SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4362580060> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W4362580060 endingPage "131359" @default.
W4362580060 startingPage "131359" @default.
W4362580060 abstract "Environmental microbes in rhizosphere soil and surrounding plants have the potential to alter ecosystem functions. We investigated the microbial communities inhabiting the rhizosphere soils of both serpentine and non-serpentine rhizosphere zones to evaluate their heavy metal tolerance and ability to promote plant growth, utilizing 16S rRNA metabarcoding. The Biolog-EcoPlate technique was employed to determine how abiotic stress factors affect carbon utilization capacity by rhizospheric microbial communities in the serpentine geo-ecosystem. The phyla Proteobacteria, Acidobacteria, Bacteroidetes, and Nitrospirae colonized in the roots of Miscanthus sp., Biden sp., and Oryza sp. showed noticeable differences in different rhizosphere zones. The PICRUSt2-based analysis identified chromium/iron resistance genes (ceuE, chrA) and arsenic resistance genes (arsR, acr3, arsC) abundant in all the studied rhizosphere soils. Notably, nickel resistance genes (nikA, nikD, nikE, and nikR) from Arthrobacter, Microbacterium, and Streptomyces strongly correlate with functions related to solubilization of nickel and an increase in siderophore and IAA production. The abundance of Arthrobacter, Clostridium, Geobacter, Dechloromonas, Pseudomonas, and Flavobacterium was positively correlated with chromium and nickel but negatively correlated with the calcium/magnesium ratio. Our results contribute to a better understanding of the functions of plant-tolerant PGPR interaction in the heavy metal-contaminated rhizosphere and eco-physiological responses from long-term biological weathering." @default.
W4362580060 created "2023-04-06" @default.
W4362580060 creator A5001619535 @default.
W4362580060 creator A5039760953 @default.
W4362580060 creator A5055056000 @default.
W4362580060 creator A5056283976 @default.
W4362580060 creator A5084492339 @default.
W4362580060 creator A5084716956 @default.
W4362580060 date "2023-06-01" @default.
W4362580060 modified "2023-09-26" @default.
W4362580060 title "Deciphering endemic rhizosphere microbiome community’s structure towards the host-derived heavy metals tolerance and plant growth promotion functions in serpentine geo-ecosystem" @default.
W4362580060 cites W1550702445 @default.
W4362580060 cites W1616928275 @default.
W4362580060 cites W1965382245 @default.
W4362580060 cites W1968847007 @default.
W4362580060 cites W1998178936 @default.
W4362580060 cites W2002872570 @default.
W4362580060 cites W2021658260 @default.
W4362580060 cites W2036808461 @default.
W4362580060 cites W2037117929 @default.
W4362580060 cites W2037861984 @default.
W4362580060 cites W2043219105 @default.
W4362580060 cites W2043267110 @default.
W4362580060 cites W2044365530 @default.
W4362580060 cites W2051691783 @default.
W4362580060 cites W2055070942 @default.
W4362580060 cites W2061951943 @default.
W4362580060 cites W2062478242 @default.
W4362580060 cites W2071608042 @default.
W4362580060 cites W2074856830 @default.
W4362580060 cites W2078196179 @default.
W4362580060 cites W2082315220 @default.
W4362580060 cites W2083440692 @default.
W4362580060 cites W2099536218 @default.
W4362580060 cites W2110200667 @default.
W4362580060 cites W2111683404 @default.
W4362580060 cites W2121402080 @default.
W4362580060 cites W2129581915 @default.
W4362580060 cites W2152365911 @default.
W4362580060 cites W2152885278 @default.
W4362580060 cites W2155194389 @default.
W4362580060 cites W2157955854 @default.
W4362580060 cites W2186107765 @default.
W4362580060 cites W2736307589 @default.
W4362580060 cites W2749893454 @default.
W4362580060 cites W2773694878 @default.
W4362580060 cites W2783516604 @default.
W4362580060 cites W2804732977 @default.
W4362580060 cites W2886082464 @default.
W4362580060 cites W2894404233 @default.
W4362580060 cites W2898081360 @default.
W4362580060 cites W2901696205 @default.
W4362580060 cites W2914952924 @default.
W4362580060 cites W2949567934 @default.
W4362580060 cites W2953595369 @default.
W4362580060 cites W2954834874 @default.
W4362580060 cites W2964560794 @default.
W4362580060 cites W2995051023 @default.
W4362580060 cites W2995065060 @default.
W4362580060 cites W3012647466 @default.
W4362580060 cites W3044902569 @default.
W4362580060 cites W3096903557 @default.
W4362580060 cites W3112040426 @default.
W4362580060 cites W3112571411 @default.
W4362580060 cites W3171535581 @default.
W4362580060 cites W3176355627 @default.
W4362580060 cites W4200329832 @default.
W4362580060 cites W4205209347 @default.
W4362580060 cites W4205222524 @default.
W4362580060 cites W4205250227 @default.
W4362580060 cites W4206020614 @default.
W4362580060 cites W4213356693 @default.
W4362580060 cites W4213426727 @default.
W4362580060 cites W4224209657 @default.
W4362580060 cites W4281629025 @default.
W4362580060 cites W4283804619 @default.
W4362580060 cites W4284892151 @default.
W4362580060 cites W4308368209 @default.
W4362580060 cites W86644196 @default.
W4362580060 doi "https://doi.org/10.1016/j.jhazmat.2023.131359" @default.
W4362580060 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37031672" @default.
W4362580060 hasPublicationYear "2023" @default.
W4362580060 type Work @default.
W4362580060 citedByCount "0" @default.
W4362580060 crossrefType "journal-article" @default.
W4362580060 hasAuthorship W4362580060A5001619535 @default.
W4362580060 hasAuthorship W4362580060A5039760953 @default.
W4362580060 hasAuthorship W4362580060A5055056000 @default.
W4362580060 hasAuthorship W4362580060A5056283976 @default.
W4362580060 hasAuthorship W4362580060A5084492339 @default.
W4362580060 hasAuthorship W4362580060A5084716956 @default.
W4362580060 hasConcept C2775976474 @default.
W4362580060 hasConcept C2779210973 @default.
W4362580060 hasConcept C2779676784 @default.
W4362580060 hasConcept C33411773 @default.
W4362580060 hasConcept C42062724 @default.
W4362580060 hasConcept C523546767 @default.
W4362580060 hasConcept C54355233 @default.