The mycorrhizal‐associated nutrient economy: a new framework for predicting carbon–nutrient couplings in temperate forests RP Phillips, E Brzostek, MG Midgley New Phytologist 199 (1), 41-51, 2013 | 1029 | 2013 |
Synthesis and modeling perspectives of rhizosphere priming W Cheng, WJ Parton, MA Gonzalez‐Meler, R Phillips, S Asao, ... New Phytologist 201 (1), 31-44, 2014 | 589 | 2014 |
Rhizosphere processes are quantitatively important components of terrestrial carbon and nutrient cycles AC Finzi, RZ Abramoff, KS Spiller, ER Brzostek, BA Darby, MA Kramer, ... Global change biology 21 (5), 2082-2094, 2015 | 571 | 2015 |
Chronic nitrogen additions suppress decomposition and sequester soil carbon in temperate forests SD Frey, S Ollinger, K Nadelhoffer, R Bowden, E Brzostek, A Burton, ... Biogeochemistry 121, 305-316, 2014 | 393 | 2014 |
The role of isohydric and anisohydric species in determining ecosystem-scale response to severe drought DT Roman, KA Novick, ER Brzostek, D Dragoni, F Rahman, RP Phillips Oecologia 179, 641-654, 2015 | 279 | 2015 |
Root carbon inputs to the rhizosphere stimulate extracellular enzyme activity and increase nitrogen availability in temperate forest soils ER Brzostek, A Greco, JE Drake, AC Finzi Biogeochemistry 115, 65-76, 2013 | 255 | 2013 |
Dominant mycorrhizal association of trees alters carbon and nutrient cycling by selecting for microbial groups with distinct enzyme function TE Cheeke, RP Phillips, ER Brzostek, A Rosling, JD Bever, P Fransson New Phytologist 214 (1), 432-442, 2017 | 237 | 2017 |
Mycorrhizal type determines the magnitude and direction of root‐induced changes in decomposition in a temperate forest ER Brzostek, D Dragoni, ZA Brown, RP Phillips New Phytologist 206 (4), 1274-1282, 2015 | 237 | 2015 |
Chronic water stress reduces tree growth and the carbon sink of deciduous hardwood forests ER Brzostek, D Dragoni, HP Schmid, AF Rahman, D Sims, CA Wayson, ... Global change biology 20 (8), 2531-2539, 2014 | 222 | 2014 |
Fast-decaying plant litter enhances soil carbon in temperate forests but not through microbial physiological traits ME Craig, KM Geyer, KV Beidler, ER Brzostek, SD Frey, A Stuart Grandy, ... Nature Communications 13 (1), 1229, 2022 | 182 | 2022 |
Greenness indices from digital cameras predict the timing and seasonal dynamics of canopy‐scale photosynthesis M Toomey, MA Friedl, S Frolking, K Hufkens, S Klosterman, O Sonnentag, ... Ecological Applications 25 (1), 99-115, 2015 | 181 | 2015 |
Interactions among plants, bacteria, and fungi reduce extracellular enzyme activities under long‐term N fertilization JE Carrara, CA Walter, JS Hawkins, WT Peterjohn, C Averill, ER Brzostek Global Change Biology 24 (6), 2721-2734, 2018 | 176 | 2018 |
Feedbacks between plant N demand and rhizosphere priming depend on type of mycorrhizal association BN Sulman, ER Brzostek, C Medici, E Shevliakova, DNL Menge, ... Ecology letters 20 (8), 1043-1053, 2017 | 159 | 2017 |
Modeling the carbon cost of plant nitrogen acquisition: Mycorrhizal trade‐offs and multipath resistance uptake improve predictions of retranslocation ER Brzostek, JB Fisher, RP Phillips Journal of Geophysical Research: Biogeosciences 119 (8), 1684-1697, 2014 | 144 | 2014 |
Carbon cost of plant nitrogen acquisition: global carbon cycle impact from an improved plant nitrogen cycle in the Community Land Model M Shi, JB Fisher, ER Brzostek, RP Phillips Global change biology 22 (3), 1299-1314, 2016 | 136 | 2016 |
Root‐derived inputs are major contributors to soil carbon in temperate forests, but vary by mycorrhizal type AB Keller, ER Brzostek, ME Craig, JB Fisher, RP Phillips Ecology letters 24 (4), 626-635, 2021 | 122 | 2021 |
Substrate supply, fine roots, and temperature control proteolytic enzyme activity in temperate forest soils ER Brzostek, AC Finzi Ecology 92 (4), 892-902, 2011 | 120 | 2011 |
The rhizosphere and hyphosphere differ in their impacts on carbon and nitrogen cycling in forests exposed to elevated CO2 IC Meier, SG Pritchard, ER Brzostek, ML McCormack, RP Phillips New Phytologist 205 (3), 1164-1174, 2015 | 119 | 2015 |
Diverse mycorrhizal associations enhance terrestrial C storage in a global model BN Sulman, E Shevliakova, ER Brzostek, SN Kivlin, S Malyshev, ... Global Biogeochemical Cycles 33 (4), 501-523, 2019 | 117 | 2019 |
Decay rates of leaf litters from arbuscular mycorrhizal trees are more sensitive to soil effects than litters from ectomycorrhizal trees MG Midgley, E Brzostek, RP Phillips Journal of Ecology 103 (6), 1454-1463, 2015 | 116 | 2015 |