polyethylene degradation by fungal consortium

Authors

h. v. sowmya

b. ramalingappa

g. nayanashree

b. thippeswamy

m. krishnappa

abstract

polyethylene is a synthetic polymer which is used in our daily life for different purposes. increased use of polyethylene causes severe environmental problems. there are different methods to decrease problem caused by polyethylene for example source reduction, incineration and land filling and all of them have their own drawbacks. so, the best way to reduce the problem caused by polyethylene is its biodegradation. in our work we isolated, curvularia lunata, alternaria alternata, penicillium simplicissimum and fusarium sp. from local dumpsites of shivamogga dist. degradation experiment was carried out using surface sterilized polyethylene for a period of 3 months and degradation was confirmed by weight loss, fourier transform infrared spectroscopy and scanning electron microscopy studies. individual weight loss shown by curvularia lunata (1.2%), alternaria alternata (0.8%), penicillium simplicissimum (7.7%) and fusarium sp. (0.7%) was less compared to their combination (27%). fourier transform infrared spectroscopy and scanning electron microscopy results confirmed degradation. enzymes responsible for polyethylene degradation were also screened and were identified as laccase and manganese peroxidase. so, the results confirm the significant role of consortium in polyethylene degradation compared to single microorganisms. microbial consortium can be used to solve problem caused by polyethylene in the environment and it is also eco friendly method without any side effects.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

Degradation of Green Polyethylene by Pleurotus ostreatus

We studied the biodegradation of green polyethylene (GP) by Pleurotus ostreatus. The GP was developed from renewable raw materials to help to reduce the emissions of greenhouse gases. However, little information regarding the biodegradation of GP discarded in the environment is available. P. ostreatus is a lignocellulolytic fungus that has been used in bioremediation processes for agroindustria...

full text

Polyethylene glycol degradation by UV irradiation

Degradation or polyethylene glycol has been studi ed by UV irradiation. A drastic change in the morphology from spherulite to rhythmic pattern has been observed under polarized light microscope when exposed to UV light. Molecular weight of PEG. Rr value and melting point have been recorded after UV exposure. On UV exposure there has also been a change in UV. IR and powder X-ray diffraction patt...

full text

Microbial degradation of polyethylene glycols.

Mono-, di-, tri-, and tetraethylene glycols and polyethylene glycols (PEG) with molecular weight up to 20,000 were degraded by soil microorganisms. A strain of Pseudomonas aeruginosa able to use a PEG of average molecular weight 20,000 was isolated from soil. Washed cells oxidized mono- and tetraethylene glycols, but O2 consumption was not detectable when such cells were incubated for short per...

full text

Towards efficient crude oil degradation by a mixed bacterial consortium.

A laboratory study was undertaken to assess the optimal conditions for biodegradation of Bombay High (BH) crude oil. Among 130 oil degrading bacterial cultures isolated from oil contaminated soil samples, Micrococcus sp. GS2-22, Corynebacterium sp. GS5-66, Flavobacterium sp. DS5-73, Bacillus sp. DS6-86 and Pseudomonas sp. DS10-129 were selected for the study based on the efficiency of crude oil...

full text

Atrazine degradation in anaerobic environment by a mixed microbial consortium.

Atrazine degradation by anaerobic mixed culture microorganism in co-metabolic process and in absence of external carbon and nitrogen source was studied at influent atrazine concentration range of 0.5-15 mg/l. Wastewater of desired characteristic was prepared by the addition of various constituents in distilled water spiked with atrazine. In co-metabolic process, dextrose of various concentratio...

full text

Methyl tert-butyl ether (MTBE) degradation by a microbial consortium.

The widespread use of methyl tert-butyl ether (MTBE) as a gasoline additive has resulted in a large number of cases of groundwater contamination. Bioremediation is often proposed as the most promising alternative after treatment. However, MTBE biodegradation appears to be quite different from the biodegradation of usual gasoline contaminants such as benzene, toluene, ethyl benzene and xylene (B...

full text

My Resources

Save resource for easier access later


Journal title:
international journal of environmental research

Publisher: university of tehran

ISSN 1735-6865

volume 9

issue 3 2015

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023