about
Nutrients can enhance the abundance and expression of alkane hydroxylase CYP153 gene in the rhizosphere of ryegrass planted in hydrocarbon-polluted soilCr-resistant rhizo- and endophytic bacteria associated with Prosopis juliflora and their potential as phytoremediation enhancing agents in metal-degraded soils.Plant-bacteria partnerships for the remediation of persistent organic pollutants.Use of Mercury in Dental Silver Amalgam: An Occupational and Environmental Assessment.Noise pollution in the hospital environment of a developing country: A case study of Lahore (Pakistan).Insights into Brevibacillus borstelensis AK1 through Whole Genome Sequencing: A Thermophilic Bacterium Isolated from a Hot Spring in Saudi Arabia.Integrated perspectives on the use of bacterial endophytes in horizontal flow constructed wetlands for the treatment of liquid textile effluent: Phytoremediation advances in the fieldImpacts of climate change on L. based on ecological niche modelingRNA-Seq analysis of soft rush (Juncus effusus): transcriptome sequencing, de novo assembly, annotation, and polymorphism identification.Enhanced degradation of phenol in floating treatment wetlands by plant-bacterial synergismImmobilization of metribuzin degrading bacterial consortium MB3R on biochar enhances bioremediation of potato vegetated soil and restores bacterial community structureBiofiltration of oil sands process water in fixed-bed biofilm reactors shapes microbial community structure for enhanced degradation of naphthenic acidsPhragmites australis - a helophytic grass - can establish successful partnership with phenol-degrading bacteria in a floating treatment wetlandTreatment of the textile industry effluent in a pilot-scale vertical flow constructed wetland system augmented with bacterial endophytesEnhanced degradation of hydrocarbons by gamma ray induced mutant strain of Pseudomonas putidaPhragmites australis in combination with hydrocarbons degrading bacteria is a suitable option for remediation of diesel-contaminated water in floating wetlandsEffective plant-endophyte interplay can improve the cadmium hyperaccumulation in Brachiaria muticaRemoval of pharmaceuticals and personal care products using constructed wetlands: effective plant-bacteria synergism may enhance degradation efficiencyRemediation of textile bleaching effluent by bacterial augmented horizontal flow and vertical flow constructed wetlands: A comparison at pilot scale
P50
Q34434561-9ADC0F6F-C748-4A98-BDA4-537CC8922869Q34838705-4DA6B1D8-5F7E-48A8-A77F-0978D144EF40Q38542324-6A7A65B6-9B7C-4D1A-B7B2-F0C9770A030FQ42422489-E9A02AD8-6BD9-4E7C-A8FC-162E410DE7BAQ47714946-0C10CF72-2CB5-4603-97F4-D09D01CCC610Q55476347-9489BE1E-E3A8-45BC-9557-5FEBB57D6AA9Q57464359-57AFC9EA-8B28-4849-BF0F-FD67179FABF4Q57814571-D5B51F9A-0CD3-4AFC-8507-0BE46F974F04Q64899166-6BB519C0-0DB9-4716-A7C6-5A49598C1620Q88556067-3AB0738D-1428-4BEE-887D-E7998C80FA76Q89817203-B24ADDB3-AAF6-4C51-A747-10FB687A1EF2Q89938221-3F2CE380-1D16-4D5A-A7C6-1DFA28AF6FE3Q90086972-F98C7179-B17A-45B1-AC1D-B88820C9F117Q90386350-9C4A3C15-3CD6-46DC-9F6A-BB9639723B33Q90897066-9F4F1B04-717B-4FA5-8603-DE4066766D29Q91282335-1B6EF401-EF08-4CB7-9F16-45BF408C091EQ91331120-9611654D-4BB1-41F7-8E71-37E1CC870843Q92330346-ED879776-36BC-4BCB-94EF-E446F6E5BE00Q92606349-B6A271AD-1462-41EC-BF6D-0554822C8264
P50
description
researcher ORCID 0000-0002-9620-6710
@en
wetenschapper
@nl
name
Muhammad Arslan
@ast
Muhammad Arslan
@en
Muhammad Arslan
@es
Muhammad Arslan
@nl
type
label
Muhammad Arslan
@ast
Muhammad Arslan
@en
Muhammad Arslan
@es
Muhammad Arslan
@nl
prefLabel
Muhammad Arslan
@ast
Muhammad Arslan
@en
Muhammad Arslan
@es
Muhammad Arslan
@nl
P106
P1153
56412456100
P214
337156374122507710007
P31
P496
0000-0002-9620-6710
P7859
viaf-337156374122507710007