Plant root-driven hydraulic redistribution, root nutrient uptake and carbon exudation interact with soil properties to generate rhizosphere resource hotspots that vary in space and time

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ADS bibcode: 2014AGUFM.H33I0947E
year: 2014
Listed Authors: Espeleta, J. F.; Neumann, R. B.; Cardon, Z. G.; Mayer, K. U.; Rastetter, E. B.
Listed Institutions: University of Washington Seattle Campus, Seattle, WA, United States; Civil & Environmental Engineering, University of Washington Seattle Campus, Seattle, WA, United States; Marine Biological Laboratory, Woods Hole, MA, United States; Department of Earth, Ocean and Atmosphere, University of British Columbia, Vancouver, BC, Canada; Marine Biological Laboratory, Woods Hole, MA, United States

Plant root-driven hydraulic redistribution, root nutrient uptake and carbon exudation interact with soil properties to generate rhizosphere resource hotspots that vary in space and time

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