National Academy of Agricultural Sciences (NAAS)
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PRINT ISSN : 2319-7692
Online ISSN : 2319-7706 Issues : 12 per year Publisher : Excellent Publishers Email : editorijcmas@gmail.com / submit@ijcmas.com Editor-in-chief: Dr.M.Prakash Index Copernicus ICV 2018: 95.39 NAAS RATING 2020: 5.38 |
This review starts with a basic introduction of geothermal springs definations, classifications and its therapeutic values (Erfurt-Copper and Copper et al., 2009; Eyton`s Earth et al., 2010; Erfurt et al., 2011). Also include Global scenario of hot springs location of India as well as worldwide and its significances. Furthermore, it focuses on microorganisms’ growth insight extreme environment and they are capable to produce various potential industrial compounds as such enzymes, antibiotics, hormones etc. and its having attraction in present scenario (Sing et al., 2006; Nayak et al., 2013). This chapter describes combination methods like basic conventional methods, advance molecular based techniques and also next generation sequencing. Lastly, this chapter discusses thermophilic microbial diversity of hot water springs in Gujarat, India and also other countries and its role as a various application in different area.
Abussaud MJ and Alanagreh L. Isolation, Characterization and Antimicrobial Activity of Streptomyces Strains from Hot Spring Areas in the Northern Part of Jordan. African Journal of Biotechnology 12(51): 7124–32. (2013).
Acharya S and Chaudhary A. Effect of Nutritional and Environmental Factors on Cellulases Activity by Thermophilic Bacteria Isolated from Hot Spring. Journal of Scientific & Industrial Research. 70: 142–148. (2011).
Adams MW and Kelly RM. Finding and using hyperthermophilic enzymes. Trends in biotechnology. 16(8):329-332. (1998).
Adiawati P, Yohandini H, Madayanti F and Akhmaloka. Microbial diversity of acidic hot spring (Kawah Hujan B) in geothermal area West Java-Indonesia. Open Microbiology Journal. 3(1):58-66. (2009).
Adiguzel A, Inan K, Sahin F, Arasoglu T, Gulluce M, Belduz A and Baris O. Molecular Diversity of Thermophilic Bacteria Isolated from Pasinler Hot Spring (Erzurum, Turkey). Turkish Journal of Biology. 35: 267-274. (2011).
Adiguzel A, Ozkan H, Baris O, Inan K, Gulluce M and Sahin F. Identification and Characterization of Thermophilic Bacteria Isolated from Hot Springs in Turkey. Journal of Microbiological Methods. 79(3): 321-328. (2009).
Akmar HN, Asma I, Venugopal B, Latha YL and Sasidharan S. Identification of Appropriate Sample and Culture Method for Isolation of New Thermophilic Bacteria from Hot Spring. African Journal of Microbiology Research. 5(3): 217-221. (2011).
Alam N, Sarkar M, Chowdhury T, Ghosh D and Chattopadhyay B. Characterization of a Novel MDH1 Bacterium from a Virgin Hot Spring Applicable for Gold Nanoparticle (GNPs) Synthesis. Advances in Microbiology. 06(09): 724-732. (2016).
Allaby A and Allaby M. Oxford Dictionary of Earth Science, Oxford University Press, UK. (2003).
Aminin ALN, Warganegara FM, Aditiawati P and Akhmaloka. Simple enrichment and independent cultures to expand bacterial community analysis from Gedongsongo Hot Spring. Journal of Bioscience and Bioengineering. 106(2):211-214. (2008).
Arzita S, Anthoni A and Yetria R. The Diversity of the Alkaline Protease Producers, Thermophilic Obligate Bacillus Spp., from Sungai Tutung Hot Spring, Kerinci, Jambi, Indonesia. Journal of Pure and Applied Microbiology 11(4): 1789-1797. (2017).
Austain B. Methods in Aquatic Bacteriology. In: A Wiley-Interscience Publication, 222-231. (1988).
Bailon-Salas AM, Medrano-Roldan H, Valle-Cervantes S, Ordaz-Diaz LA, Urtiz-Estrada N and Rojas-Contreras JA. Review of Molecular Techniques for the Identification of Bacterial Communities in Biological Effluent Treatment Facilities at Pulp and Paper Mills. BioResources. 12(2): 4384–4409. (2017).
Baker CG, Shabarni Gr, Don CA and Adrian SR. Bacterial Community Analysis of Indonesian Hot Springs. FEMS Microbiology Letters 200(1): 103-109. (2001).
Bauman RW, Machunt-Masuoka E and Tizard I. Microbiology. Pearson Education Publishssing, Inc. San Francisco, USA. (2004).
Bharali P, Das S, Konwar B and Thakur A. Crude biosurfactant from thermophilic Alcaligenes faecalis: feasibility in petro-spill bioremediation. International Biodeterioration Biodegradation. 65:682-690. (2011).
Bhusare DU and Wakte PS. Microbiological and Physiochemical Attributes of Hot Water Sulphur Spring of Unkeshwar. Journal of experimental sciences. 2(4): 4–6. (2011).
Blumer-Schuette SE, Kataeva I, Westpheling J, Adams MWWand Kelly RM. Extremely thermophilic microorganisms for biomass conversion: status and prospects. Current Opinion in Biotechnology. 19:210–217. (2008).
Briggs BR, Brodie EL, Tom LM, Dong H, Jiang H, Huang Q, Wang S, Hou W, Wu G, Haung L, Hedlund BP, Zhang C, Dijkstra P and Hungate BA. Seasonal patterns in microbial communities inhabiting the hot springs of Tengchong, Yunnan Province China. Environmental Microbiology. 16, 1579–1591. (2014).
Brock TD. The value of basic research: discovery of Thermus aquaticus and other extreme thermophiles. Genetics. 146, 1207–1210. (1997).
Brock Thomas and Freeze Hudson. Thermus aquaticus gen. n. and sp. n., a Nonsporulating Extreme Thermophile. Journal of Bacteriology. 98:289-297. (1969).
Cai H, Archambault M and Prescott JF. 16S ribosomal RNA sequence- based identification of veterinary clinical bacteria. Journal of Veterinary Diagnostic Investigation. 15(5): 465-469. (2003).
Cai W, Wannemuehler Y, Dell'anna G, Nicholson B, Barbieri NL, Kariyawasam S, Feng Y, Logue CM, Nolan LK and Li G. A novel two-component signaling system facilitates uropathogenic Escherichia coli’s ability to exploit abundant host metabolites. PLoS Pathog. 9(6):e1003428. (2013).
Calderon RM. Ecology of Hot Spring Microbial Mats?: Diversity, Microheterogeneity, and Biogeography”. PhD Thesis. University of Autonoma de Barcelona. (2014).
Canganella F and Wiegel J. Anaerobic thermophiles. Life. 4(1):77–104. (2014).
Cankili Y. Prokaryotic diversity of hot springs in Balikesir and Kutahya, Turkey. Applied Ecology and Environmental Research. 14(4): 429–440. (2016).
Chalaal O and Islam MR. Integrated management of radioactive strontium contamination in aqueous stream systems. Journal of Environmental Management. 61:51–59. (2001).
Chan CS, Chan KG, Tay YL, Chua YH and Goh KM. Diversity of Thermophiles in a Malaysian Hot Spring Determined Using 16S RRNA and Shotgun Metagenome Sequencing. Frontiers in Microbiology. 6: 1–15. (2015).
Chaudhary N and Prabhu S. Thermophilic Actinomycetes from Hot Water Spring Capable of Producing Enzymes of Industrial Importance. International Journal of Research Studies in Biosciences. 4(6): 29–35. (2016).
Chaudhuri B, Nurul A, Manas S and Chowdhury T. Phylogenetic Characterization of BKH3 Bacterium Isolated from a Hot Spring Consortium of Bakreshwar (India) and Its Application. Advances in Microbiology 6: 453–461. (2016).
Chauhan S. Isolation, Characterization and Genetic Improvement of Xylanase Producing Thermophilic Microorganisms from Hot Springs of Himachal Pradesh. PhD Thesis. Shoolini University of Biotechnology and Management Sciences. Solan, H.P., India. (2010).
Chen TL, Chou YJ, Chen WM, Bhagwath A and Young CC. Tepidimonas Taiwanensis Sp. Nov., a Novel Alkaline-Protease-Producing Bacterium Isolated from a Hot Spring. Extremophiles. 10(1): 35–40. (2006).
Chen, WM, Huang HW, Chang JS, Han YL, Guo TR and Sheuet SY. Tepidimonas Fonticaldi Sp. Nov., a Slightly Thermophilic Betaproteobacterium Isolated from a Hot Spring. International Journal of Systematic and Evolutionary Microbiology. 63: 1810–16. (2013).
Chudasama CJ. Isolation, Screening and Characterization of Alkaline Protease Producing Microorganisms. PhD thesis. Sardar Patel University. (2012).
Clarridge JE. Impact of 16S rRNA gene sequence analysis for identification of bacteria on clinical microbiology and infectious diseases. Clinical microbiology reviews. 17: 840-862. (2004).
Cohan FM. What are bacterial species? Annual Review of Microbiology. 56:457–487. (2002).
Cowan DA. Enzymes from thermophilic Archaebacteria: Current and future applications in biotechnology. Biochemical Society Symposium. 58:149-169. (1992).
Das S, Dash HR, Mangwani N, Chakraborty J and Kumari S. Understanding Molecular Identification and Polyphasic Taxonomic Approaches for Genetic Relatedness and Phylogenetic Relationships of Microorganisms. Journal of Microbiological Methods. 103:80–100. (2014).
Deive F, Dominguez A, Barrio T, Moscoso F, Moran P, LongoM and Sanroman M. Decolorization of dye Reactive Black 5 by newly isolated thermophilic microorganisms from geothermal sites in Galicia (Spain). Journal of Hazardous Materials.182:735–742. (2010).
Devi S. Microbial diversity of aerobic culturable thermophiles in the hot spring of Manikaran. PhD Thesis. Chaudhary Sarwan Kumar Himachal Pradesh Krishi Vishvavidyalaya, Palampur (H.P.) India. (2015).
Donati, E. R., & Sand, W. (Eds.). Microbial processing of metal sulfides (Vol. 130). Dordrecht: Springer. (2007).
Dudhagara P, Bhavasar S, Ghelani A and Bhatt S. Isolation, Characterization and Investing the Industrial Applications of Thermostable and Solvent Tolerant Serine Protease from Hot Spring Isolated Thermophilic Bacillus licheniformis U1. International Journal of Applied Sciences and Biotechnology. 2(1): 75–82. (2014).
Dudhgara PR, Bhavsar S and Ghelani A. Hide Dehairing and Laundry Detergent Compatibility Testing of Thermostable and Solvents Tolerant Alkaline Protease from Hot Spring Isolate Bacillus Cohnii U3. Journal of Biological Sciences Original. 15(3): 152–161. (2015).
El-Gayar KE, Al Abboud MA, and Essa AMM. Characterization of Thermophilic Bacteria Isolated from Two Hot Springs in Jazan, Saudi Arabia. Journal of Pure and Applied Microbiology. 11(2): 743–752. (2017).
Erfurt PJ. An assessment of the role of natural hot and mineral springs in health, wellness and recreational tourism. PhD thesis, James Cook University. (2011).
Erfurt-Cooper P and Cooper M. Health and Wellness Tourism: Spas and Hot Springs. Bristol, UK: Channel View Publications. (2009)
Eytons' Earth. Balneotherapy and Balneology - The Science and Art of Mineral Water Therapy. Document: www.eytonsearth.org/balneology- balneotherapy.php#hot_spring. (2010).
Fandi K, Nayef Al-muaikel and Fouad Al-momani. Antimicrobial Activities of Some Thermophiles Isolated from Jordan Hot Springs. International Journal of Chemical, Environmental & Biological Sciences. 2(1): 2320–4087. (2014).
Feng?Qin Zhang, Jun Liu, Xiao?Ju Chen. Comparative analysis of bacterial diversity in two hot springs in Hefei, China. Scientific Reports. 13:5832. (2023).
Freier D, Mothershed CP and Wiegel J. Characterization of Clostridium thermocellum JW20. Applied and Environmental Microbiology. 54:204–211. (1988).
Ghati A, Kaushik S and Paul G. Isolation, Characterization and Molecular Identification of Esterolytic Thermophilic Bacteria from an Indian Hot Spring. Current Research in Microbiology and Biotechnology. 1(4): 196–202. (2013).
Ghazanfar S, Azim A, Ghazanfar MA, Anjuman MI and Begum I. Metagenomics and its application in soil microbial community studies: biotechnological prospects. Journal of Animal and Plant Sciences. 6(2). 611-622. (2010).
Ghelani A, Patel R, Mangrola A and Dudhagara P. Cultivation-Independent Comprehensive Survey of Bacterial Diversity in Tulsi Shyam Hot Springs, India. Genomics Data. 54–56. (2015).
Ghilamicael AM, Boga HI, Anami SE, Mehari T and Budambula NLM. Potential Human Pathogenic Bacteria in Five Hot Springs in Eritrea Revealed by next Generation Sequencing. PLoS ONE. 13(3): 1–12. (2018).
Ghosh D, Bal B, Kashyap VK and Pal S. Molecular Phylogenetic Exploration of Bacterial Diversity in a Bakreshwar (India) Hot Spring and Culture of Shewanella-Related Thermophiles. Applied and Environmental Microbiology. 69(7): 4332–36. (2003)
Gohel HR, Ghosh SK and Braganza VJ. Production, Purification and Immobilization of Extracellular Lipases Xrf11 and Bacillus Licheniformis Xrf12 for Production of Alkyl Esters. International Journal of Life Sciences Biotechnology and Pharma Research 2(3): 278–86. (2013).
Gong JS, Lu ZM, Li H, Zhou ZM, Shi JS and Xu ZH. Metagenomic technology and genome mining: emerging areas for exploring novel nitrilases. Applied Microbiology and Biotechnology. 97: 6603- 6611. (2013).
Gough S, Flynn O, Hack CJ and Marchant R. Fermentation of molasses using a thermotolerant yeast, Kluyveromyces marxianus IMB3: simplex optimisation of media supplements. Applied microbiology and biotechnology. 46(2), 187-190. (1996).
Grewal S. Assessment of Microbial Diversity in Metagenome of Totemic Soil of Chambyal, Samba, J & K State. PhD Thesis. University of Jammu, School of Biotechnology. (2014).
Haki GD and Rakshit SK. Developments in industrially important thermostable enzymes. Bioresource Technology. 89:17–34. (2003).
Hamilton-Brehm SD, Mosher JJ, Vishnivetskaya T, Podar M, Carroll S, Allman S, Phelps TJ and Keller M. Caldicellulosiruptor obsidiansis sp nov, an anaerobic, extremely thermophilic, cellulolytic bacterium isolated from Obsidian Pool, Yellowstone National Park. Applied and Environmental Microbiology. 76:1014–1020. (2010).
Handelsman J, Rondon MR, Brady SF, Clardy J and Goodman RM. Inception of Metagenomic. Chemistry and Biology. 5(10): 245-249. (1998).
Hellman MJ and Michael RS. Analysis of Hot Springs and Associated Deposits in Yellowstone National Park Using ASTER and AVIRIS Remote Sensing. Journal of Volcanology and Geothermal Research. 135: 195–219. (2004).
Herbert and Sharp RJ. Molecular biology and biotechnology of extremophiles. Chapman and Hall, New York. p 44-75. (1992).
Hess M, Sczyrba A, Egan R, Kim TW, Chokhawala H, Schroth G, Luo S, Clark DS, Chen F, Zhang T, Mackie RI, Pennacchio LA, Tringe SG, Visel A, Woyke T, Wang Z and Rubin EM. Metagenomic discovery of biomass-degrading genes and genomes from cow rumen. Science. 331: 463-467. (2011).
Holt JG, Kneg NR, Sneath PHA, Staley JT and Williams ST. Bergey’s Manual of Determinative Bactenology, (9th Ed) Hensyl, W R, Willians and Wilkins Company, Baltimore, USA. (1994).
Horikoshi K. Alkalophiles. In: Horikoshi, K., Grant, W. (Ed.) Extremophiles: Microbial Life in Extreme Environments. Wiley-Liss, Inc. New York, pp. 35-56. (1998).
Huang L. Greater Temporal Changes of Sediment Microbial Community than Its Waterborne Counterpart in Tengchong Hot Springs, Yunnan Province, China. Scientific Reports. 1–11. (2014)
Huber G, Huber R, Jones BE, Lauerer G, Neuner A, Segerer A, Stetter KO and Degens ET. Hyperthermophilic archaea and bacteria occurring within Indonesian hydrothermal areas. Systematic and Applied Microbiology. 14:397-404. (1991).
Hugenholtz P. Exploring prokaryotic diversity in the genomic era. Genome Biology. 3(2):1-8. (2002).
Hussein EI, Jacob JH, Shakhatreh MAK, Abd Al-razaq MA, Juhmani AF and Cornelison CT. Exploring the Microbial Diversity in Jordanian Hot Springs by Comparative Metagenomic Analysis. Wiley Microbiology Open. 1–8. (2017).
Inan K, Sabriye C, Ali OB and Fikrettin S. Brevibacillus Aydinogluensis Sp. Nov., a Moderately Thermophilic Bacterium Isolated from Karakoc Hot Spring. International Journal of Systematic and Evolutionary Microbiology. 62: 849–55. (2012).
Ishaq K, Shah AH, Fariq A, Rasheed S, Jannat S. Diversity of culturable thermophilic bacteria from Tata Pani hotspring of Kotli Azad Jammu and Kashmir. Biodiversity Data Journal 11: e99224. (2023).
Jagdish Verma, Anuradha Sourirajan, Kamal Dev. Bacterial diversity in 110 thermal hot springs of Indian Himalayan Region (IHR). 3 Biotech. 12: 238. (2022).
Janssen P, Audit B, Cases I, Darzentas N, Goldovsky L, Kunin V, Lopez-Bigas N, Peregrin-Alvarez JM, Pereira-Leal JB, Tsoka S and Ouzounis CA. Beyond 100 genomes. Genome Biology. 4:402. (2003).
Jiang C, Li SX, Luo FF, Jin K, Wang Q, Hao ZY, Wu LL, Zhao GC, Ma GF, Shen PH, Tang XL and Wu B. Biochemical characterization of two novel β glucosidase genes by metagenome expression cloning. Bioresource Technology. 102: 3272-3278. (2011).
Johnson JL. DNA reassociation experiments. In Nucleic Acid Techniques in Bacteri- al Systematics. In: Stackebrandt, E., Goodfellow, M. (Eds.), Wiley, Chichester. 21-44. (1991).
Joshi S, Bharucha C, Jha S, Yadav S, Nerurkar A and Desai AJ. Biosurfactant production usingmo- lasses and whey under thermophilic conditions. Bioresource Technology. 99:195-199. (2008).
Joshi SJ, Suthar H, Yadav A, Hingurao K and Nerukar A. Occurrence of Biosurfactant Producing Bacillus Spp. in Diverse Habitats. International Scholarly Research Notices Biotechnology. Article ID - 52340, 6 pages, (2013). http://dx.doi.org/10.5402/2013/652340.
Kambura AK, Mwirichia RK, Kasili RW, Karanja EN, Makonde HM, Boga HI. Bacteria and Archaea diversity within the hot springs of Lake Magadi and Little Magadi in Kenya. BMC Microbiol. 7;16(1):136. (2016). doi: 10.1186/s12866-016-0748-x. PMID: 27388368; PMCID: PMC4936230.
Kambura, Anne & Mwirichia, Romano & Kasili, Remmy & Karanja, Edward & Makonde, Huxley & Boga, Hamadi. Bacteria and Archaea diversity within the hot springs of Lake Magadi and Little Magadi in Kenya. BMC Microbiology. 16:136. (2016). DOI 10.1186/s12866-016-0748-x
Kashefi K and Lovely DR. Extending the upper temperature limit for life. Science. 301: 934-941. (2003).
Kato S, Haruta S, Cui ZJ, Ishii M, Yokota A and Igarashi Y. Clostridium straminisolvens sp nov, a moderately thermophilic, aerotolerant and cellulolytic bacterium isolated from a cellulose- degrading bacterial community. International Journal of Systematic and Evolutionary Microbiology. 54:2043-2047. (2004).
Khalil AB, Sivakumar N, Arslan M, Saleem H and Qarawi S. Insights into Brevibacillus Borstelensis AK1 through Whole Genome Sequencing: A Thermophilic Bacterium Isolated from a Hot Spring in Saudi Arabia. BioMed Research International. Article ID 5862437. (2018).
Khuntia HK, Samal S, Sahoo RK, Kar SK, Pal BB and Bihari KM. Isolation and Characterization of Thermophilic Bacteria from Hot Spring in Orissa, India. Biosciences, Biotechnology Research Asia. 7(1): 449-451. (2010).
Kikani B. Molecular Diversity and Biocatalytic Potential of Thermophilic and Thermotolerant Bacteria from a Hot Spring Reservoir in Tulsi Shyam, Junagadh (Gujarat)”. PhD Thesis. Saurashtra University. (2013).
Kikani BA and Singh SP. Single Step Purification and Characterization of a Thermostable and Calcium Independent α-Amylase from Bacillus Amyloliquifaciens TSWK1-1 Isolated from Tulsi Shyam Hot Spring Reservoir, Gujarat (India). International Journal of Biological Macromolecules. 48(4): 676-681. (2011).
Kikani BA, Sharma AK and Singh SP. Culture Dependent Diversity and Phylogeny of Thermophilic Bacilli from a Natural Hot Spring Reservoir in the Gir Forest, Gujarat (India). Microbiology. 84(5): 687–700. (2015a)
Kikani BA, Sharma AK and Singh SP. Culture Dependent Diversity and Phylogeny of Thermophilic Bacilli from a Natural Hot Spring Reservoir in the Gir Forest, Gujarat (India). Microbiology Pleiades Publishing, Ltd. 84(5): 687-688. (2015b).
Kim B, Grote R, Lee D, Antranikian G and Pyum Y. Thermoanaerobacter yonseiensis sp. nov., a novel extremely thermophilic, xylose utilizing bacterium that grows up to 85°C. International Journal of Systematic and Evolutionary Microbiology. 51: 1539-1548. (2001).
Klatt C, Wood J, Rusch D, Bateson M, Hamamura N, Heidelberg, J, Grossman A, Bhaya D, Cohan F, Kuhl M, Bryant D and Ward D. Community ecology of hot spring cyanobacterial mats: predominant populations and their functional potential. International Society for Microbial Ecology Journal. 5:1262–1278. (2011).
Konstantinidis KT and Tiedje JM. Prokaryotic taxonomy and phylogeny in the geno- mic era: advancements and challenges ahead. Current Opinion in Microbiology. 10:504–509. (2007).
Kozina IV, Kublanov IV, Kolganova TV, Chernyh NA and Bonch-Osmolovskaya EA. Caldanaerobacter uzonensis sp. nov., ananaerobic, thermophilic, heterotrophic bacterium isolated from a hot spring. International Journal of Systematic and Evolutionary Microbiology. 60:1372-1375. (2010).
Krishna. Molecular DIiversity of Bacterial Population of Kaveri River Belt of Kodagu District, India. PhD Thesis. Manglore University. (2013)
Kumar M, Yadav AN, Tiwari R, Prasanna R and Saxena AK. Deciphering the diversity of culturable thermotolerant bacteria from Manikaran hot springs. Annals of Microbiology. 64:741-751. (2014a)
Kumar MK, Yadav AN, Tiwari R, Prasanna R and Saxena AK. Bioprospecting Evaluating the Diversity of Culturable Thermotolerant Bacteria from Four Hot Springs of India. Journal of Biodiversity, Bioprospecting and Development. 1(3):1-9. (2014).
Lau MCY, Aitchison JC and Pointing SB. Bacterial community composition in thermophilic microbial mats from five hot springs in central Tibet. Extremophiles. 13:139-149. (2009).
Lebedeva EV, Off S, Zumbragel S, Kruse M, Shagzhina A, Lucker S, Maixner F, Lipski A, Daims H and Spieck E. Isolation and Characterization of a Moderately Thermophilic Nitrite-Oxidizing Bacterium from a Geothermal Spring. FEMS Microbiology Ecology. 75:195–204. (2011).
Lee, Y.-J.; Ganbat, D.; Oh, D.; Kim, H.; Jeong, G.E.; Cha, I.-T.; Kim, S.-B.; Nam, G.; Jung, Y.-J.; Lee, S.-J. Isolation and Characterization of Thermophilic Bacteria from Hot Springs in Republic of Korea. Microorganisms, 10, 2375. (2022). https://doi.org/10.3390/ microorganisms10122375
Lele OH and Deshmukh PV. Isolation and characterization of thermophilic Bacillus sp. with extracellular enzymatic activities from hot spring of Ganeshpuri, Maharashtra, India. International Journal of Applied Research. 2(5): 427–430. (2016).
Lengeler JW, Drews G and Schelgel HG. Biology of Prokaryote. Blackwell Science Inc., New York, USA. 652-915. (1999).
Lewis K, Epstein S, D'Onofrio A and Ling LL. Uncultured microorganisms as a source of secondary metabolites. Journal of Antibiotics. 63(8):468-476. (2010).
Madden RH. Isolation and characterization of Clostridium stercorarium sp nov, cellulolytic thermophile. International Journal of Systematic Bacteriology. 33:837-840. (1983).
Mahajan MM, Singh DP, Kanika K, Goyal E and Singh AK. Deciphering the microbial diversity of Tattapani hot water spring using. International Journal of Agricultural Science and Research (IJASR). 6(2):371-382. (2016).
Malhotra R, Noorwez SM and Satyanarayana T. Production and partial characterization of thermostable and calcium-independent α-amylase of an extreme thermophile Bacillus thermoleovorans NP54. Letters in Applied Microbiology. 31: 378- 384. (2000).
Malkawi HI and Al-omari MN. Approaches to Study the Bacterial and Archaeal Diversity from Jordanian Hot Springs. African Journal of Microbiology Research. 4(10): 923–932. (2010).
Maltseva, A.I.; Klyukina, A.A.; Elcheninov, A.G.; Pimenov, N.V.; Rusanov, I.I.; Kublanov, I.V.; Kochetkova, T.V.; Frolov, E.N. Water and Sediments of an Acidic Hot Spring—Distinct Differentiation with Regard to the Microbial Community Composition and Functions. Water, 15, 3415. (2023).https://doi.org/ 10.3390/w15193415.
Mangrola AV, Dudhagara PR, Koringa PG, Joshi CG and Patel RK. Metagenomic Microbial Community Profiling of Unnai Hot Spring by Ion-Torrent Based Shotgun Sequencing. Microbiology. 87(1): 143–146. (2018).
Mangrola AV, Dudhagara PR, Koringa PG, Joshi CG and Patel RK. Shotgun Metagenomic Sequencing Based Microbial Diversity Assessment of Lasundra Hot Spring, India. Genomics Data. 4: 73–75. (2015).
Mangrola AV, Dudhagara PR, Koringa PG, Joshi CG, Parmar M and Patel RK. (2015). Deciphering the Microbiota of Tuwa Hot Spring, India Using Shotgun Metagenomic Sequencing Approach. Genomic Data. 4: 153–155.
Margesin R and Schinner F. Biodegradation and bioremediation of hydrocarbons in extreme environments. Applied Microbiology and Biotechnology. 56:650–663. (2001).
Marsh CL and Don LH. Characterization of some thermophilic bacteria from the hot springs of Yellowstone National. Journal of Bacteriology. 65(2): 193–197. (1953).
Meenakshi. (2015). Biocolor production from bacteria inhabiting hot water springs of Himachal Pradesh. PhD Thesis. University of Horticulture and Forestry, Nauni, Solan. (2015).
Mehetre GT, Paranjpe A, Syed DG and Dharne MS. Investigation of Microbial Diversity in Geothermal Hot Springs In. American Society For Microbiology. 4(1): 4–5. (2016).
Mehta R, Singhal P, Singh H and Damle D. Insight into Thermophiles and Their Wide-Spectrum Applications. 3 Biotech. 6(81): 1–9. (2016).
Menzel P, Gudbergsdottir SR, Rike AG, Lin L, Zhang Q, Contursi P, Moracci M, Kristjansson JK, Bolduc B, Gavrilov S, Ravin N, Mardanov A, Bonch-Osmolovskaya E, Young M, Krogh A and Peng X. Comparative metagenomics of eight geographically remote terrestrial hot springs. Microbial Ecology. 70:411–424. (2015).
Menzel P, Gudbergsdóttir SR, Rike AG, Lin L, Zhang Q, Contursi P, Moracci M, Kristjansson JK, Bolduc B, Gavrilov S, Ravin N, Mardanov A, Bonch-Osmolovskaya E, Young M, Krogh A, Peng X. Comparative Metagenomics of Eight Geographically Remote Terrestrial Hot Springs. Microb Ecol. Aug;70(2):411-24. doi: 10.1007/s00248-015-0576-9. Epub 2015 Feb 25. PMID: 25712554. (2015).
Mignard S and Flandrois JP. 16S rRNA sequencing in routine bacterial identification: a 30-month experiment. Journal of microbiological methods. 67:574- 581. (2006).
Minnikin DE, Alshamaony L and Goodfellow M. Differentiation of Mycobacterium, Nocardia and related taxa by thin-layer chromatographic analysis ofwhole-organism methanolysates. Journal of General Microbiology. 88:200–204. (1975).
Mishra D and Khanolkar N. Metagenomic Analysis?: Microbial Diversity of Hot Spring Water Near Mumbai Region (India). International Journal of Interdisciplinary and Multidisciplinary Studies (IJIMS.) 4(3):575–593. (2017).
Mnif S, Chamkha M, Labat M and Sayadi S. Simultaneous hydrocarbon biodegradation and biosurfactant production by oilfield-selected bacteria. Journal of Applied Microbiology. 111: 525–536. (2011).
Mnif S, Sayadi S and Chamkha M. Biodegradative potential and characterization of a novel aromatic-degrading bacterium isolated from a geothermal oil field under saline and thermophilic conditions. International Biodeteriaration and Biodegradation. 86:258–264. (2014).
Mohammad BT, Al DH, Jaouani A, Abdel-Latif S and Kennes C. Isolation and Characterization of Thermophilic Bacteria from Jordanian Hot Springs: Bacillus Licheniformis and Thermomonas Hydrothermalis Isolates as Potential Producers of Thermostable Enzymes. International Journal of Microbiology. Article ID 6943952: 1-13. (2017).
Mohanty S. The Atri hot spring in Odisha - A Natural Ecosystem for Global Warming Research. International Journal of Geology, Earth and Environmental Sciences 4(1):85–90. (2014).
Morey GW. Chemical Analysis of Thermal Waters in Yellowstone National Park, Wyoming. Geological Survey Bulletin. 1960-1965. (1973).
Nabi NI, Sharma P, Das S, Thandu SM, Kumar S, Thakur N. Bacterial diversity, physicochemical and geothermometry of South Asian hot springs. Current Research in Microbial Sciences 3 - 100125. (2022).
Narsing Rao MP, Dong Z-Y, Luo Z-H, Li M-M, Liu B-B, Guo S-X, Hozzein WN, Xiao M and Li W-J. Physicochemical and Microbial Diversity Analyses of Indian Hot Springs. Front. Microbiol. 12:627200. doi: 10.3389/fmicb.2021.627200. (2021).
Nayak SP. Identification and Characterization of thermophilic bacteria from hot springs of Odisha and their potential applications. PhD Thesis. Orissa University of Agriculture and Technology, Bhubaneswar, Odisha, India. (2013).
Ocham H, Lerat E and Daubm V. Examining Bacterial Species under the Specter of Gene Transfer and Exchange. Proceedings of the National Academy of Sciences, USA. 102:6595-6599. (2005).
Olive E. Thermophilic blue-green algae and the thermal environment. Bacteriological Reviews. 33:476-504. (1990).
Orhan Ulucay. Arzu Gormez. Cem Ozic. Identification, characterization and hydrolase producing performance of thermophilic bacteria: geothermal hot springs in the Eastern and Southeastern Anatolia Regions of Turkey. Antonie van Leeuwenhoek. 115:253–270. (2022).
Panda AK, Bisht SS, Kaushal BR, Mandal SD, Nachimuthu SK and Basistha BC. Bacterial Diversity Analysis of Yumthang Hot Spring, North Sikkim, India by Illumina Sequencing. Big Data Analysis. 7(2): 1–7. (2017).
Panda AK, Bisht SS, Mandal SS and Nachimuthu SK. Bacterial and Archeal Community Composition in Hot Springs from Indo ? Burma Region, North ? East India. AMB Express. 6(111):1–12. (2016).
Panda MK, Sahu MK and Kumananda T. Isolation and Characterization of a Thermophilic Bacillus Sp. with Protease Activity Isolated from Hot Spring of Tarabalo, Odisha, India. Iranian Journal of Microbiology. 5(2):159–165. (2013).
Panosyan H and Nils-kare B. Microbial Diversity in an Armenian Geothermal Spring Assessed by Molecular and Culture-Based Methods. Journal of Basic Microbiology. 54: 1240–1250. (2014).
Parisutham V, Kim TH and Lee SK. Feasibilities of consolidated bioprocessing microbes: from pretreatment to biofuel production. Bioresource Technology. 161:431–440. (2014).
Patel DN, Dave SR, Braganza VJ and Modi HA. Assessment of culturable microbial diversity of Dholera thermal springs of Gujarat, India. Journal of Experimental Biology and Agricultural Sciences. 7(1):57–64. (2019b).
Patel DN, Dave SR, Braganza VJ and Modi HA. Seasonal variation in bacterial diversity of TuvaTimba thermal springs of Gujarat, India. International Research Journal of Biological Sciences. 8(2):6-14. (2019a).
Patel DN, Dave SR, Braganza VJ, Modi HA. Biodegradation potential of polyethylene by thermophilic bacterial isolates from TuvaTimba and Dholera hot water springs from Gujarat, India. National Seminar on Present Day Biology: Impact of Research on Cellular and Molecular Biology. Conference Proceedings. ISBN: 978-93-90996-18-6. (2020b).
Patel DN, Dave SR, Braganza VJ, Modi HA. Preparation and quantification of biofilm formation using thermophilic bacterial isolates from TuvaTimba and Dholera hot water springs, Gujarat, India. Journal of Biological Sciences and Medicine. 7(1): 1-9. (2021).
Patel DN, Thakkar JR, Braganza VJ, Modi HA. Metagenomics Assessment by Amplicon Sequencing of TuvaTimba and Dholera Hot Water Springs, India. Current Science. 119(10):1663-1670. (2020a).
Patel RK, Oza SM, Kamani SS, Sangani SR and Rawal CM. Production and Characterization of Alkaline Protease from Thermotolerant Alkaliphilic Isolates from Natural Hot Spring of Tulshi Shyam, Gujarat, India. International Journal of Bioscience Reporter. 4(1):147–151. (2006).
Patil SZ, Unnithan AR and Unnikrishnan G. Biosulphidogenesis?: Isolation and Characterization of Thermodesulfobacterium Commune Sp. Nov. Isolated from Hot Water Springs of Thane, Maharashtra. Journal of Pharmacy and Biological Science. 9(3):09-13. (2014).
Pednekar P, Jain R, Mahajan G. Anti-infective potential of hot-spring bacteria. J Global Infect Dis; 3:241-5. (2011).
Petti CA, Polage CR and Schreckenberger P. The role of 16S rRNA gene sequencing in identification of microorganisms misidentified by conventional methods. Journal of Clinical Microbiology. 43(12):6123-6125. (2005).
Pignatelli M and Moya A. Evaluating the fidelity of de novo short read metagenomic assembly using simulated data. PLoS One. 6:e19984. (2011).
Pinzon-Martinez DL, Rodriguez-Gomeza C, Minana-Galbisb D, Carrillo-Chavezc JA, Valerio-Alfaroa G and Oliart-Ros R. Thermophilic Bacteria from Mexican Thermal Environments: Isolation and Potential Applications. Environmental Technology. 31(8–9):957–966. (2010).
Podar M and Reysenbach AL. New opportunities revealed by biotechnological explorations of extremophiles. Current Opinion in Biotechnology. 17:250-255. (2006).
Prieto-barajas, Cristina M, Ruth A, Eduardo V and Gustavo S. Revista Mexicana de Biodiversidad Effect of Seasonality and Physicochemical Parameters on Bacterial Communities in Two Hot Spring Microbial Mats from Araro, Mexico. Revista Mexicana de Biodiversidad 88(3):616–624. (2017).
Qin J, Lil R, Rase J, Arumugam M, Burgdorf KS, Manichanh C, Nielsen T, Pons N, Levenez F, Yamada T, Mende DR, Li JL, Xu J, Li S, Li D, Caol J, Wang B, Liang H, Zheng H, Xiel Y, Tap J, Lepage P, Bertalan M, Batto JM, Hansen T, Paslier DL, Linneberg A, Nielsen BH, Pelletier E, Renault P, Thomas SP, Turner K, Zhu H, Yu C, Li S, Jian M, Zhou Y, Lil Y, Zhang X, Li S, Qin N, Yang H, Wang J, Brunak S, Dore J, Guarner F, Kristiansen K, Pedersen O, Parkhil J, Weissenbach J, Ehrlich DS and Wang J. A human gut microbial gene catalogue established by metagenomic sequencing. Nature. 464: 59-65. (2010).
Rainey FA, Donnison AM, Jansen PH, Saul D and Rodrigo A. Description of Caldicellulosiruptor saccharolyticus gen nov, sp nov: an obligately anaerobic, extremely thermophilic, cellu- lolytic bacterium. FEMS Microbiology Letters. 120:263–266. (1994).
Ranjard L, Poly F and Nazaret S. Monitoring complex bacterial communities using culture-independent molecular techniques: application to soil environment. Research in Microbiology. 151:167–177. (2000).
Rastogi G and Sani RS. Molecular techniques to asses microbial community structure, function and dynamics in the environment. In Microbes and microbial technology: agricultural and environmental applications. Ahmad I, Ahmad F, Pichtel J, eds, pp 29–57. Springer, New York. (2011).
Rekadwad B and Pathak A. First Report on Revelatory Prokaryotic Diversity of Unkeshwar Hot Spring (India) Having Biotechnological Potential. Indian Journal of Biotechnology.15:195–200. (2016).
Rekadwad BN. Access to prokaryotic diversity of Unkeshwar hot springs, India. (LAP-LAMBERT Academic Publishers, Germany). 148. (2015).
Reysenbach AL and Cady S. Microbiology of ancient and modern hydrothermal systems. Trends in Microbiology. 9:79-86. (2001).
Rondon MR, August PR, Bettermann AD, Brady SF, Grossman TH, Liles MR, Loiacono KA, Lynch BA, MacNeil IA, Minor C, Tiong CL, Gilman M, Osburne MS, Clardy J, Handelsman J and Goodman RM. Cloning the soil metagenome: a strategy for accessing the genetic and functional diversity of uncultured microorganisms. Appllied and Environmental Microbiology. 66:2541-2547. (2000).
Rondon MR, Goodman RM, and Handelsman J. The Earth’s bounty: Assessing and accessing soil microbial diversity. Trends in Biotechnology 17(10), 403-409. (1999).
Ruwini R, Sathya A, Sudeera W, Biggs PJ, Rohana Chandrajith, Saumya Wickramasinghe. Microbial diversity and ecology of geothermal springs in the high-grade metamorphic terrain of Sri Lanka. Environmental Advances 7 - 100166. (2022).
SaAK. Isolation and Identification of new lipolytic thermophilic bacteria from an Indian hot spring. International Journal of Pharma and Bio Sciences. 2(2):229–235. (2011).
Sahay H, Yadav NA, Singh AK, Singh S, Kaushik R and Saxena AK. Hot Springs of Indian Himalayas?: Potential Sources of Microbial Diversity and Thermostable Hydrolytic Enzymes. 3 Biotech. 7(2): 1–11. (2017).
Sato M, Suda M, Okuma J, Katol T, Hirose Y, Nishimura A, Kondo Y and Shibata D. Isolation of Highly Thermostable b -Xylosidases from a Hot Spring Soil Microbial Community Using a Metagenomic Approach. Dna Research. 24(6):649–656. (2017).
Saxena R, Dhakan DB, Mittal P and Waiker P. Metagenomic Analysis of Hot Springs in Central India Reveals Hydrocarbon Degrading Thermophiles and Pathways Essential for Survival in Extreme Environments. Frontiers in Microbiology 7:2123. (2017).
Scow KM, Schwartz E, Johnson MJ and Macalady JL. Microbial biodiversity, measurement of Levin, SA, Editor. 177-190. (2001).
Seyfried M, Delina L, Fred RA and Juergen W. Caloramator Viterbensis Sp. Nov., a Novel Thermophilic, Glycerol-Fermenting Bacterium Isolated from a Hot Spring in Italy. International Journal of Systematic and Evolutionary Microbiology 52:1177–1184. (2002).
Shakhatreha MA, Jacobb JH, Husseinc EI, Masadehd MM, Obeidate SM, Juhmanic AF and Abd Al-razaq MA. Microbiological Analysis, Antimicrobial Activity, and Heavy-Metals Content of Jordanian Ma’in Hot-Springs Water. Journal of Infection and Public Health. 10(6):789–793. (2017).
Sharafi H, Abdoli M, Hajfarajollah H, Samie N, Alidoust L, Abbasi H, Fooladi J, Zahiri H and Noghabi K. First report of a lipopeptide biosurfactant from thermophilic bacterium Aneurinibacillus thermoaerophilus MK01 newly isolated from municipal landfill site. Applied Biochemistry and Biotechnology. 173:1236–1249. (2014).
Sharma A. Thermo-alkali stable celluase-free Xylanase of an Extreme Thermophile Bacillus (Geobacillus) thermoleovorans. Ph.D Thesis. University of Delhi, New Delhi. (2000).
Sharma N, Vyas G and Pathania S. Culturable Diversity of Thermophilic Microorganisms Found in Hot Springs of Northern Himalayas and to Explore Their Potential for Production of Industrially Important Enzymes. Scholars Academic Journal of Biosciences (SAJB) 1(5):165–78. (2013).
Shikotar P and Verma A. Assessment of Thermophilic Bacterial Diversity of Thermal Springs of Himachal Pradesh. ENVIS Bulletin Himalayan Ecology. 23:1–8. (2015).
Shukla R. Diversity Phylogeny and Biocatalytical Prospective of Thermophilic Thermotolerant Actinomycetes Thermoactinomycetes from Hot Spring Reservoirs in Gujarat. PhD Thesis. Saurashtra University. (2015).
Sigee DC. Bacteria The main Heterotrophic Microorganisms in Freshwater System. In Freshwater Microbiology (1st Ed.) John Wily and Sons, Ltd, England, 287-317. (2005).
Simoneit TRB, Aboul-Kassim TAT and Tiercelin JJ. Hydrothermal petroleum from lacrustrine sedimentary organic matter in the East African Rift. Applied Geochemistry. 15:355-368. (2000).
Singh SP. Extreme Environments and Extremophiles. In: National Science Digital Library, CSIR, India. E-Book. Environmental Microbiology. 1-35. (2006).
Sircar A, Shah M, Sahajpal S, Vaidya D, Dhale S and Chaudhary A. Geothermal Exploration in Gujarat?: Case Study from Dholera. Geothermal Energy. 3(22):1–26. (2015).
Socorro M, Megay DV and Windell RL. Isolation and Characterization of Extremely Thermophilic Bacteria from Hot Springs. International Journal of Phillippine Science and Technology 08(2):1–5. (2015).
Soy S, Lakra U, Prakash P, Suravajhala P, Nigam V.K, Sharma S.R. & Baya N. Exploring microbial diversity in hot springs of Surajkund, India through 16S rRNA analysis and thermozyme characterization from endogenous isolates. Scientific Reports, 13:14221. (2023).
Stahl DA, Lane DJ, Olsen GJ and Pace NR. Characterization of a Yellowstone Hot Spring Microbial Community by 5S rRNA Sequences. Applied and Environmental Microbiology 49(6):1379–1384. (1985).
Stefanova K, Tomova I, Tomova A, Radchenkova N, Atanassov I and Kambourova M. Archaeal and Bacterial Diversity in Two Hot Springs from Geothermal Regions in Bulgaria as Demostrated by 16S rRNA and GH-57 Genes. International Microbiology 18(4):217–223. (2015).
Stetter K. Hyperthermophiles: Isolation, Classification and Properties. In: Horikoshi, K., Grant, W. (Eds.). Extremophiles: Microbial Life in Extreme Environments. Wiley-Liss, Inc. New York, 1-24. (1998).
Stout LM, Blake RE, Greenwood JP, Martini AM and Rose EC. Microbial Diversity of Boron-Rich Volcanic Hot Springs of St. Lucia, Lesser Antilles. FEMS Microbiology Ecology. 70:402–412. (2018).
Sudjaroen Y, Kanittada T and Kowit S. Characteristics of Mineral Water from Nature Hot Springs in Ranong Province, Thailand. Annals of Tropical Medicine and Public Health 10(2): 2017–2019. (2018).
Tan H, Barret M, Harrington C and Gara FO. Environmental Microbiology and Engineering: Identification of Novel Phytase Genes from an Agricultural Soil-Derived Metagenome. Journal of Microbiology and Biotechnology. 24:113- 118. (2014).
Tarik A, Mouna O, Marouane M, Jean S, Elmostafa E, Jamal I, Mohamed I and Mohamed A. Thermophilic Bacteria in Moroccan Hot Springs, Salt Marshes and Desert Soils. Brazilian Journal of Microbiology 46(2):443-453. (2015).
Tekere M, Lotter A, Olivier J, and Venter S. Bacterial Diversity in Some South African Thermal Springs?: A Metagenomic Analysis. Proceedings World Geotheral Congress. 19–25. (2015).
Tekere M, Lotter A, Olivier J, Jonker N and Venter S. Metagenomic Analysis of Bacterial Diversity of Siloam Hot Water Spring, Limpopo, South Africa. African Journal of Biotechnology 10(78): 18005–18012. (2011).
Tirawongsaroj P, Sriprang R, Harnpicharnchai P, Thongaram T, Champreda V, Tanapongpipat S, Pootanakit K and Eurwilaichitr L. Novel thermophilic and thermostable lipolytic enzymes from Thailand hot spring metagenomic library. Journal of Biotechnology. 133:42–49. (2008).
Tsuei-Yun F, Wen-Chi T, Ching-Ju Y and Tong-Yuan S. Characterization of the thermophilic isoamylase from the thermophilic archaeon Sulfolobus solfataricus ATCC 35092. Journal of Molecular Catalysis B: Enzymatic. 33:99–107. (2005).
Urbieta MS, Donati ER, Chan KG, Shahar S, Sin LL and Goh KM. Thermophiles in the genomic era: biodiversity, science, and applications. Biotechnology Advances. 33(6):633-647. (2015).
Verma A and Shirkot P. Purification and characterization of thermostable laccase from thermophilic Geobacillus thermo- catenulatus MS5 and its applications in removal of textile dyes. Scholars Academic Journal of Biosciences. 2(8):479–485. (2014).
Verma A, Dhiman K, Gupta M and Shirkot P. Bioprospecting of Thermotolerant Bacteria from Hot Water Springs of Himachal Pradesh for the Production of Taq DNA Polymerase. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences. 85(3):739-749. (2014).
Verma PO., Verma M, Sharma P, Kumar M, Kumari K, Singh A, Kumari H, Jit S, Gupta SK, Khanna M and Lal R. Polyphasic approach of bacterial classification - an overview of recent advances. Indian Journal of Microbiology. 47:98–108. (2007).
Wang S, Hou W, Dong H, Jiang H, Huang L, Wu G, Zhang C, Song Z, Zhang Y, Ren H, Zhang J and Zhang L. Control of Temperature on Microbial Community Structure in Hot Springs of the Tibetan Plateau. PLoS ONE. 8(5):e62901. (2013).
Ward DM, Ferris MJ, Nold SC and Bateson MM. A natural view of microbial biodiversity within hot spring cyanobacterial mat communities. Microbiology and Molecular Biology Reviews. 62:1353-1370. (1998).
Wemheuer B, Taube R, Akyol P, Wemheuer F and Daniel R. Microbial Diversity and Biochemical Potential Encoded by Thermal Spring Metagenomes Derived from the Kamchatka Peninsula. Hindawi Publishing Corporation. 13: 136714. (2013).
Wiegel J and Dykstra M. Clostridium thermocellum: adhesion and sporulation while adhered to cellulose and hemicellulose. Applied Microbiology and Biotechnology. 20:59–65. (1984).
Wiegel J and Ljungdahl LG. The importance of thermophilic bacteria in biotechnology. Critical Review in Biotechnology. 3:39–108. (1986).
Yannawar VB, Bhosle AB, Shaikh PR and Gaikwad SR. Water Quality of Hot Water Unkeshwar Spring of Maharashtra, India. International Journal of Innovation and Applied Studies. 3(2):541–551. (2013).
Yohandini, Heni, Julinar, and Muharni. Isolation and Phylogenetic Analysis of Thermophile Community Within Tanjung Sakti Hot Spring, South Sumatera, Indonesia. Journal of Biosciences. 22(3):143–148. (2015).
Zahoor S, Muhammad MJ and Muhammad NA. Isolation and Molecular Identification of a Facultatively Anaerobic Bacterium From The Hot Spring of Azad Kashmir. Pakistan Journal of Biotechnology. 44:329–333. (2012).
Zhang FQ, Liu J, Chen XJ. Comparative analysis of bacterial diversity in two hot springs in Hefei, China. Sci Rep. Apr 10;13(1):5832. doi: 10.1038/s41598-023-32853-5. PMID: 37037855; PMCID: PMC10086057. (2023).
Zhang J, Tang S, Zhang Y, Yu L, Klenk H and Li W. Laceyella tengchongensis sp. nov., a thermophile isolated from soil of a volcano. International Journal of Systematic Evolutionary and Microbiology. 60:2226-2230. (2010).
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