223 Publications (Page 8 of 9)
2014
Local spatial structure of forest biomass and its consequences for remote sensing of carbon stocksRéjou-Méchain, M⋅Muller-Landau, H⋅Detto, M⋅Thomas, S⋅Toan, T⋅Saatchi, S⋅Barreto-Silva, J⋅Bourg, N⋅Bunyavejchewin, S⋅Butt, N⋅Brockelman, W⋅Cao, M⋅Cárdenas, D⋅Chiang, J-M⋅Chuyong, G⋅Clay, K⋅Condit, R⋅Dattaraja, H⋅Davies, S⋅Duque, A⋅Esufali, S⋅Ewango, C⋅Fernando, R⋅Fletcher, C⋅Gunatilleke, I⋅Hao, Z⋅Harms, K⋅Hart, T⋅Hérault, B⋅Howe, R⋅Hubbell, S⋅Johnson, D⋅Kenfack, D⋅Larson, A⋅Lin, L⋅Lin, Y⋅Lutz, J⋅Makana, J-R⋅Malhi, Y⋅Marthews, T⋅McEwan, R⋅Mc Mahon, S⋅McShea, W⋅Muscarella, R⋅Nathalang, A⋅Noor, N⋅Nytch, C⋅Oliveira, A⋅Phillips, R⋅Pongpattananurak, N⋅Punchi-Manage, R⋅Salim, R⋅Schurman, J⋅Sukumar, R⋅Suresh, H⋅Suwanvecho, U⋅Thomas, D⋅Thompson, J⋅Uríarte, M⋅Valencia, R⋅Vicentini, A⋅Wolf, A⋅Yap, S⋅Yuan, Z⋅Zartman, C⋅Zimmerman, J and Chave, JBiogeosciences, vol. 11, (no. 23), 2014.
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Local spatial structure of forest biomass and its consequences for remote sensing of carbon stocks. Biogeosciences
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Microbe-driven turnover offsets mineral-mediated storage of soil carbon under elevated CO2Sulman, Benjamin N⋅Phillips, Richard P⋅Oishi, A. Christopher⋅Shevliakova, Elena and Pacala, Stephen WNature Climate Change, vol. 4, (no. 12), pp. 1102, 2014-12-00.
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Modeling the carbon cost of plant nitrogen acquisition: Mycorrhizal trade-offs and multipath resistance uptake improve predictions of retranslocation. Journal of Geophysical Research: Biogeosciences
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Mycorrhizal associations of dominant trees influence nitrate leaching responses to N depositionMidgley, Meghan and Phillips, RichardBiogeochemistry, vol. 117, (no. 2-3), pp. 241-253, Mar 2014.
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Mycorrhizal associations of dominant trees influence nitrate leaching responses to N deposition. Biogeochemistry
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Root-induced changes in nutrient cycling in forests depend on exudation rates. Soil Biology and Biochemistry
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Synthesis and modeling perspectives of rhizosphere priming.Cheng, Weixin⋅Parton, William J⋅Gonzalez‐Meler, Miquel A⋅Gonzalez-Meler, Miquel A⋅Phillips, Richard⋅Asao, Shinichi⋅Mc Nickle, Gordon⋅Brzostek, Edward and Jastrow, Julie DThe New phytologist, vol. 201, (no. 1), pp. 31-44, 2014/Jan.
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Synthesis and modeling perspectives of rhizosphere priming. New Phytologist
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2013
Demonstration of technology to treat swine waste using geotextile bag, zeolite bed and constructed wetland. Ecological Engineering
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Fungal communities influence root exudation rates in pine seedlingsMeier, Ina C⋅Meier, Ina C⋅Avis, Peter G⋅Avis, Peter G⋅Phillips, Richard P and Phillips, Richard PFEMS Microbiology Ecology, vol. 83, (no. 3), pp. 585-595, 2013.
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Stoichiometry constrains microbial response to root exudation- insights from a model and a field experiment in a temperate forestDrake, J.⋅Drake, J. E.⋅Darby, B.⋅Darby, B. A.⋅Giasson, M.-A.⋅Giasson, M-A.⋅Kramer, M.⋅Kramer, M. A.⋅Phillips, R.⋅Phillips, R. P.⋅Finzi, A. C. and Finzi, A.Biogeosciences, vol. 10, (no. 2), 2013.
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Stoichiometry constrains microbial response to root exudation-insights from a model and a field experiment in a temperate forest. Biogeosciences
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The mycorrhizal-associated nutrient economy: a new framework for predicting carbon-nutrient couplings in temperate forests. New Phytologist
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Positive feedbacks to growth of an invasive grass through alteration of nitrogen cycling. Oecologia
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Roots and fungi accelerate carbon and nitrogen cycling in forests exposed to elevated CO2Phillips, Richard⋅Meier, Ina C⋅Bernhardt, Emily S⋅Grandy, A. S⋅Wickings, Kyle and Finzi, AdrienEcology Letters, vol. 15, (no. 9), pp. 1042-1049, Sep 2012.
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Roots and fungi accelerate carbon and nitrogen cycling in forests exposed to elevated CO2. Ecology Letters
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Enhanced root exudation induces microbial feedbacks to N cycling in a pine forest under long-term CO2 fumigation. Ecology Letters
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Increases in the flux of carbon belowground stimulate nitrogen uptake and sustain the long-term enhancement of forest productivity under elevated CO₂.Drake, John E.⋅Drake, John E.⋅Drake, J.E.⋅Drake, John E⋅Gallet-Budynek, Anne⋅Gallet-Budynek, Anne⋅Gallet-Budynek, Anne⋅Gallet-Budynek, A.⋅Hofmockel, Kirsten⋅Hofmockel, Kirsten S.⋅Hofmockel, Kirsten S.⋅Hofmockel, K.S.⋅Bernhardt, Emily S.⋅Bernhardt, Emily S⋅Bernhardt, Emily S.⋅Bernhardt, E.S.⋅Billings, Sharon A⋅Billings, S.A.⋅Billings, Sharon A.⋅Billings, Sharon A.⋅Jackson, R.B.⋅Jackson, Robert B⋅Jackson, Robert B.⋅Jackson, Robert B.⋅Johnsen, Kurt S.⋅Johnsen, Kurt S.⋅Johnsen, Kurt S⋅Johnsen, K.S.⋅Lichter, John⋅Lichter, J.⋅Lichter, John⋅Lichter, John⋅Mc Carthy, Heather⋅McCarthy, Heather R.⋅Mccarthy, H.R.⋅McCarthy, Heather R.⋅McCormack, M L⋅Mccormack, M.L.⋅McCormack, M. Luke⋅McCormack, M. Luke⋅Moore, D.J.P.⋅P. Moore, David J⋅Moore, David J P⋅al.⋅Moore, David J. P.⋅Oren, Ram⋅Oren, R.⋅Oren, Ram⋅Palmroth, S.⋅Palmroth, Sari⋅Palmroth, Sari⋅Phillips, Richard⋅Phillips, R.P.⋅Phillips, Richard P.⋅Pippen, Jeffrey S⋅Pippen, J.S.⋅Pippen, Jeffrey S.⋅Pritchard, S.G.⋅Pritchard, Seth G⋅Pritchard, Seth G.⋅Treseder, K.K.⋅Treseder, Kathleen K⋅Treseder, Kathleen K.⋅Schlesinger, William H.⋅Schlesinger, William H⋅Schlesinger, W.H.⋅Delucia, E.H.⋅Delucia, Evan H⋅DeLucia, Evan H.⋅De Lucia, Evan H⋅Finzi, A.C.⋅Finzi, Adrien C. and Finzi, Adrien CEcology letters, vol. 14, (no. 4), pp. 349-57, 2011/Apr.
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Increases in the flux of carbon belowground stimulate nitrogen uptake and sustain the long-term enhancement of forest productivity under elevated CO2Drake, John E⋅Drake, John E⋅Gallet-Budynek, Anne⋅Gallet-Budynek, Anne⋅Hofmockel, Kirsten S⋅Hofmockel, Kirsten⋅Bernhardt, Emily S⋅Bernhardt, Emily S⋅Billings, Sharon A⋅Billings, Sharon A⋅Jackson, Robert B⋅Jackson, Robert B⋅Johnsen, Kurt S⋅Johnsen, Kurt S⋅Lichter, John⋅Lichter, John⋅McCarthy, Heather R⋅Mc Carthy, Heather⋅McCormack, M. L⋅McCormack, M Luke⋅others⋅P. Moore, David J⋅Oren, Ram⋅Palmroth, Sari⋅Phillips, Richard⋅Pippen, Jeffrey S⋅Pritchard, Seth G⋅Treseder, Kathleen K⋅Schlesinger, William H⋅De Lucia, Evan H and Finzi, AdrienEcology Letters, vol. 14, (no. 4), pp. 349-357, Apr 2011.
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Increases in the flux of carbon belowground stimulate nitrogen uptake and sustain the long-term enhancement of forest productivity under elevated CO2. Ecology Letters
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2010
Biogeochemical consequences of changes in root-derived carbon inputs to soil in a forest exposed to CO2 enrichment. Geochimica et Cosmochimica Acta
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