The microbial metabolic activity on carbohydrates and polymers impact the biodegradability of landfilled solid waste

AbstractBiological waste degradation is the main driving factor for landfill emissions. In a 2-year laboratory experiment simulating different landfill in-situ aeration scenarios, the microbial degradation of solid waste under different oxygen conditions (treatments) was investigated. Nine landfill simulation reactors were operated in triplicates under three distinct treatments. Three were kept anaerobic, three were aerated for 706 days after an initial anaerobic phase and three were aerated for 244 days in between two anaerobic phases. In total, 36 solid and 36 leachate samples were taken. Biolog® EcoPlates™ were used to assess the functional diversity of the microbial community. It was possible to directly relate the functional diversity to the biodegradability of MSW (municipal solid waste), measured as RI4 (respiration index after 4 days). The differences between the treatments in RI4 as well as in carbon and polymer degradation potential were small. Initially, a RI4 of about 6.5 to 8 mg O2 kg−1 DW was reduced to less than 1 mg O2 kg−1 DW within 114 days of treatment. After the termination of aeration, an increase 3 mg O2 kg−1 DW was observed. By calculating the integral of the Gompertz equation based on spline interpolation of the Biolog® EcoPlates™ results after 96 h two substrate groups mainly contributing to the biodegradability were identified: carbohydrates and polymers. The microbial activity of the respective microbial consortium could thus be related to the biodegradability with a multilinear regression model.

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Role of Microbes and Microbial Consortium in Solid Waste Management

Environmental and Agricultural Microbiology ◽

10.1002/9781119525899.ch18 ◽

2021 ◽

pp. 383-422

Author(s):

Rachana Jain ◽

Lopa Pattanaik ◽

Susant Kumar Padhi ◽

Satya Narayan Naik

Keyword(s):

Waste Management ◽

Solid Waste ◽

Microbial Consortium ◽

Solid Waste Management

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Municipal solid waste in situ moisture content measurement using an electrical resistance sensor

Waste Management ◽

10.1016/s0956-053x(03)00100-4 ◽

2003 ◽

Vol 23 (7) ◽

pp. 667-674 ◽

Cited By ~ 38

Author(s):

Nitin A. Gawande ◽

Debra R. Reinhart ◽

Philip A. Thomas ◽

Philip T. McCreanor ◽

Timothy G. Townsend

Keyword(s):

Moisture Content ◽

Municipal Solid Waste ◽

Solid Waste ◽

Electrical Resistance ◽

Content Measurement ◽

Moisture Content Measurement

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Metagenomics Study To Compare The Taxonomy And Metabolism of a Lignocellulolytic Microbial Consortium Cultured in Different Carbon Conditions

10.21203/rs.3.rs-1076547/v1 ◽

2021 ◽

Author(s):

Qinggeer BORJIGIN ◽

Bizhou ZHANG ◽

Xiaofang Yu ◽

Julin Gao ◽

Xin ZHANG ◽

...

Keyword(s):

Microbial Consortium ◽

Agricultural Waste ◽

Taxonomic Diversity ◽

Taxonomic Composition ◽

Microbial Consortia ◽

Rich Diversity ◽

Cazy Database ◽

Taxonomic Affiliation ◽

In Situ Biodegradation

Abstract A lignocellulolytic microbial consortium holds promise for the in situ biodegradation of crop straw and the comprehensive and effective utilization of agricultural waste. In this study, we applied metagenomics technology to comprehensively explore the metabolic functional potential and taxonomic diversity of the microbial consortia CS (cultured on corn stover) and FP (cultured on filter paper).Analyses of the metagenomics taxonomic affiliation data showed considerable differences in the taxonomic composition and functional profile of the microbial consortia CS and FP. The microbial consortia CS primarily contained members from the genera Pseudomonas, Stenotrophomonas, Achromobacter, Dysgonomonas, Flavobacterium and Sphingobacterium, as well as Cellvibrio, Azospirillum, Pseudomonas, Dysgonomonas and Cellulomonas in FP. The COG and KEGG annotation analyses revealed considerable levels of diversity. Further analysis determined that the CS consortium had an increase in the acid and ester metabolism pathways, while carbohydrate metabolism was enriched in the FP consortium. Furthermore, a comparison against the CAZy database showed that the microbial consortia CS and FP contain a rich diversity of lignocellulose degrading families, in which GH5, GH6, GH9, GH10, GH11, GH26, GH42, and GH43 were enriched in the FP consortium, and GH44, GH28, GH2, and GH29 increased in the CS consortium. The degradative mechanism of lignocellulose metabolism by the two microbial consortia is similar, but the annotation of quantity of genes indicated that they are diverse and vary greatly. The lignocellulolytic microbial consortia cultured under different carbon conditions (CS and FP) differed substantially in their composition of the microbial community at the genus level. The changes in functional diversity were accompanied with variation in the composition of microorganisms, many of which are related to the degradation of lignocellulolytic materials. The genera Pseudomonas, Dysgonomonas and Sphingobacterium in CS and the genera Cellvibrio and Pseudomonas in FP exhibited a much wider distribution of lignocellulose degradative ability.

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Influence of Codisposal of Municipal Solid Waste and Olive Vegetation Water on the Anaerobic Digestion of a Sanitary Landfill

Water Science & Technology ◽

10.2166/wst.1993.0117 ◽

1993 ◽

Vol 27 (2) ◽

pp. 261-271 ◽

Cited By ~ 17

Author(s):

R. Cossu ◽

N. Blakey ◽

P. Cannas

Keyword(s):

Municipal Solid Waste ◽

Solid Waste ◽

Research Study ◽

Inhibitory Effect ◽

Organic Load ◽

Sanitary Landfill ◽

Inhibitory Influence ◽

Vegetation Water ◽

Waste Degradation ◽

Very High

A research study was carried out aiming to investigate the possibility of treatment of vegetation water in a anaerobic digester like a sanitary landfill. This vegetation water originates from olive oil production. The results, obtained from lysimeters filled with Municipal Solid Waste, show very high gasification and reduction of the organic load of vegetation water, with no inhibitory effect on waste degradation processes providing the vegetation water is added to an active methanogenic system or buffering the landfill system during the acid phase. The inhibitory influence of compounds, like polyphenols, which can be present in vegetation water in large amounts, has been studied.

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Microbial Functional Gene Diversity with a Shift of Subsurface Redox Conditions duringIn SituUranium Reduction

Applied and Environmental Microbiology ◽

10.1128/aem.06528-11 ◽

2012 ◽

Vol 78 (8) ◽

pp. 2966-2972 ◽

Cited By ~ 35

Author(s):

Yuting Liang ◽

Joy D. Van Nostrand ◽

Lucie A. N′Guessan ◽

Aaron D. Peacock ◽

Ye Deng ◽

...

Keyword(s):

Functional Diversity ◽

Field Experiments ◽

Gene Diversity ◽

Functional Gene ◽

Redox Conditions ◽

Functional Genes ◽

Microbial Functional Diversity ◽

Content Type ◽

Microbial Functional Gene

ABSTRACTTo better understand the microbial functional diversity changes with subsurface redox conditions duringin situuranium bioremediation, key functional genes were studied with GeoChip, a comprehensive functional gene microarray, in field experiments at a uranium mill tailings remedial action (UMTRA) site (Rifle, CO). The results indicated that functional microbial communities altered with a shift in the dominant metabolic process, as documented by hierarchical cluster and ordination analyses of all detected functional genes. The abundance ofdsrABgenes (dissimilatory sulfite reductase genes) and methane generation-relatedmcrgenes (methyl coenzyme M reductase coding genes) increased when redox conditions shifted from Fe-reducing to sulfate-reducing conditions. The cytochrome genes detected were primarily fromGeobactersp. and decreased with lower subsurface redox conditions. Statistical analysis of environmental parameters and functional genes indicated that acetate, U(VI), and redox potential (Eh) were the most significant geochemical variables linked to microbial functional gene structures, and changes in microbial functional diversity were strongly related to the dominant terminal electron-accepting process following acetate addition. The study indicates that the microbial functional genes clearly reflect thein situredox conditions and the dominant microbial processes, which in turn influence uranium bioreduction. Microbial functional genes thus could be very useful for tracking microbial community structure and dynamics during bioremediation.

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Solid waste to biofuels and heterogeneous sorbents via pyrolysis of wheat straw in the presence of fly ash as an in situ catalyst

Journal of Analytical and Applied Pyrolysis ◽

10.1016/j.jaap.2018.11.014 ◽

2019 ◽

Vol 137 ◽

pp. 96-105 ◽

Cited By ~ 9

Author(s):

Lihui Gao ◽

Jillian L. Goldfarb

Keyword(s):

Fly Ash ◽

Solid Waste ◽

Wheat Straw

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Dynamic Characterization of Municipal Solid Waste by In Situ and Laboratory Tests

Journal of Geotechnical and Geoenvironmental Engineering ◽

10.1061/(asce)gt.1943-5606.0001641 ◽

2017 ◽

Vol 143 (5) ◽

pp. 06017002 ◽

Cited By ~ 4

Author(s):

Francesco Castelli ◽

Valentina Lentini

Keyword(s):

Municipal Solid Waste ◽

Solid Waste ◽

Laboratory Tests ◽

Dynamic Characterization

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In-situ grouting of the low-level radioactive waste disposal silos at ORNL`s Solid Waste Storage Area Six

10.2172/10170328 ◽

1993 ◽

Author(s):

C.W. Francis ◽

C.D. Farmer ◽

R.G. Stansfield

Keyword(s):

Radioactive Waste ◽

Solid Waste ◽

Waste Disposal ◽

Radioactive Waste Disposal ◽

Low Level ◽

Waste Storage ◽

Storage Area ◽

Low Level Radioactive Waste

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Thermal and in situ infrared analysis to characterise the slow pyrolysis of mixed municipal solid waste (MSW) and its components

Renewable Energy ◽

10.1016/j.renene.2019.10.045 ◽

2020 ◽

Vol 148 ◽

pp. 388-401 ◽

Cited By ~ 5

Author(s):

Vibhuti Chhabra ◽

Keith Bambery ◽

Sankar Bhattacharya ◽

Yogendra Shastri

Keyword(s):

Municipal Solid Waste ◽

Solid Waste ◽

Infrared Analysis ◽

Slow Pyrolysis

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Road Tunnel Axial Fan Performance In Situ Test: Taking Qinling Zhongnan Mountain Highway Tunnel as an Example

Mathematical Problems in Engineering ◽

10.1155/2019/7036538 ◽

2019 ◽

Vol 2019 ◽

pp. 1-12

Author(s):

Yongdong Wang ◽

Xingbo Han ◽

Tianyue Zhou ◽

Zhiwei He ◽

Feilong Tian ◽

...

Keyword(s):

Spline Interpolation ◽

Road Tunnel ◽

Axial Fan ◽

In Situ Test ◽

The Road ◽

Highway Tunnel ◽

Fitting Method ◽

Axial Fans ◽

Biharmonic Spline Interpolation

Axial fans play a pivotal role in the road tunnel ventilation system. Qualified performance of the axial fan is important for both safety and air quality maintenance reasons. Axial fans performance in situ test of Qinling Zhongnan Mountain highway tunnel, the second longest road tunnel in the world, is presented in this research. Performance test items and the qualification criterion, as well as a general framework for the road tunnel axial fan assessment, are recommended. Log-Tchebycheff method is suggested to confirm the location for the measuring lines and points. The precision of the log-Tchebycheff method in air flow rate measuring is verified by comparing with the biharmonic spline interpolation fitting result. The research shows that the log-Tchebycheff method has high precision and good efficiency in the air flow rate measurement of the road tunnel air duct. What is more, the biharmonic spline interpolation fitting method can be applied to obtain a more accurate result. The number of interpolation points of the biharmonic spline interpolation fitting method should be bigger than 2000 to provide quality results.

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