat core evidence highlights charcoal impacts on peat physical properties and long-term carbon storage”, by A. Heinemeyer, Q. Asena, W.L. Burn and A.L. Jones (Geo: Geography and Environment. 2018; e00063)

Evans, C.D.
Baird, A.J.
Green, S.M.
Page, S.E.
Peacock, M.
Reed, M.S.
Rose, N.L.
Stoneman, R.
Thom, T.J.
Young, D.M.
Garnett, Mark H.

January 2019

A recent paper by Heinemeyer et al. (2018) in this journal has suggested that the use of prescribed ...

Comment on: “Peatland carbon stocks and burn history: blanket bog peat core evidence highlights charcoal impacts on peat physical properties and long-term carbon storage,” by A. Heinemeyer, Q. Asena, W.L. Burn and A.L. Jones (Geo: Geography and Environment 2018; e00063)

Evans, Chris D.
Baird, Andy J.
Green, Sophie M.
Page, Susan E.
Peacock, Michael
Reed, Mark S.
Rose, Neil L.
Stoneman, Rob
Thom, Tim J.
Young, Dylan M.
Garnett, Mark H.

June 2019

A recent paper by Heinemeyer et al. (2018) in this journal has suggested that the use of prescribed ...

Blanket peat biome endangered by climate change

Gallego-Sala, Angela V.
Prentice, I. Colin

December 2015

ArticleBlanket bog is a highly distinctive biome restricted to disjunct hyperoceanic regions. It is ...

The impacts of environmental changes on peatland microbial community structure and function

Dart, Michelle M.

August 2019

Northern peatlands store approximately 30% of the world’s soil carbon, and are also responsible for...

Groundwater residence time distributions in peatlands: implications for peat decomposition and accumulation Article Published Version Groundwater residence time distributions in peatlands: Implications for peat decomposition and accumulation

P J Morris
Waddington
J M
P J Morris
J M Waddington

April 2020

[1] Peat soils consist of poorly decomposed plant detritus, preserved by low decay rates, and deep p...

The direct and indirect role of climate in regulating litter decomposition processes in blanket peatlands

Bell, Michael Christopher

Peatlands are an important component of the global carbon (C) cycle, accounting for around 20-30 % o...

Indirect effects of experimental warming on dissolved organic carbon content in subsurface peat

Delarue, Frederic
Gogo, Sebastien
Buttler, Alexandre
Bragazza, Luca
Jassey, Vincent E. J.
Bernard, Gregory
Laggoun-Derarge, Fatima

December 2014

The peatland carbon store is threatened by climate change and is expected to provide positive feedba...

Response to comments by Hoffmann et al. on “Upland grasslands in Northern England were atmospheric carbon sinks regardless of management regime”

Eze, S
Palmer, SM
Chapman, PJ

January 2019

Hoffmann et al. suspected a likely overestimation of carbon (C) sink reported in our paper (Eze et a...

Data from: Peatland vascular plant functional types affect methane dynamics by altering microbial community structure

Robroek, Bjorn J.M.
Jassey, V.E.J.
Kox, M.A.R.
Berendsen, R.L.
Mills, R.T.E.
Cecillon, L.
Puissant, J.
Meima-Franke, M.
Bakker, P.
Bodelier, P.L.E.

January 2015

Item does not contain fulltext1. Peatlands are natural sources of atmospheric methane (CH4), an impo...

Tropical peatland carbon storage linked to global latitudinal trends in peat recalcitrance

Hodgkins, S.
Richardson, C.
Dommain, R.
Wang, H.
Glaser, P.
Verbeke, B.
Winkler, B.
Cobb, A.
Rich, V.
Missilmani, M.
Flanagan, N.
Ho, M.
Hoyt, A.
Harvey, C.
Vining, S.
Hough, M.
Moore, T.
Richard, P.
La Cruz, F.
Toufaily, J.
Hamdan, R.
Cooper, W.
Chanton, J.

September 2018

Peatlands represent large terrestrial carbon banks. Given that most peat accumulates in boreal regio...

Response to Editor to the comment by Delarue (2016) to our paper entitled "Persistent high temperature and low precipitation reduce peat carbon accumulation"

BRAGAZZA, L.
BUTTLER, A.
ROBROEK, B. J. M.
ALBRECHT, R.
JASSEY, V. E. J.
SIGNARBIEUX, C.
ZACCONE, CLAUDIO

January 2017

In his Letter to Editor, Delarue (2016) suggests that our observation of increased microbial activit...

Response to comment on “Peatland carbon stocks and burn history: Blanket bog peat core evidence highlights charcoal impacts on peat physical properties and long‐term carbon storage” by Evans et al.

Heinemeyer, Andreas
Burn, William Lee
Asena, Quinn
Jones, Anthony
Ashby, Mark

June 2019

We would like to thank the authors Evans et al. for submitting a comment on our recent publication “...

Role of microorganisms in the carbon cycling of peatlands

Mora Gomez, Juanita
Li, Qian
Leroy, Fabien
Gogo, Sébastien
Laggoun-Défarge, Fatima

October 2020

This is the final version of the following article : Role of microorganisms in the carbon cycling of...

Response to Editor to the comment by Schipper & Smith to our paper entitled "Continuous soil carbon storage of old permanent pastures in Amazonia"

Fontaine, Sébastien
Stahl, Clement
Klumpp, Katja
Picon-Cochard, Catherine
Grise, Marcia Mascarenha
Dezécache, Camille
Ponchant, Lise
Freycon, Vincent
Blanc, Lilian
Bonal, Damien
Burban, Benoît
Soussana, Jean-François
Blanfort, Vincent,
Alvarez, Gaël

January 2018

International audienceFirst of all, we recall that the message conveyed in our paper is that Amazoni...

Brief review on climate change and tropical peatlands

Lee Yit Leng
Osumanu Haruna Ahmed
Mohamadu Boyie Jalloh

March 2019

In 2008, the very extensive tropical peats were estimated to be about 182 million ha spanning South ...

Comment on: “Peatland carbon stocks and burn history: Blanket bog peat core evidence highlights charcoal impacts on peat physical properties and long-term carbon storage”, by A. Heinemeyer, Q. Asena, W.L. Burn and A.L. Jones (Geo: Geography and Environment. 2018; e00063)

Evans, C.D.
Baird, A.J.
Green, S.M.
Page, S.E.
Peacock, M.
Reed, M.S.
Rose, N.L.
Stoneman, R.
Thom, T.J.
Young, D.M.
Garnett, Mark H.

January 2019

A recent paper by Heinemeyer et al. (2018) in this journal has suggested that the use of prescribed ...

Comment on: “Peatland carbon stocks and burn history: blanket bog peat core evidence highlights charcoal impacts on peat physical properties and long-term carbon storage,” by A. Heinemeyer, Q. Asena, W.L. Burn and A.L. Jones (Geo: Geography and Environment 2018; e00063)

Evans, Chris D.
Baird, Andy J.
Green, Sophie M.
Page, Susan E.
Peacock, Michael
Reed, Mark S.
Rose, Neil L.
Stoneman, Rob
Thom, Tim J.
Young, Dylan M.
Garnett, Mark H.

June 2019

A recent paper by Heinemeyer et al. (2018) in this journal has suggested that the use of prescribed ...

Blanket peat biome endangered by climate change

Gallego-Sala, Angela V.
Prentice, I. Colin

December 2015

ArticleBlanket bog is a highly distinctive biome restricted to disjunct hyperoceanic regions. It is ...

The impacts of environmental changes on peatland microbial community structure and function

Dart, Michelle M.

August 2019

Northern peatlands store approximately 30% of the world’s soil carbon, and are also responsible for...

Groundwater residence time distributions in peatlands: implications for peat decomposition and accumulation Article Published Version Groundwater residence time distributions in peatlands: Implications for peat decomposition and accumulation

P J Morris
Waddington
J M
P J Morris
J M Waddington

April 2020

[1] Peat soils consist of poorly decomposed plant detritus, preserved by low decay rates, and deep p...

The direct and indirect role of climate in regulating litter decomposition processes in blanket peatlands

Bell, Michael Christopher

Peatlands are an important component of the global carbon (C) cycle, accounting for around 20-30 % o...

Indirect effects of experimental warming on dissolved organic carbon content in subsurface peat

Delarue, Frederic
Gogo, Sebastien
Buttler, Alexandre
Bragazza, Luca
Jassey, Vincent E. J.
Bernard, Gregory
Laggoun-Derarge, Fatima

December 2014

The peatland carbon store is threatened by climate change and is expected to provide positive feedba...

Response to comments by Hoffmann et al. on “Upland grasslands in Northern England were atmospheric carbon sinks regardless of management regime”

Eze, S
Palmer, SM
Chapman, PJ

January 2019

Hoffmann et al. suspected a likely overestimation of carbon (C) sink reported in our paper (Eze et a...

Data from: Peatland vascular plant functional types affect methane dynamics by altering microbial community structure

Robroek, Bjorn J.M.
Jassey, V.E.J.
Kox, M.A.R.
Berendsen, R.L.
Mills, R.T.E.
Cecillon, L.
Puissant, J.
Meima-Franke, M.
Bakker, P.
Bodelier, P.L.E.

January 2015

Item does not contain fulltext1. Peatlands are natural sources of atmospheric methane (CH4), an impo...

Tropical peatland carbon storage linked to global latitudinal trends in peat recalcitrance

Hodgkins, S.
Richardson, C.
Dommain, R.
Wang, H.
Glaser, P.
Verbeke, B.
Winkler, B.
Cobb, A.
Rich, V.
Missilmani, M.
Flanagan, N.
Ho, M.
Hoyt, A.
Harvey, C.
Vining, S.
Hough, M.
Moore, T.
Richard, P.
La Cruz, F.
Toufaily, J.
Hamdan, R.
Cooper, W.
Chanton, J.

September 2018

Peatlands represent large terrestrial carbon banks. Given that most peat accumulates in boreal regio...

Response to Editor to the comment by Delarue (2016) to our paper entitled "Persistent high temperature and low precipitation reduce peat carbon accumulation"

Abstract

Extracted data

Response to Editor to the comment by Delarue (2016) to our paper entitled "Persistent high temperature and low precipitation reduce peat carbon accumulation"

Abstract

Extracted data

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