Rhizosphere

Papers
(The TQCC of Rhizosphere is 8. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-02-01 to 2024-02-01.)
ArticleCitations
Disease-suppressive compost enhances natural soil suppressiveness against soil-borne plant pathogens: A critical review96
Root microbiome changes with root branching order and root chemistry in peach rhizosphere soil54
Consortium of endophyte and rhizosphere phosphate solubilizing bacteria improves phosphorous use efficiency in wheat cultivars in phosphorus deficient soils52
Cover crop diversity improves multiple soil properties via altering root architectural traits47
Can interaction between silicon and non–rhizobial bacteria help in improving nodulation and nitrogen fixation in salinity–stressed legumes? A review47
Plant growth-promoting root-colonizing bacterial endophytes43
Root exudates influence chemotaxis and colonization of diverse plant growth promoting rhizobacteria in the pigeon pea – maize intercropping system40
Enhanced salinity tolerance in the common bean (Phaseolus vulgaris) plants using twin ACC deaminase producing rhizobacterial inoculation38
Efficacy of phosphate solubilizing Actinobacteria to improve rock phosphate agronomic effectiveness and plant growth promotion37
Application of bio-organic fertilizer, not biochar, in degraded red soil improves soil nutrients and plant growth36
Ralstonia solanacearum, a deadly pathogen: Revisiting the bacterial wilt biocontrol practices in tobacco and other Solanaceae36
Alleviation of heavy metal stress by arbuscular mycorrhizal symbiosis in Glycine max (L.) grown in copper, lead and zinc contaminated soils35
Antifungal potential evaluation and alleviation of salt stress in tomato seedlings by a halotolerant plant growth-promoting actinomycete Streptomyces sp. KLBMP508432
Auxin-producing fungal endophytes promote growth of sunchoke32
Estimation of optimal fertilizers for optimal crop yield by adaptive neuro fuzzy logic32
Improving plant available water holding capacity of soil by solid and chemically modified biochars31
The effects of warming on root exudation and associated soil N transformation depend on soil nutrient availability30
Chitosan microencapsulation of rhizobacteria for biological control of plant pests and diseases: Recent advances and applications29
Biochar-based metal oxide nanocomposites of magnesium and manganese improved root development and productivity of safflower (Carthamus tinctorius L.) under salt stress27
Changes in soil carbon mineralization, soil microbes, roots density and soil structure following the application of the arbuscular mycorrhizal fungi and green algae in the arid saline soil27
Biological control of Fusarium wilt and growth promotion in pigeon pea (Cajanus cajan) by antagonistic rhizobacteria, displaying multiple modes of pathogen inhibition27
Genomic and phenotypic analysis of rock phosphate-solubilizing rhizobacteria26
The shifts of maize soil microbial community and networks are related to soil properties under different organic fertilizers26
Variation in enzyme activities involved in carbon and nitrogen cycling in rhizosphere and bulk soil after organic mulching26
Biochar inoculated with Pseudomonas putida improves grape (Vitis vinifera L.) fruit quality and alters bacterial diversity25
Plant mucilage components and their functions in the rhizosphere25
Role of plant-growth promoting fungi (PGPF) in defensive genes expression of Triticum aestivum against wilt disease24
How “hot” are hotspots: Statistically localizing the high-activity areas on soil and rhizosphere images24
Plant growth promoting potential of endophytic Aspergillus niger 9-p isolated from native forage grass in Pantanal of Nhecolândia region, Brazil24
Co-inoculation of Anabaena cylindrica with Azospirillum brasilense increases grain yield of maize hybrids24
Fe3O4 nanoparticles and Rhizobium inoculation enhance nodulation, nitrogen fixation and growth of common bean plants grown in soil23
Biopriming with rhizosphere Trichoderma harzianum elicit protection against grapevine downy mildew disease by triggering histopathological and biochemical defense responses23
In situ methods of plant-microbial interactions for nitrogen in rhizosphere23
Inoculation of bacterial consortium increases rice yield (Oryza sativa L.) reducing applications of nitrogen fertilizer in San Martin region, Peru23
AMF enhance secondary metabolite production in ashwagandha, licorice, and marigold in a fungi-host specific manner22
Effective biocontrol of banana fusarium wilt tropical race 4 by a bacillus rhizobacteria strain with antagonistic secondary metabolites22
Single and combined abiotic stressors affect maize rhizosphere bacterial microbiota22
Novel endophytic fungi with fungicidal metabolites suppress sclerotium disease21
Alteration in root morphological and physiological traits of two maize cultivars in response to phosphorus deficiency20
Arbuscular mycorrhizae in plant immunity and crop pathogen control20
Enhanced growth in nursery of coffee seedlings inoculated with the rhizosphere fungus Aspergillus niger for field transplantation19
Different mycorrhizal fungal communities differentially affect plant phenolic-based resistance to insect herbivory19
Inoculation with Arbuscular mycorrhizae, Penicillium funiculosum and Fusarium oxysporum enhanced wheat growth and nutrient uptake in the saline soil19
Inoculation of arbuscular mycorrhizal fungi and phosphorus addition increase coarse mint (Plectranthus amboinicus Lour.) plant growth and essential oil content19
Growth, leaf gas exchange and physiological parameters of two Glycyrrhiza glabra L. populations subjected to salt stress condition19
Groundnut (Arachis hypogaea) nodule Rhizobium and passenger endophytic bacterial cultivable diversity and their impact on plant growth promotion19
Neuro fuzzy evaluation of circular economy based on waste generation, recycling, renewable energy, biomass and soil pollution19
Growth enhancement of sunchoke by arbuscular mycorrhizal fungi under drought condition19
Microplastics make their way into the soil and rhizosphere: A review of the ecological consequences19
Periphytic biofilm and rice rhizosphere phosphate-solubilizing bacteria and fungi: A possible use for activating occluded P in periphytic biofilms in paddy fields18
Phosphate solubilizing bacteria inoculated low-grade rock phosphate can supplement P fertilizer to grow wheat in sub-tropical inceptisol18
Maize growth and yield promoting endophytes isolated into a legume root nodule by a cross-over approach18
Root morphology and rhizosheath acid phosphatase activity in legume and graminoid species respond differently to low phosphorus supply17
Appropriate crop rotation alleviates continuous cropping barriers by changing rhizosphere microorganisms in Panax notoginseng17
Enhancement of salinity stress tolerance and plant growth in finger millet using fluorescent pseudomonads17
Alleviation of zinc deficiency in wheat inoculated with root endophytic fungus Piriformospora indica and rhizobacterium Pseudomonas putida17
Inoculation of Pseudomonas mutant strains can improve growth of soybean and corn plants in soils under salt stress16
Functional diversity of microbial communities in two contrasting maize rhizosphere soils16
Ionomic and biochemical responses of maize plant (Zea mays L.) inoculated with Funneliformis mosseae to water-deficit stress16
Quorum sensing N-acyl-homoserine lactone signal molecules of plant beneficial Gram-negative rhizobacteria support plant growth and resistance to pathogens16
Arbuscular mycorrhizal fungi enhance growth of tomato under normal and drought conditions, via different water regulation mechanisms16
The potential of biochar to enhance concentration and utilization of selected macro and micro nutrients for chickpea (Cicer arietinum) grown in three contrasting soils16
Changes in the diversity and predicted functional composition of the bulk and rhizosphere soil bacterial microbiomes of tomato and common bean after inorganic N-fertilization16
Uptake of amino acids and inorganic nitrogen by two dominant temperate grasses15
Fine root biomass and its contribution to the mangrove communities in three saline zones of Sundarbans, Bangladesh15
A comparative study of plant growth promoting rhizobacteria (PGPR) and sowing methods on nutrient availability in wheat and rhizosphere soil under salinity stress15
Effect of mycorrhizal fungi inoculation on bacterial diversity, community structure and fruit yield of blueberry15
The response of grassland mycorrhizal fungal abundance to a range of long-term grazing intensities15
Plant beneficial rhizobacteria community structure changes through developmental stages of peanut and maize15
The arbuscular mycorrhizal fungus Rhizophagus intraradices reduces the root rot caused by Fusarium pseudograminearum in wheat14
Combinations of different arbuscular mycorrhizal fungi improve fitness and metal tolerance of sorghum in ultramafic soil14
Performance of tomato and lettuce to arbuscular mycorrhizal fungi and Penicillium pinophilum EU0013 inoculation varies with soil, culture media of inoculum, and fungal consortium composition14
Arbuscular mycorrhizal fungi alleviate salinity stress and alter phenolic compounds of Moldavian balm14
Infectivity of the palm groves arbuscular mycorrhizal fungi under arid and semi-arid climate and its edaphic determinants towards efficient ecological restoration14
Fungal endophytes inoculation improves soil nutrient availability, arbuscular mycorrhizal colonization and common bean growth14
Root exudation of coumarins from soil-grown Arabidopsis thaliana in response to iron deficiency14
A novel streptomyces rhizobacteria from desert soil with diverse anti-fungal properties14
Carbon partitioning in a walnut-maize agroforestry system through arbuscular mycorrhizal fungi14
Potential advantage of rhizosheath microbiome, in contrast to rhizosphere microbiome, to improve drought tolerance in crops14
Bacillus subtilis changes the root architecture of soybean grown on nutrient-poor substrate14
Root exudate components induced production of plant beneficial metabolites in rhizospheric Pseudomonas spp.13
Stronger effects of maize rhizosphere than phosphorus fertilization on phosphatase activity and phosphorus-mineralizing-related bacteria in acidic soils13
Are native phosphate solubilizing bacteria a relevant alternative to mineral fertilizations for crops? Part I. when rhizobacteria meet plant P requirements.13
Success to iron biofortification of wheat grain by combining both plant and microbial genetics13
Two centuries of breeding has altered root system architecture of winter wheat13
Mixed inoculum of rhizobacteria and arbuscular mycorrhizal fungus enhance diosgenin contain and phosphorus uptake in fenugreek under drought stress13
Antifungal lipopeptides from Bacillus strains isolated from rhizosphere of Citrus trees13
Rhizobacteria improve the germination and modify the phenolic compound profile of pepper (Capsicum annum L.)13
Soil microbiome and metabolome analysis reveals beneficial effects of ginseng–celandine rotation on the rhizosphere soil of ginseng-used fields12
The Chinese medicinal plants rhizosphere: Metabolites, microorganisms, and interaction12
Optimization of indole-3-acetic acid using response surface methodology and its effect on vegetative growth of chickpea12
Root hairs and protein addition to soil promote leucine aminopeptidase activity of Hordeum vulgare L12
Dominant plant species and soil properties drive differential responses of fungal communities and functions in the soils and roots during secondary forest succession in the subalpine region12
Unraveling the distribution of AMF communities and their metabolites associated with soils of minor millets12
Bacillus strains immobilized in alginate macrobeads enhance drought stress adaptation of Guinea grass12
Root exudate composition from different plant species influences the growth of rhizosphere bacteria12
Native rhizobia from southern Brazilian grassland promote the growth of grasses12
Application of liquid formulation of a mixture of plant growth promoting rhizobacteria helps reduce the use of chemical fertilizers in Amaranthus (Amaranthus tricolor L.)12
Foliar application of fertilizers and biostimulant has a strong impact on the olive (Olea europaea) rhizosphere microbial community profile and the abundance of arbuscular mycorrhizal fungi11
Co-application of spent mushroom substrate and PGPR alleviates tomato continuous cropping obstacle by regulating soil microbial properties11
Reduced P fertilization improves Fe and Zn uptake in potato when inoculated with AMF in P, Fe and Zn deficient soil11
The ability of a new strain of Bacillus pseudomycoides to improve the germination of alfalfa seeds in the presence of fungal infection or chromium11
Cellulosimicrobium funkei strain AR6 alleviate Cr(VI) toxicity in Lycopersicon esculentum by regulating the expression of growth responsible, stress tolerant and metal transporter genes11
Phosphorus solubilizing bacteria Bacillus thuringiensis and Pantoea ananatis simultaneously promote soil inorganic phosphate dissolution and soil Pb immobilization11
Biocontrol bacteria strains Y4 and Y8 alleviate tobacco bacterial wilt disease by altering their rhizosphere soil bacteria community11
Endophytic passenger bacteria associated with Genista cinerea nodules growing in North African drylands11
Evaluation of the soil aggregation induced by the plant roots in an Oxisol by turbidimetry and water percolation11
Calcretes from the Quaternary alluvial deposit of Purna basin, central India: Lithological and climatic controls11
Contrasting rhizosphere bacterial communities of healthy and wilted Dalbergia sissoo Roxb. forests11
Improved nodulation and seed yield of soybean (Glycine max) with a new isoflavone-based inoculant of Bradyrhizobium elkanii11
Bioactive metabolites from tomato endophytic fungi with antibacterial activity against tomato bacterial spot disease10
Microbial community structure in rhizosphere soil rather than that in bulk soil characterizes aggregate-associated organic carbon under long-term forest conversion in subtropical region10
Optimization of EDTA and citric acid for risk assessment in the remediation of lead contaminated soil10
The contributions of biotic lines of defence to improving plant disease suppression in soils: A review10
Alleviation of the adverse effects of drought stress using a desert adapted endophytic fungus and glucose in tomato10
Agricultural crop influences availability of nickel in the rhizosphere; a study on base cation saturations, Ni dosages and crop succession10
AMF modulated rhizospheric microbial enzyme activities and their impact on sulphur assimilation along with thiol metabolism in pigeonpea under Cd stress10
A consortium of arbuscular mycorrizal fungi improves nutrient uptake, biochemical response, nodulation and growth of the pea (Pisum sativum L.) under salt stress10
Shifts in the structure of rhizosphere bacterial communities of avocado after Fusarium dieback10
A constant microbial C/N ratio mediates the microbial nitrogen mineralization induced by root exudation among four co-existing canopy species10
Genome analysis of a salinity adapted Achromobacter xylosoxidans rhizobacteria from the date palm9
Cover crop species and mycorrhizal colonization on soil phosphorus dynamics9
Arbuscular mycorrhizal fungus richness in the soil and root colonization in vineyards of different ages9
Temporal shifts in cyanobacterial diversity and their relationships to different types of biological soil crust in the southeastern Tengger Desert9
Two strains of Luteovulum sphaeroides (purple nonsulfur bacteria) promote rice cultivation in saline soils by increasing available phosphorus9
Phenolics mediate suppression of Fusarium oxysporum f. sp. cubense TR4 by legume root exudates9
The vertical distribution pattern of microbial- and plant-derived carbon in the rhizosphere in alpine coniferous forests9
Plant parasitic nematodes effectors and their crosstalk with defense response of host plants: A battle underground9
Optimizing the bacterial community structure and function in rhizosphere soil of sesame continuous cropping by the appropriate nitrate ammonium ratio9
Determination of root system architecture variation of drought adapted sorghum genotypes using high throughput root phenotyping9
Sorgoleone production enhances mycorrhizal association and reduces soil nitrification in sorghum9
Large-scale screening of rhizobacteria to enhance the chickpea-Mesorhizobium symbiosis using a plant-based strategy9
Isolation and molecular identification of an indigenous abiotic stress-tolerant plant growth-promoting rhizobacteria from the rhizosphere of the olive tree in southern Morocco9
Root hair and rhizosheath traits contribute to genetic variation and phosphorus use efficiency in cowpea (Vigna unguiculata (L.) Walp)9
Influence of pH levels on disease development in oil palm seedling roots infected with Ganoderma boninensis9
Arbuscular mycorrhizal fungi in the rhizosphere of soybean in integrated crop livestock systems with intercropping in the pasture phase9
Drought tolerant maize cultivar accumulates putrescine in roots8
Iron metabolism in soybean grown in calcareous soil is influenced by plant growth-promoting rhizobacteria – A functional analysis8
Effects of grass cultivation on soil arbuscular mycorrhizal fungi community in a tangerine orchard8
Eucalyptus tree influence on spatial and temporal dynamics of fine-root growth in an integrated crop-livestock-forestry system in southeastern Brazil8
How do water, compaction and heat stresses affect soybean root elongation? A review8
Improved water productivity in summer squash under water deficit with PGPR and synthetic methyl amine applications8
Light and mycelial injury influences the volatile and non-volatile metabolites and the biocontrol properties of Trichoderma atroviride8
White root rot disease suppression in rubber plant with microbial co-inoculants and silicon addition8
Biocontrol by induced systemic resistance using plant growth promoting rhizobacteria8
Substrate-associated mycorrhizal fungi promote changes in terpene composition, antioxidant activity, and enzymes in Curcuma longa L. acclimatized plants8
Root anatomy and nutrient uptake of the cattail Typha domingensis Pers. (Typhaceae) grown under drought condition8
The bioprotective effect of root endophytic Serendipita herbamans against Fusarium wilt in tomato and its impact on root traits are determined by temperature8
Divergent root P uptake strategies of three temperate grassland forage species8
Soybean growth and foliar phosphorus concentration mediated by arbuscular mycorrhizal fungi from soils under different no-till cropping systems8
Isolation and molecular characterization of plant growth promoting bacteria from the rhizosphere of orchids in Turkey8
Contrasting rhizosphere microbial communities between fertilized and bio-inoculated millet8
Increased exopolysaccharide production and microbial activity affect soil water retention and field performance of tomato under water deficit8
Physiological response of Arizona cypress to Cd-contaminated soil inoculated with arbuscular mycorrhizal fungi and plant growth promoting rhizobacteria8
The uptake of alkaloids by plants from the soil is determined by rhizosphere pH8
Phenotypic display of plant growth-promoting traits in individual strains and multispecies consortia of plant growth promoting rhizobacteria and rhizobia under salinity stress8
Influence of living grass Roots and endophytic fungal hyphae on soil hydraulic properties8
Mechanisms of allelopathic interactions for sustainable weed management8
Cooperation between Sporobolus airoides and associated arbuscular mycorrhizal fungi for phosphorus acquisition under drought conditions in an oligotrophic desert ecosystem8
Vegetative propagation of Veronica dahurica and Veronica pusanensis by stem cuttings with auxins8
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