Microbial degradation of isoproturon and related phenylurea herbicides in and below agricultural fields.
about
Fine scale spatial variability of microbial pesticide degradation in soil: scales, controlling factors, and implicationsCarbon source utilization profiles suggest additional metabolic interactions in a synergistic linuron-degrading bacterial consortium.The novel bacterial N-demethylase PdmAB is responsible for the initial step of N,N-dimethyl-substituted phenylurea herbicide degradation.Xenobiotic-urea conjugates; chemical or biological?Halotolerance, ligninase production and herbicide degradation ability of basidiomycetes strains.Perspectives of using fungi as bioresource for bioremediation of pesticides in the environment: a critical review.Stimulating soil microorganisms for mineralizing the herbicide isoproturon by means of microbial electroremediating cells.Influence of humic fractions on retention of isoproturon residues in two Moroccan soils.Functional Redundancy of Linuron Degradation in Microbial Communities in Agricultural Soil and Biopurification SystemsHydroxylation of the herbicide isoproturon by fungi isolated from agricultural soil.Biodegradation of diuron by an endophytic fungus Neurospora intermedia DP8-1 isolated from sugarcane and its potential for remediating diuron-contaminated soilsPacific oyster (Crassostrea gigas) hemocyte are not affected by a mixture of pesticides in short-term in vitro assays.Effects of low-dose exposure to pesticide mixture on physiological responses of the Pacific oyster, Crassostrea gigas.Rapid mineralization of the phenylurea herbicide diuron by Variovorax sp. strain SRS16 in pure culture and within a two-member consortium.Use of different organic wastes as strategy to mitigate the leaching potential of phenylurea herbicides through the soil.Degradation and mineralisation of diuron by Sphingomonas sp. SRS2 and its potential for remediating at a realistic µg L(-1) diuron concentration.Variovorax sp.-mediated biodegradation of the phenyl urea herbicide linuron at micropollutant concentrations and effects of natural dissolved organic matter as supplementary carbon source.Modelling the effects of PSII inhibitor pulse exposure on two algae in co-culture.Biofilm formation of a bacterial consortium on linuron at micropollutant concentrations in continuous flow chambers and the impact of dissolved organic matter.Isolation and characterization of an isoproturon mineralizing Sphingomonas sp. strain SH from a French agricultural soil.Genetic labelling and application of the isoproturon-mineralizing Sphingomonas sp. strain SRS2 in soil and rhizosphere.Comparative genomic analysis of isoproturon-mineralizing sphingomonads reveals the isoproturon catabolic mechanism.Response of a diuron-degrading community to diuron exposure assessed by real-time quantitative PCR monitoring of phenylurea hydrolase A and B encoding genes.Biodegradation of isoproturon by Pseudoxanthomonas sp. isolated from herbicide-treated wheat fields of Tarai agro-ecosystem, Pantnagar.Effect of land use on pollution status and risk of fish endocrine disruption in small farmland ponds
P2860
Q26823635-329BA080-4B6D-4D07-8CD5-2A5223FDE703Q34451344-4680E92D-D372-4BD0-829D-40E9DA58D510Q37335610-723B59E0-9632-41B8-A3D7-72C304775AD0Q38241944-DD822BF4-2CEB-4F12-A0E0-491465302BC5Q38331989-3C72C017-6AB1-4C16-B17E-46241859439DQ38858216-36B66C7C-7240-4B27-8B0C-FBDA29E189B2Q38907874-878C12C5-6063-44F8-8704-3BFF4D285A4CQ38991497-4AEE8F3E-704A-48D8-A604-5B8FC231822EQ40339900-795E7FE8-0A32-41F7-9E00-0796FBEEBEF4Q40715154-84240D9A-2A34-4037-8238-B60DC8E83328Q41410701-45B8B279-DFA7-47FA-9EB1-7D362E884FDEQ42256732-EA88B37E-0A51-4F5D-AAFD-03E85B928459Q42725843-D2832F3E-3B67-4F83-A22C-21C26EE75901Q43112575-1E9F9CCF-CE5A-4DF1-BA84-19C4352023B5Q43324331-692919BD-3139-40E9-810D-895E4A816CC5Q43356026-90113A60-9202-4986-A2E6-F7FCB48AF697Q46102243-678FC8FC-B63B-4BB0-8D27-EECDB91F74FBQ46242402-D3D1268F-6F5F-4158-B543-5AD28351BCEDQ46947935-5DC84B4A-B543-46DC-AB77-8DD034D2BB4BQ48061506-A7C279A0-D5E3-4A6C-8F2E-7F156019B643Q51145551-A85579CC-A7B7-413B-8E25-6872FD65C88BQ51286594-B1A3BE80-4043-47F9-ACF7-1A367C750985Q54298538-0C488AC1-62A8-4986-B81C-3C9AC8908A5DQ54462246-6CA53E1F-58CE-45E3-9BD2-DA0357C3D856Q57191293-B764746B-3149-4F0C-9431-841D10537B64
P2860
Microbial degradation of isoproturon and related phenylurea herbicides in and below agricultural fields.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on July 2003
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Microbial degradation of isopr ...... and below agricultural fields.
@en
Microbial degradation of isopr ...... and below agricultural fields.
@nl
type
label
Microbial degradation of isopr ...... and below agricultural fields.
@en
Microbial degradation of isopr ...... and below agricultural fields.
@nl
prefLabel
Microbial degradation of isopr ...... and below agricultural fields.
@en
Microbial degradation of isopr ...... and below agricultural fields.
@nl
P2093
P1476
Microbial degradation of isopr ...... and below agricultural fields
@en
P2093
Allan Walker
Jens Aamand
Sebastian R Sørensen
P356
10.1016/S0168-6496(03)00127-2
P577
2003-07-01T00:00:00Z