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, Vol.237 (2), p.173-195
2.
Plant-microbe-soil interactions in the rhizosphere: an evolutionary perspective
by Lambers, Hans
Plant and soil, 2009, Vol.321 (1/2), p.83-115
3.
Rhizosphere: biophysics, biogeochemistry and ecological relevance
by Hinsinger, Philippe
Plant and soil, 2009, Vol.321 (1/2), p.117-152
4.
Phosphorus in soils and plants — facing phosphorus scarcity
by George, Timothy S
Plant and soil, 2016, 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, Vol.248 (1/2), p.43-59
6.
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, Vol.407 (1/2), p.119-134
7.
Advances in the rhizosphere: stretching the interface of life
by Mommer, Liesje
Plant and soil, 2016, Vol.407 (1/2), p.1-8
8.
Modelling the interactions between root system architecture, root functions and reactive transport processes in soil
by Gérard, Frédéric
Plant and soil, 2017, 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, Vol.348 (1/2), p.29-61
10.
Organic phosphorus: potential solutions for phosphorus security
by Haygarth, Philip M
Plant and soil, 2018, 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, 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, Vol.310 (1/2), p.151-165
13.
Rhizosphere: so many achievements and even more challenges
by Dessaux, Yves
Plant and soil, 2009, 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, Vol.412 (1/2), p.115-132
15.
Root-induced processes controlling phosphate availability in soils with contrasted P-fertilized treatments
by Devau, Nicolas
Plant and soil, 2011, Vol.348 (1/2), p.203-218
16.
Rainfall reduction impacts rhizosphere biogeochemistry in eucalypts grown in a deep Ferralsol in Brazil
by Pradier, Celine
Plant and soil, 2017, Vol.414 (1/2), p.339-354
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, 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, 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, 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, Vol.292 (1/2), p.63-77
