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This bacterium also has the potential to function as a plant growth promoter. It has been proven that inoculation of soil contaminated with lead (Pb) with these bacteria causes its immobilization, increased plant growth, increased chlorophyll content and yields. Another beneficial feature of these
230:
While as mentioned previously this bacterium was first isolated from natural mineral water, it is also found in other environments such as sewage or soil. These bacteria have a wide range of thermal tolerance as they can grow at temperatures ranging from 4 to 35°C with an optimum at 30°C.
564:
Raza Altaf A, Teng H, Saleem M, Raza Ahmad H, Adil M, Shahzad K (2021-04-03). "Associative interplay of
Pseudomonas gessardii BLP141 and pressmud ameliorated growth, physiology, yield, and Pb-toxicity in sunflower".
286:
with other beneficial bacteria, in which these microorganisms interact with each other in a way that maximizes their beneficial effects on the plants. These consortiums allow for more effective
818:
529:
Ahuja V, Bhatt AK, Mehta S, Sharma V, Rathour RK (June 2022). "Xylitol production by
Pseudomonas gessardii VXlt-16 from sugarcane bagasse hydrolysate and cost analysis".
494:
Ramani K, Chockalingam E, Sekaran G (May 2010). "Production of a novel extracellular acidic lipase from
Pseudomonas gessardii using slaughterhouse waste as a substrate".
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bacteria is their ability to protect the plants with which they form symbiosis against pathogenic microorganisms. This is due to its ability to produce compounds such as
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Anzai Y, Kim H, Park JY, Wakabayashi H, Oyaizu H (July 2000). "Phylogenetic affiliation of the pseudomonads based on 16S rRNA sequence".
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increasing the content of iron available to plants. Another feature of this species is its ability to form plant growth-promoting
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with antibacterial activity. Additional benefits of treating plants with these bacteria result from the fact that they produce
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316:"Pseudomonas gessardii sp. nov. and Pseudomonas migulae sp. nov., two new species isolated from natural mineral waters"
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387:"A novel Pseudomonas gessardii strain LZ-E simultaneously degrades naphthalene and reduces hexavalent chromium"
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active in low pH conditions used in the food, leather and medical industries</ref> and production of
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610:"Microbial consortium with nitrogen fixing and mineral solubilizing attributes for growth of barley (
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of elements such as phosphorus and potassium in the soil compared to single-species populations.
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bacteria are currently used in many industrial processes. Examples of these applications include
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and biological reduction of chromium for its removal from the environment, production of
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Verhille S, Baïda N, Dabboussi F, Hamze M, Izard D, Leclerc H (October 1999).
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Huang H, Wu K, Khan A, Jiang Y, Ling Z, Liu P, et al. (May 2016).
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Shurigin V, Alimov J, Davranov K, Gulyamova T, Egamberdieva D (2022).
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Kaur T, Devi R, Kumar S, Sheikh I, Kour D, Yadav AN (April 2022).
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International
Journal of Systematic and Evolutionary Microbiology
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of contaminated industrial sites through degradation of
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Journal of
Industrial Microbiology & Biotechnology
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320:International Journal of Systematic Bacteriology
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439:"The diversity of bacterial endophytes from
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683:- the Bacterial Diversity Metadatabase
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451:Current Research in Microbial Sciences
531:Bioprocess and Biosystems Engineering
7:
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309:
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258:from organic agro-industrial waste.
876:. You can help Knowledge (XXG) by
447:and their plant beneficial traits"
14:
288:fixation of atmospheric nitrogen
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412:10.1016/j.biortech.2016.02.015
1:
639:10.1016/j.heliyon.2022.e09326
587:10.1080/10889868.2020.1853028
463:10.1016/j.crmicr.2022.100133
949:
928:Bacteria described in 1999
862:
543:10.1007/s00449-022-02721-z
361:10.1099/00207713-50-4-1563
355:. 50 Pt 4 (4): 1563–1589.
329:10.1099/00207713-49-4-1559
322:. 49 Pt 4 (4): 1559–1572.
508:10.1007/s10295-010-0700-2
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49:Scientific classification
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39:
30:
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235:Industrial applications
216:has been placed in the
567:Bioremediation Journal
391:Bioresource Technology
200:isolated from natural
933:Pseudomonadales stubs
824:pseudomonas-gessardii
732:Pseudomonas gessardii
702:Pseudomonas gessardii
677:Pseudomonas gessardii
240:Pseudomonas gessardii
185:Pseudomonas gessardii
148:Pseudomonas gessardii
41:Pseudomonas gessardii
25:Pseudomonas gessardii
16:Species of bacterium
630:2022Heliy...809326K
579:2021BiorJ..25..178R
403:2016BiTec.207..370H
290:and increasein the
284:bacterial consortia
86:Gammaproteobacteria
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845:Open Tree of Life
694:Taxon identifiers
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130:P. gessardii
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292:bioavailability
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208:. Based on 16S
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96:Pseudomonadales
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280:siderophores
270:activity or
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176:CFML 95-251
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726:Wikispecies
397:: 370–378.
248:naphthalene
190:fluorescent
165:Type strain
117:Pseudomonas
43:on LB agar
917:Categories
457:: 100133.
298:References
268:fungicidal
264:chitinases
212:analysis,
172:CIP 105469
154:Verhille,
595:1088-9868
276:proteases
198:bacterium
124:Species:
798:11424315
717:Q7255047
711:Wikidata
658:35520606
551:35355104
516:20204455
481:35909614
421:26901089
369:10939664
338:10555337
102:Family:
72:Phylum:
66:Bacteria
62:Domain:
785:3223210
741:BacDive
649:9062246
626:Bibcode
618:Heliyon
575:Bibcode
472:9325737
399:Bibcode
272:lipases
256:xylitol
226:Habitat
222:group.
112:Genus:
92:Order:
82:Class:
850:532047
811:965199
772:973040
679:at Bac
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252:lipase
206:France
158:, 1999
156:et al.
868:This
837:78544
793:IRMNG
759:4P3PK
746:13110
266:with
188:is a
874:stub
832:NCBI
819:LPSN
806:ITIS
780:GBIF
681:Dive
654:PMID
614:L.)"
591:ISSN
547:PMID
512:PMID
477:PMID
417:PMID
365:PMID
334:PMID
274:and
210:rRNA
767:EoL
754:CoL
644:PMC
634:doi
583:doi
539:doi
504:doi
467:PMC
459:doi
407:doi
395:207
357:doi
324:doi
204:in
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