This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Abdul-Baki A.A., Anderson J.D. 1973. Vigor determination in soybean seed by multiple criteria. Crop Science 13: 630–633. DOI: 10.2135/crop-sci1973.0011183x001300060013x.Abdul-BakiA.A.AndersonJ.D.1973Vigor determination in soybean seed by multiple criteriaCrop Science1363063310.2135/crop-sci1973.0011183x001300060013xOpen DOISearch in Google Scholar
Anuroopa N., Bagyaraj D.J., Bagela A., Prakash Rao E.V.S. 2017. Inoculation with selected microbial consortia not only enhances growth and yield of Withania somnifera but also reduces fertilizer application by 25% under field conditions. Proceedings of the Indian National Science Academy 83: 957–971. DOI: 10.16943/ptinsa/2017/49127.AnuroopaN.BagyarajD.J.BagelaA.Prakash RaoE.V.S.2017Inoculation with selected microbial consortia not only enhances growth and yield of Withania somnifera but also reduces fertilizer application by 25% under field conditionsProceedings of the Indian National Science Academy8395797110.16943/ptinsa/2017/49127Open DOISearch in Google Scholar
Bagyaraj D.J. 2014. Mycorrhizal fungi. Proceedings of the Indian National Science Academy 80: 415–428. DOI: 10.16943/ptinsa/2014/v80i2/55118.BagyarajD.J.2014Mycorrhizal fungiProceedings of the Indian National Science Academy8041542810.16943/ptinsa/2014/v80i2/55118Open DOISearch in Google Scholar
Bagyaraj D.J. 2018. Arbuscular mycorrhiza fungi in sustainable agriculture, horticulture and forestry. Mycorrhiza News 30(3): 2–5.BagyarajD.J.2018Arbuscular mycorrhiza fungi in sustainable agriculture, horticulture and forestryMycorrhiza News30325Search in Google Scholar
Bowling Barnes R., Richardson D., Berry J.W., Hood R.L. 1945. Flame photometry. A rapid analytical procedure. Industrial and Engineering Chemistry Analytical Edition 17: 605–611. DOI: 10.1021/i560146a001.Bowling BarnesR.RichardsonD.BerryJ.W.HoodR.L.1945Flame photometryA rapid analytical procedure. Industrial and Engineering Chemistry Analytical Edition1760561110.1021/i560146a001Open DOISearch in Google Scholar
Behera A.D., Nachu N.S., Ashwin R., Bagyaraj D.J. 2019. Influence of AM fungus G. mosseae and plant growth promoting rhizobacteria (PGPR) on growth of tomato seedlings raised in pro trays. Journal of Soil Biology and Ecology 39: 53–63.BeheraA.D.NachuN.S.AshwinR.BagyarajD.J.2019Influence of AM fungus G. mosseae and plant growth promoting rhizobacteria (PGPR) on growth of tomato seedlings raised in pro traysJournal of Soil Biology and Ecology395363Search in Google Scholar
Bhargav V., Kumar R., Shivashankara K.S., Rao T.M., Dhananjaya M.V., Sane A. et al. 2018. Diversity of flavonoids profile in China aster [Callistephus chinensis (L.) Nees.] genotypes. Industrial Crops and Products 111: 513–519. DOI: 10.1016/j.indcrop.2017.11.023.BhargavV.KumarR.ShivashankaraK.S.RaoT.M.DhananjayaM.V.SaneA.2018Diversity of flavonoids profile in China aster [Callistephus chinensis (L.) Nees.] genotypesIndustrial Crops and Products11151351910.1016/j.indcrop.2017.11.023Open DOISearch in Google Scholar
Cely M.V.T., Siviero M.A., Emiliano J., Spago F.R., Freitas V.F., Barazetti A.R. et al. 2016. Inoculation of Schizolobium parahyba with mycorrhizal fungi and plant growth-promoting rhizobacteria increases wood yield under field conditions. Frontiers in Plant Science 7; 1708; 13 p. DOI: 10.3389/fpls.2016.01708.CelyM.V.T.SivieroM.A.EmilianoJ.SpagoF.R.FreitasV.F.BarazettiA.R.2016Inoculation of Schizolobium parahyba with mycorrhizal fungi and plant growth-promoting rhizobacteria increases wood yield under field conditionsFrontiers in Plant Science7170813 p.10.3389/fpls.2016.01708511845327920781Open DOISearch in Google Scholar
Chauhan H., Bagyaraj D.J. 2015. Inoculation with selected microbial consortia not only enhances growth and yield of French bean but also reduces fertilizer application under field condition. Scientia Horticulturae 197: 441–446. DOI: 10.1016/j.scienta.2015.10.001.ChauhanH.BagyarajD.J.2015Inoculation with selected microbial consortia not only enhances growth and yield of French bean but also reduces fertilizer application under field conditionScientia Horticulturae19744144610.1016/j.scienta.2015.10.001Open DOISearch in Google Scholar
Chauhan H., Bagyaraj D.J., Selvakumar G., Sundaram S.P. 2015. Novel plant growth promoting rhizobacteria – Prospects and potential. Applied Soil Ecology 95: 38–53. DOI: 10.1016/j.ap-soil.2015.05.011.ChauhanH.BagyarajD.J.SelvakumarG.SundaramS.P.2015Novel plant growth promoting rhizobacteria – Prospects and potentialApplied Soil Ecology95385310.1016/j.ap-soil.2015.05.011Open DOISearch in Google Scholar
Das A.J., Kumar M., Kumar R. 2013. Plant growth promoting rhizobacteria (PGPR): An alternative of chemical fertilizer for sustainable, environment friendly agriculture. Research Journal of Agriculture and Forestry Sciences 1: 21–23.DasA.J.KumarM.KumarR.2013Plant growth promoting rhizobacteria (PGPR): An alternative of chemical fertilizer for sustainable, environment friendly agricultureResearch Journal of Agriculture and Forestry Sciences12123Search in Google Scholar
Desai S., Bagyaraj D.J., Ashwin R. 2020. Inoculation with microbial consortium promotes growth of tomato and capsicum seedlings raised in pro trays. Proceedings of the National Academy of Sciences, India, Section B: Biological Sciences 90: 21–28. DOI: 10.1007/s40011-019-01078-w.DesaiS.BagyarajD.J.AshwinR.2020Inoculation with microbial consortium promotes growth of tomato and capsicum seedlings raised in pro traysProceedings of the National Academy of Sciences, India, Section B: Biological Sciences90212810.1007/s40011-019-01078-wOpen DOISearch in Google Scholar
Ferreira S.L.C., Bezerra M.A., Santos A.S., dos Santos W.N.L., Novaes C.G., de Oliveira O.M.C. et al. 2018. Atomic absorption spectrometry – a multi element technique. Trends in Analytical Chemistry 100: 1–6. DOI: 10.1016/j.trac.2017.12.012.FerreiraS.L.C.BezerraM.A.SantosA.S.dos SantosW.N.L.NovaesC.G.de OliveiraO.M.C.2018Atomic absorption spectrometry – a multi element techniqueTrends in Analytical Chemistry1001610.1016/j.trac.2017.12.012Open DOISearch in Google Scholar
Gerdemann J.W., Nicolson T.H. 1963. Spores of mycorrhizal Endogone species extracted from soil by wet sieving and decanting. Transactions of the British Mycological Society 46: 235–244. DOI: 10.1016/s0007-1536(63)80079-0.GerdemannJ.W.NicolsonT.H.1963Spores of mycorrhizal Endogone species extracted from soil by wet sieving and decantingTransactions of the British Mycological Society4623524410.1016/s0007-1536(63)80079-0Open DOISearch in Google Scholar
Giovannetti M., Mosse B. 1980. An evaluation of techniques for measuring vesicular arbuscular mycorrhizal infection in roots. New Phytologist 84: 489–500. DOI: 10.1111/j.1469-8137.1980.tb04556.x.GiovannettiM.MosseB.1980An evaluation of techniques for measuring vesicular arbuscular mycorrhizal infection in rootsNew Phytologist8448950010.1111/j.1469-8137.1980.tb04556.xOpen DOISearch in Google Scholar
Hatchell G.E., Berry C.R., Muse H.D. 1985. Nondestructive indices related to aboveground biomass of young loblolly and sand pines on ectomycorrhizal and fertilizer plots. Forest Science 31: 419–427. DOI: 10.1093/forestscience/31.2.419.HatchellG.E.BerryC.R.MuseH.D.1985Nondestructive indices related to aboveground biomass of young loblolly and sand pines on ectomycorrhizal and fertilizer plotsForest Science3141942710.1093/forestscience/31.2.419Open DOISearch in Google Scholar
Jackson M.L. 1973. Soil chemical analysis. Prentice Hall of India Pvt. Ltd., New Delhi, 498 p.JacksonM.L.1973Soil chemical analysisPrentice Hall of India Pvt. Ltd.New Delhi498 p.Search in Google Scholar
Jansa J., Finlay R., Wallander H., Smith F.A., Smith S.E. 2011. Role of mycorrhizal symbioses in phosphorus cycling. In: Bünemann E.K., Oberson A., Frossard E. (Eds.), Phosphorus in action. Soil Biology 26: 137–168. DOI: 10.1007/978-3-642-15271-9_6.JansaJ.FinlayR.WallanderH.SmithF.A.SmithS.E.2011Role of mycorrhizal symbioses in phosphorus cyclingIn:BünemannE.K.ObersonA.FrossardE.(Eds.), Phosphorus in action.Soil Biology2613716810.1007/978-3-642-15271-9_6Open DOISearch in Google Scholar
Jyothi E., Bagyaraj D.J., Prakasa Rao E.V.S. 2018. Microbial consortia developed for Ocimum tenuiflorum reduces application of chemical fertilizers by 50% under field conditions. Medicinal Plants – International Journal of Phytomedicines and Related Industries 10: 138–144. DOI: 10.5958/0975-6892.2018.00022.9.JyothiE.BagyarajD.J.Prakasa RaoE.V.S.2018Microbial consortia developed for Ocimum tenuiflorum reduces application of chemical fertilizers by 50% under field conditionsMedicinal Plants – International Journal of Phytomedicines and Related Industries1013814410.5958/0975-6892.2018.00022.9Open DOISearch in Google Scholar
Kim M., Shin S., Lee J.A., Park D., Lee J., Jung E. 2015. Inhibition of melanogenesis by Gaillardia aristata flower extract. BMC Complementary and Alternative Medicine 15; 449; 11 p. DOI: 10.1186/s12906-015-0972-1.KimM.ShinS.LeeJ.A.ParkD.LeeJ.JungE.2015Inhibition of melanogenesis by Gaillardia aristata flower extractBMC Complementary and Alternative Medicine1544911 p.10.1186/s12906-015-0972-1Open DOISearch in Google Scholar
Kumar A., Bhatti S.K., Aggarwal A. 2012. Biodiversity of endophytic mycorrhiza in some ornamental flowering plants of Solan, Himachal Pradesh. Biological Forum – An International Journal 4: 45–51.KumarA.BhattiS.K.AggarwalA.2012Biodiversity of endophytic mycorrhiza in some ornamental flowering plants of Solan, Himachal PradeshBiological Forum – An International Journal44551Search in Google Scholar
Maskina M.S., Meelu O.P., Sandhu P.S. 1984. Effect of organic and inorganic manuring on rice nurseries. International Rice Research Newsletter 9(3): 23–24.MaskinaM.S.MeeluO.P.SandhuP.S.1984Effect of organic and inorganic manuring on rice nurseriesInternational Rice Research Newsletter932324Search in Google Scholar
Pan J., Huang C., Peng F., Zhang W., Luo J., Ma S., Xue X. 2020. Effect of arbuscular mycorrhizal fungi (AMF) and plant growth-promoting bacteria (PGPR) inoculations on Elaeagnus angustifolia L. in saline soil. Applied Sciences 10: 945.PanJ.HuangC.PengF.ZhangW.LuoJ.MaS.XueX.2020Effect of arbuscular mycorrhizal fungi (AMF) and plant growth-promoting bacteria (PGPR) inoculations on Elaeagnus angustifolia L. in saline soilApplied Sciences1094510.3390/app10030945Search in Google Scholar
Paredes-Páliz K.I., Pajuelo E., Doukkali B., Caviedes M.Á., Rodríguez-Llorente I.D., Mateos-Naranjo E. 2016. Bacterial inoculants for enhanced seed germination of Spartina densiflora: Implications for restoration of metal polluted areas. Marine Pollution Bulletin 110: 396–400. DOI: 10.1016/j.marpolbul.2016.06.036.Paredes-PálizK.I.PajueloE.DoukkaliB.CaviedesM.Á.Rodríguez-LlorenteI.D.Mateos-NaranjoE.2016Bacterial inoculants for enhanced seed germination of Spartina densiflora: Implications for restoration of metal polluted areasMarine Pollution Bulletin11039640010.1016/j.marpolbul.2016.06.036Open DOISearch in Google Scholar
Phillips J.M., Hayman D.S. 1970. Improved procedures for clearing roots and staining parasitic and vesicular mycorrhizal fungi for rapid assessment of infection. Transactions of the British Mycological Society 55: 158–161. DOI: 10.1016/s0007-1536(70)80110-3.PhillipsJ.M.HaymanD.S.1970Improved procedures for clearing roots and staining parasitic and vesicular mycorrhizal fungi for rapid assessment of infectionTransactions of the British Mycological Society5515816110.1016/s0007-1536(70)80110-3Open DOISearch in Google Scholar
Porter W.M. 1979. The ‘Most Probable Number’ method for enumerating infective propagules of vesicular arbuscular mycorrhizal fungi in soil. Australian Journal of Soil Research 17: 515–519. DOI: 10.1071/sr9790515.PorterW.M.1979The ‘Most Probable Number’ method for enumerating infective propagules of vesicular arbuscular mycorrhizal fungi in soilAustralian Journal of Soil Research1751551910.1071/sr9790515Open DOISearch in Google Scholar
Sanders E.R. 2012. Aseptic laboratory techniques: Plating methods. Journal of Visualized Experiments 63; e3064; 18 p. DOI: 10.3791/3064.SandersE.R.2012Aseptic laboratory techniques: Plating methodsJournal of Visualized Experiments63e306418 p.10.3791/3064Open DOISearch in Google Scholar
Shakuntala N., Nachu N.S., Ashwin R., Bagyaraj D.J. 2019. Influence of plant growth promoting rhizobacteria on growth of tomato (Lycoperiscon esculentum Mill.) raised in pro trays. Journal of Soil Biology and Ecology 39: 32–38.ShakuntalaN.NachuN.S.AshwinR.BagyarajD.J.2019Influence of plant growth promoting rhizobacteria on growth of tomato (Lycoperiscon esculentum Mill.) raised in pro traysJournal of Soil Biology and Ecology393238Search in Google Scholar
Sohn B.K., Kim K.Y., Chung S.J., Kim W.S., Park S.M., Kang J.G. et al. 2003. Effect of the different timing of AMF inoculation on plant growth and flower quality of chrysanthemum. Scientia Horticulturae 98: 173–183. DOI: 10.1016/s0304-4238(02)00210-8.SohnB.K.KimK.Y.ChungS.J.KimW.S.ParkS.M.KangJ.G.2003Effect of the different timing of AMF inoculation on plant growth and flower quality of chrysanthemumScientia Horticulturae9817318310.1016/s0304-4238(02)00210-8Open DOISearch in Google Scholar
Sreenivasa M.N., Bagyaraj D.J. 1988. Suitable level of zinc, copper and manganese for mass production of the vesicular arbuscular mycorrhizal fungus, Glomus fasciculatum. Proceedings of the Indian Academy of Sciences, Plant Sciences 98: 135–138.SreenivasaM.N.BagyarajD.J.1988Suitable level of zinc, copper and manganese for mass production of the vesicular arbuscular mycorrhizal fungus, Glomus fasciculatumProceedings of the Indian Academy of Sciences, Plant Sciences9813513810.1007/BF03053398Search in Google Scholar
Sukeerthi D., Nachu N.S., Ashwin R., Bagyaraj D.J. 2020. Microbial consortium promotes growth of zinnia and balsam seedlings raised in pro trays. Journal of Floriculture and Landscaping 6: 4–8. DOI: 10.25081/jfcls.2020.v6.6063.SukeerthiD.NachuN.S.AshwinR.BagyarajD.J.2020Microbial consortium promotes growth of zinnia and balsam seedlings raised in pro traysJournal of Floriculture and Landscaping64810.25081/jfcls.2020.v6.6063Open DOISearch in Google Scholar
Thilagar G., Bagyaraj D.J., Chauhan H., Ram A.B., Ashwin R. 2014. Synergistic effects of arbuscular mycorrhizal fungus Glomus mosseae and plant growth promoting bacterium Bacillus sonorensis on growth, nutrient uptake and yield of chilly. Journal of Soil Biology and Ecology 34: 50–59.ThilagarG.BagyarajD.J.ChauhanH.RamA.B.AshwinR.2014Synergistic effects of arbuscular mycorrhizal fungus Glomus mosseae and plant growth promoting bacterium Bacillus sonorensis on growth, nutrient uptake and yield of chillyJournal of Soil Biology and Ecology345059Search in Google Scholar
Thilagar G., Bagyaraj D.J., Rao M.S. 2016. Selected microbial consortia developed for chilly reduces application of chemical fertilizers by 50% under field conditions. Scientia Horticulturae 198: 27–35. DOI: 10.1016/j.scienta.2015.11.021.ThilagarG.BagyarajD.J.RaoM.S.2016Selected microbial consortia developed for chilly reduces application of chemical fertilizers by 50% under field conditionsScientia Horticulturae198273510.1016/j.scienta.2015.11.021Open DOISearch in Google Scholar
Woo S.L., Pepe O. 2018. Microbial consortia: Promising probiotics as plant biostimulants for sustainable agriculture. Frontiers in Plant Science 9; 1801; 6 p. DOI: 10.3389/fpls.2018.01801.WooS.L.PepeO.2018Microbial consortia: Promising probiotics as plant biostimulants for sustainable agricultureFrontiers in Plant Science918016 p.10.3389/fpls.2018.01801628876430564264Open DOISearch in Google Scholar
