1.
Bioavailability of soil inorganic P in the rhizosphere as affected by root-induced chemical changes: a review
by HINSINGER, Philippe
Plant and soil, 2001-12-01, Vol.237 (2), p.173-195
2.
Plant-microbe-soil interactions in the rhizosphere: an evolutionary perspective
by Lambers, Hans
Plant and soil, 2009-08-01, Vol.321 (1/2), p.83-115
3.
Rhizosphere: biophysics, biogeochemistry and ecological relevance
by Hinsinger, Philippe
Plant and soil, 2009-08-01, Vol.321 (1/2), p.117-152
4.
Phosphorus in soils and plants — facing phosphorus scarcity
by George, Timothy S
Plant and soil, 2016-04-01, Vol.401 (1-2), p.1-6
5.
Origins of root-mediated pH changes in the rhizosphere and their responses to environmental constraints: A review
by Hinsinger, Philippe
Plant and soil, 2003-01-01, Vol.248 (1/2), p.43-59
6.
Advances in the rhizosphere: stretching the interface of life
by Mommer, Liesje
Plant and soil, 2016-10-01, Vol.407 (1/2), p.1-8
7.
Phosphorus availability and microbial community in the rhizosphere of intercropped cereal and legume along a P-fertilizer gradient
by Tang, Xiaoyan
Plant and soil, 2016-10-01, Vol.407 (1/2), p.119-134
8.
Modelling the interactions between root system architecture, root functions and reactive transport processes in soil
by Gérard, Frédéric
Plant and soil, 2017-04-01, Vol.413 (1/2), p.161-180
9.
Acquisition of phosphorus and other poorly mobile nutrients by roots. Where do plant nutrition models fail?
by Hinsinger, Philippe
Plant and soil, 2011-11-01, Vol.348 (1/2), p.29-61
10.
Organic phosphorus: potential solutions for phosphorus security
by Haygarth, Philip M
Plant and soil, 2018-06-01, Vol.427 (1/2), p.1-3
11.
Role of trees and herbaceous vegetation beneath trees in maintaining arbuscular mycorrhizal communities in temperate alley cropping systems
by Battie-Laclau, Patricia
Plant and soil, 2019-07-22, Vol.453 (1-2), p.153-171
12.
Copper phytotoxicity affects root elongation and iron nutrition in durum wheat (Triticum turgidum durum L.)
by Michaud, Aurélia M
Plant and soil, 2008-01-01, Vol.310 (1/2), p.151-165
13.
Rhizosphere: so many achievements and even more challenges
by Dessaux, Yves
Plant and soil, 2009-06-11, Vol.321 (1-2), p.1-3
14.
Soil type determines how root and rhizosphere traits relate to phosphorus acquisition in field-grown maize genotypes
by Erel, R
Plant and soil, 2017-03-01, Vol.412 (1/2), p.115-132
15.
Rainfall reduction impacts rhizosphere biogeochemistry in eucalypts grown in a deep Ferralsol in Brazil
by Pradier, Celine
Plant and soil, 2017-05-01, Vol.414 (1/2), p.339-354
16.
Root-induced processes controlling phosphate availability in soils with contrasted P-fertilized treatments
by Devau, Nicolas
Plant and soil, 2011-11-01, Vol.348 (1/2), p.203-218
17.
Oxygen input controls the spatial and temporal dynamics of arsenic at the surface of a flooded paddy soil and in the rhizosphere of lowland rice (Oryza sativa L.): a microcosm stud...
by Bravin, Matthieu N
Plant and soil, 2008-01-01, Vol.312 (1/2), p.207-218
18.
Rhizosphere—perspectives and Challenges—a Tribute to Lorenz Hiltner 12–17 September 2004—Munich, Germany
by Hinsinger, Philippe
Plant and soil, 2006-05, Vol.283 (1-2), p.vii-viii
19.
Copper uptake kinetics in hydroponically-grown durum wheat (Triticum turgidum durum L.) as compared with soil's ability to supply copper
by Bravin, Matthieu N
Plant and soil, 2010-06-01, Vol.331 (1/2), p.91-104
20.
Copper concentration in plants and in the rhizosphere as influenced by the iron status of tomato (Lycopersicon esculentum L.)
by YVES CORNU, Jean
Plant and soil, 2007-03-01, Vol.292 (1/2), p.63-77
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