Alan E Richardson
Alan E Richardson
CSIRO Agriculture & Food
Verified email at
Cited by
Cited by
Acquisition of phosphorus and nitrogen in the rhizosphere and plant growth promotion by microorganisms
AE Richardson, JM Barea, AM McNeill, C Prigent-Combaret
Plant and soil 321 (1-2), 305-339, 2009
Prospects for using soil microorganisms to improve the acquisition of phosphorus by plants
AE Richardson
Functional Plant Biology 28 (9), 897-906, 2001
Soil microorganisms mediating phosphorus availability update on microbial phosphorus
AE Richardson, RJ Simpson
Plant physiology 156 (3), 989-996, 2011
Plant and microbial strategies to improve the phosphorus efficiency of agriculture
AE Richardson, JP Lynch, PR Ryan, E Delhaize, FA Smith, SE Smith, ...
Plant and soil 349 (1-2), 121-156, 2011
Extracellular secretion of Aspergillus phytase from Arabidopsis roots enables plants to obtain phosphorus from phytate
AE Richardson, PA Hadobas, JE Hayes
The Plant Journal 25 (6), 641-649, 2001
Soil microorganisms and phosphorus availability
AE Richardson
Plant mechanisms to optimise access to soil phosphorus
AE Richardson, PJ Hocking, RJ Simpson, TS George
Crop and Pasture Science 60 (2), 124-143, 2009
Stable soil organic matter: a comparison of C: N: P: S ratios in Australian and other world soils
CA Kirkby, JA Kirkegaard, AE Richardson, LJ Wade, C Blanchard, ...
Geoderma 163 (3-4), 197-208, 2011
Strategies and agronomic interventions to improve the phosphorus-use efficiency of farming systems
RJ Simpson, A Oberson, RA Culvenor, MH Ryan, EJ Veneklaas, ...
Plant and Soil 349 (1-2), 89-120, 2011
Acid phosphomonoesterase and phytase activities of wheat (Triticum aestivum L.) roots and utilization of organic phosphorus substrates by seedlings grown in …
AE Richardson, PA Hadobas, JE Hayes
Plant, Cell & Environment 23 (4), 397-405, 2000
Effects of selected root exudate components on soil bacterial communities
S Shi, AE Richardson, M O'Callaghan, KM DeAngelis, EE Jones, ...
FEMS microbiology ecology 77 (3), 600-610, 2011
Utilization of phosphorus by pasture plants supplied with myo-inositol hexaphosphate is enhanced by the presence of soil micro-organisms
AE Richardson, PA Hadobas, JE Hayes, CP O'hara, RJ Simpson
Plant and Soil 229 (1), 47-56, 2001
Soil isolates of Pseudomonas spp. that utilize inositol phosphates
AE Richardson, PA Hadobas
Canadian Journal of Microbiology 43 (6), 509-516, 1997
Components of organic phosphorus in soil extracts that are hydrolysed by phytase and acid phosphatase
JE Hayes, AE Richardson, RJ Simpson
Biology and Fertility of Soils 32 (4), 279-286, 2000
Carbon-nutrient stoichiometry to increase soil carbon sequestration
CA Kirkby, AE Richardson, LJ Wade, GD Batten, C Blanchard, ...
Soil Biology and Biochemistry 60, 77-86, 2013
A role for the AtMTP11 gene of Arabidopsis in manganese transport and tolerance
E Delhaize, BD Gruber, JK Pittman, RG White, H Leung, Y Miao, L Jiang, ...
The Plant Journal 51 (2), 198-210, 2007
Utilization of soil organic phosphorus by higher plants
AE Richardson
Organic phosphorus in the environment, 165-184, 2005
The growth and phosphorus utilisation of plants in sterile media when supplied with inositol hexaphosphate, glucose 1-phosphate or inorganic phosphate
JE Hayes, RJ Simpson, AE Richardson
Plant and Soil 220 (1-2), 165-174, 2000
Nutrient availability limits carbon sequestration in arable soils
CA Kirkby, AE Richardson, LJ Wade, JB Passioura, GD Batten, ...
Soil Biology and Biochemistry 68, 402-409, 2014
Expression of a fungal phytase gene in Nicotiana tabacum improves phosphorus nutrition of plants grown in amended soils
TS George, RJ Simpson, PA Hadobas, AE Richardson
Plant Biotechnology Journal 3 (1), 129-140, 2005
The system can't perform the operation now. Try again later.
Articles 1–20