A. E. V. Richardson

A. E. V. Richardson's AcademicInfluence.com Rankings

A. E. V. Richardson

Biology

#13614

World Rank

#17168

Historical Rank

Microbiology

#850

World Rank

#932

Historical Rank

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Biology

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A. E. V. Richardson's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Acquisition of phosphorus and nitrogen in the rhizosphere and plant growth promotion by microorganisms (2009) (1506)
Soil Microorganisms Mediating Phosphorus Availability Update on Microbial Phosphorus (2011) (942)
Prospects for using soil microorganisms to improve the acquisition of phosphorus by plants (2001) (839)
Plant and microbial strategies to improve the phosphorus efficiency of agriculture (2011) (692)
Network analysis reveals functional redundancy and keystone taxa amongst bacterial and fungal communities during organic matter decomposition in an arable soil (2016) (461)
Plant mechanisms to optimise access to soil phosphorus (2009) (394)
Extracellular secretion of Aspergillus phytase from Arabidopsis roots enables plants to obtain phosphorus from phytate. (2001) (362)
Stable soil organic matter: A comparison of C:N:P:S ratios in Australian and other world soils (2011) (351)
Strategies and agronomic interventions to improve the phosphorus-use efficiency of farming systems (2011) (350)
Effects of selected root exudate components on soil bacterial communities. (2011) (308)
Carbon-nutrient stoichiometry to increase soil carbon sequestration (2013) (255)
Evolution of bacterial communities in the wheat crop rhizosphere. (2015) (239)
Acid phosphomonoesterase and phytase activities of wheat (Triticum aestivum L.) roots and utilization of organic phosphorus substrates by seedlings grown in sterile culture (2000) (238)
Soil microorganisms and phosphorus availability. (1994) (237)
A role for the AtMTP11 gene of Arabidopsis in manganese transport and tolerance. (2007) (221)
Utilization of phosphorus by pasture plants supplied with myo-inositol hexaphosphate is enhanced by the presence of soil micro-organisms (2001) (218)
Nutrient availability limits carbon sequestration in arable soils (2014) (218)
Soil isolates of Pseudomonas spp. that utilize inositol phosphates. (1997) (203)
Components of organic phosphorus in soil extracts that are hydrolysed by phytase and acid phosphatase (2000) (202)
Utilization of soil organic phosphorus by higher plants. (2005) (191)
Determinants of bacterial communities in Canadian agroforestry systems. (2016) (167)
Phytase and acid phosphatase activities in extracts from roots of temperate pasture grass and legume seedlings (1999) (164)
Inositol Phosphates: Linking Agriculture and the Environment (2006) (164)
Soil Microorganisms Mediating Phosphorus Availability (2011) (159)
Long-term land use effects on soil microbial community structure and function (2011) (158)
Soil microbial biomass and the fate of phosphorus during long-term ecosystem development (2013) (155)
Transgenic barley (Hordeum vulgare L.) expressing the wheat aluminium resistance gene (TaALMT1) shows enhanced phosphorus nutrition and grain production when grown on an acid soil. (2009) (149)
Impacts of Nitrogen and Phosphorus: From Genomes to Natural Ecosystems and Agriculture (2017) (146)
Expression of a fungal phytase gene in Nicotiana tabacum improves phosphorus nutrition of plants grown in amended soils. (2005) (138)
Network analysis reveals that bacteria and fungi form modules that correlate independently with soil parameters. (2015) (136)
Behaviour of plant‐derived extracellular phytase upon addition to soil (2005) (135)
Organic phosphorus in the terrestrial environment: a perspective on the state of the art and future priorities (2017) (134)
The growth and phosphorus utilisation of plants in sterile media when supplied with inositol hexaphosphate, glucose 1-phosphate or inorganic phosphate (2000) (134)
Promoter Analysis of the Barley Pht1;1 Phosphate Transporter Gene Identifies Regions Controlling Root Expression and Responsiveness to Phosphate Deprivation1[w] (2004) (133)
Land use and soil factors affecting accumulation of phosphorus species in temperate soils (2015) (132)
Characterization of promoter expression patterns derived from the Pht1 phosphate transporter genes of barley (Hordeum vulgare L.). (2004) (131)
Recovering phosphorus from soil: a root solution? (2012) (125)
Interaction of phytases with minerals and availability of substrate affect the hydrolysis of inositol phosphates (2010) (123)
Root-specific and phosphate-regulated expression of phytase under the control of a phosphate transporter promoter enables Arabidopsis to grow on phytate as a sole P source (2003) (122)
Depletion of organic phosphorus from Oxisols in relation to phosphatase activities in the rhizosphere (2006) (121)
Identification of scyllo-inositol phosphates in soil by solution phosphorus-31 nuclear magnetic resonance spectroscopy (2004) (121)
Characterization of transgenic Trifolium subterraneum L. which expresses phyA and releases extracellular phytase: growth and P nutrition in laboratory media and soil (2004) (118)
Transposon-Mediated Alteration of TaMATE1B Expression in Wheat Confers Constitutive Citrate Efflux from Root Apices[W] (2012) (116)
Expression of Nodulation Genes in Rhizobium leguminosarum biovar trifolii Is Affected by Low pH and by Ca and Al Ions (1988) (112)
Using organic phosphorus to sustain pasture productivity: A perspective (2014) (111)
Differentiation of Rhizobium strains using the polymerase chain reaction with random and directed primers (1995) (107)
Differential interaction of Aspergillus niger and Peniophora lycii phytases with soil particles affects the hydrolysis of inositol phosphates (2007) (102)
Inositol phosphates in soil: amounts, forms and significance of the phosphorylated inositol stereoisomers. (2007) (101)
Linking fungal-bacterial co-occurrences to soil ecosystem function. (2017) (97)
Rhizosphere Microorganisms and Plant Phosphorus Uptake (2005) (89)
Variation in root-associated phosphatase activities in wheat contributes to the utilization of organic P substrates in vitro, but does not explain differences in the P-nutrition of plants when grown in soils (2008) (87)
Complex Forms of Soil Organic Phosphorus-A Major Component of Soil Phosphorus. (2015) (87)
HvALMT1 from barley is involved in the transport of organic anions (2010) (86)
Phytases: attributes, catalytic mechanisms and applications. (2007) (84)
Seed phosphorus and the development of low-phytate crops. (2007) (83)
Inorganic Nutrients Increase Humification Efficiency and C-Sequestration in an Annually Cropped Soil (2016) (80)
Effect of lime on root growth, morphology and the rhizosheath of cereal seedlings growing in an acid soil (2010) (80)
Root morphology, root-hair development and rhizosheath formation on perennial grass seedlings is influenced by soil acidity (2010) (78)
Effect of soil acidity, soil strength and macropores on root growth and morphology of perennial grass species differing in acid-soil resistance. (2011) (78)
Abiotic reactions of inositol phosphates in soil. (2007) (78)
Effect of nitrogen and waterlogging on denitrifier gene abundance, community structure and activity in the rhizosphere of wheat. (2013) (74)
Direct measurement of roots in soil for single and mixed species using a quantitative DNA-based method (2011) (65)
Can citrate efflux from roots improve phosphorus uptake by plants? Testing the hypothesis with near-isogenic lines of wheat. (2014) (65)
Pasture plants and soil fertility management to improve the efficiency of phosphorus fertiliser use in temperate grassland systems (2014) (63)
The influence of sampling strategies and spatial variation on the detected soil bacterial communities under three different land-use types. (2011) (62)
Regulating the phosphorus nutrition of plants: molecular biology meeting agronomic needs (2009) (59)
Management of soil phosphorus fertility determines the phosphorus budget of a temperate grazing system and is the key to improving phosphorus efficiency (2015) (59)
Potential and limitations to improving crops for enhanced phosphorus utilization (2008) (58)
Limitations to the Potential of Transgenic Trifolium subterraneum L. Plants that Exude Phytase when Grown in Soils with a Range of Organic P Content (2005) (57)
Effects of pH, Ca and Al on the exudation from clover seedlings of compounds that induce the expression of nodulation genes inRhizobium trifolii (1988) (56)
Phytate-degrading enzymes: regulation of synthesis in microorganisms and plants. (2007) (56)
Enumeration and distribution of Rhizobium trifolii under a subterranean clover-based pasture growing in an acid soil (1988) (54)
Acid-tolerance and symbiotic effectiveness of Rhizobium trifolii associated with a Trifolium subterraneum L.-based pasture growing in an acid soil (1989) (54)
Studies of the Physiological and Genetic Basis of Acid Tolerance in Rhizobium leguminosarum biovar trifolii (1993) (54)
Bacterial community response to tillage and nutrient additions in a long-term wheat cropping experiment (2013) (53)
Phosphate-solubilising microorganisms for improved crop productivity: a critical assessment. (2020) (53)
Extracellular release of a heterologous phytase from roots of transgenic plants: does manipulation of rhizosphere biochemistry impact microbial community structure? (2009) (53)
Elevated atmospheric CO2 concentrations increase wheat root phosphatase activity when growth is limited by phosphorus (1998) (53)
Variation in early phosphorus-uptake efficiency among wheat genotypes grown on two contrasting Australian soils (2008) (52)
The inorganic nutrient cost of building soil carbon (2014) (49)
Plant utilization of inositol phosphates. (2006) (47)
In situ sampling of low molecular weight organic anions from rhizosphere of radiata pine (Pinus radiata) grown in a rhizotron system (2011) (46)
Wildfire impact: Natural experiment reveals differential short-term changes in soil microbial communities (2017) (45)
C/N Ratio Drives Soil Actinobacterial Cellobiohydrolase Gene Diversity (2015) (45)
Plant roots: understanding structure and function in an ocean of complexity (2016) (45)
Construction of an Acid-Tolerant Rhizobium leguminosarum Biovar Trifolii Strain with Enhanced Capacity for Nitrogen Fixation (1991) (45)
Effects of altered citrate synthase and isocitrate dehydrogenase expression on internal citrate concentrations and citrate efflux from tobacco (Nicotiana tabacum L.) roots (2004) (44)
Isolation and assessment of microorganisms that utilize phytate. (2007) (44)
Soil C and N as causal factors of spatial variation in extracellular enzyme activity across grassland-woodland ecotones (2016) (42)
Accumulation and phosphatase-lability of organic phosphorus in fertilised pasture soils (2007) (42)
Characterisation of HvALMT1 function in transgenic barley plants. (2011) (41)
Microorganisms and nutrient stoichiometry as mediators of soil organic matter dynamics (2020) (40)
Consequences of soil acidity and the effect of lime on the nodulation of Trifolium subterraneum L. Growing in an acid soil (1988) (39)
Making microorganisms mobilize soil phosphorus (2007) (38)
Role of legacy phosphorus in improving global phosphorus-use efficiency (2013) (38)
Root Exudates in Phosphorus Acquisition by Plants (2001) (37)
Bacterial community structure and detection of putative plant growth-promoting rhizobacteria associated with plants grown in Chilean agro-ecosystems and undisturbed ecosystems (2014) (36)
Rhizosheaths on wheat grown in acid soils: phosphorus acquisition efficiency and genetic control (2016) (36)
Plant assimilation of phosphorus from an insoluble organic form is improved by addition of an organic anion producing Pseudomonas sp. (2014) (36)
Interactions between phytases and soil constituents: implications for the hydrolysis of inositol phosphates. (2005) (34)
Organic Anion–Driven Solubilization of Precipitated and Sorbed Phytate Improves Hydrolysis by Phytases and Bioavailability to Nicotiana tabacum (2012) (34)
Phosphorus acquisition by citrate- and phytase-exuding Nicotiana tabacum plant mixtures depends on soil phosphorus availability and root intermingling. (2018) (32)
An assessment of various measures of soil phosphorus and the net accumulation of phosphorus in fertilized soils under pasture (2015) (32)
Linking microbial co‐occurrences to soil ecological processes across a woodland‐grassland ecotone (2018) (31)
Earthworm-induced shifts in microbial diversity in soils with rare versus established invasive earthworm populations. (2018) (31)
Rhizosphere microbial communities associated with Rhizoctonia damage at the field and disease patch scale (2014) (30)
Phytate addition to soil induces changes in the abundance and expression of Bacillus β-propeller phytase genes in the rhizosphere. (2013) (29)
Damage to roots of Trifolium subterraneum L. (subterranean clover), failure of seedlings to establish and the presence of root pathogens during autumn–winter (2011) (28)
Does the combination of citrate and phytase exudation in Nicotiana tabacum promote the acquisition of endogenous soil organic phosphorus? (2017) (26)
Update on Microbial Phosphorus Soil Microorganisms Mediating Phosphorus Availability (2011) (26)
Investigation of organic anions in tree root exudates and rhizosphere microbial communities using in situ and destructive sampling techniques (2012) (25)
PCR as an ecological tool to determine the establishment and persistence of Rhizobium strains introduced into the field as seed inoculant Diane (1998) (25)
Ligand effects on inositol phosphate solubility and bioavailability in animal manures. (2007) (25)
Manipulating exudate composition from root apices shapes the microbiome throughout the root system (2021) (24)
Soil carbon sequestration to depth in response to long-term phosphorus fertilization of grazed pasture (2019) (24)
Phosphate Mobilisation by Soil Microorganisms (2015) (23)
The fate of fertiliser P in soil under pasture and uptake by subterraneum clover – a field study using 33P-labelled single superphosphate (2016) (22)
Effects of Penicillium bilaii on maize growth are mediated by available phosphorus (2018) (22)
Soil biodiversity and biogeochemical function in managed ecosystems (2020) (21)
Experiences with carbenicillin in the treatment of septicaemia and meningitis (1968) (21)
Introduction to the special issue: Developments in soil organic phosphorus cycling in natural and agricultural ecosystems (2015) (20)
Nomenclature and terminology of inositol phosphates: clarification and a glossary of terms. (2007) (20)
A sterile hydroponic system for characterising root exudates from specific root types and whole-root systems of large crop plants (2018) (20)
The chemical nature of soil organic phosphorus: A critical review and global compilation of quantitative data (2020) (20)
Methanotrophic communities in Australian woodland soils of varying salinity. (2012) (19)
The chemical nature of organic phosphorus that accumulates in fertilized soils of a temperate pasture as determined by solution 31P NMR spectroscopy. (2017) (18)
Expression of Nodulation Genes in Rhizobium and Acid-Sensitivity of Nodule Formation (1989) (18)
Root morphology and its contribution to a large root system for phosphorus uptake by Rytidosperma species (wallaby grass) (2017) (18)
Field application of a DNA-based assay to the measurement of roots of perennial grasses (2012) (16)
Spectral sensitivity of solution 31P NMR spectroscopy is improved by narrowing the soil to solution ratio to 1:4 for pasture soils of low organic P content (2015) (15)
High-performance chromatographic separations of inositol phosphates and their detection by mass spectrometry. (2007) (14)
Identification of inositol phosphates by nuclear magnetic resonance spectroscopy: unravelling structural diversity. (2007) (14)
Phytase and inositol phosphates in animal nutrition: dietary manipulation and phosphorus excretion by animals. (2007) (14)
Inositol Phosphates in Aquatic Systems (2007) (13)
Origins and biochemical transformations of inositol stereoisomers and their phosphorylated derivatives in soil. (2007) (12)
Challenges in Assessing Links Between Root Exudates and the Structure and Function of Soil Microbial Communities (2013) (12)
Linking the depletion of rhizosphere phosphorus to the heterologous expression of a fungal phytase in Nicotiana tabacum as revealed by enzyme-labile P and solution 31P NMR spectroscopy (2017) (12)
Direct recovery of 33P-labelled fertiliser phosphorus in subterranean clover (Trifolium subterraneum) pastures under field conditions – The role of agronomic management (2017) (11)
Soil nitrogen pools and turnover in native woodland and managed pasture soils (2015) (11)
Phytate as a source of phosphorus for the growth of transgenic Trifolium subterraneum (2001) (11)
Towards circular phosphorus: The need of inter- and transdisciplinary research to close the broken cycle (2021) (11)
The impact of sugarcane filter cake on the availability of P in the rhizosphere and associated microbial community structure (2019) (10)
Biological and morphological traits of sugarcane roots in relation to phosphorus uptake (2016) (10)
Microbial interkingdom associations across soil depths reveal network connectivity and keystone taxa linked to soil fine-fraction carbon content (2021) (10)
Differential growth response of Rytidosperma species (wallaby grass) to phosphorus application and its implications for grassland management (2016) (9)
Accurate measurement of resistant soil organic matter and its stoichiometry (2016) (8)
Organic anions facilitate the mobilization of soil organic phosphorus and its subsequent lability to phosphatases (2022) (8)
Soil microbial communities influencing organic phosphorus mineralization in a coastal dune chronosequence in New Zealand. (2021) (7)
Soil fertility and nutrients mediate soil carbon dynamics following residue incorporation (2019) (7)
The microbiomes on the roots of wheat (Triticum aestivum L.) and rice (Oryza sativa L.) exhibit significant differences in structure between root types and along root axes. (2021) (7)
The role of gluconate production by Pseudomonas spp. in the mineralization and bioavailability of calcium-phytate to Nicotiana tabacum. (2015) (6)
Root Microbiome Structure and Microbial Succession in the Rhizosphere (2020) (6)
Soil carbon dynamics following the transition of permanent pasture to cereal cropping: influence of initial soil fertility, lime application and nutrient addition (2020) (5)
Carbon stability in a texture contrast soil in response to depth and long-term phosphorus fertilisation of grazed pasture (2020) (5)
Correction to: Organic phosphorus in the terrestrial environment: a perspective on the state of the art and future priorities (2017) (5)
Archaeal ammonia oxidizers respond to soil factors at smaller spatial scales than the overall archaeal community does in a high Arctic polar oasis. (2016) (5)
Phosphorus-utilisation efficiency and leaf-morphology traits of Rytidosperma species (wallaby grasses) that differ in their growth response to phosphorus fertilisation (2016) (5)
Soil: Nutrient Cycling (2014) (5)
Biotic strategies to increase plant availability of sewage sludge ash phosphorus (2019) (4)
Modelling nutrient cycles in grazed pasture systems of Southern Australia (2001) (4)
Comparative effect of alternative fertilisers on pasture production, soil properties and soil microbial community structure (2019) (4)
Lime and Nutrient Addition Affects the Dynamics and Fractions of Soil Carbon in a Short-term Incubation Study With 13C-Labeled Wheat Straw (2019) (3)
Soil organic matter and carbon sequestration (2019) (3)
Phosphorus fertiliser value of sewage sludge ash applied to soils differing in phosphate buffering and phosphate sorption capacity (2022) (2)
The Hoja loca1 Mutant and AUX/IAA Function in Phytomer Development (2020) (2)
The in £ uenceof sampling strategies and spatial variationon the detected soil bacterial communities under three di ¡ erent land-use types (2011) (2)
Critical phosphorus requirements of Trifolium species: the importance of root morphology and root acclimation in response to phosphorus stress. (2021) (2)
Which fertiliser phosphorus management strategy for maximum clover production and fertiliser phosphorus efficiency (2015) (1)
Use of paired soil and plant tests to set soil fertility targets for subterranean clover-based pastures. (2003) (1)
Soil organic matter in a stressed world (2021) (1)
Gravel-associated organic material is important to quantify soil carbon and nitrogen stocks to depth in an agricultural cropping soil (2021) (1)
Efficient Use of Phosphorus in Temperate Grassland Systems (2013) (1)
Litter decomposition and microbial communities alters depending on litter type and overstory species in revegetated agricultural land (2020) (1)
A novel microcosm to identify inherently competitive microorganisms with the ability to mineralize phytate in solum (2021) (1)
THE DETERMINATION OF MESOTHORIUM IN THORIUM NITRATE (1953) (0)
The fate of fertiliser P in soil under pasture and uptake by subterraneum clover – a field study using 33P-labelled single superphosphate (2015) (0)
Bacterial community structure and detection of putative plant growth-promoting rhizobacteria associated with plants grown in Chilean agro-ecosystems and undisturbed ecosystems (2014) (0)
Assessment of root growth of perennial pasture grasses in acid soils using novel DNA-based methods (2010) (0)
Erratum to: Direct measurement of roots in soil for single and mixed species using a quantitative DNA-based method (2013) (0)
Complementary phosphorus acquisition strategies of interplanted subterranean clover and white lupin increase sward yield in a low phosphorus soil (2017) (0)
Effects of Penicillium bilaii on maize growth are mediated by available phosphorus (2018) (0)
Correction to: Organic phosphorus in the terrestrial environment: a perspective on the state of the art and future priorities (2017) (0)
Does the combination of citrate and phytase exudation in Nicotiana tabacum promote the acquisition of endogenous soil organic phosphorus? (2016) (0)
Investigation of organic anions in tree root exudates and rhizosphere microbial communities using in situ and destructive sampling techniques (2012) (0)
Organic phosphorus in the terrestrial environment: a perspective on the state of the art and future priorities (2017) (0)
The chemical nature of soil organic phosphorus - evidence for complex phosphomonoesters in high molecular weight material (2016) (0)
Expression ofNodulation GenesinRhizobium leguminosarum biovar trifolii IsAffected byLowpH andbyCaandAlIons (1988) (0)
Locating Reservoirs with Landsat: A Texas Example (1980) (0)
Organic Anions Facilitate the Mobilization of Soil Organic Phosphorus and Enhances Its Subsequent Lability To Phosphatases (2022) (0)
Soil fertility and nutrients mediate soil carbon dynamics following residue incorporation (2019) (0)
Root morphology and its contribution to a large root system for phosphorus uptake by Rytidosperma species (wallaby grass) (2016) (0)
Herbicide resistant crops and pastures in Australian agriculture - present and future. (1996) (0)
Erratum to: Direct measurement of roots in soil for single and mixed species using a quantitative DNA-based method (2013) (0)
Overexpression of an endogenous citrate synthase gene in tobacco (2001) (0)
WHEAT BREEDINGMany Genetists Working With Important Cereal Crop—What They Have Accomplished—Hope for Future Improvement—Methods of Procedure (1915) (0)
Assessment of root growth by perennial pasture grasses in an acid soil using novel DNA-based methods (2011) (0)
Water availability study, Clear Creek. (1961) (0)
Field application of a DNA-based assay to the measurement of roots of perennial grasses (2012) (0)
Fate and cost effectiveness of soil carbon sequestered using supplementary nutrients applied to crop residues under field conditions (2023) (0)
The Accumulation of Inorganic and Organic P Forms in Fertilized Pasture Soils (2014) (0)
A novel microcosm for recruiting inherently competitive biofertilizer-candidate microorganisms from soil environments (2020) (0)
LOCATING MANGANESE TRANSPORTERS IN PLANT CELLS (2007) (0)
A sterile hydroponic system for characterising root exudates from specific root types and whole-root systems of large crop plants (2018) (0)
Soil microbial biomass and the fate of phosphorus during long-term ecosystem development (2012) (0)

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What Schools Are Affiliated With A. E. V. Richardson?

A. E. V. Richardson is affiliated with the following schools:

University of Adelaide
Australian National University
University of Western Australia

A. E. V. Richardson's Academic­Influence.com Rankings

Why Is A. E. V. Richardson Influential?

A. E. V. Richardson's Published Works

Published Works

What Schools Are Affiliated With A. E. V. Richardson?

A. E. V. Richardson's AcademicInfluence.com Rankings