Articles citing this paper
Factors Controlling the Release of Phosphorus From Decomposing Wheat Roots
JK Martin and RB Cunningham
26(4) pp.715 - 728
34 articles found in Crossref database.
Measurement of microbial biomass phosphorus in rhizosphere soil
Martin J. K., Correll R. L.
Plant and Soil. 1989 113(2). p.213
Dual-labelling (15N and 33P) provides insights into stoichiometry and release of nitrogen and phosphorus from in situ mature lupin and canola below-ground residues
Foyjunnessa ,
McNeill Ann,
Doolette Ashlea, Mason Sean
Plant and Soil. 2018 426(1-2). p.77
First International Meeting on Microbial Phosphate Solubilization (2007)
Contribution of phosphorus issued from crop residues to plant nutrition
Thibaud Marie-Christine,
Morel Christian, Fardeau Jean-Claude
Soil Science and Plant Nutrition. 1988 34(4). p.481
Soil P availability as affected by the chemical composition of plant materials: implications for P-limiting agriculture in tropical Africa
Kwabiah A.B,
Stoskopf N.C,
Palm C.A, Voroney R.P
Agriculture, Ecosystems & Environment. 2003 100(1). p.53
Decomposition of plant residues of variable C/P ratio and the effect on soil phosphate availability
White R. E., Ayoub A. T.
Plant and Soil. 1983 74(2). p.163
Nitrogen and Phosphorus Release from Decomposing Leaves under Sub-Humid Tropical Conditions1
Kwabiah A. B.,
Stoskopf N. C.,
Voroney R. P., Palm C. A.
BIOTROPICA. 2001 33(2). p.229
The Role of Particulate Organic Matter in Phosphorus Cycling
Salas A. M.,
Elliott E. T.,
Westfall D. G.,
Cole C. V., Six J.
Soil Science Society of America Journal. 2003 67(1). p.181
Soil Organic Matter and Biological Activity (1985)
Nitrogen and Phosphorus Release from Decomposing Leaves under Sub‐Humid Tropical Conditions1
Kwabiah A. B.,
Stoskopf N. C.,
Voroney R. P., Palm C. A.
Biotropica. 2001 33(2). p.229
Cluster roots of Embothrium coccineum (Proteaceae) affect enzyme activities and phosphorus lability in rhizosphere soil
Delgado M.,
Zúñiga-Feest A.,
Almonacid L.,
Lambers H., Borie F.
Plant and Soil. 2015 395(1-2). p.189
Crop residue contributions to phosphorus pools in agricultural soils: A review
Damon Paul M.,
Bowden Bill,
Rose Terry, Rengel Zed
Soil Biology and Biochemistry. 2014 74 p.127
Linking organic P dynamics in tropical dry forests to changes in rainfall regime: Evidences of the Yucatan Peninsula
Campo Julio, Merino Agustín
Forest Ecology and Management. 2019 438 p.75
Nitrogen and phosphorus availability and mineralization in dryland reduced tillage cultivation: Effects of residue placement and chemical fertilizer
Singh Hema, Singh K.P.
Soil Biology and Biochemistry. 1994 26(6). p.695
A model system for studying the biochemistry and biology of the root-soil interface
Martin J.K., Foster R.C.
Soil Biology and Biochemistry. 1985 17(3). p.261
Transformations and movement of P in the rhizosphere
McLaughlin M. J.,
Alston A. M., Martin J. K.
Plant and Soil. 1987 97(3). p.391
Crop Residue Management Systems (2015)
Biofertilizers (2021)
EFFECTS OF PRETREATMENT WITH PHOSPHATE IN NATURAL POPULATIONS OF AGROSTIS CAPILLARIS L.
McCAIN S., DAVIES M. S.
New Phytologist. 1984 96(4). p.589
Soil Phosphorus Modeling for Modern Agriculture Requires Balance of Science and Practicality: A Perspective
Das Bianca,
Huth Neil,
Probert Merv,
Condron Leo, Schmidt Susanne
Journal of Environmental Quality. 2019 48(5). p.1281
Soil organic phosphorus mineralisation rate in cropped fields receiving various P sources
Raguet Pablo,
Houot Sabine,
Montenach Denis,
Mollier Alain,
Ziadi Noura,
Karam Antoine, Morel Christian
Nutrient Cycling in Agroecosystems. 2024
Phosphorus speciation in mature wheat and canola plants as affected by phosphorus supply
Noack Sarah R.,
McLaughlin Mike J.,
Smernik Ronald J.,
McBeath Therese M., Armstrong Roger D.
Plant and Soil. 2014 378(1-2). p.125
Dynamics of C, N, P and microbial community composition in particulate soil organic matter during residue decomposition
Ha K. V.,
Marschner P., Bünemann E. K.
Plant and Soil. 2008 303(1-2). p.253
Advances in Microbial Ecology (1977)
Rapid cycling of nitrogen and phosphorus from dying roots of Lolium perenne
Eason W. R., Newman E. I.
Oecologia. 1990 82(4). p.432
Measurement of phosphorus in the soil microbial biomass: Influence of plant material
McLaughlin M.J., Alston A.M.
Soil Biology and Biochemistry. 1985 17(3). p.271
(1977)
Options for increasing the biological cycling of phosphorus in low-input and organic agricultural systems
Guppy C. N., McLaughlin M. J.
Crop and Pasture Science. 2009 60(2). p.116
In situ 33P-labelling of canola and lupin to estimate total phosphorus accumulation in the root system
Foyjunnessa ,
McNeill Ann,
Doolette Ashlea,
Mason Sean, McLaughlin Mike J.
Plant and Soil. 2014 382(1-2). p.291
Effect of plant residue and fertilizer on grain yield of dryland rice under reduced tillage cultivation
Singh Hema, Singh K.P.
Soil and Tillage Research. 1995 34(2). p.115
The chemical nature of P accumulation in agricultural soils—implications for fertiliser management and design: an Australian perspective
McLaughlin Mike J.,
McBeath Therese M.,
Smernik Ron,
Stacey Sam P.,
Ajiboye Babasola, Guppy Chris
Plant and Soil. 2011 349(1-2). p.69
Response of soil microbial biomass dynamics to quality of plant materials with emphasis on P availability
Kwabiah A.B,
Palm C.A,
Stoskopf N.C, Voroney R.P
Soil Biology and Biochemistry. 2003 35(2). p.207
Crop residue phosphorus: speciation and potential bio-availability
Noack Sarah R.,
McLaughlin Mike J.,
Smernik Ronald J.,
McBeath Therese M., Armstrong Roger D.
Plant and Soil. 2012 359(1-2). p.375
Quantifying total phosphorus accumulation below-ground by canola and lupin plants using 33P-labelling
Foyjunnessa ,
McNeill Ann,
Doolette Ashlea,
Mason Sean, McLaughlin Mike J.
Plant and Soil. 2016 401(1-2). p.39
