SAM 학술관계분석서비스

논문영향력 요약
주제	bacillus cucumber pgpr 균분리 식물생장촉진세균 토착미생물
152	0	0.0%

논문영향력
주제	주제별 논문수	주제별 피인용횟수	주제별 논문영향력
주제어	bacillus	80	0	0.0%
cucumber	16	0	0.0%
pgpr	52	0	0.0%
균분리	1	0	0.0%
식물생장촉진세균	1	0	0.0%
토착미생물	3	0	0.0%
계		153	0	0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수	0

scalable and extensible microbiome data science using QIIME 2

Bolyen ERideout JRDillon MRBokulich NAAbnet CCAl-Ghalith GAAlexander HAlm EJArumugam MAsnicar FReproducible . 2019. interactive Nat . Biotechnol . 37:852-857

nature and utility of universal iron chelator-siderophore

Khan ASingh PSrivastava A A review . Microbiol . Res . 212-213 [2018Synthesis]

a new plant growth-promoting rhizobacterium with potential in pesticidebioremediation

rhizophila S211 Front . Microbiol . 9:34-51

Yazaki K.Changes in the bacterial community of soybean rhizospheres during growth in the field

Sugiyama AUeda YZushi TTakase H PLoS . ONE 9:1-15 [2014]

Yang L.Vermicompost can suppress Fusarium oxysporum f. sp . lycopersici via generation of beneficial bacteria in a long-term

Zhao FZhang YDong WZhang YZhang GSun Z [2019]

Yang JE, Chung JB, Kim JE, Lee KS. 2008. Ag-Environmental Science. C.I.R. Korea. 294-295.

Yang JEChung JBKim JELee KS Ag-Environmental Science . C.I.R . Korea . 294-295 [2008]

Xu H.Streptomyces lydicus M01 regulates soil microbial community and alleviates foliar disease caused by Alternaria alternata on cucumbers

Wang MXue JMa JFeng XYing H Frontiers in microbiology . 11:942-956 [2020]

Xu H. 2020Streptomyces lydicus M01 regulates soil microbial community and alleviates foliar disease caused by Alternaria alternata on cucumbers

Wang MXue JMa JFeng XYing H Front . Microbiol . 11:942-951

Williams ST.Bergey 's manual of determinative bacteriology

Holt JGKrieg NR.Sneath PHAStaley JT 9th Ed , Williams & Wilkins , Baltimore . 559-560 [1994]

Wang H.Recent progress on the molecular breeding of Cucumis sativus L. in China

Feng SZhang JMu ZWang YWen CWu T Theor . Appl . Genet . 133:1777- 1790 [2020]

Vilgalys R. 2011 . Distinct microbial communities within the endosphere and rhizosphere of populus deltoides roots across contrasting soil types

Gottel NRCastro HFKerley MYang ZPelletier DAPodar MKarpinets TUberbacher ETuskan GA Appl . Environ . Microbiol . 77:5934-5944

Use of endophytes as biocontrol agents

De Silva NIBrooks SLumyong SHyde KD Fungal Biol . Rev.33:133148 [2019]

Update on microbial phosphorus . Soil microorganisms mediating phosphorus availability

Richardson AESimpson RJ Plant Physiol . 156:989-996 . Rodr ? guez H , Fraga R. 1999 . Phosphate solubilizing bacteria and their role in plant growth promotion . Biotechnol . Adv . 17:319-339 [2011]

UniFrac : a new phylogenetic method for comparing microbial communities

Lozupone C. Knight R. Appl . Environ . Microbiol . 71:8228-8235 [2005]

Understanding the indigenous seed microbiota to design bacterial seed treatments

Wassermann BAdam ECernava TBerg G. In Seed Endophytes Springer , Cham [2019]

Understanding and overcoming the pitfalls and biases of next-generation sequencing ( NGS ) methods for use in the routine clinical microbiological diagnostic laboratory

Boers S AJansen R.Hays JP Eur . J. Clin . Microbiol Infect Dis [2019]

Understanding and manipulating antibiotic production in actinomycetes

Bibb MJ Biochem . Soc . Trans . 41:1355-1364 [2013]

Umsakul K.The production of poly ( 3- hydroxybutyrate ) [ P ( 3HB ) ] by a newly isolated Bacillus sp ST1C using liquid waste from biodiesel production

Chanasit WSueree LHodgson B Ann . Microbiol . 64:1157-1166 [2014]

Transplanting soil microbiomes leads to lasting effects on willow growth , but not on the rhizosphere microbiome

Yergeau EBell THChampagne JMaynard CTardif STremblay JGreer CW Front . Microbiol . 6:1436-1442 [2015]

Traits ? based integration of multi ?

Wang JLi QXu SZhao WLei YSong C. species inoculants facilitates shifts of indigenous soil bacterial communityFront Microbiol 9:1692-1702 [2018]

Thermostaphylospora grisealba gen. nov.isolated from mushroom compost and transfer of Thermomonospora chromogena Zhang

Wu HLiu BShao YOu XHuang F.sp . nov. [20181998]

The study of soil chemical properties and soil bacterial communities on the cultivation systems of cnidium officinale makino

Kim KHan KMKim HJJeon KSKim CWJung CR . 2020c Korean J. Environ . Agric . 39:1-9

The soil , nutrient and water control for cucumber cultivation in plastic film house

Park JM Soil Study Group for Plastic Film House1-26 [2009]

The role of microbial signals in plant growth and development

Castro ROCornejo HACRodriguez LMBucio JL Plant Signal . Behav . 4:701-712 [2009]

The rhizosphere microbiome and plant health

Berendsen RLPieterse CMJBakker PAHM Trends Plant Sci . 17:478-486 [2012]

The potential of Streptomyces as biocontrol agents against the rice blast fungus

Ser HLKhan TMChuah LHPusparajah PChan KG Magnaporthe oryzae ( Pyricularia oryzae ) . Front . Microbiol . 8:3-11 [2017]

The potential of Bacilli rhizobacteria for sustainable crop production and environmental sustainability

Aloo BNMakumba BAMbega ER Microbiol . Res . 219:26- 39 [2019]

The neighbor-joining method : a new method for reconstruction of phylogenetic trees

Saitou NNei M. Mol . Biol . Evol . 4:406-425 [1987]

The distribution of tryptophan-dependent indole-3-acetic acid synthesis pathways in bacteria unraveled by large-scale genomic analysis

Zhang PJin TKumar Sahu SXu JShi QLiu HWang Y . 2019a Molecules 24:1411-1425

The cucurbitacins : a review plant

Guha JSen SP Biochem 2:12 ? 28 Guillaume Chomicki Hanno Schaefer Susanne S. RennerOrigin and domestication of Cucurbitaceae crops : insights from phylogenies . Genomic . Archaeol . 226:1240-1255 [19752019]

The PGPR Stenotrophomonas maltophilia SBP-9 augments resistance against biotic and abiotic stress in wheat plants

Singh RPJha PD . 2017b Front . Microbiol.8:1945-1952

Taxonomical and functional microbial community selection in soybean rhizosphere

Mendes LWKuramae EENavarrete AAvan Veen JATsai SM ISME J . 8:1577-1587 [2014]

Talon M.The plant-growth-promoting rhizobacteria Bacillus pumilus and Bacillus licheniformis produce high amounts of physiologically active gibberellins

Gutierrez-Manero FJRamos-Solano BProbanza AMehouachi JRTadeo F Plant Physiol . 111:206-211 [2001]

Suslow T.Increased potato yields by treatment of seed pieces with specific strains of Pseudomonas fluorescens and P. putida

Burr TSchroth M Phytopathology 68:1377-1383 [1978]

Survey on occurrence and management of disease and pests in organic peach orchards

Kim MGAn MSLee JHLee CRLee SBHong KLHong SG . 2017b Korean J. Org . Agric . 25:603-617

Study on residual characteristics of mandipropamid and metalaxyl-M in cnidium officinale makino

Jeong DKJeong WMGoo YMKil YSSeung MSKim SGKim DHKim YJKwon YSKim JHLee HDLee DY Korean J. Pestic . Sci . 24:172-179 [2020]

Studies on nitrogen-fixing bacteria of the genus Beijerinckia : I. Geographical and ecological distribution in soils

Becking JH Plant Soil 14:49-81 [1961]

Structural influence and relationship between the environmentally-friendly attitude and purchase Intention based on the college students values towards organic produces - moderating effect of consumer confidence

Kim JSLee JH . 2017a Culi . Sci . Hos Res.23:45-55

Streptomyces pactum Act12 controls tomato yellow leaf curl virus disease and alters rhizosphere microbial communities

Li YLGuo QLi YZSun YFXue QHLai HX Bio . Fertil . Soils . 55:149-169 [2019]

Steinberg C.Biological control of plant diseases : the European situation

Alabouvette COlivain C Eur . J . Plant Pathol114:329-341 [2006]

Steering soil microbiomes to suppress aboveground insect pests

Pineda AKaplan IBezemer TM Trends Plant Sci . 22:770-778 [2017]

Song W.Characterization of a novel plant growth-promoting bacteria strain Delftia tsuruhatensis HR4 both as a diazotroph and a potential biocontrol agent against various plant pathogens

Han JSun LDong XCai ZSun XYang HWang Y Syst Appl . Microbiol . 28:66-76 [2005]

Soil microbial community analysis using soil enzyme activities in red pepper field treated microbial agents

Kim YHLim JHAn CHJung BKKim SD . 2012b J. Appl . Biol . Chem . 55:47-53

Soil management techniques for high quality cucumber cultivation in plastic film greenhouse

Hyun BKJung SJJung YJLee JYLee JKJang BCChio ND Korean J . Soil Sci . Fert . 44:717-721 [2011]

Soil bacterial taxonomic diversity is critical to maintaining the plant productivity

Chen QLDing JZhu YGHe JZHu HW Environ . Int . 140:105766- 105769 [2020]

Sivasithamparam K.Growth promotion of bean ( Phaseolus vulgaris L. ) by a polyamine producing isolate of Streptomyces griseoluteus Plant Growth Regul

Nassar AHEl-Tarabily KA 40:97-106 [2003]

Singh BKPlant-microbiome interactions : from community assembly to plant health

Trivedi PLeach JETringe SGSa T Nature Rev . Microbiol18:607- 621 [2020]

Shi XF, Li Q, Li XH, Xiao C, Wang SN. 2010. The anti-oxidation effect of Cucumis sativus Linn.31:85-86.

Shi XFLi QLi XHXiao CWang SN The anti-oxidation effect of Cucumis sativus Linn.31:85-86 [2010]

Shen QRSoil pre-fumigation could effectively improve the disease suppressiveness of biofertilizer to banana Fusarium wilt disease by reshaping the soil microbiome

Shen ZZXue CTaylor PWJOu YNWang BBZhao YRuan YZLi R Biol . Fert . Soils . 54:793-806 [2018]

Shen QRDistinct roles for soil fungal and bacterial communities associated with the suppression of vanilla Fusarium wilt disease

Xiong WLi RRen YLiu CZhao QYWu HSJousset A Soil Biol . Biochem107:198-207 [2017]

Shen L.Bacterial community compositions of tomato ( Lycopersicum esculentum Mill . ) seeds and plant growth promoting activity of ACC deaminase producing Bacillus subtilis

Xu MSheng JChen LMen YGan LGuo S HYT-12-1 ) on tomato seedlings . World J. Microbiol . Biotechnol . 30:835-845 [2014]

Shanmuganathan R.Plant growth promoting rhizobacteria ( PGPR ) : a potential alternative tool for nematodes bio-control

Mhatre PHKarthik CKadirvelu KDivya KLVenkatasalam EPSrinivasan S Biocatal . Agric . Biotechnol . 17:119-128 [2019]

Selection on soil microbiomes reveals reproducible impacts on plant function

Panke-Buisse KPoole ACGoodrich JKLey REKao-Kniffin J ISME J . 9:980-989 [2015]

Selection of Bacillus amyloliquefaciens CC110 for biological control of cucumber downy mildew caused by Pseudoperonospora cubensis

Lee SYWeon HYKim JJHan JH . 2013a Kor . J. Mycol . 41:261-267

Screening of rhizospheric actinomycetes for various in-vitro and in-vivo plant growth promoting ( PGP ) traits and for agroactive compounds

Anwar SAli BSajid I Front . Microbiol . 7:1334-1345 [2016]

Schm ? lling T. 2003 . Cytokinin-deficient transgenic Arabidopsis plants show multiple developmental alterations indicating opposite functions of cytokinins in the regulation of shoot and root meristem activity

Werner TMotyka VLaucou VSmets RVan Onckelen H Plant Cell 15:2532-2550

Schlaeppi K.Cropping practices manipulate abundance patterns of root and soil microbiome members paving the way to smart farming

Hartman Kvan der Heijden MGWittwer RABanerjee SWalser JC J. Microbiome . 6:1-14 [2018]

Saranraj P.Biocontrol potentiality of plant growth promoting bacteria ( PGPR ) -Pseudomonas fluorescens and Bacillus subtilis : A review

Sivasakthi SUsharani G Afr . J.Agric . Res . 9:1265-1277 [2014]

Santar ? m ERPlant growth and resistance promoted by Streptomyces spp

Dias MPBastos MSXavier VBCassel EAstarita LV in tomato Plant Physiol . Biochem . 118:479-493 [2017]

Sahin N.Desertiactinospora gelatinilytica gen. nov.

Saygin HAy HGuven KCetin Dsp . nov. a new member of the family Streptosporangiaceae isolated from the Karakum DesertAntonie van Leeuwenhoek [2019]

Saha P.Degradation of organophosphate insecticide by a novel Bacillus aryabhattai strain SanPS1 , isolated from soil of agricultural field in Burdwan

Pailan SGupta DApte SKrishnamurthi S West Bengal , India . Int . Biodeterior . Biodegradation 103:191-195 [2015]

Safaie N.Streptomyces alleviate drought stress in tomato plants and modulate the expression of transcription factors ERF1 and WRKY70 genes

Abbasi SSadeghi A Sci . Hortic . 265:109-206 [2020]

Rural Development Administration ( RDAResearch analysis standard of agricultural science and technology

Rural Development AdministrationSouth Korea . RDAStandard farming Manual - cucumber [20122013]

Role of consortia of biocontrol agents and PGPR s in the production of cabbage under nursery condition

Sudharani MShivaprakash MKPrabhavathi MK Int . J. Curr . Microbiol . Appl . Sci . 3:1055-1064 [2014]

Role of PGPR in soil fertility and plant healthPlant growth promoting rhizobacteria ( PGPR ) and medicinal plant

Prasad RKumar MVarma A Egamberdieva et al.Springer Nature Switzerland AG . Basel , Switzerland . 247-260 [2015]

Rogers G.Optimal plant growth-promoting concentration of Azospirillum brasilense inoculated to cucumber , lettuce and tomato seeds varies between bacterial strains

Mangmang JSDeaker R Isr . J . Plant Sci . 62:145-152 [2015]

Roberts MR.Identification of rice blast disease-suppressing bacterial strains from the rhizosphere of rice grown in Pakistan

Naureen ZPrice AHHafeez FY Crop Prot . 28:1052-1060 [2009]

Rivas R.Use of rhizobium leguminosarum as a potential biofertilizer for Lactuca sativa and Daucus carota crops

Flores-Felix JDMenendez ERivera LPMarcos-Garcia MMartinez-Hidalgo PMateos PFMartinez-Molina EVelazquez MEGarcia-Fraile P J . Plant Nutr . Soil Sci . 176:876-882 [2013]

Rhizosphere microbiome assemblage is affected by plant development

Chaparro JMBadri DVVivanco JM ISME . J . 8:790-803 [2014]

Rhizosphere : Its structure , bacterial diversity and significance

Prashar PKapoor NSachdeva S. Rev . Environ . SciBiotechnol.13:63-77 [2013]

Rhizobacterial mediation of plant hormone status

Dodd ICZinovkina NYSafronova VIBelimov AA Ann . Appl . Biol . 157:361-379 [2010]

Results of major nutritional physiology study

Jang BCLee YJLee CSS.C. KimY.S . SongH.B . YoonJ.K . SungY.J . LeeW.K . ParkY.B . LeeR.Y . KimS.Y . LeeS.Y . Park Nutrient DiagnosisNAAS , RDA , Suwon , Korea . 240-255 [2009]

Responses of the sugarcane rhizosphere microbiota to different levels of water stress

Pereira LBde Oliveira Gambarini VMde Menezes ABOttoboni LMVicentiniR. 2021 Appl . Soil Ecol . 159:1-15

Responses of crop plants to ammonium and nitrate N. Adv

Li SXWang ZHStewart B Agron . 118:205-397 [2013]

Research priorities for harnessing plant microbiomes in sustainable agriculture

Busby PESoman CWagner MRFriesen MLKremer JBennett ADangl JL PLoS . biol . 28:1-14 [2017]

Remans R. 2007.Indole-3-acetic acid in microbial and microorganism-plant signalling

Spaepen SVanderleyden J FEMS Microbiol . Rev . 31:425-448

Relationship of in vitro antibiosis of plant growth promoting rhizobacteria to plant growth and the displacement of root microflora

Kloepper JWSchroth MN Phytopathol . 71:1020-1024 [1981]

Recent approaches using chemical treatments to preserve quality of fresh-cut fruit : a review

Oms-Oliu GRojas-Grau MAAlandes Gonzlez LVarela PSoliva-Fortuny RHernando Hernando MIMartin-Belloso O Postharvest Biol . Tec . 57:139- 148 [2010]

Rajkumar S.Plant growth promoting potential and soil enzyme production of the most abundant Streptomyces spp

Jog RNareshkumar G from wheat hizosphere . J. Appl . Microbiol . 113:1154-1164 [2012]

Pseudomonas spG19 alleviates salt stress and promotes growth of Chinese cabbage

Lee GWLee KJChae JC . 2014a Korean J. Microbiol . 50:368-371

Prospects for biological soilborne disease control : Application of indigenous versus synthetic microbiomes

Mazzola MFreilich S. Phytopathol . 107:256-263 . Miljakovi ? D , Marinkovi ? J , Bale ? evi ? -Tubi ? S.The significance of Bacillus spp . in disease suppression and growth promotion of field and vegetable crops . Microorganisms 8:1037-1056 [20172020]

Production of plant growth regulators by rhizosphere phosphate-solubilizing bacteria

Barea JMNavaro EMontoya E. 1976 J. Appl . Bacteriol . 40:129-134

Prigent-Combaret C.Acquisition of phosphorus and nitrogen in the rhizosphere and plant growth promotion by microorganisms

Richardson AEBarea JMMcNeill AM Plant Soil 321:305-339 [2009]

Pre-colonization of PGPR triggers rhizosphere microbiota succession associated with crop yield enhancement

Zhang YGao XShen ZZhu CJiao ZLi R. 2019b Plant Soil 439:553-567

Potassium influences on yield and quality production for maize

Pettigrew WT wheat , soybean and cotton . Physiol . Plant133:670-681 [2008]

Plant-growth-promoting rhizobacteria as biofertilizers and biopesticides . In : Handbook of microbial biofertilizers

Banerjee MRYesmin LVessey JK Food Products Press , New York . 137-181 [2006]

Plant growth-promoting rhizobacteria : Context , mechanisms of action , and roadmap to commercialization of biostimulants for sustainable agriculture

Backer RRokem JSIlangumaran GLamont JPraslickova DRicci ESubramanian SSmith DL Front . Plant Sci . 9:1473-1490 [2018]

Plant growth-promoting rhizobacteria ( PGPR ) as biofertilizers and biopesticides . In microbiota and biofertilizers

Riaz UMurtaza GAnum WSamreen TSarfraz MNazir MZ Springer , Cham . 181-196

Plant growth-promoting rhizobacteria ( PGPR ) : Their potential as antagonists and biocontrol agents

Beneduzi AAmbrosini APassaglia LMP Genet . Mol . Biol . 4:1044-1051 [2012]

Plant growth-promoting bacteria in regulation of plant resistance to stress factors

Maksimov IVVeselova SVNuzhnaya TVSarvarova ERKhairullin RM Russ . J . Plant Physiol62:715-726 [2015]

Plant growth-promoting bacteria as inoculants in agricultural soils

Souza RAmbrosini APassaglia LMP Mol . Biol . 38:401-419 StatisticsKoreaAgricultural area survey . Daejeon , Korea [20152016]

Plant growth-promoting bacteria : mechanisms and applications

Glick, B. R Scientifica [2012]

Plant growth-promoting activity of beta-propeller protein YxaL secreted from Bacillus velezensis strain GH1-13

Kim YHChoi YOh YYHa NCSong J PloS . ONE14:1-15 [2019]

Plant growth promotion in cereal and leguminous agricultural important plants : from microorganism capacities to crop production

o FCas-Villegas Rn PDel Cerro MEspuny Ipez-Baena FOllero T Microbiol . Res . 169:325-336 [2014]

Plant growth promotion by Bacillus megaterium involves cytokinin signaling

z-Castro RValencia-Cantero EL ? pez-Bucio J . Plant Signal . Behav . 3:263-265 [2008]

Plant growth promoting rhizobacteria as biofertilizers

Vessey JK Plant Soil 255:571-586 [2003]

Plant growth promoting rhizobacteria alleviate salinity induced negative effects on growth , oil content and physiological status in Mentha arvensis

Bharti NDBarnawal AAwasthi AYadav AKalra . Acta Physiol . Plant 36:45-60 [2014]

Plant growth ? promoting rhizobacteria inoculation to enhance vegetative growth , nitrogen fixation and nitrogen remobilisation of maize under greenhouse conditions

Kuan KBOthman RAbdul Rahim KShamsuddin ZH PLoS . ONE11:1-8 [2016]

Plant ? soil feedbacks : the past , the present and future challenges

Van der Putten WHBardgett RDBever JDBezemer TMCasper BBFukami TKardol PKlironomos JNKulmatiski ASchweitzer JASuding KNVan de Voorde TFJWardle DA J. Ecol . 101:265-276 [2013]

Plant ? microbes interactions in enhanced fertilizer-use efficiency

Adesemoye AOKloepper JW Appl . Microbiol . Biotechnol . 85:1-12 [2009]

Phytochemical and therapeutic potential of cucumber

Mukherjee PKNeema NKMaity NSarkar BK Elsevier . 84:227-236 [2013]

Photoperiod regulates elicitation of growth promotion but not induced resistance by plant growth-promoting rhizobacteria

Kloepper JWGutierrez-Estrada AMcInroy JA Can . J. Microbiol . 53:159 ? 167 [2007]

Phosphate solubilization and promotion of maize growth by Penicillium oxalicum P4 and Aspergillus niger P85 in a calcareous soil

Yin ZWShi FCJiang HMRoberts DPChen SFFan BQ Can . J. Microbiol . 61:913-923 . Yoon SSHistory of kimchi . Korean J. Culi . Sci . 89-89 [20151988]

Perumal E.A review on the chemotherapeutic potential of fisetin : In vitro evidences

Sundarraj KRaghunath A Biomed . Pharmacother . 97:928-935 [2018]

Perspective of beneficial microbes in agriculture under changing climatic scenario

Bhattacharyya PNGoswami MPBhattacharyya LH A Review . J. Phytol . 8:26-41 [2016]

Paulitz T.Disease suppressive soils : new insights from the soil microbiome

Schlatter DKinkel LThomashow LWeller DMitter B Phytopathol . 107:1284-1297 . Sessitsch A21st century agriculture : integration of plant microbiomes for improved crop production and food security . Microb . Biotechnol . 8:32- 33 [20172015]

Park M. 2006.Change in soil properties after cucumber cultivation under plastic film house at Gunwi-Gun area

Lee DHChoi CLKim KSKim PYSeo JW Agric . Rex . Bull . Kyungpook Natl . Univ . 24:43-47

Panigrahi A K.Brevibacillus as a biological tool : a short review

Panda AKBisht SSDeMondal SKumar NSGurusubramanian G Antonie Van Leeuwenhoek . 105:623-639 [2014]

PGPR Inoculation and chemical fertilization of cereal crops , how do the plants and their rhizosphere microbial communities ’ response ? .in microbial interventions in agriculture and environment

Salvo diSalamone I.EG Springer . Singapore . 123-148 [2019]

On-site inspection of agricultural microorganism culture rooms for culture efficiency and contamination status

Cho GKim DRJeon CWLee SGKwak YS J. Agri . Life Sci . 53:1-11 [2019]

Occurrence of major diseases in pesticide-free cultivated tomato and cucurbit in Jeollabuk-do

Kim JHChoi MKMoon HCChon HG . 2020b Korean J. Environ . Biol . 38:486-495 [South]

Nou IS , Kang KKDefference in soil improvement effects of four green manure crops in greenhouse cultivation

Son CYJung YJLee IHKang HUJeon WD Korea J . Plant Res . 24:636-641 [2011]

Nonhybrid , finished microbial genome assemblies from long-read smrt sequencing data

Chin CSAlexander DHMarks PKlammer AADrake JHeiner CClum ACopeland AHuddleston JEichler EE Nat . Methods 10:563-569 [2013]

Nitrogen management and the future of food : lessons from the management of energy and carbon

Socolow RH Proc . Nati . Acad . Sci . 96:6001-6008 [1999]

New frontiers in agriculture productivity : optimised microbial inoculants and in situ microbiome engineering

Qiu ZEgidi ELiu HKaur SSingh BK Biotechnol . Adv . 37:1-21 [2019]

Narlikar JVJanibacter hoylei sp nov. , Bacillus isronensis sp nov and Bacillus aryabhattai sp nov. , isolated from cryotubes used for collecting air from the upper atmosphere

Shivaji SChaturvedi PBegum ZPindi PKManorama RPadmanaban DA Int . J. Syst . Evol . Microbiol . 592:977-2986 [2009]

NCBI prokaryotic genome annotation pipeline

Tatusova TDiCuccio MBadretdin AChetvernin VNawrocki EPZaslavsky LLomsadze APruitt KDBorodovsky MOstell J Nucleic Acid Res . 44:6614-6624 [2016]

Multifarious beneficial traits and plant growth promoting potential of Serratia marcescens KiSII and Enterobacter sp

George PGupta AGopal MThomas LThomas GV RNF267 isolated from the rhizosphere of coconut palms ( Cocosnucifera L. ) World J. Microbiol . Biotechnol . 29:109-117 [2013]

Mora ? Aguilera ALeaf stripe and stem rot caused by burkholderia gladioli

Hernandez AOrtiz DSanchez DAlmaraz RDLDe Leon C a new maize disease in Mexico . J. Phytopathol . 159:377-381 [2010]

Monitoring of pesticide residues and risk assessment for fruits in market

Ahn JWJeon YHHwang JIKim JMSeok DRLee EHLee SEChung DHKim JE Korean J. Environ . Agric . 32:142-147 [2013]

Monitoring and risk assessment of pesticide residues in agricultural products collected from wholesale and traditional markets in Cheongju

Noh HHKang KWPark YSPark HKLee KHLee JYYeop KWLee EYJin YDKyung KS Korean J. Pestic . Sci . 14:1-9 [2010]

Monitoring and risk assessment of pesticide residues for circulated agricultural commodities in Korea-2013

Kim JYLee SMLee HJChang MIKang NSKim NSKim HJCho YJJeong JYKim MKRhee GS J. Appl . Biol . Chem . 53:235-242 [2014]

Monitoring and risk assessment of pesticide residues farmers ’ market produce in northern gyeonggi-do

Lim JHPark PHLim BGRyu KSKang MSSong SHKang NHYoo NYKim JEKang CEKim YHSeo JHChoi OKYoon MH J . Food Hyg . Saf . 35:243-251 [2020]

Molecular basis of cucumber fruit domestication

Che GZhang X Plant Biol . 47:38-46 [2019]

Mohanty S.Effect of diazotrophs and chemical fertilizers on production and economics of Okra ( Abelmoschus esculentus

Mal BMahapatra P L. ) cultivars . American J . Plant . Sci.1:68-174 [2015]

Miyagwa S.Growth and nutrient dynamics of buckwheat ( Fagopyrum esculentum Moench ) as influeced by different applications of green soybean manure and bio-decomposer

Allotey DFKHoriuchi T Japanese J . Crop Sci . 66:407-417 [1997]

Mitchell ? Olds T. 2014 . Natural soil microbes alter flowering phenology and the intensity of selection on flowering time in a wild Arabidopsis relative

Wagner MRLundberg DSColeman-Derr DTringe SGDangl JL Ecol . Lett . 17:717-726

Ministry of Agriculture , Ministry of Food and Drug Safety ( MFDS ) , Ministry of Oceans and Fisheries ( MOF

Food and Rural Affairs ( FRAAgricurtural and marine products quality control act , Act No . 16781 , Sejong , Cheongju , Korea [2019]

Microenvironments of soil microorganisms

Foster R. Biol . Fert . Soils 6:189- 203 [1988]

Microbiome and the future for food and nutrient security

Singh BKTrivedi P. 2017a Microb . Biotechnol . 10:50-53

Microbial production of bacteriocins : Latest research development and applications

Juturu VWu JC Biotechnol . Adv36:2187-2200 [2018]

Microbial population and community dynamics on plant roots and their feedbacks on plant communities

Bever JDPlatt TGMorton ER Annu . Rev . Microbiol . 66:265-283 [2012]

Microbial diversity of extreme regions : an unseen heritage and wealth

Verma Yadav KSKhannam NPanjiar SKumar AKSaxena A. Suman Indian J . Plant Genet . Resour . 29:246-248 [2015]

Microbial community analysis in the wastewater treatment of hypersaline-wastewater

Lee JWKim BHPark YSSong YCKoh SC . 2014b J. Microbiol . Biotechnol . 42:377-385

Mhamdi R.Microbial inoculants and their impact on soil microbial communities : a review

Trabelsi D J. Biomed . Biotechnol . 11:1-15 [2013]

Metagenomic analysis of a southern maritime Antartic soil

Pearce DANewsham KKThorne MASClavo-Bado LKresk MLaskaris P Front . Microbiol . 3:403-416 [2012]

Mass cultivation and characterization of multifunctional Bacillus velezensis GH1-13

Park JKKim JLee CWSong JSeo SIBong KMKim PI J. Org . Agri . 27:65- 76 [2019]

Martynenko EV , Kudoyarova GRAbility of bacterium Bacillus subtilis to produce cytokinins and to influence the growth and endogenous hormone content of lettuce plants

Arkhipova TNVeselov SUMelentiev AI Plant Soil 272:201-209 [2005]

Manter D.Bacillus spp . from rainforest soil promote plant growth under limited nitrogen conditions

Huang XFZhou DMGuo JH J. Appl . Microbiol . 118:672-684 [2015]

Manipulating the soil microbiome to increase soil health and plant fertility

Chaparro JMSheflin AManter DVivanco JM Biol . Fert . Soils . 48:489-499 [2012]

Maniatis T.Molecular cloning : A laboratory manual , Ed 4

Sambrook JFritsch EF CSHLP , Cold Spring Harbor , New York , USA . 1:19-21 [2012]

Management of resident soil microbial community structure and function to suppress soilborne disease development

Mazzola M. Clim . Change Crop Produc1 : 200- 218 [2010]

Macro and micro nutrient contents in lives of greenhouse-grown cucumber by growth stages

Lee JYSung JKLee SYJang BCKim RYKang SS Kor . J . Soil Sciand Fert . 44:215-220 [2011]

Long-term greenhouse cucumber production alters soil bacterial community structure

Liu XLi YJRen XJChen BHZhang YShen CWWang FWu DF . 2020a J . Soil SciPlant Nutr . 20:306-321

Linial M.ClanTox : a classifier of short animal toxins

Naamati GAskenazi M Nuc . Acids Res . 37:363-368 [2009]

Li R.Continuous application of different organic additives can suppress tomato disease by inducing the healthy rhizospheric microbiota through alterations to the bulk soil microflora

Liu HXiong WZhang RHang XWang D Plant Soil 423:229-240 [2018]

Li H.Interaction matters : synergy between vermicompost and PGPR agents improves soil quality , crop quality and crop yield in the field

Song XLiu MWu DGriffiths BSJiao J Appl . Soil Ecol [2015]

Lettuce growth and nitrogen loss in soil treated with corn starch carbamate produced using urea

Kim DHKang YJChoi JJ.Yun , S.I . 2020a Korean J . Soil Sci . Fert . 53:13-21

Lee KT. 2008. Kimchi memoirs. Design House, 138-138.

Lee KT Kimchi memoirs . Design House , 138-138 [2008]

Kubal M.The rast server : Rapid annotations using subsystems technology

Aziz RKBartels DBest AADeJongh MDisz TEdwards RAFormsma KGerdes SGlass EM BMC Genom . 9:1-15 [2008]

Korean Statistical Information Service

2020. http : //kosis.kr/index/index.do . Kozlowski T , Pallardy S. 1999 . Physiology of woody plants ( 2 nd Eds. ) . Academic Press . London , England

Koonin EV2021 . COG database update : focus on microbial diversity , model organisms

Galperin MYWolf YIMakarova KSVera Alvarez RLandsman D

Koga N.Use of a microchip electrophoresis system for estimation of bacterial phylogeny and analysis of NO3 ? reducing bacterial flora in field soils

Watanabe K Biosci . Biotechnol . Biochem . 73:479-488 [2009]

Kinae N.Dietary intakes of flavonols , flavones and isoflavones by Japanese women and the inverse correlation between quercetin intake and plasma LDL cholesterol concentration

Arai YWatanabe SKimira MShimoi KMochizuki R J. Nutr , 130:2243-2250 [2000]

Kim K.Potassium solubilizing rhizobacteria ( KSR ) : isolation

Meena VSMaurya BRVerma JPAeron AKumar A [2015identification]

Khan M.Screening of free-living rhizospheric bacteria for their multiple plant growth promoting activities

Ahmad FAhmad I Microbiol . Res . 163:173-181 [2008]

Keystone microbial taxa regulate the invasion of a fungal pathogen in agro ?

Trivedi PDelgado-Baquerizo MTrivedi CHamonts KAnderson ICSingh BK ecosystems . Soil Biol Biochem . 111:10-14 [2017]

Kembel SW.Leaf bacterial diversity mediates plant diversity and ecosystem function relationships

Laforest-Lapointe IPaquette AMessier C Nature546:145- 147 [2017]

Kaewkannetra P.An alternative approach to the fermentation of sweet sorghum juice into biopolymer of poly-beta ?

Tanamool VImai TDanvirutai P hydroxyalkanoates ( PHAs ) by newly isolated , Bacillus aryabhattai PKV01 . Biotechnol . Bioprocess Eng . 18:65-74 [2013]

K. Goh K.Effects of forms and rates of organic and inorganic nitrogen fertilisers on the yield and some quality indices of tomatoes ( Lycopersicon esculentum Miller

N. Z. J . Crop Hortic . Sci . 18:31-37 [1990]

Issues on Overcoming Present Crises of Organic Agriculture through its Philosophy and Principle

Kim H. 2017c Kor . J. Org . Agri . 25:53-69

Isolation and identification of plant growth promoting rhizobacteria from cucumber rhizosphere and their effect on plant growth promotion and disease suppression

Islam SAkanda AMProva AIslam MTHossain MM Front . Microbiol . 6:1360- 1372 [2016]

Isolation and characterization of phosphate solubilizing pseudomonas species and their effect on plant growth promotion

Jo GSKim SYCho JSCheong YH Korean J . Soil Sci . Fert . 52:438-447 [2019]

Isolation and characterization of indole acetic acid ( IAA ) producing bacteria from rhizospheric soil and its effect on plant growth

Mohite B J . Soil Sci . Plant Nutr . 13:638-649 [2013]

Isolation and characterization of a novel bacterium , Bacillus subtilis HR-1019 , with insoluble phosphates solubilizing activity

Lee YSPark DJKim JHKim HSChoi YL . 2013b J . Life Sci . 23:242-248

Is it possible to forecast the gran quality and yield of different varieties european

Le Bail MJeuffroy MHBouchard CBarbottin A journal of agronomy f winter wheat from minolta SPAD meter measurementsEur . J. Agron . 23:379-391 [2005]

Is IAA the major root growth factor secreted from plant-growth-mediating bacteria ?

Barazani OFriedman J . J. Chem . Ecol . 25:2397-2406 [1999]

Introducing EzBioCloud : a taxonomically united database of 16S rRNA and whole genome assemblies

Yoon SHHa SMKwon SLim JKim YSeo HChun J Int . J. Syst . Evol . Microbiol . 67:1613-1617 [2017]

Intercropping of wheat changed cucumber rhizosphere bacterial community composition and inhibited cucumber Fusarium wilt disease

Jin XShi YWu FPan KZhou X Sci . Agric . 7:1-9 [2020]

Interaction between plants and rhizobacteria in phytoremediation of heavy metal-contaminated soil

Koo SYCho KS Kor . J. Microbiol . Biotechnol . 2:83- 93 [2006]

Inoculation of zinc solubilizing Bacillus aryabhattai strains for improved growth , mobilization and biofortification of zinc in soybean and wheat cultivated

Ramesh ASharma SKSharma MPYadav NJoshi OP Appl . Soil Ecol . 73:87-96 [2014]

Inoculation of abscisic acid-producing endophytic bacteria enhances salinity stress tolerance in Oryza sativa

Shahzad RKhan ALBilal SWaqas MKang SMLee I.J Environ . Exp . Bot . 136:68-77 [2017]

Indian medicinal plants : a compendium of 500 species

Warrier PK Press Orient Longman , Chennai.142-153 [1994]

In vitro antioxidant activity of cucumber polysaccharides

He NWYang XBTian LMZhao Y Food Sci . 32:70-74 [2011]

Impacts of biochars on bacterial community shifts and biodegradation of antibiotics in an agricultural soil during short ? term incubation

Zhang GZhao ZYin XAZhu Y . 2021 Sci . Total Environ771:1-11

Impact of pesticides use in agriculture : their benefits and hazards

Aktar WSengupta DChowdhury A Interdiscip . Toxicol . 2:1-12 [2009]

Impact of long-term agricultural management practices on soil prokaryotic communities

Babin DDeubel AJacquiod SSørensen SJGeistlinger RGrosch K Soil Biol [2019]

Impact of Plant-Associated Microbial Communities on Host Plants Under Abiotic Stresses

Arora SJha PN In Microbial Interventions in Agriculture and Environment . 303-340 [2019]

Identification and characterization of endophytic bacteria from corn ( Zea mays L. ) roots with biotechnological potential in agriculture

Szilagyi-Zecchin VJIkeda ACHungria MAdamoski DKava-Cordeiro VKGlienke CGalli-Terasawa LV AMB Express4:1-9 [2014]

Hydrogen cyanide produced by Pseudomonas chlororaphis O6 exhibits nematicidal activity against Meloidogyne hapla

Kang BRAnderson AJKim YC Plant Pathol . J . 34:35-43 [2018]

Hue N.Temporal changes of selected chemical properties in three manure ?

Escobar M O Amended soils of Hawaii . Bioresour . Technol . 99:8649-8654 [2008]

Hormone signalling crosstalk in plant growth regulation

Depuydt SHardtke CS Curr . Biol . 21:365-373 [2011]

Hollier C.Crop losses due to diseases and their implications for global food production losses and food security

Savary SFicke AAubertot J Food Secur . 4 : 519- 537 [2012]

Historical review of kimchi

Jo JS J . East Asian Soc . Diet . Life 4:93-108 [1994]

Heijden MG. 2015 . Soil biota enhance agricultural sustainability by improving crop yield , nutrient uptake and reducing nitrogen leaching losses

Bender SF J Appl . Ecol . 52:228-239

Harnessing the rhizosphere microbiome through plant breeding and agricultural management

Bakker MGManter DKSheflin AMWeir TLVivanco JM Plant Soil 360:1-13 [2012]

Harnessing microbiome-based biotechnologies for sustainable mitigation of nitrous oxide emissions

Hu HWHe JZSingh BK Microbial Biotec . 10:1226-1231 [2017]

Handbook of cucumber cultivation . Agricultural library , Tokyo Gadhave KRSoil inoculation with Bacillus spp . modifies root endophytic bacterial diversity , evenness , and community composition in a context ? specific manner

Devlin PFEbertz ARoss AGange AC Microb . Ecol . 76:741-750 [19732018]

Han SI. 2020. Indigenous microbiome transplantation for the environment-friendly bioremediation. Korean J. Microbiol. 56:1-9.

Han SI Indigenous microbiome transplantation for the environment-friendly bioremediation . Korean J. Microbiol . 56:1-9 [2020]

Growth promotion of Xanthium italicum by application of rhizobacterial isolates of Bacillus aryabhattai in Microcosm Soil

Lee SKa JOSong HG . 2012c J. Microbiol . 50:45-49

Grosch R.Plant microbial diversity is suggested as the key to future biocontrol and health trends

Berg G , Kberl MRybakova DMller H FEMS Microbiol Ecol . 93:1-9 [2017]

Grandy ASDirect evidence for microbial-derived soil organic matter formation and its ecophysiological controls

Kallenbach CMFrey SD Nat . Commun7:1-10 Kanehisa M , Goto S.KEGG : kyoto encyclopedia of genes and genomes . Nucleic Acids Res.28:27-30 [20162000]

Govindappa M.Mechanisms of biocontrol and plant growth-promoting activity in soil bacterial species of Bacillus and Pseudomonas : a review

Santoyo GOrozco-Mosqueda MDC Biocontrol . Sci . Technol . 8:855-872 [2012]

Going back to the roots : The microbial ecology of the rhizosphere

Philippot LRaaijmakers JMLemanceau PVan der Putten WH Nature Rev . Microbiol11:789- 799 [2013]

Gibberellins producing Bacillus methylotrophicus KE2 supports plant growth and enhances nutritional metabolites and food values of lettuce

Radhakrishnan RLee IJ Plant Physiol . Biochem109:181-189 [2016]

Genome-guided insights into the plant growth promotion capabilities of the physiologically versatile Bacillus aryabhattai strain AB211

Bhattacharyya CBakshi UMallick IMukherji SBera BGhosh A Front . Microbiol . 8:411-427 [2017]

Genetic system constructed to overproduce and secrete proinsulin in Bacillus subtilis

Olmos SJContreras FR Appl . Microbiol . Biotechnol [2003]

Gaiella occulta gen. nov. sp . nov. , a novel representative of a deep branching phylogenetic lineage within the class Actinobacteria and proposal of Gaiellaceae fam

Albuquerque LFranca LRainey FASchumann PNobre MFda Costa MS. nov. and Gaiellales ord . nov. Systemat . Appl . Microbiol . 34:595-599 [2011]

Functional analysis of metagenomes and metatranscriptomes using SEED and KEGG

Mitra SRupek PRichter DCUrich TGilbert JAMeyer FWilke AHuson DH BMC Bioinformatics.12:1-8 [2011]

Fitzsimmons K.The effect of pH on phosphorus availability and speciation in an aquaponics nutrient solution

Da Silva Cerozi B Bioresour . Technol . 219:778-781 [2016]

Fierer N.A global atlas of the dominant bacteria found in soil

Delgado-Baquerizo MOliverio AMBrewer T EBenavent-Gonzalez AEldridge DJBardgett RDMaestre FTSingh B.K Science 359:320-325 [2018]

F.Influence of soil characteristics on the diversity of bacteria in the southern Brazilian atlantic forest

Faoro HAlves ASouza ERigo LCruz LAl-Janabi SMonteiro RBaura V Pedrosa Appl . Environ . Microbiol . 76:4744-4749 [2010]

Exploring the communities of bacteria , fungi and ammonia oxidizers in rhizosphere of Fusarium-diseased greenhouse cucumber

Liu XZhang Y . 2020b Appl . Soil Ecology . 161:1-12

Evidence of nitrogen fixation and growth promotion in canola ( Brassica napus L. )

Puri APadda KPChanway CP [2016]

Evaluation of soil and fertilizer management techniques applied by farmers in forcing and semi-forcing cucumber cultivation facilities

Lee JYJang BCSung JKLee SYKim RYLee YJPark YHKang SSHyun BK . 2012b Korean J . Soil Sci . Fert . 45:983-991

Evaluation of plant growth promoting and colonization ability of endophytic diazotrophs from deep water rice

Verma SCLadha JKTripathi AK J. Biotechnol . 91:127-141 [2001]

Estimation of nutrient balance in field crops applied with different fertilization

Kim SCKim MSPark SJKim SHLee CH Korean J . Soil Sci . Fert . 51:427-434 [2018]

Estimation of leaf area , leaf fresh weight , and leaf dry weight of irwin mango grown in greenhouse using leaf length

Jung DHCho YYLee JGSon JE leaf width , petiole length , and valueProtected Hort . Plant Fac . 25:146-152 [2016]

Estimation of individual leaf area , fresh weight , and dry weight of hydroponically grown cucumbers ( Cucumis sativus L. ) using leaf length

Cho YYOh SOh MMSon JE width , and SPAD value . Sci . Hortic . 111:330-334 [2007]

Entropy and diversity

Oikos . 113:363-375 [2006]

Enterobacter sp . strain Fs-11 adapted to diverse ecological conditions and promoted sunflower achene yield

Shahid MHameed SZafar MTahir MIjaz MTariq MAliA . nutrient uptake , and oil contents . Braz . J. Microbiol . 50:459-469 [2019]

Enshasy H. 2021Plant growth promoting rhizobacteria ( PGPR ) as green bioinoculants : recent developments

Basu APrasad PDas SNKalam SSayyed RZReddy MS constraints , and prospects . Sustainability 13:1140-1160

Emerging microbial biocontrol strategies for plant pathogens

Syed AbRahman SFSingh EPieterse CMJSchenk PM Plant Sci . 267:102-111 [2018]

Elucidating multifaceted urease producing marine Pseudomonas aeruginosa BG as a cogent PGPR and bio-control agent

Goswami DPatel KParmar SVaghela HMuley NDhandhukia PThakker JN Plant Growth Regul . 75:253-263 [2015]

Eltem R.Plant growth promoting properties of phosphate solubilizing Bacillus species isolated from the aegean region of Turkey

Bahadir PSLiaqat F Turk . J. Bot . 42:1-14 [2018]

Efficacy of rhizobacterial strains encapsulated in nontoxic biodegradable gel matrices to promote growth and yield of wheat plants

Saxena J Appl . Soil Ecol . 48:301-308 [2011]

Effects on the soil microbial diversity and growth of red pepper by treated microbial agent in the red pepper field

An CHLim JHKim YHJung BKKim JWKim SD Korean J. Microbiol . Biotechnol . 40:30-38 [2012]

Effects of soil conditioners on the growth of cucumber and tomato

Park SOPark KWLee GPKim MJLee JH . 2004b J. Bio-Env . Con . 13:194-199

Effects of rhizosphere colonization by plant growth-promoting rhizobacteria on potato plant development and yield

Kloepper JWSchroth MNMiller TD Phytopathol . 70:1078-1082 [1980]

Effects of organic matter application on soil microbial community in a newly reclaimed soil

Ok JHCho JLShin JHNam HSKim SC Korean J. Org . Agric . 23:767-779 [2015]

Effects of nutrient source on soil physical , chemical , and microbial properties in an organic pear orchard

Choi HSLi XKim WSLee Y Korean J. Environ . Agric . 30:16-23 [2011]

Effects of different plant root exudates and their organic acid components on chemotaxis , biofilm formation and colonization by beneficial rhizosphere-associated bacterial strains

Zhang NWang DDLiu YPLi SQShen QZhang RF Plant Soil 374:689-700 [2014]

Effects of different UV-B levels on growth , antioxidant contents and activities of related enzymes in cucumber ( Cucumis sativus L.

Kim HYShin DHKim KU Korean J. Environ . Agri . 19:309-313 [2000]

Effects of actinobacteria on plant disease suppression and growth promotion

Palaniyandi SAYang SHZhang LSuh JW Appl . Microbiol . Biotechnol . 97:9621- 9636 [2013]

Effects of PGPR microbial inoculants on the growth and soil properties of Avena sativa

Li HQiu YYao TMa YZhang HYang X Medicago sativa , and Cucumis sativus seedlings . Soil Tillage Res . 199:145-152 [2020]

Effects of Brassiea campestris L. and Lactuca sativa L. yield by application of organic fertilizers and microorganisms

Jo SHPark THChang KW J. KORRA10:88-92 [2001]

Effective role of indigenous microorganisms for sustainable environment

Kumar BLGopal DS Biotech . 5:867-876 [2015]

Effect of plant ? growth-promoting bacteria inoculation on the growth and yield of cucumber ( Cucumis sativa L.

Lee YHCho WSKim JGLee HSPark SRYun HD Korean J . Soil Sci . Fert . 30:196-199 [1997]

Effect of organic residue incorporation on salt activity in greenhouse soil

Lee SBLee CHHong COKim SYLee YBKim PJ Korean J. Environ . Agric . 28:397-402 [2009]

Effect of medium supplemented with a photosynthetic bacterium ( Rhodospirillace capsulatus ) on the growth of hydroponically grown cucumber plants

Kim HGSeo BSKang JGYang SYChon SUBoo HO . 2009b Kor . J. Hort . Sci . Technol . 27:67-72

Effect of fly-ash application on yield and nutrient composition of rice , wheat and on pH and available nutrient status of soils

Sikka RKansal BD Bioresour . Tech . 51:199-203 [1995]

Effect of continuous monocropping of tomato on soil microorganism and microbial biomass carbon

MO ASQiu ZQHe QWu HYZhou XB Commun . Soil Sci.Plant Anal [2016]

Effect of continuous application of organic farming materials on the soil physicochemistry property and plant growth

Oh JSLee JSKang KHKim HTChung WBJeong SJ yield and components of tomatoKorean J. Org . Agric . 9:75- 89 [2001]

Effect of application of coffee sludge and dried food waste powder on the growth Peucedanum japonicum Thunberg

Jeon YJHwang HCEun JAJung SOh TK Korean J. Agric . Sci . 47:193-204 [2020]

Effect of Bacillus subtilis on phosphorus uptake by cucumber as affected by iron oxides and the solubility of the phosphorus source

Garcia-Lopez AMDelgado A Agric . Food Sci . 25:216-224 [2016]

Effect of Bacillus subtilis S37-2 on microorganisms in Soil and Growth of Lettuce ( Lactuca sativa

Heo JYKim DHChoi YJLee SDSeuk SWSong JKKwon JSKim MK Korean J . Soil Sci . Fert . 49:621-626 [2016]

Editorial : a multidisciplinary look at Stenotrophomonas maltophilia : an emerging multi-drug ?

Brooke JSDi GBonaventura GBerg JLMartinez . resistant global opportunistic pathogen . Front . Microbiol . 8:1511-1514 [2017]

Draft genome of bagasse ? degrading bacteria Bacillus aryabhattai GZ03 from deep sea water

Wen JRen CHuang NLiu YZeng RY Mar . Genomics . 19:13-14 [2015]

Dongia mobilis gen. nov. , sp . nov. , a new member of the family Rhodospirillaceae isolated from a sequencing batch reactor for treatment of malachite green effluent

Liu YJin JHLiu YHZhou YGLiu ZP Int J. Syst . Evo.l Microbiol . 60:2780-2785 [2010]

Doehlemann G.Inside plant : biotrophic strategies to modulate host immunity and metabolism

Okmen B Curr . Opin . Plant Biol . 20:19-25 [2014]

Diversity and functional traits of culturable microbiome members

Venkatachalam KRanjan RPrasann , BRamakrishnan SThapa AKanchan . including cyanobacteria in the rice phyllosphere . Plant Biology 18:627-637 [2016]

Diverse and abundant secondary metabolism biosynthetic gene clusters in the genomes of marine sponge derived Streptomyces spp

Jackson SACrossman LAlmeida ELMargassery LMKennedy JDobson AD isolates . Marine Drugs 16:67-85 [2018]

Dissipation Pattern of Amisulbrom in cucumber under greenhouse condition for establishing pre-harvest residue limit

Hwang KWKim TWYoo JHPark BSMoon JK Korean J. Pestic . Sci.16:288-293 [2012]

Different effects of transgenic maize and nontransgenic maize on nitrogen-transforming archaea and bacteria in tropical soils

Cotta SRDias ACFMarriel IEAndreote FDSeldin Lvan Elsas JD Appl . Environ . Microbiol . 80:6437-6445 [2014]

Dieter H.IAA synthesis in the biocontrol strain CHO of Pseudomonas fluorescens : role of tryptophan side chain oxidase

Thomas ODieter G J. Gen. Microbiol 137:2273-2279 [1991]

Diet rapidly and reproducibly alters the human gut microbiome

David LAMaurice CFNGootenberg DBButton JEWolfe BEBiddinger SB Nature 505-559 [2014]

Diagnosis of mineral disorders in plants

Winsor GAdams P. Vol . 3 . Glasshouse crops . Her Majesty ’ s Stationery Office , London [1987]

Developments in the use of Bacillus species for industrial production

Schallmey MSingh AWard OP Can . J. Microbiol . 50:1-17 [2004]

Development of microbial formulation and biological properties using Bacillus velezensis GH1-13

Park JKSeo SIHan GHKim KMKim DHSong JKKim PI KSBB . J . 33:237-246 [2018]

Detection of biosynthetic gene and phytohormone production by endophytic actinobacteria associated with Solanum lycopersicum and their plant-growth-promoting effect

Passari AKChandra PZothanpuia MVKLeo VVGupta VKKumar BSingh . BP Res . Microbiol . 167:692-705 [2016]

Delgado-Baquerizo M.Crop microbiome and sustainable agriculture

Singh BKTrivedi PEgidi EMacdonald CA Nature Rev [2020]

Das S.Pharmacological activity of Cucumis Sativus L. ? a complete overview

Mallik JDas P AJPRD . 1-6 [2013]

Das N.Bio-effective disease control and plant growth promotion in lentil by two pesticide degrading strains of Bacillus sp

Roy TBandopadhyay ASonawane PJMajumdar SMahapatra NRAlam S Biological Control127:55-63 [2018]

Cucurbitaceae : a ethnomedicinally important vegetable family

Shrivastava ARoy S. J. Med Plants Stud 1:16-20 [2013]

Cucumber ( Cucumis sativus L. ) . In antioxidants in vegetables and nuts-properties and health benefits

Sharma VSharma LSandhu KS Springer , Singapore . 333-340 [2020]

Criteria of nitrate concentration in soil solution and leaf petiole juice for fertigation of cucumber under greenhouse cultivation in gyeonggi region

Park JSRoh ASJang JEKang CSKim HD Korean J . Soil Sci . Fert . 48:295-304 [2015]

Controlling activity of Bacillus subtilis KB-401 against cucumber powderymildew caused by Sphaerotheca fusca

Nam MHChoi JPKim HJLee JJLim KHKim YGKim HTJeun YC Korean J. Pestic . Sci.4:49-53 [2010]

Control effect of major fungal diseases of cucumber by mixing of biofungicides registered for control of powdery mildew with other control agents

Kim GHPark JYCha JHJeon CSHong SJKim YHYoung JS . 2011a Korean . J. Pestic . Sci . 15:323-328

Consortium of plant growth ? promoting rhizobacteria strains suppresses sweet pepper disease by altering the rhizosphere microbiota

Zhang LWang DHu QDai XXie YLi Q . 2019c Front . Microbiol . 10:1668-1675

Conception and argumentation of sustainable development

Chung YKChang MS. Kor . East-West . Eco . Assoc [2007]

Comparison of the rhizosphere soil microbial community structure and diversity between powdery mildew ? infected and

Yang JWei SSu DZhang ZChen SLuo ZCui X Curr . Microbiol . 77:1724-1736 [2020]

Comparison of the antioxidative abilities of greenhouse-grown cucumber according to cultivars and growth stages

Yang SYKim HGLee SJCha WMAhn CHBoo HO Korean J . Plant Res . 26:548-556 [2013]

Comparison of fungal community in black pepper-vanilla and vanilla monoculture systems associated with vanilla Fusarium wilt disease

Xiong WZhao QXue CXun WZhao JWu HLi RShenQ . Front . Microbiol . 7:117-121 [2016]

Comparative studies on nutritional composition of four melon seeds varieties

Abiodun OAAdeleke RO Pak . J. Nutr . 9:905-908 [2010]

Comparative effectiveness of Bacillus spp . possessing either dual or single growth-promoting traits for improving phosphorus uptake , growth and yield of wheat

Baig KSArshad MShaharoona BKhalid AAhmed I Triticum aestivum L. ) . Ann . Microbiol . 62:1109-1119 [2012]

Combination and rotation of bacterial antagonists to control powdery mildew on Pumpkin

Janousek CNLorber JDGubler WD J . Plant Dis . Prot116 : 260-262 [2009]

Circular genome visualization and exploration using CGView

P. Wishart DS Bioinformatics 21:537-539 [2005]

Cho JS. 1994. Food ingredients, Mun Un Dang, Seoul, 159-162.

Cho JS Food ingredients , Mun Un Dang , Seoul , 159-162 [1994]

Chen W.Effects of growth ? promoting rhizobacteria on maize growth and rhizosphere microbial community under conservation tillage in Northeast China

Chen LHao ZLi KSha YWang ESui X Microb . Biotechnol.14:535-550 [2020]

Chemical equilibria in soils

Lindsay WL Wiley-Interscience . New York . USA [1979]

Characterization of siderophore producing Rhizobacteria and Its effect on growth performance of different vegetables

Pahari AMishra BB Int . J. Curr . Microbiol App Sci . 6:1398-1405 [2017]

Characterization of multi-functional feather-degrading Bacillus subtilis isolated from forest soil

Jeong JHJeon YDLee OMKim JDLee NRPark GTSon HJ Int . Biodeterior . Biodegradation 21:1029-1040 [2010]

Characterization of a nitrogen fixing bacteria Mycobacterium hominis sp

HongS. H.ShinK. C.LeeE. Y AKC-10 isolated from the wetland . Kor . J. Microbiol . Biotechnol . 38:302-307 [2010]

Characterization of Streptomyces lydicus WYEC108 as a potential biocontrol agent against fungal root and seed rots

Yuan WMCrawford D. L. Appl . Environ . Microbiol . 61:3119-3128 [1995]

Characterization of L ? Arabinose in Bacillus

Cheon JSeong BSeong WJong KKim DP [2009]

Characterisation of Lysobacter enzymogenes ( Christensen and Cook 1978 ) strain 3.1T8

Folman LBPostma JVan-Veen J . A a powerful antagonist of fungal diseases of cucumber . Microbiol . Res . 158:1-9 [2003]

Chanway C.N2-fixation and seedling growth promotion of lodgepole pine by endophytic Paenibacillus polymyxa

Anand RGrayston S Microb . Ecol . 66:369-374 [2013]

Changes of vitamin C and chlorophyll contents in Oi-Kimchi with storage time

Park MLLee YJKozukue NHan JSChoi SHHuh SMHan GPChoi SK . 2004a Korean J . Food Culture . 19:566-572

Changes induced by co-inoculation in nitrogen ? carbon metabolism in

De Andrade Santos Ada Silveira JAGde Araujo Guilherme EBonifacio A , RodriguesACFigueiredo MDVB cowpea under salinity stressBraz J. Microbiol . 49:685-694 [2018]

Case study of N deficiency symptom of strawberry in the Soil applied with sea deposit compost

Kim YHKim MSKang SSYoon SW. 2011b Korean J. Soc . Soil Sci . Fert . 44:1023-1026

Capsicum annuum manual

Kwon YT Yeongyang-gun Agriculture Extension Center , Korea [2008]

Cabbage and cucumber extracts exhibited anticholinesterase , antimonoamine oxidase and antioxidant properties

Oboh GAdemiluyi AOOgunsuyi OBOyeleye SIDada AFBoligon A A J . Food Biochem . 41:1-7 [2007]

Bryobacter aggregatus gen. nov.

Kulichevskaya ISSuzina NELiesack WDedysh SNsp . nov.a peat-inhabiting aerobic chemo-organotroph from subdivision 3 of the AcidobacteriaInt . J. Syst . Evol . Microbiol . 60:301-306 [2010]

Bryobacter . Bergey ’ s manual of systematics of archaea and bacteria

Dedysh SN Wiley , New Jersey . 1-5 [2019]

Brussaard L.

Brouwn GSwift MBennack DBunning SMontanez A Managing biodiversity in agricultural ecosystem . Columbia University Press 218 [2010]

Bradyrhizobium improves nitrogen assimilation , osmotic adjustment and growth in contrasting cowpea cultivars under drought

Barbosa MAM , da Silva Lobato AKTan DKYViana GDMCoelho KNNBarbosa JRSde Oliveira Neto CF Aust . J . Crop . Sci . 7:1983-1989 [2013]

Borriss R. 2015 . Novel routes for improving biocontrol activity of Bacillus based bioinoculants

Wu LWu HJQiao JGao X Front . Microbiol . 6:1395-1401

Biopesticides ? towards increased consumer safety in the European Union

Czaja K , Gralczyk Kski PHernik AKorcz WMinorczyk MŁyczewska MLudwicki JK Pest Manag . Sci.1:3-6 [2015]

Biological control of Bipolaris sorokiniana on tall fescue by

Zhang ZYuen GY [1999]

Biological consequences of ancient gene acquisition and duplication in the large genome of Candidatus Solibater usitatus Ellin6076

Challacombe JFEichorst SAHauser LLand MXie GKuske CR PLoS ONE 1-15 [2011]

Biofertilizers : a potential approach for sustainable agriculture development

Mahanty TBhattacharjee SGoswami MBhattacharyya .PDas BGhosh A Environ . SciPollut . Res . Int . 24:3315-3335 [2017]

Biocontrol of foliar disease of tomato plants by Nocardioides thermolilacinus

Filho RCRomeiro RSGarcia FAO Trop . Plant Pathol33:457-460 [2008]

Bio-control efficiency of Bacillus subtilis strains isolated from cow dung against postharvest yam pathogens

Swain MRRay RCNautiyal CS Curr . Microbiol . 57:407-411 [2008]

Beyond the venn diagram : The hunt for a core microbiome

Shade AHandelsman J Environ . Microbiol . 14:4-12 [2012]

Banchio E.Plant growth ? promoting effects of native Pseudomonas strains on Mentha piperita ( peppermint ) : an in vitro study

Santoro MVCappellari LDRGiordano W Plant Biol . 17:1218-1226 [2015]

Ball ASSustainable remediation : electrochemically assisted microbial dechlorination of tetrachloroethene ?

Patil SSAdetutu EMRochow JMitchell JG contaminated groundwater . Microb . Biotechnol . 7:54-63 [2014]

Balachandar D.Plant ? associated Bacillus modulates the expression of auxin-responsive genes of rice and modifies the root architecture

Ambreetha SChinnadurai CMarimuthu P Rhizosphere 5:57-66 [2018]

Bacterial core community in soybean rhizosphere

Lee YMAhn JHChoi YMWeon HYYoon JHSong JK Korean J. Microbiol . 51:347-354 [2015]

Bacterial communities drive the resistance of soil multifunctionality to land-use change in karst soils

Yang LBarnard RKuzyakov YTian J . European J . Soil Biol . 104:1-16 [2021]

Bacteria consortium optimization improves nutrient uptake , nodulation , disease suppression and growth of the common bean

Kumar PPandey PDubey RCMaheshwari DK Phaseolus vulgaris ) in both pot and field studies . Rhizosphere 2:13-23 [2016]

Bacillus subtilis : A plant-growth promoting rhizobacterium that also impacts biotic stress

Hashem ATabassum BAbd_Allah EF Saudi J. Biol.Sci . 26:1291-1297 . Hassen W , Neifar M , Cherif H , Najjari A , Chouchane H , Driouich RC [20192018]

Bacillus as plant growth promoting rhizobacteria ( PGPR ) : a promising green agriculture technology

Kashyap BKSolanki MKPandey AKPrabha SKumar PKumari B [2019]

Bacillus aryabhattai SRB02 tolerates oxidative and nitrosative stress and promotes the growth of soybean by modulating the production of phytohormones

Park YGMun BGKang SMHussain AShahzad RSeo CWYun BW PLoS . ONE12:1- 28 [2017]

Bacillus amyloliquefaciens L-S60 reforms the rhizosphere bacterial community and improves growth conditions in cucumber plug seedling

Qin YShang QZhang YLi PChai Y Front . Microbiol . 8:2620-2632 [2017]

Bacillus : A biological tool for crop improvement through bio-molecular changes in adverse environments

Radhakrishnan RHashem AAbd Allah EF Front . Physiol.8:667-672 [2017]

Auxin-gibberellin interactions and their role in plant growth

Ross JJO'neill DPWolbang CMSymons GMReid JB J . Plant Growth Regul . 20:336-353 [2001]

Assessment of genetic diversity and plant growth promoting attributes of psychrotolerant bacteria allied with wheat

Verma PYadav ANKhannam KSPanjiar NKumar SSaxena AKSuman A Triticum aestivum ) from the northern hills zone of India . Ann . Microbiol . 65:1885-1899 [2015]

Aslam M. 2011 . Isolation of plant growth promoting rhizobacteria from wheat rhizosphere and their effect on improving growth , yield and nutrient uptake of plants

Abbasi MKSharif SKazmi MSultan T Plant Biosyst . 145:159-168

Arshad M.The combined application of rhizobial strains and plant growth promoting rhizobacteria improves growth and productivity of mung bean ( Vigna radiata L. ) under

Ahmad MZahir ZAAsghar HN [2012]

Applications of free living plant growth ? promoting rhizobacteria

Lucy MReed EGlick BR Antonie Van Leeuwenhoek 86:1-25 Lynch JThe rhizosphere . Wiley , London , 458 [20041990]

Application of multivariate statistical techniques in microbial ecology

Paliy OShankar V. Mol . Ecol . 25:1032-1057 [2016]

Application of microbial fetilizer for eco-friendly production in Raphanus sativus L. and Brassica campestris L. J. Korean Soc

Bae EJHan NRKim SUKwon HSLim SHSeo OKim YJSon DHNa HY People Plants Environ . 16:401-405 [2013]

Application of endophytic Pseudomonas fluorescens and a bacterial consortium to Brassica napus can increase plant height and biomass under greenhouse and field conditions

Lally RDGalbally PMoreira ASSpink JRyan DGermaine KJDowling DN Front . Plant Sci . 8:2193-2198 [2017]

Application of bio-organic fertilizer to control tomato Fusarium wilting by manipulating soil microbial communities and development

Wang LLu XYuan HWang BShen Q Commun . Soil SciPlant Anal . 46:12-21 [2015]

Application of antifungal CFB to increase the durability of cement mortar

Park JMPark SJKim WJGhim SY J. Microbiol . Biotechnol22:1015-1020 [2012]

Antioxidant activity of different parts of Lespedeza bicolor and isolation of antioxidant compound

Lee JHJhoo JW . 2012a Korean J . Food Sci . Technol . 44:763-771

Analysis of microbial community during the anaerobic dechlorination of tetrachloroethylene ( PCE )

Kim BHBaek KHCho DHSung YAhn CYOh HM . 2009a

An ordination of upland forest communities of southern Wisconsin

Bray JCurtis J . 1957 Ecological Monographs ( 27 ) , PRIMER-E Plymouth . 325-349

An estimation and analysis of agricultural output in Korea ( 1955~ 2012

Hwang SCYu RYu YB Korean J . Food MarketEconomic . 31:21-43 [2014]

An encyclopedia of chemicals and drugs

Windholz M. 9th ed. , Merck & Co. , INC. , NJ , USA . 340-341 [1984]

An NH , Jee HJ . 2012a . Functional analysis of Bacillus subtilis isolates and biological control of red pepper powdery mildew using Bacillus subtilis R2-1

Kim YKHong SJShim CKKim MJChoi EJLee MHPark JHHan EJ Res . Plant Dis . 18:201-209

Agrobacterium-mediated transformation of cucumber ( Cucumis sativus L. ) using a sense mitogen-activated protein kinase gene

Wang JZhang SJWang XWang LNXu HNWang XFShi QHWei MYang FJ CsNMAPK.113:269-277 [2013]

Agricultural microbial market ( 2021-2026

Morder intelligence https : //www.mordorintelligence.com/indust ry-reports/agricultural-microbials-market/ [2020]

Actinobacteria from rhizosphere : molecular diversity , distributions , and potential biotechnological applications . In New and

Verma PKumar SKumar VKumar MSugitha TCKDhaliwal HS [2018]

A user-friendly web-server for mining and visualizing microbiome ? environment interactions

Zakrzewski MProietti CEllis JJHasan SBrion MJBerger BKrause L. Calypso Bioinform . 33:782-783 [2017]

A tribute to Claude Shannon ( 1916 ? 2001 ) and a plea for more rigorous use of species richness , species diversity and the ‘ Shannon ?

Spellerberg IFFedor PJ Wiener ’ IndexGlob . Ecol . Biogeogr . 12:177-179 [2003]

A survey on the residual pesticides on agricultural products on the markets in Incheon from 2016 to 2018

Park JELee MYKim SHSong SMPark BKSeo SJSong JYHur MJ Korean J. Environ . Agric . 38:205-212 [2019]

A study on the characteristics and activity changes of pectinesterase and polygalac-turonase in

Kim HH cucumber and cucumber , Master Thesis . 58-61 [1998]

A production efficiency analysis of cucumber farms in South Korea

Kim HMJang MKYi HM JKAIS . 16:6823-6831 [2015]

A gene responsible for a cuticular hydrocarbon polymorphism in Drosophila melanogaster

Coyne JAWicker-Thomas CJallon JM Genet . Res . Camb . 73:189-203 [1999]

A consistent terminology for quantifying species diversity ? Yes

Tuomisto H. it does exist . Oecologia 164:853-860 [2010]

A comparison of quality and volatile components of two cucumber cultivars grown under organic and conventional conditions

Lee YSSeo HYKim GDMoon GHLee YHChoi KJLee YPark JHKang JH . 2010b Korean J . Food Sci . Technol . 42:407- 413

2021 . Isolation of Bacillus aryabhattai GW320 from the cucumber rhizospheric soil and evaluation of plant growth promoting activity

Hwang TKPark YJKim MJPark MKKim MCJung MSSon HWJung DRLee TLPark SKShin JH Korean J . Soil Sci . Fert . 54:126-139

2011.Bacteria able to control foot and root rot and to promote growth of cucumber in salinated soils

Egamberdieva DZKucharova KDavranov GBerg NMakarova TAzarova VChebotar ITikhonovich FKamilova SZValidov BLugtenberg Biol . Fertil . Soils . 47:197-205

2010a . Selection of beneficial microbial agents for control of fungal diseasesin the phyllosphere of cucumber plant

Lee SYLee YKPark KSKim YK Korean J. Pestic . Sci . 4:326-331

. Screening plant growth promoting rhizobacteria for improving growth and yield of

Khalid A , Arshad, Zahir . J. Appl . Microbiol . 96:473-480 . Khamna S , Yokota A , Lumyong S. 2009 . Actinomycetes isolated from medicinal plant rhizosphere soils : diversity and screening of antifungal compounds , indole-3-acetic acid and siderophore production . World . J. Microbiol . Biotechnol . [.]

. Cucumis sativus fruit-potential antioxidant , anti-hyaluronidase , and anti-elastase2010 . Method of soil and plant

R. 2005Glutathione synthetase. CellMol .NIAST (Institute ofScience and , Maity N , Sarkar B ,. Springer 303:247-252 Nj ? lsson. Rural Development Administration . [.)]

, Robaglia C. 2003 . Tales from the underground :IO ,EL ,Andronov EE . 2018 . Investigation of the core microbiome in main soil types

Persello ?F ,EA , the East European plainplant ? rhizobacteria interactions . Plant Cell Environ26:189-199 . Pershina EV ,NH , AbakumovSci [Nussaume,]

, LiQR . 2019 . Deciphering underlying drivers of disease suppressiveness

, Penton, Geisen, Shen, Sun, Lv, Wang, Ruan, Xiong pathogenic Fusarium oxysporum . Front . Microbiol . 10:1-12 . Pacovsky R. 1990 . Development and growth effects in the Sorghum ? Azospirillum association . J. Appl [,]

, Conneticut , USA Logan NA ,

, Edwards. Cucumber breedingp. 173-207In :Bassett () .vegetable cropsAVI PubCo. , Vos P , Genus BacillusDe Vos P , Garrity GM , Jones D , Krieg NR , Ludwig W , Rainey FA , [,]

오이 근권 토양에서 분리한 식물생장 촉진세균 Bacillus aryabhattai GW320 특성 및 평가 = Characterization and evaluation of plant growth promoting rhizobacterium, Bacillus aryabhattai GW320 isolated from the cucumber rhizospheric soi

유사주제 논문( 147)

' 오이 근권 토양에서 분리한 식물생장 촉진세균 Bacillus aryabhattai GW320 특성 및 평가 = Characterization and evaluation of plant growth promoting rhizobacterium, Bacillus aryabhattai GW320 isolated from the cucumber rhizospheric soi' 의 주제별 논문영향력

주제별 논문영향력

' 오이 근권 토양에서 분리한 식물생장 촉진세균 Bacillus aryabhattai GW320 특성 및 평가 = Characterization and evaluation of plant growth promoting rhizobacterium, Bacillus aryabhattai GW320 isolated from the cucumber rhizospheric soi' 의 참고문헌

' 오이 근권 토양에서 분리한 식물생장 촉진세균 Bacillus aryabhattai GW320 특성 및 평가 = Characterization and evaluation of plant growth promoting rhizobacterium, Bacillus aryabhattai GW320 isolated from the cucumber rhizospheric soi' 의 유사주제( ) 논문