SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2072613497> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2072613497 endingPage "88" @default.
W2072613497 startingPage "80" @default.
W2072613497 abstract "With the increasing successful stories of decontamination, different strategies for metal remediation are gaining importance and popularization in developing countries. Rhizoremediation, is one such promising option that harnesses the impressive capabilities of microorganisms associated with roots to degrade organic pollutants and transform toxic metals. Since it is a plant based in-situ phytorestoration technique it is proven to be economical, efficient and easy to implement under field conditions. Plants grown in metal contaminated sites harbor unique metal tolerant and resistant microbial communities in their rhizosphere. These rhizo-microflora secrete plant growth promoting substances, siderophores, phytochelators to alleviate metal toxicity, enhance the bioavailability of metals (phytoremediation) and complexation of metals (phytostabilisation). Selection of right bacteria/consortia and inoculation to seed/ roots of suitable plant species will widen the perspectives of rhizoremediation." @default.
W2072613497 created "2016-06-24" @default.
W2072613497 creator A5006373040 @default.
W2072613497 creator A5089372079 @default.
W2072613497 date "2008-03-01" @default.
W2072613497 modified "2023-09-23" @default.
W2072613497 title "Rhizoremediation of metals: harnessing microbial communities" @default.
W2072613497 cites W104966492 @default.
W2072613497 cites W127594843 @default.
W2072613497 cites W1541820241 @default.
W2072613497 cites W1760219780 @default.
W2072613497 cites W1967865234 @default.
W2072613497 cites W1970360185 @default.
W2072613497 cites W1981612849 @default.
W2072613497 cites W1985469245 @default.
W2072613497 cites W1988822685 @default.
W2072613497 cites W1994127058 @default.
W2072613497 cites W1999156423 @default.
W2072613497 cites W1999970316 @default.
W2072613497 cites W2001699245 @default.
W2072613497 cites W2002821895 @default.
W2072613497 cites W2021173217 @default.
W2072613497 cites W2035402454 @default.
W2072613497 cites W2046120598 @default.
W2072613497 cites W2050416931 @default.
W2072613497 cites W2053373838 @default.
W2072613497 cites W2055601562 @default.
W2072613497 cites W2058171621 @default.
W2072613497 cites W2060854832 @default.
W2072613497 cites W2063146587 @default.
W2072613497 cites W2065462984 @default.
W2072613497 cites W2067369481 @default.
W2072613497 cites W2076025186 @default.
W2072613497 cites W2078196179 @default.
W2072613497 cites W2079444352 @default.
W2072613497 cites W2084005205 @default.
W2072613497 cites W2087955682 @default.
W2072613497 cites W2094235143 @default.
W2072613497 cites W2096529393 @default.
W2072613497 cites W2099362804 @default.
W2072613497 cites W2101668697 @default.
W2072613497 cites W2104689812 @default.
W2072613497 cites W2105609511 @default.
W2072613497 cites W2112807921 @default.
W2072613497 cites W2126234965 @default.
W2072613497 cites W2127326509 @default.
W2072613497 cites W2127432842 @default.
W2072613497 cites W2131075000 @default.
W2072613497 cites W2135233758 @default.
W2072613497 cites W2139053131 @default.
W2072613497 cites W2141247410 @default.
W2072613497 cites W2141842636 @default.
W2072613497 cites W2151875015 @default.
W2072613497 cites W2164608200 @default.
W2072613497 cites W2169933959 @default.
W2072613497 cites W247856915 @default.
W2072613497 cites W2490005405 @default.
W2072613497 cites W2507225379 @default.
W2072613497 cites W4238975227 @default.
W2072613497 cites W4249058463 @default.
W2072613497 cites W4297888982 @default.
W2072613497 cites W91250 @default.
W2072613497 doi "https://doi.org/10.1007/s12088-008-0008-3" @default.
W2072613497 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3450210" @default.
W2072613497 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23100702" @default.
W2072613497 hasPublicationYear "2008" @default.
W2072613497 type Work @default.
W2072613497 sameAs 2072613497 @default.
W2072613497 citedByCount "64" @default.
W2072613497 countsByYear W20726134972012 @default.
W2072613497 countsByYear W20726134972013 @default.
W2072613497 countsByYear W20726134972014 @default.
W2072613497 countsByYear W20726134972015 @default.
W2072613497 countsByYear W20726134972016 @default.
W2072613497 countsByYear W20726134972017 @default.
W2072613497 countsByYear W20726134972018 @default.
W2072613497 countsByYear W20726134972019 @default.
W2072613497 countsByYear W20726134972020 @default.
W2072613497 countsByYear W20726134972021 @default.
W2072613497 countsByYear W20726134972022 @default.
W2072613497 countsByYear W20726134972023 @default.
W2072613497 crossrefType "journal-article" @default.
W2072613497 hasAuthorship W2072613497A5006373040 @default.
W2072613497 hasAuthorship W2072613497A5089372079 @default.
W2072613497 hasBestOaLocation W20726134972 @default.
W2072613497 hasConcept C107211472 @default.
W2072613497 hasConcept C107872376 @default.
W2072613497 hasConcept C108319773 @default.
W2072613497 hasConcept C112570922 @default.
W2072613497 hasConcept C127413603 @default.
W2072613497 hasConcept C183696295 @default.
W2072613497 hasConcept C185592680 @default.
W2072613497 hasConcept C18903297 @default.
W2072613497 hasConcept C2124996 @default.
W2072613497 hasConcept C2776053758 @default.
W2072613497 hasConcept C39432304 @default.
W2072613497 hasConcept C522964758 @default.
W2072613497 hasConcept C523546767 @default.