223 Publications (Page 7 of 9)
2015
CTFS-ForestGEO: a worldwide network monitoring forests in an era of global change. Global Change Biology
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Decay rates of leaf litters from arbuscular mycorrhizal trees are more sensitive to soil effects than litters from ectomycorrhizal trees. Journal of Ecology
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Greenness indices from digital cameras predict the timing and seasonal dynamics of canopy-scale photosynthesis.Toomey, M.⋅Toomey, M.⋅Toomey, Michael⋅Toomey, M.⋅Friedl, M.A.⋅Friedl, Mark A⋅Friedl, M.A.⋅Friedl, M.A.⋅Frolking, Steve⋅Frolking, S.⋅Frolking, S.⋅Frolking, S.⋅Hufkens, K.⋅Hufkens, Koen⋅Hufkens, K.⋅Hufkens, K.⋅Klosterman, Stephen⋅Klosterman, S.⋅Klosterman, S.⋅Klosterman, S.⋅Sonnentag, Oliver⋅Sonnentag, O.⋅Sonnentag, O.⋅Sonnentag, O.⋅Baldocchi, Dennis D⋅Baldocchi, D.D.⋅Baldocchi, D.D.⋅Baldocchi, D.D.⋅Bernacchi, C.J.⋅Bernacchi, C.J.⋅Bernacchi, C.J.⋅Bernacchi, Carl J⋅Biraud, S.C.⋅Biraud, S.C.⋅Biraud, Sebastien C⋅Biraud, S.C.⋅Bohrer, G.⋅Bohrer, G.⋅Bohrer, G.⋅Bohrer, Gil⋅Brzostek, E.⋅Brzostek, E.⋅Brzostek, E.⋅Brzostek, Edward⋅Burns, S.P.⋅Burns, Sean P⋅Burns, S.P.⋅Burns, S.P.⋅Coursolle, C.⋅Coursolle, C.⋅Coursolle, C.⋅Coursolle, Carole⋅Hollinger, D.Y.⋅Hollinger, D.Y.⋅Hollinger, D.Y.⋅Hollinger, David Y⋅Margolis, Hank A⋅Margolis, H.A.⋅Margolis, H.A.⋅Margolis, H.A.⋅McCaughey, H.⋅Mccaughey, Harry⋅McCaughey, H.⋅McCaughey, H.⋅Monson, R.K.⋅Monson, Russell K⋅Monson, R.K.⋅Monson, R.K.⋅Munger, J.W.⋅Munger, J.W.⋅Munger, J.W.⋅Munger, J William⋅Pallardy, S.⋅Pallardy, S.⋅Pallardy, Stephen⋅Pallardy, S.⋅Phillips, R.P.⋅Phillips, R.P.⋅Phillips, R.P.⋅Phillips, Richard P⋅Torn, Margaret S⋅Torn, M.S.⋅Torn, M.S.⋅Torn, M.S.⋅Wharton, S.⋅Wharton, Sonia⋅Wharton, S.⋅Wharton, S.⋅Zeri, M.⋅Zeri, Marcelo⋅Zeri, M.⋅Zeri, M.⋅Richardson, A.D.⋅Richardson, A.D.⋅Richardson, A.D.⋅And, Andrew D and Richardson, Andrew DEcological applications : a publication of the Ecological Society of America, vol. 25, (no. 1), pp. 99-115, January 2015.
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Improved global simulations of gross primary product based on a new definition of water stress factor and a separate treatment of C3 and C4 plantsYan, H.⋅Yan, Hao⋅Yan, Hao⋅Wang, Shao-qiang⋅Wang, Shao-qiang⋅Wang, S. Q.⋅Billesbach, D.⋅Billesbach, Dave⋅Billesbach, Dave⋅Oechel, Walter⋅Oechel, W.⋅Oechel, Walter⋅Bohrer, G.⋅Bohrer, Gil⋅Bohrer, Gil⋅Meyers, Tilden⋅Meyers, Tilden⋅Meyers, T.⋅Martin, Timothy A.⋅Martin, T. A.⋅Martin, Timothy A⋅Matamala, Roser⋅Matamala, R.⋅Matamala, Roser⋅Phillips, R. P.⋅Phillips, Richard P.⋅Phillips, Richard P⋅Rahman, F.⋅Rahman, Faiz⋅Rahman, Faiz⋅Yu, Qin⋅Yu, Q.⋅Yu, Qin⋅Shugart, Herman H.⋅Shugart, Herman H and Shugart, H. H.Ecological Modelling, vol. 297, pp. 59, 2015-02-10.
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Improved global simulations of gross primary product based on a new definition of water stress factor and a separate treatment of C3 and C4 plants. Ecological Modelling
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Mycorrhizal type determines the magnitude and direction of root-induced changes in decomposition in a temperate forest.Brzostek, Edward R⋅Dragoni, Danilo⋅Brown, Zachary A and Phillips, Richard PThe New phytologist, vol. 206, (no. 4), pp. 1274-1282, June 2015.
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Mycorrhizal type determines the magnitude and direction of root-induced changes in decomposition in a temperate forest. New Phytologist
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Quantitative assessment of the differential impacts of arbuscular and ectomycorrhiza on soil carbon cycling. New Phytologist
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Redefining fine roots improves understanding of below-ground contributions to terrestrial biosphere processes.McCormack, M.L.⋅McCormack, M. Luke⋅McCormack, M Luke⋅McCormack, M.L.⋅McCormack, M Luke⋅McCormack, M Luke⋅Dickie, Ian A⋅Dickie, I.A.⋅Dickie, Ian A⋅Dickie, Ian A⋅Dickie, Ian A.⋅Dickie, I.A.⋅Eissenstat, David M⋅Eissenstat, D.M.⋅Eissenstat, David M.⋅Eissenstat, David M⋅Eissenstat, David M⋅Eissenstat, D.M.⋅Fahey, Timothy J⋅Fahey, Timothy J.⋅Fahey, Timothy J⋅Fahey, T.J.⋅Fahey, T.J.⋅Fahey, Timothy J⋅Fernandez, Christopher W.⋅Fernandez, Christopher W⋅Fernandez, Christopher W⋅Fernandez, Christopher W⋅Fernandez, C.W.⋅Fernandez, C.W.⋅Guo, Dali⋅Guo, Dali⋅Guo, D.⋅Guo, D.⋅Guo, Dali⋅Guo, Dali⋅Helmisaari, H.-S.⋅Helmisaari, Heljä-Sisko⋅Helmisaari, Helja-sisko⋅Helmisaari, H.-S.⋅Helmisaari, Heljä-Sisko⋅Helmisaari, Heljä-Sisko⋅Hobbie, Erik A⋅Hobbie, Erik A⋅Hobbie, E.A.⋅Hobbie, E.A.⋅Hobbie, Erik A⋅Hobbie, Erik A.⋅Iversen, C.M.⋅Iversen, Colleen M⋅Iversen, Colleen M⋅Iversen, C.M.⋅Iversen, Colleen M.⋅Iversen, Colleen M⋅Jackson, Robert B⋅Jackson, Robert B.⋅Jackson, R.B.⋅Jackson, R.B.⋅Jackson, Robert B⋅Jackson, Robert B⋅Leppälammi-Kujansuu, J.⋅Leppälammi-Kujansuu, Jaana⋅others⋅al.⋅Leppälammi-Kujansuu, J.⋅others⋅Norby, R.J.⋅Norby, R.J.⋅Norby, Richard J⋅Phillips, R.P.⋅Phillips, Richard P⋅Phillips, R.P.⋅Pregitzer, K.S.⋅Pregitzer, Kurt S⋅Pregitzer, K.S.⋅Pritchard, S.G.⋅Pritchard, Seth G⋅Pritchard, S.G.⋅Rewald, B.⋅Rewald, Boris⋅Rewald, B.⋅Zadworny, M.⋅Zadworny, Marcin and Zadworny, M.The New phytologist, vol. 207, (no. 3), pp. 505-518, August 2015.
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Redefining fine roots improves understanding of below-ground contributions to terrestrial biosphere processes. New Phytologist
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Rhizosphere processes are quantitatively important components of terrestrial carbon and nutrient cycles.Finzi, Adrien C⋅Abramoff, Rose Z⋅Spiller, Kimberly S⋅Brzostek, Edward R⋅Darby, Bridget A⋅Kramer, Mark A and Phillips, Richard PGlobal change biology, vol. 21, (no. 5), pp. 2082-2094, May 2015.
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Rhizosphere processes are quantitatively important components of terrestrial carbon and nutrient cycles. Global Change Biology
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The rhizosphere and hyphosphere differ in their impacts on carbon and nitrogen cycling in forests exposed to elevated CO2Meier, Ina⋅Pritchard, Seth⋅Brzostek, Edward⋅McCormack, M. and Phillips, RichardNew Phytologist, vol. 205, (no. 3), pp. 1174, 20150201.
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The rhizosphere and hyphosphere differ in their impacts on carbon and nitrogen cycling in forests exposed to elevated CO2. New Phytologist
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The role of ammonium oxidizing communities in mediating effects of an invasive plant on soil nitrificationShannon-Firestone, Sarah⋅Shannon-Firestone, Sarah⋅Reynolds, Heather L⋅Reynolds, Heather L⋅Phillips, Richard P⋅Phillips, Richard P⋅Flory, S. Luke⋅Flory, S. Luke⋅Yannarell, Anthony and Yannarell, AnthonySoil Biology and Biochemistry, vol. 90, pp. 274, November 2015.
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The role of ammonium oxidizing communities in mediating effects of an invasive plant on soil nitrification. Soil Biology and Biochemistry
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The role of isohydric and anisohydric species in determining ecosystem-scale response to severe drought.Roman, D T⋅Novick, K A⋅Brzostek, E R⋅Dragoni, D⋅Rahman, F and Phillips, R POecologia, vol. 179, (no. 3), pp. 641-654, November 2015.
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The role of isohydric and anisohydric species in determining ecosystem-scale response to severe drought. Oecologia
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Variations in the influence of diffuse light on gross primary productivity in temperate ecosystemsCheng, Susan J⋅Cheng, Susan J.⋅Bohrer, Gil⋅Bohrer, Gil⋅Steiner, Allison L.⋅Steiner, Allison L⋅Hollinger, David Y.⋅Hollinger, David Y⋅Suyker, Andrew⋅Suyker, Andrew⋅Phillips, Richard P.⋅Phillips, Richard P⋅Nadelhoffer, Knute J. and Nadelhoffer, Knute JAgricultural and Forest Meteorology, vol. 201, (no. C), pp. 110, 2015-02-15.
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Variations in the influence of diffuse light on gross primary productivity in temperate ecosystems. Agricultural and Forest Meteorology
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2014
An improved approach for remotely sensing water stress impacts on forest C uptake.Sims, Daniel A⋅Brzostek, Edward R⋅Rahman, Abdullah F⋅Dragoni, Danilo and Phillips, Richard PGlobal change biology, vol. 20, (no. 9), pp. 2856-2866, September 2014.
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An improved approach for remotely sensing water stress impacts on forest C uptake. Global Change Biology
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Chronic water stress reduces tree growth and the carbon sink of deciduous hardwood forests.Brzostek, Edward R⋅Brzostek, Edward R⋅Dragoni, Danilo⋅Dragoni, Danilo⋅Schmid, Hans Peter⋅Schmid, Hans Peter⋅Rahman, Abdullah F⋅Rahman, Abdullah F⋅Sims, Daniel⋅Sims, Daniel⋅Wayson, Craig A⋅Wayson, Craig A⋅Johnson, Daniel J⋅Johnson, Daniel J⋅Phillips, Richard P and Phillips, Richard PGlobal change biology, vol. 20, (no. 8), pp. 2531-2539, August 2014.
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Chronic water stress reduces tree growth and the carbon sink of deciduous hardwood forests. Global Change Biology
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CTFS-ForestGEO: a worldwide network monitoring forests in an era of global changeAnderson-Teixeira, Kristina J.⋅Anderson-Teixeira, Kristina J.⋅Anderson-Teixeira, K.J.⋅Davies, Stuart J.⋅Davies, S.J.⋅Davies, Stuart J.⋅Bennett, Amy C.⋅Bennett, Amy C.⋅Bennett, A.C.⋅Gonzalez-Akre, Erika B.⋅Gonzalez-Akre, E.B.⋅Gonzalez-Akre, Erika B.⋅Muller-Landau, Helene C.⋅Muller-Landau, Helene C.⋅Muller-Landau, H.C.⋅Joseph Wright, S.⋅Wright, S. Joseph⋅Wright, S. Joseph⋅Salim, Kamariah Abu⋅Abu Salim, Kamariah⋅Salim, Kamariah Abu⋅Zambrano, Angélica M. Almeyda⋅Zambrano, Ang{\'{E}}Lica M. Almeyda⋅Almeyda Zambrano, Angélica M.⋅Alonso, Alfonso⋅Alonso, Alfonso⋅Baltzer, Jennifer L.⋅Baltzer, Jennifer L.⋅Basset, Yves⋅Basset, Yves⋅Bourg, Norman A.⋅Bourg, Norman A.⋅Broadbent, Eben N.⋅Broadbent, Eben N.⋅Brockelman, Warren Y.⋅Brockelman, Warren Y.⋅Bunyavejchewin, Sarayudh⋅Bunyavejchewin, Sarayudh⋅Burslem, David F. R. P.⋅Burslem, David F. R. P.⋅Butt, Nathalie⋅Butt, Nathalie⋅Cao, Min⋅Cao, Min⋅Cardenas, Dairon⋅Cardenas, Dairon⋅Chuyong, George B.⋅Chuyong, George B.⋅Clay, Keith⋅Clay, Keith⋅Cordell, Susan⋅Cordell, Susan⋅Dattaraja, Handanakere S.⋅Dattaraja, Handanakere S.⋅Deng, Xiaobao⋅Deng, Xiaobao⋅Detto, Matteo⋅Detto, Matteo⋅Du, Xiaojun⋅Du, Xiaojun⋅Duque, Alvaro⋅Duque, Alvaro⋅Erikson, David L.⋅Erikson, David L.⋅Ewango, Corneille E.N.⋅Ewango, Corneille E. N.⋅Fischer, Gunter A.⋅Fischer, Gunter A.⋅Fletcher, Christine⋅Fletcher, Christine⋅Foster, Robin B.⋅Foster, Robin B.⋅Giardina, Christian P.⋅Giardina, Christian P.⋅Gilbert, Gregory S.⋅Gilbert, Gregory S.⋅Gunatilleke, Nimal⋅Gunatilleke, Nimal⋅Gunatilleke, Savitri⋅Gunatilleke, Savitri⋅Hao, Zhanqing⋅Hao, Zhanqing⋅Hargrove, William W.⋅Hargrove, William W.⋅Hart, Terese B.⋅Hart, Terese B.⋅Hau, Billy C. H.⋅Hau, Billy C.H.⋅He, Fangliang⋅He, Fangliang⋅Hoffman, Forrest M.⋅Hoffman, Forrest M.⋅Howe, Robert W.⋅Howe, Robert W.⋅Hubbell, Stephen P.⋅Hubbell, Stephen P.⋅Inman-Narahari, Faith M.⋅Inman-Narahari, Faith M.⋅Jansen, Patrick A.⋅Jansen, Patrick A.⋅Jiang, Mingxi⋅Jiang, Mingxi⋅Johnson, Daniel J.⋅Johnson, Daniel J.⋅Kanzaki, Mamoru⋅Kanzaki, Mamoru⋅Kassim, Abdul Rahman⋅Kassim, Abdul Rahman⋅Kenfack, David⋅Kenfack, David⋅Kibet, Staline⋅Kibet, Staline⋅Kinnaird, Margaret F.⋅Kinnaird, Margaret F.⋅Korte, Lisa⋅Korte, Lisa⋅Kral, Kamil⋅Kral, Kamil⋅Kumar, Jitendra⋅Kumar, Jitendra⋅Larson, Andrew J.⋅Larson, Andrew J.⋅Li, Yide⋅Li, Yide⋅Li, Xiankun⋅Li, Xiankun⋅Liu, Shirong⋅Liu, Shirong⋅Lum, Shawn K. Y.⋅Lum, Shawn K.Y.⋅Lutz, James A.⋅Lutz, James A.⋅Ma, Keping⋅Ma, Keping⋅Maddalena, Damian M.⋅Maddalena, Damian M.⋅Makana, Jean-Remy⋅Makana, Jean-Remy⋅Malhi, Yadvinder⋅Malhi, Yadvinder⋅Marthews, Toby⋅Marthews, Toby⋅Serudin, Rafizah Mat⋅Serudin, Rafizah Mat⋅Mat Serudin, Rafizah⋅McMahon, Sean M.⋅Mc Mahon, Sean M.⋅Mcmahon, S.M.⋅McShea, William J.⋅Mc Shea, William J.⋅Memiaghe, Hervé R.⋅Memiaghe, Hervé R.⋅Mi, Xiangcheng⋅Mi, Xiangcheng⋅Mizuno, Takashi⋅Mizuno, Takashi⋅Morecroft, Michael⋅Morecroft, Michael⋅Myers, Jonathan A.⋅Myers, Jonathan A.⋅Novotny, Vojtech⋅Novotny, Vojtech⋅de Oliveira, Alexandre A⋅Oliveira, Alexandre A.⋅Oliveira, Alexandre A.⋅Ong, Perry S.⋅Ong, Perry S.⋅Orwig, David A.⋅Orwig, David A.⋅Ostertag, Rebecca⋅Ostertag, Rebecca⋅Ouden, Jan⋅Ouden, Jan⋅den Ouden, Jan⋅Parker, Geoffrey G.⋅Parker, Geoffrey G.⋅Phillips, Richard P.⋅Phillips, Richard P.⋅Sack, Lawren⋅Sack, Lawren⋅Sainge, Moses N.⋅Sainge, Moses N.⋅Sang, Weiguo⋅Sang, Weiguo⋅Sri-Ngernyuang, Kriangsak⋅Sri-ngernyuang, Kriangsak⋅Sri-ngernyuang, Kriangsak⋅Sukumar, Raman⋅Sukumar, Raman⋅Sun, I-Fang⋅Sun, I. Fang⋅Sungpalee, Witchaphart⋅Sungpalee, Witchaphart⋅Suresh, Hebbalalu Sathyanarayana⋅Suresh, Hebbalalu Sathyanarayana⋅Tan, Sylvester⋅Tan, Sylvester⋅Thomas, Sean C.⋅Thomas, Sean C.⋅Thomas, Duncan W.⋅Thomas, Duncan W.⋅Thompson, Jill⋅Thompson, Jill⋅Turner, Benjamin L.⋅Turner, Benjamin L.⋅Uriarte, Maria⋅Uriarte, Maria⋅Valencia, Renato⋅Valencia, Renato⋅Vallejo, Marta I.⋅Vallejo, Marta I.⋅Vicentini, Alberto⋅Vicentini, Alberto⋅Vr?ka, T.⋅Vr{\v{s}}ka, Tom{\'{a}}{\v{s}}⋅Vrška, Tomáš⋅Vrška, Tomáš⋅Wang, Xihua⋅Wang, Xihua⋅Wang, Xugao⋅Wang, Xugao⋅Weiblen, George⋅Weiblen, George⋅Wolf, Amy⋅Wolf, Amy⋅Xu, Han⋅Xu, Han⋅Yap, Sandra⋅Yap, Sandra⋅Zimmerman, Jess and Zimmerman, JessGlobal Change Biology, pp. n/a.
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