Elevated tropospheric CO2 and O3 may not alter initial wood decomposition rate or wood-decaying fungal community composition of Northern Hardwoods

Ebanyenle, Emmanuel; Burton, Andrew J.; Storer, Andrew J.; Richter, Dana L.; Glaeser, Jessie A.

doi:10.1016/j.ibiod.2016.04.026

Title: Elevated tropospheric CO2 and O3 may not alter initial wood decomposition rate or wood-decaying fungal community composition of Northern Hardwoods

Authors:: Ebanyenle, Emmanuel; Burton, Andrew J.; Storer, Andrew J.; Richter, Dana L.; Glaeser, Jessie A.

Publication Date:: Fri Jul 01 00:00:00 EDT 2016

Sponsoring Org.:: USDOE

OSTI Identifier:: 1359170

Grant/Contract Number:: FG02-95ER62125

Resource Type:: Publisher's Accepted Manuscript

Journal Name:: International Biodeterioration and Biodegradation

Additional Journal Information:: Journal Name: International Biodeterioration and Biodegradation Journal Volume: 111 Journal Issue: C; Journal ID: ISSN 0964-8305

Publisher:: Elsevier

Country of Publication:: United Kingdom

Language:: English

Citation Formats


                    Ebanyenle, Emmanuel, Burton, Andrew J., Storer, Andrew J., Richter, Dana L., and Glaeser, Jessie A. Elevated tropospheric CO2 and O3 may not alter initial wood decomposition rate or wood-decaying fungal community composition of Northern Hardwoods.  United Kingdom: N. p., 2016. 
Web.  doi:10.1016/j.ibiod.2016.04.026.

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                    Ebanyenle, Emmanuel, Burton, Andrew J., Storer, Andrew J., Richter, Dana L., & Glaeser, Jessie A. Elevated tropospheric CO2 and O3 may not alter initial wood decomposition rate or wood-decaying fungal community composition of Northern Hardwoods.  United Kingdom.  https://doi.org/10.1016/j.ibiod.2016.04.026

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                    Ebanyenle, Emmanuel, Burton, Andrew J., Storer, Andrew J., Richter, Dana L., and Glaeser, Jessie A. Fri .  
"Elevated tropospheric CO2 and O3 may not alter initial wood decomposition rate or wood-decaying fungal community composition of Northern Hardwoods".  United Kingdom.  https://doi.org/10.1016/j.ibiod.2016.04.026.

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@article{osti_1359170,

  title        = {Elevated tropospheric CO2 and O3 may not alter initial wood decomposition rate or wood-decaying fungal community composition of Northern Hardwoods},

  author       = {Ebanyenle, Emmanuel and Burton, Andrew J. and Storer, Andrew J. and Richter, Dana L. and Glaeser, Jessie A.},

  abstractNote = {},

  doi          = {10.1016/j.ibiod.2016.04.026},

  journal      = {International Biodeterioration and Biodegradation},

  number       = C,

  volume       = 111,

  place        = {United Kingdom},

  year         = {Fri Jul 01 00:00:00 EDT 2016},

  month        = {Fri Jul 01 00:00:00 EDT 2016}

}

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https://doi.org/10.1016/j.ibiod.2016.04.026

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Works referenced in this record:

Fungal succession — unravelling the unpredictable
journal, January 1998

Frankland, Juliet C.
Mycological Research, Vol. 102, Issue 1
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Relationship between wood-inhabiting fungi determined by molecular analysis (denaturing gradient gel electrophoresis) and quality of decaying logs
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Elevated CO2, litter chemistry, and decomposition: a synthesis
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Forest productivity under elevated CO2 and O3: positive feedbacks to soil N cycling sustain decade-long net primary productivity enhancement by CO2: NPP and N cycling under elevated CO2 and O3
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Zak, Donald R.; Pregitzer, Kurt S.; Kubiske, Mark E.
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Kubiske, Mark E.; Pregitzer, Kurt S.; Zak, Donald R.
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Karnosky, D. F.; Gagnon, Z. E.; Reed, D. D.
Canadian Journal of Forest Research, Vol. 22, Issue 11
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Independent, Interactive, and Species-Specific Responses of Leaf Litter Decomposition to Elevated CO2 and O3 in a Northern Hardwood Forest
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Parsons, William F. J.; Bockheim, James G.; Lindroth, Richard L.
Ecosystems, Vol. 11, Issue 4
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Effects of cloning and root-tip size on observations of fungal ITS sequences from Picea glauca roots
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A culture-based survey of fungi in soil from bat hibernacula in the eastern United States and its implications for detection of Geomyces destructans , the causal agent of bat white-nose syndrome
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Fungal community composition and function after long-term exposure of northern forests to elevated atmospheric CO2 and tropospheric O3: FUNGAL COMMUNITY RESPONSE TO CLIMATE CHANGE
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Plant traits and wood fates across the globe: rotted, burned, or consumed?
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Response of saprotrophic microfungi degrading the fulvic fraction of soil organic matter to different N fertilization intensities, different plant species cover and elevated atmospheric CO2 concentration
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Title: Elevated tropospheric CO2 and O3 may not alter initial wood decomposition rate or wood-decaying fungal community composition of Northern Hardwoods

Citation Formats

Fungal succession — unravelling the unpredictable journal, January 1998

Relationship between wood-inhabiting fungi determined by molecular analysis (denaturing gradient gel electrophoresis) and quality of decaying logs journal, December 2010

Elevated CO2, litter chemistry, and decomposition: a synthesis journal, April 2001

Forest productivity under elevated CO2 and O3: positive feedbacks to soil N cycling sustain decade-long net primary productivity enhancement by CO2: NPP and N cycling under elevated CO2 and O3 journal, October 2011

Growth and C allocation of Populus tremuloides genotypes in response to atmospheric CO2 and soil N availability journal, October 1998

Growth and biomass allocation of symptomatic and asymptomatic Populus tremuloides clones in response to seasonal ozone exposures journal, November 1992

Independent, Interactive, and Species-Specific Responses of Leaf Litter Decomposition to Elevated CO2 and O3 in a Northern Hardwood Forest journal, April 2008

Effects of cloning and root-tip size on observations of fungal ITS sequences from Picea glauca roots journal, January 2009

A culture-based survey of fungi in soil from bat hibernacula in the eastern United States and its implications for detection of Geomyces destructans , the causal agent of bat white-nose syndrome journal, March 2013

Fungal community composition and function after long-term exposure of northern forests to elevated atmospheric CO2 and tropospheric O3: FUNGAL COMMUNITY RESPONSE TO CLIMATE CHANGE journal, January 2011

Plant traits and wood fates across the globe: rotted, burned, or consumed? journal, October 2009

Response of saprotrophic microfungi degrading the fulvic fraction of soil organic matter to different N fertilization intensities, different plant species cover and elevated atmospheric CO2 concentration journal, September 2004

Effect of elevated [CO 2 ] on stem wood properties of mature Norway spruce grown at different soil nutrient availability: WOOD PROPERTIES IN CO 2 EXPOSURE journal, September 2004

Measuring wood specific gravity…Correctly journal, March 2010

Effects of Elevated Atmospheric CO 2 and/or O 3 on Intra- and Interspecific Competitive Ability of Aspen journal, March 2007

Fungal succession — unravelling the unpredictable
journal, January 1998

Relationship between wood-inhabiting fungi determined by molecular analysis (denaturing gradient gel electrophoresis) and quality of decaying logs
journal, December 2010

Elevated CO2, litter chemistry, and decomposition: a synthesis
journal, April 2001

Forest productivity under elevated CO2 and O3: positive feedbacks to soil N cycling sustain decade-long net primary productivity enhancement by CO2: NPP and N cycling under elevated CO2 and O3
journal, October 2011

Growth and C allocation of Populus tremuloides genotypes in response to atmospheric CO2 and soil N availability
journal, October 1998

Growth and biomass allocation of symptomatic and asymptomatic Populus tremuloides clones in response to seasonal ozone exposures
journal, November 1992

Independent, Interactive, and Species-Specific Responses of Leaf Litter Decomposition to Elevated CO2 and O3 in a Northern Hardwood Forest
journal, April 2008

Effects of cloning and root-tip size on observations of fungal ITS sequences from Picea glauca roots
journal, January 2009

A culture-based survey of fungi in soil from bat hibernacula in the eastern United States and its implications for detection of Geomyces destructans , the causal agent of bat white-nose syndrome
journal, March 2013

Fungal community composition and function after long-term exposure of northern forests to elevated atmospheric CO2 and tropospheric O3: FUNGAL COMMUNITY RESPONSE TO CLIMATE CHANGE
journal, January 2011

Plant traits and wood fates across the globe: rotted, burned, or consumed?
journal, October 2009

Response of saprotrophic microfungi degrading the fulvic fraction of soil organic matter to different N fertilization intensities, different plant species cover and elevated atmospheric CO2 concentration
journal, September 2004

Effect of elevated [CO ₂ ] on stem wood properties of mature Norway spruce grown at different soil nutrient availability: WOOD PROPERTIES IN CO ₂ EXPOSURE
journal, September 2004

Measuring wood specific gravity…Correctly
journal, March 2010

Effects of Elevated Atmospheric CO ₂ and/or O ₃ on Intra- and Interspecific Competitive Ability of Aspen
journal, March 2007