Richard P. Phillips, Ph.D.

Affiliations: 
Indiana University, Bloomington, Bloomington, IN, United States 
Area:
terrestrial biogeochemistry, global change ecology
Website:
http://www.bio.indiana.edu/faculty/directory/profile.php?person=rpp6
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"Richard Phillips"

Parents

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Timothy J. Fahey grad student 2005 Cornell (GeograTree)
 (Rhizosphere carbon flux and rhizosphere effects on microbial activity and nutrient availability in northern hardwood forests.)
Emily S. Bernhardt post-doc 2005-2008 Duke
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Publications

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Saifuddin M, Bhatnagar JM, Phillips RP, et al. (2021) Ectomycorrhizal fungi are associated with reduced nitrogen cycling rates in temperate forest soils without corresponding trends in bacterial functional groups. Oecologia
Terrer C, Vicca S, Stocker BD, et al. (2017) Ecosystem responses to elevated CO2 governed by plant-soil interactions and the cost of nitrogen acquisition. The New Phytologist
Bailey VL, Bond-Lamberty B, DeAngelis K, et al. (2017) Soil carbon cycling proxies: Understanding their critical role in predicting climate change feedbacks. Global Change Biology
Fisher JB, Sweeney S, Brzostek ER, et al. (2016) Tree-mycorrhizal associations detected remotely from canopy spectral properties Global Change Biology
Huajun Y, Phillips RP, Liang R, et al. (2016) Resource stoichiometry mediates soil C loss and nutrient transformations in forest soils Applied Soil Ecology. 108: 248-257
Sulman BN, Roman DT, Yi K, et al. (2016) High atmospheric demand for water can limit forest carbon uptake and transpiration as severely as dry soil Geophysical Research Letters
Rosling A, Midgley MG, Cheeke T, et al. (2015) Phosphorus cycling in deciduous forest soil differs between stands dominated by ecto- and arbuscular mycorrhizal trees. The New Phytologist
Shi M, Fisher JB, Brzostek ER, et al. (2015) Carbon Cost of Plant Nitrogen Acquisition: Global Carbon Cycle Impact from An Improved Plant Nitrogen Cycle in the Community Land Model. Global Change Biology
Schlesinger WH, Dietze MC, Jackson RB, et al. (2015) Forest Biogeochemistry in Response to Drought. Global Change Biology
Roman DT, Novick KA, Brzostek ER, et al. (2015) The role of isohydric and anisohydric species in determining ecosystem-scale response to severe drought. Oecologia. 179: 641-54
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