Acosta-Martínez V, Dowd S, Sun Y, Allen V (2008). Tag-coded pyrosequencing analysis of bacterial diversity in a single soil type as affected by management and land use. Soil Biol. Biochem. 40:2762- 2770.
Crossref

Buckley DH, Huangyutitham V, Nelson TA, Rumberger A, Thies JE (2006). Diversity of Planctomycetes in soil in relation to soil history and environmental heterogeneity. Appl. Environ. Microbiol. 72:4522-4531.
Crossref

Chandna P, Nain L, Singh S, Kuhad RM (2013). Assessment of bacterial diversity during composting of agricultural byproducts. BMC Microbiol. 13:99.
Crossref

Chen MY, Tsay SS, Chen KY, Shi YC, Lin YT, Lin GH (2002). Pseudoxanthomonas taiwanensis sp. nov., a novel thermophilic, N2O-producing species isolated from hot springs. Int. J. Syst. Evol. Microbiol. 52:2155-2161.
Crossref

Cole JR, Wang Q, Cardenas E, Fish J, Chai B, Farris RJ, Kulam-Syed-Mohideen AS, McGarrell DM, Marsh T, Garrity GM, Tiedje JM (2009). The ribosomal database project: improved alignment and new tools for rRNA analysis. Nucleic Acids Res. 37:D141-D145.
Crossref

Danon M, Franke-Whittle IH, Insam H, Chen Y, Hadar Y (2008). Molecular analysis of bacterial community succession during prolonged compost curing. FEMS Microbiol. Ecol. 65:133-144.
Crossref

de Bertoldi M, Vallini G, Pera A (1983). The biology of composting: A Review. Waste Manag. Res. 1:157-176.
Crossref

Fui C, Chin S, Furuya Y, Mohd-Zainudi HM, Ramli N, Hassan MA, Tashiro Y, Sakai K (2017). Novel multifunctional plant growth–promoting bacteria in co-compost of palm oil industry waste. J. Biosci. Bioeng. 5:506-513.

Fullwood MJ, Wei CL, Liu ET, Ruan Y (2009). Next-generation DNA sequencing of paired-end tags (PET) for transcription and genome analyses. Genome Res. 19:521-532.
Crossref

Han Z, Liu Y, Zhong M, Shi G, Li Q, Zeng D, Zhang Y, Fei Y, Xie Y (2018). Influencing factors of domestic waste characteristics in rural areas of developing countries. Waste Manag. 72:45-54.
Crossref

Horisawa S, Sakuma Y, Nakamura Y, Doi S (2008). Profiling of a microbial community under confined conditions in a fed-batch garbage decomposer by denaturing gradient gel electrophoresis. Bioresour. Technol. 99(8):3084-3093.
Crossref

Jones RT, Robeson MS, Lauber CL, Hamady M, Knight R (2009). A comprehensive survey of soil acidobacterial diversity using pyrosequencing and clone library analyses. ISME J. 3:442-453.
Crossref

Karadag D, Özkaya B,Ölmez E, Nissilä ME, Çakmakçı M, Yıldız S, Puhakka JA (2013). Profiling of bacterial community in a full-scale aerobic composting plant. Int. Biodeterior. Biodegr. 77:85-90.
Crossref

Kowalchuk GA, Naoumenko ZS, Derikx PJL, Felske A, Stephen JR, Arkheapchenko IA (1999). Molecular analysis of ammonia-oxidizing bacteria of the β subdivision of the class Proteobacteria in compost and composted materials. Appl. Environ. Microbiol. 65:396-403.

Lebedinsky AV, Chernyh NA, Bonch-Osmolovkaya EA (2007). Phylogenetic systematics of microorganisms inhabiting thermal environments. Biochemistry (Mosc) 72:1299-1312.
Crossref

Lipski A, Altendorf K (1997). Identification of heterotrophic bacteria isolated from ammonia-supplied experimental biofilters. Syst. Appl. Microbiol. 20:448- 457.
Crossref

Liu Z, Lozupone C, Hamady M (2007). Short pyrosequencing reads suffice for accurate microbial community analysis. Nucleic Acids Res. 35:e120.
Crossref

MacLean D, Jonathan D, Jones G, Studholme DJ (2009). Application of ´next-generation' sequencing technologies to microbial genetics. Reviews 7:287-296.

Manyl-Loh CE, Mamphweli SN, Meyer EL, Gakaka G, Simon M, Okoh AL (2016). An overview of the control of bacterial pathogens in cattle manure. Int. J. Environ. Res. Public Health 13:843.
Crossref

Michel FC, Marsh TJ, Reddy CA (2002). Bacterial community structure during yard trimmings composting. In: Insam, H., Riddech, S., Klammer, S., (Eds.) Microbiology of composting, Springer, Berlin, Heidelberg, New York. pp. 25-43.
Crossref

Nakagawa Y, Sekane T, Yotota A (1996). Transfer of "Pseudomonas riboflavia" (Foster 1944), a gram-negative, motile rod with a long-chain 3-hydroxy fatty acids, to Devosia riboflavina gen. nov., sp. nov., nom. Rev. Int. J. Syst. Bacteriol. 46:16-22.
Crossref

Neher DA, Weicht TR, Bates ST, Leff JW, Fierer N (2013). Changes in bacterial and fungal communities across compost recipes, preparation methods, and composting times. PLoS ONE 8(11):e79512.
Crossref

Ntougias S, Zervakis GI, Ehaliotis C, Kavroulakis N, Papadopoulou KK (2006). Ecophysiology and molecular phylogeny of bacteria isolated from alkaline two-phase olive mill wastes. Res. Microbiol. 157:376-385.
Crossref

Peters S, Koschinsky S, Schwieger F, Tebbe CC (2000). Succession of microbial communities during hot composting as detected by PCR-Single-Strand-Conformation-Polymorphism-based genetic profiles of small-subunit rRNA genes. Appl. Environ. Microbiol. 66:930-936.
Crossref

Rebollido R, Martínez J, Aguitera Y, Melchor K, Koerner I, Stegmann R (2008). Microbial populations during composting process of organic fraction of municipal solid waste. Appl. Ecol. Environ. Res. 6:61-67.
Crossref

Riddech N, Klammer S, Insam H (2002). Characterization of microbial communities during composting of organic wastes. In: Insam H., Riddech, R., Klammer, S., (Eds.) Microbiology of Composting. Springer Verlag, Heidelberg, pp. 43- 52.
Crossref

Rivas R, Willems A, Subba-Rao NS, Mateos PF, Dazzo FB, Kroppenstedt RM, Martínez-Molina E, Gillis M, Velázquez E (2003). Description of Devosia neptuniae sp. nov. that nodulates and fixes nitrogen in symbiosis with Neptunia natans, an aquatic legume from India. Syst. Appl. Microbiol. 26:47-53.
Crossref

Roesch LFW, Fulthorpe RR, Riva A, Casella G, Hadwin AKM, Kent AD, Daroub SH, Camargo FA, Farmerie WG, Triplett EW (2007). Pyrosequencing enumerates and contrasts soil microbial diversity. ISME J. 1:283- 290.
Crossref

Ryckeboer J, Mergaert J, Vaes K, Klammer S, De Clercq D, Coosemans J, Insam H, Swings J (2003). A survey of bacteria and fungi occurring during composting and self-heating processes. Ann. Microbiol. 53:349-410.

Shendure J, Ji H (2009). Next-generation DNA sequencing. Nat. Biotechnol. 26:1135 -1145.
Crossref

Sneath PHA (1986). Endosoreforming gram-positive rod and cocci. In: Sneath, P.H.A., Sharpe, M.E., Holt, JG., (Eds.) Bergey's Manual of Systematic Bacteriology 2:1104-1207.

Strous M, Fuerst JA, Kramer HM, Logemann S, Muyzer G, van de Pas-Schooner KT, Webb R, Kuenen JG, Jetten MS (1999). Missing lithotroph identified as new planctomycete. Nature 400:446- 449.
Crossref

Song C, Li M, Jia X, Wei Z, Zhao Y, Xi B, Zhu C, Liu D (2014). Comparison of bacterial community structure and dynamics during the thermophilic composting of different types of solid wastes: anaerobic digestion residue, pig manure and chicken manure. Microb. Biotechnol. 7(5):424-433.
Crossref

Sundberg C, Franke-Whittle HI, Kauppi S, Yu D, Romantschuk M, Insam H, Jönsson H (2011). Characterisation of source-separated household waste intended for composting. Bioresour. Technol. 102:2859-2867.
Crossref

Székely AJ, Sipos R, Berta B, Vajna B, Hajdú C, Márialigeti K (2008). DGGE and T-RFLP analysis of bacterial succession during mushroom compost production and sequence-aided T-RFLP profile of mature compost. Microb. Ecol. 57:522-533.
Crossref

Taiwo LB, Oso BA (2004). Influence of composting techniques on microbial succession, temperature and pH in a composting municipal solid waste. Afr. J. Biotechnol. 3:239-243.

Takaku H, Kodaira S, Kimoto A, Nashimoto M, Takagi M (2006). Microbial communities in the garbage composting with rice hull as an amendment revealed by culture-dependent and independent approaches. J. BoiSci. BioEng. 101:42-50.
Crossref

Tumuhairwe JB, Tenywa JS, Otabbong E, Stig L (2009). Comparison of four low-technology composting methods for market crop wastes. Waste Manag 29:2274 – 2281.
Crossref

Ueda K, Ohno M, Yamamoto K, Nara H, Mori Y, Shidama M, Hayashi M, Oida H, Terashima Y, Nagata M, Beppu T (2001). Distribution and diversity of symbiotic thermophiles, Symbiobacterium thermophilum and related bacteria, in natural environments. Appl. Environ. Microbiol. 67:3779-3784.
Crossref

Vivas A, Moreno B, Garcia-Rodriguez S, Benitez E (2009). Assessing the impact of composting and vermicomposting on bacterial community size and structure, and microbial functional diversity of an olive-mill waste. Bioresour. Technol 100:1319-1326.
Crossref

Wang Q, Garrity GM, Tiedje JM, Cole JR (2007). Naïve Bayesian classifier for rapid assignment of rRNA sequences into the new bacterial taxanomy. Appl. Environ. Microbiol. 73:526-5267.
Crossref

Xi B, Zhao X, He X, Huang C, Tan W, Gao R, Zhang H, Li D (2016). Successions and diversity of humic-reducing microorganisms and their association with physical-chemical parameters during composting. Bioresour. Technol. 219:204-211.
Crossref

Zing X, Lie Y, Zhu L, Cui H, Jia L, Xie X, Lie J, Wei Z (2017). Assessing the use of compost from multiple sources based on the characterization of carbon mineralization in soil. Waste Manag. 70:30-36.
Crossref

Zhao X, He X, Xi B, Gao R, Tan W, Zhang H, Li D (2016). The evolution of water extractable organic matter and its association with microbial community dynamics during municipal solid waste composting. Waste Manag. 56:79-87.
Crossref