Plant-bacteria partnerships for the remediation of hydrocarbon contaminated soils.
about
The Interaction between Plants and Bacteria in the Remediation of Petroleum Hydrocarbons: An Environmental PerspectiveNutrients can enhance the abundance and expression of alkane hydroxylase CYP153 gene in the rhizosphere of ryegrass planted in hydrocarbon-polluted soilShifts in Symbiotic Endophyte Communities of a Foundational Salt Marsh Grass following Oil Exposure from the Deepwater Horizon Oil Spill.Cr-resistant rhizo- and endophytic bacteria associated with Prosopis juliflora and their potential as phytoremediation enhancing agents in metal-degraded soils.Hydrocarbon contamination and plant species determine the phylogenetic and functional diversity of endophytic degrading bacteria.Microbial Toluene Removal in Hypoxic Model Constructed Wetlands Occurs Predominantly via the Ring Monooxygenation Pathway.Diversity of alkane hydroxylase genes on the rhizoplane of grasses planted in petroleum-contaminated soils.Phytoremediation: State-of-the-art and a key role for the plant microbiome in future trends and research prospects.Endophytic Phytoaugmentation: Treating Wastewater and Runoff Through Augmented PhytoremediationDifferential Impacts of Willow and Mineral Fertilizer on Bacterial Communities and Biodegradation in Diesel Fuel Oil-Contaminated Soil.Combination of biochar amendment and phytoremediation for hydrocarbon removal in petroleum-contaminated soil.Inoculating plants with the endophytic bacterium Pseudomonas sp. Ph6-gfp to reduce phenanthrene contamination.Plant-bacteria partnerships for the remediation of persistent organic pollutants.Hydroponic root mats for wastewater treatment-a review.Tween 80 surfactant-enhanced bioremediation: toward a solution to the soil contamination by hydrophobic organic compounds.Phytoremediation of petroleum hydrocarbon-contaminated saline-alkali soil by wild ornamental Iridaceae species.Phytoremediation of organochlorine pesticides: Concept, method, and recent developments.A comprehensive study of the impact of polycyclic aromatic hydrocarbons (PAHs) contamination on salt marsh plants Spartina alterniflora: implication for plant-microbe interactions in phytoremediation.Endophytic Bacteria Associated with Hieracium piloselloides: Their Potential for Hydrocarbon-Utilizing and Plant Growth-Promotion.Hydrocarbon degradation potential and plant growth-promoting activity of culturable endophytic bacteria of Lotus corniculatus and Oenothera biennis from a long-term polluted site.Aerobic Toluene Degraders in the Rhizosphere of a Constructed Wetland Model Show Diurnal Polyhydroxyalkanoate Metabolism.Ecopiling: a combined phytoremediation and passive biopiling system for remediating hydrocarbon impacted soils at field scale.The synergistic use of plant and isolated bacteria to clean up polycyclic aromatic hydrocarbons from contaminated soil.Construction of the Syngonium podophyllum-Pseudomonas sp. XNN8 Symbiotic Purification System and Investigation of Its Capability of Remediating Uranium Wastewater.Phytoremediation for co-contaminated soils of chromium and benzo[a]pyrene using Zea mays L.Dynamics of natural revegetation of hydrocarbon-contaminated soil and remediation potential of indigenous plant species in the steppe zone of the southern Volga Uplands.Plant species affect colonization patterns and metabolic activity of associated endophytes during phytoremediation of crude oil-contaminated soil.Enhanced remediation of chlorpyrifos by ryegrass (Lolium multiflorum) and a chlorpyrifos degrading bacterial endophyte Mezorhizobium sp. HN3.Bacterial rhizosphere and endosphere populations associated with grasses and trees to be used for phytoremediation of crude oil contaminated soil.Combined use of alkane-degrading and plant growth-promoting bacteria enhanced phytoremediation of diesel contaminated soil.Augmentation with potential endophytes enhances phytostabilization of Cr in contaminated soil.Comparison of the effects of poultry manure and its biochar on barley growth in petroleum-contaminated soils.Characterization and degradation potential of diesel-degrading bacterial strains for application in bioremediation.Phytoremediation of contaminated soils containing gasoline using Ludwigia octovalvis (Jacq.) in greenhouse pots.Binding and detoxification of chlorpyrifos by lactic acid bacteria on rice straw silage fermentation.Biological Fenton's oxidation of pentachlorophenol by aquatic plants.Improvement of phytoremediation of an aged petroleum hydrocarbon-contaminated soil by Rhodococcus erythropolis CD 106 strain.An experimental study on the synergistic effects between Azolla and Anabaena in removal of uranium from solutions by Azolla–anabaena symbiotic systemCollection and analysis of root exudates of Festuca arundinacea L. and their role in facilitating the phytoremediation of petroleum-contaminated soilBiosurfactant production and hydrocarbon degradation activity of endophytic bacteria isolated from Chelidonium majus L
P2860
Q28074454-C17EBFC7-BD90-43F3-B44D-85AFAA20AA22Q34434561-39CA483C-76B1-453F-BA58-11E0DCF80013Q34474162-B92F8085-59AC-4B83-9800-414D2D528155Q34838705-064D2E7F-7EFC-4FD3-B6B6-B00A142032C2Q35157401-1B993565-A5D1-4E13-8543-1D620DC6C391Q35684915-0AE50ADF-2CDC-4D36-817A-1C6F856177AEQ36073470-6F3C1693-2A68-4656-AD5E-6782DB41D02AQ36092961-921375E5-38C6-49ED-9C19-260ACC014704Q36810413-EBE053FD-ACC1-4EF6-A63B-A4D68A489B21Q36957997-F8FA90DF-DB25-47DA-915B-B441AAB897F6Q37399266-1110D92E-D7F3-4A53-B35A-4FB808768A24Q38413129-FC5126A6-217F-4434-9D34-54430DAB4B9DQ38542324-52F60182-6C7D-41AA-840D-ECBB6DFAA276Q38831156-120DAE0D-187C-4932-90D3-DFB2AF7C047FQ39250914-65517346-7834-4CF6-9562-1206C305D578Q39424462-75D47397-9E95-421A-B38E-B562A0313ADCQ39430438-51F67895-65D3-484D-A0A8-B4D5F50DF016Q40243377-7AEA1857-C0CC-4EA3-96E4-E345DEE5328EQ40744844-C581C6F4-D9F6-424E-A954-FD8D4A5BACE3Q41515431-2F1A40CC-B571-42F0-A8FA-D7D7A3807303Q41856320-A0E7870C-1604-45A7-A7DB-1C428D42218BQ42035729-367CE09B-7D1F-4EDE-9B56-BEA5C9B0C34FQ42198299-9FB464A2-F4B1-4162-9B1C-B597DE793850Q43347033-6D3C601D-4668-448F-9A1A-342282A23103Q45157767-3B5EFD5B-A93A-4F62-A54D-98F8C63F7CFBQ46259770-D22025DB-ACEC-4EC1-BEDA-AFE08C342564Q46633743-90233D89-80D8-4C7E-ACAC-C9F0759AA946Q46689296-6569D87B-2E74-4A4A-BDE5-1170571B92BEQ46775957-91CEF696-2B5D-4780-8B42-1162C0570820Q46878890-53E9F1AA-55BA-4BC7-B5FE-100E694AE777Q47222789-CD184DD6-0377-4589-A387-19E5E7FB6297Q47865769-FB5C2CB3-57B7-4C60-BC96-505100F5DE74Q48033909-0382CFF9-DA51-4192-B0E6-C40DD728D129Q50565758-6BC3AA2A-C60D-414F-B0F0-A7604149678FQ51533135-A1C96F6E-5B74-44EC-9B8B-72F3426EEEDEQ52760462-FB818C03-7A00-4FB3-925A-44E5989F9DC2Q53753411-A2D25CE6-F3CB-437D-A8C4-321AE3005545Q56443182-9671FFC2-31A8-42EC-897B-F655A347DEA5Q57256684-BF9F8437-6714-4D3B-8D43-811005FB72DBQ58614554-4FCE60B2-3786-4EE3-82B6-761C409A0480
P2860
Plant-bacteria partnerships for the remediation of hydrocarbon contaminated soils.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Plant-bacteria partnerships for the remediation of hydrocarbon contaminated soils.
@en
type
label
Plant-bacteria partnerships for the remediation of hydrocarbon contaminated soils.
@en
prefLabel
Plant-bacteria partnerships for the remediation of hydrocarbon contaminated soils.
@en
P2093
P1433
P1476
Plant-bacteria partnerships for the remediation of hydrocarbon contaminated soils
@en
P2093
Qaiser M Khan
Samina Iqbal
Sumia Khan
P304
P356
10.1016/J.CHEMOSPHERE.2012.09.045
P407
P577
2012-10-08T00:00:00Z