Fine-root biomass and fluxes of soil carbon in young stands of paper birch and trembling aspen as affected by elevated atmospheric CO \u3c inf\u3e 2 and tropospheric O \u3c inf\u3e 3

Interactive effects of atmospheric CO \u3csub\u3e2\u3c/sub\u3e and soil-N availability on fine roots of Populus tremuloides

Pregitzer, Kurt S.
Zak, Donald R.
Maziasz, Jennifer
DeForest, Jared
Curtis, Peter S.
Lussenhop, John

January 2000

The objective of this experiment was to understand how atmospheric carbon dioxide (CO2) and soil-nit...

Elevated carbon dioxide and ozone alter productivity and ecosystem carbon content in northern temperate forests

Talhelm, Alan F.
Pregitzer, Kurt S.
Kubiske, Mark E.
Zak, Donald R.
Campany, Courtney E. (R18541)
Burton, Andrew J.
Dickson, Richard E.
Hendrey, George
Isebrands, Judson G.
Lewin, Keith F.
Nagy, John
Karnosky, David F.

January 2014

Three young northern temperate forest communities in the north-central United States were exposed to...

Tropospheric O \u3c inf\u3e 3 moderates responses of temperate hardwood forests to elevated CO \u3c inf\u3e 2 : A synthesis of molecular to ecosystem results from the Aspen FACE project

Karnosky, D. F.
Zak, D. R.
Pregitzer, K. S.
Awmack, C. S.
Bockheim, J. G.
Dickson, R. E.
Hendrey, G. R.
Host, G. E.
King, J. S.
Kopper, B. J.
Kruger, E. L.
Kubiske, M. E.
Lindroth, R. L.
Mattson, W. J.
Mcdonald, E. P.
Noormets, A.
Oksanen, E.
Parsons, W. F.J.
Percy, K. E.
Podila, G. K.
Riemenschneider, D. E.
Sharma, P.
Thakur, R.
Sôber, A.
Sôber, J.
Jones, W. S.
Anttonen, S.
Vapaavuori, E.
Mankovska, B.
Heilman, W.
Isebrands, J. G.

June 2003

1. The impacts of elevated atmospheric CO2 and/or O3 have been examined over 4 years using an open-a...

Fine-root biomass and fluxes of soil carbon in young stands of paper birch and trembling aspen as affected by elevated atmospheric CO 2 and tropospheric O 3

Zak, Donald R.
Isebrands, J. G.
Dickson, R. E.
Sober, J.
Pregitzer, Kurt S.
Hendrey, G. R.
Karnosky, D. F.
King, J.

July 2001

Rising atmospheric CO 2 may stimulate future forest productivity, possibly increasing carbon storage...

Effects of elevated concentrations of atmospheric CO \u3c inf\u3e 2 and tropospheric O \u3c inf\u3e 3 on decomposition of fine roots

Chapman, Jack A.
King, John S.
Pregitzer, Kurt S.
Zak, Donald R.

January 2005

Rising atmospheric carbon dioxide (CO2) concentration ([CO 2]) could alter terrestrial carbon (C) cy...

Soil respiration, root biomass, and root turnover following long-term exposure of northern forests to elevated atmospheric CO \u3c inf\u3e 2 and tropospheric O \u3c inf\u3e 3

Pregitzer, Kurt S.
Burton, Andrew J.
King, John S.
Zak, Donald R.

October 2008

• The Rhinelander free-air CO2 enrichment (FACE) experiment is designed to understand ecosystem resp...

Soil respiration in northern forests exposed to elevated atmospheric carbon dioxide and ozone

Pregitzer, Kurt
Loya, Wendy
Kubiske, Mark
Zak, Donald

December 2006

The aspen free-air CO2 and O3 enrichment (FACTS II-FACE) study in Rhinelander, Wisconsin, USA, is de...

Tropospheric O \u3c inf\u3e 3 compromises net primary production in young stands of trembling aspen, paper birch and sugar maple in response to elevated atmospheric CO \u3c inf\u3e 2

King, John S.
Kubiske, Mark E.
Pregitzer, Kurt S.
Hendrey, George R.
McDonald, Evan P.
Giardina, Christian P.
Quinn, Vanessa S.
Karnosky, David F.

December 2005

• Concentrations of atmospheric CO2 and tropospheric ozone (O3) are rising concurrently in the atmos...

Reduction of soil carbon formation by tropospheric ozone under increased carbon dioxide levels

Loya, Wendy M.
Pregitzer, Kurt S.
Karberg, Noah J.
King, John S.
Giardina, Christian P.

October 2003

In the Northern Hemisphere, ozone levels in the troposphere have increased by 35 per cent over the p...

Species-specific responses to atmospheric carbon dioxide and tropospheric ozone mediate changes in soil carbon

Talhelm, Alan F.
Pregitzer, Kurt S.
Zak, Donald R.

November 2009

We repeatedly sampled the surface mineral soil (0–20 cm depth) in three northern temperate forest co...

Fine root chemistry and decomposition in model communities of north-temperate tree species show little response to elevated atmospheric CO \u3c inf\u3e 2 and varying soil resource availability

King, J. S.
Pregitzer, K. S.
Zak, D. R.
Holmes, W. E.
Schmidt, K.

December 2005

Rising atmospheric [CO2] has the potential to alter soil carbon (C) cycling by increasing the conten...

Soil respiration, root biomass, and root turnover following long-term exposure of northern forests to elevated atmospheric CO 2 and tropospheric O 3

Pregitzer, Kurt S.
Burton, Andrew J.
King, John S.
Zak, Donald R.

October 2008

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/65617/1/j.1469-8137.2008.02564.x.pd

Combined effects of atmospheric CO \u3c inf\u3e 2 and N availability on the belowground carbon and nitrogen dynamics of aspen mesocosms

Mikan, Carl J.
Zak, Donald R.
Kubiske, Mark E.
Pregitzer, Kurt S.

January 2000

It is uncertain whether elevated atmospheric CO2 will increase C storage in terrestrial ecosystems w...

Microbial community composition and function beneath temperate trees exposed to elevated atmospheric carbon dioxide and ozone

Holmes, William E.
Zak, Donald R.
White, David C.
Phillips, Rebecca L.

April 2002

We hypothesized that changes in plant growth resulting from atmospheric CO 2 and O 3 enrichment woul...

A multiyear synthesis of soil respiration responses to elevated atmospheric CO \u3c inf\u3e 2 from four forest FACE experiments

King, John S.
Hanson, Paul J.
Bernhardt, Emily
Deangelis, Paolo
Norby, Richard J.
Pregitzer, Kurt S.

June 2004

The rapidly rising concentration of atmospheric CO2 has the potential to alter forest and global car...

Interactive effects of atmospheric CO \u3csub\u3e2\u3c/sub\u3e and soil-N availability on fine roots of Populus tremuloides

Pregitzer, Kurt S.
Zak, Donald R.
Maziasz, Jennifer
DeForest, Jared
Curtis, Peter S.
Lussenhop, John

January 2000

The objective of this experiment was to understand how atmospheric carbon dioxide (CO2) and soil-nit...

Elevated carbon dioxide and ozone alter productivity and ecosystem carbon content in northern temperate forests

Talhelm, Alan F.
Pregitzer, Kurt S.
Kubiske, Mark E.
Zak, Donald R.
Campany, Courtney E. (R18541)
Burton, Andrew J.
Dickson, Richard E.
Hendrey, George
Isebrands, Judson G.
Lewin, Keith F.
Nagy, John
Karnosky, David F.

January 2014

Three young northern temperate forest communities in the north-central United States were exposed to...

Tropospheric O \u3c inf\u3e 3 moderates responses of temperate hardwood forests to elevated CO \u3c inf\u3e 2 : A synthesis of molecular to ecosystem results from the Aspen FACE project

Karnosky, D. F.
Zak, D. R.
Pregitzer, K. S.
Awmack, C. S.
Bockheim, J. G.
Dickson, R. E.
Hendrey, G. R.
Host, G. E.
King, J. S.
Kopper, B. J.
Kruger, E. L.
Kubiske, M. E.
Lindroth, R. L.
Mattson, W. J.
Mcdonald, E. P.
Noormets, A.
Oksanen, E.
Parsons, W. F.J.
Percy, K. E.
Podila, G. K.
Riemenschneider, D. E.
Sharma, P.
Thakur, R.
Sôber, A.
Sôber, J.
Jones, W. S.
Anttonen, S.
Vapaavuori, E.
Mankovska, B.
Heilman, W.
Isebrands, J. G.

June 2003

1. The impacts of elevated atmospheric CO2 and/or O3 have been examined over 4 years using an open-a...

Fine-root biomass and fluxes of soil carbon in young stands of paper birch and trembling aspen as affected by elevated atmospheric CO 2 and tropospheric O 3

Zak, Donald R.
Isebrands, J. G.
Dickson, R. E.
Sober, J.
Pregitzer, Kurt S.
Hendrey, G. R.
Karnosky, D. F.
King, J.

July 2001

Rising atmospheric CO 2 may stimulate future forest productivity, possibly increasing carbon storage...

Effects of elevated concentrations of atmospheric CO \u3c inf\u3e 2 and tropospheric O \u3c inf\u3e 3 on decomposition of fine roots

Chapman, Jack A.
King, John S.
Pregitzer, Kurt S.
Zak, Donald R.

January 2005

Rising atmospheric carbon dioxide (CO2) concentration ([CO 2]) could alter terrestrial carbon (C) cy...

Soil respiration, root biomass, and root turnover following long-term exposure of northern forests to elevated atmospheric CO \u3c inf\u3e 2 and tropospheric O \u3c inf\u3e 3

Pregitzer, Kurt S.
Burton, Andrew J.
King, John S.
Zak, Donald R.

October 2008

• The Rhinelander free-air CO2 enrichment (FACE) experiment is designed to understand ecosystem resp...

Soil respiration in northern forests exposed to elevated atmospheric carbon dioxide and ozone

Pregitzer, Kurt
Loya, Wendy
Kubiske, Mark
Zak, Donald

December 2006

The aspen free-air CO2 and O3 enrichment (FACTS II-FACE) study in Rhinelander, Wisconsin, USA, is de...

Tropospheric O \u3c inf\u3e 3 compromises net primary production in young stands of trembling aspen, paper birch and sugar maple in response to elevated atmospheric CO \u3c inf\u3e 2

King, John S.
Kubiske, Mark E.
Pregitzer, Kurt S.
Hendrey, George R.
McDonald, Evan P.
Giardina, Christian P.
Quinn, Vanessa S.
Karnosky, David F.

December 2005

• Concentrations of atmospheric CO2 and tropospheric ozone (O3) are rising concurrently in the atmos...

Reduction of soil carbon formation by tropospheric ozone under increased carbon dioxide levels

Loya, Wendy M.
Pregitzer, Kurt S.
Karberg, Noah J.
King, John S.
Giardina, Christian P.

October 2003

In the Northern Hemisphere, ozone levels in the troposphere have increased by 35 per cent over the p...

Species-specific responses to atmospheric carbon dioxide and tropospheric ozone mediate changes in soil carbon

Talhelm, Alan F.
Pregitzer, Kurt S.
Zak, Donald R.

November 2009

We repeatedly sampled the surface mineral soil (0–20 cm depth) in three northern temperate forest co...

Fine root chemistry and decomposition in model communities of north-temperate tree species show little response to elevated atmospheric CO \u3c inf\u3e 2 and varying soil resource availability

King, J. S.
Pregitzer, K. S.
Zak, D. R.
Holmes, W. E.
Schmidt, K.

December 2005

Rising atmospheric [CO2] has the potential to alter soil carbon (C) cycling by increasing the conten...

Soil respiration, root biomass, and root turnover following long-term exposure of northern forests to elevated atmospheric CO 2 and tropospheric O 3

Pregitzer, Kurt S.
Burton, Andrew J.
King, John S.
Zak, Donald R.

October 2008

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/65617/1/j.1469-8137.2008.02564.x.pd

Combined effects of atmospheric CO \u3c inf\u3e 2 and N availability on the belowground carbon and nitrogen dynamics of aspen mesocosms

Mikan, Carl J.
Zak, Donald R.
Kubiske, Mark E.
Pregitzer, Kurt S.

January 2000

It is uncertain whether elevated atmospheric CO2 will increase C storage in terrestrial ecosystems w...

Microbial community composition and function beneath temperate trees exposed to elevated atmospheric carbon dioxide and ozone

Holmes, William E.
Zak, Donald R.
White, David C.
Phillips, Rebecca L.

April 2002

We hypothesized that changes in plant growth resulting from atmospheric CO 2 and O 3 enrichment woul...

A multiyear synthesis of soil respiration responses to elevated atmospheric CO \u3c inf\u3e 2 from four forest FACE experiments

King, John S.
Hanson, Paul J.
Bernhardt, Emily
Deangelis, Paolo
Norby, Richard J.
Pregitzer, Kurt S.

June 2004

The rapidly rising concentration of atmospheric CO2 has the potential to alter forest and global car...

Interactive effects of atmospheric CO \u3csub\u3e2\u3c/sub\u3e and soil-N availability on fine roots of Populus tremuloides

Pregitzer, Kurt S.
Zak, Donald R.
Maziasz, Jennifer
DeForest, Jared
Curtis, Peter S.
Lussenhop, John

January 2000

The objective of this experiment was to understand how atmospheric carbon dioxide (CO2) and soil-nit...

Elevated carbon dioxide and ozone alter productivity and ecosystem carbon content in northern temperate forests

Talhelm, Alan F.
Pregitzer, Kurt S.
Kubiske, Mark E.
Zak, Donald R.
Campany, Courtney E. (R18541)
Burton, Andrew J.
Dickson, Richard E.
Hendrey, George
Isebrands, Judson G.
Lewin, Keith F.
Nagy, John
Karnosky, David F.

January 2014

Three young northern temperate forest communities in the north-central United States were exposed to...

Tropospheric O \u3c inf\u3e 3 moderates responses of temperate hardwood forests to elevated CO \u3c inf\u3e 2 : A synthesis of molecular to ecosystem results from the Aspen FACE project

Karnosky, D. F.
Zak, D. R.
Pregitzer, K. S.
Awmack, C. S.
Bockheim, J. G.
Dickson, R. E.
Hendrey, G. R.
Host, G. E.
King, J. S.
Kopper, B. J.
Kruger, E. L.
Kubiske, M. E.
Lindroth, R. L.
Mattson, W. J.
Mcdonald, E. P.
Noormets, A.
Oksanen, E.
Parsons, W. F.J.
Percy, K. E.
Podila, G. K.
Riemenschneider, D. E.
Sharma, P.
Thakur, R.
Sôber, A.
Sôber, J.
Jones, W. S.
Anttonen, S.
Vapaavuori, E.
Mankovska, B.
Heilman, W.
Isebrands, J. G.

June 2003

1. The impacts of elevated atmospheric CO2 and/or O3 have been examined over 4 years using an open-a...

Fine-root biomass and fluxes of soil carbon in young stands of paper birch and trembling aspen as affected by elevated atmospheric CO \u3c inf\u3e 2 and tropospheric O \u3c inf\u3e 3

Abstract

Extracted data

Fine-root biomass and fluxes of soil carbon in young stands of paper birch and trembling aspen as affected by elevated atmospheric CO \u3c inf\u3e 2 and tropospheric O \u3c inf\u3e 3

Abstract

Extracted data

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