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, 305-339, 2009 | 2248 | 2009 |
Soil microorganisms mediating phosphorus availability update on microbial phosphorus AE Richardson, RJ Simpson Plant physiology 156 (3), 989-996, 2011 | 1699 | 2011 |
Prospects for using soil microorganisms to improve the acquisition of phosphorus by plants AE Richardson Functional Plant Biology 28 (9), 897-906, 2001 | 1318 | 2001 |
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, 121-156, 2011 | 984 | 2011 |
Network analysis reveals functional redundancy and keystone taxa amongst bacterial and fungal communities during organic matter decomposition in an arable soil S Banerjee, CA Kirkby, D Schmutter, A Bissett, JA Kirkegaard, ... Soil Biology and Biochemistry 97, 188-198, 2016 | 794 | 2016 |
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 | 576 | 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 | 567 | 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, 89-120, 2011 | 511 | 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 | 498 | 2001 |
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 | 460 | 2011 |
Soil microorganisms and phosphorus availability. AE Richardson | 444 | 1994 |
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 | 406 | 2013 |
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 | 367 | 2014 |
Evolution of bacterial communities in the wheat crop rhizosphere S Donn, JA Kirkegaard, G Perera, AE Richardson, M Watt Environmental microbiology 17 (3), 610-621, 2015 | 338 | 2015 |
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 | 303 | 2000 |
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 | 301 | 2007 |
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, 47-56, 2001 | 287 | 2001 |
Soil isolates of Pseudomonas spp. that utilize inositol phosphates AE Richardson, PA Hadobas Canadian Journal of Microbiology 43 (6), 509-516, 1997 | 287 | 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, 279-286, 2000 | 269 | 2000 |
Impacts of nitrogen and phosphorus: from genomes to natural ecosystems and agriculture MS Guignard, AR Leitch, C Acquisti, C Eizaguirre, JJ Elser, DO Hessen, ... Frontiers in Ecology and Evolution 5, 70, 2017 | 268 | 2017 |