Biodeterioration agents: Bacterial and fungal diversity dwelling in or on the pre-historic rock-paints of Kabra-pahad, India
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Abstract
Background and Objectives: In the last few decades, losses of our cultural heritage due to biodeteriorationare beinghighly recognized. From museum objects to rock monuments, the microbial biodeterioration agents are found to be the most destructive. Possibilities for proper preservative measure(s) are always more when it is only a monument, statue, museum article, or pre-historic art in any small subterranean cave. Nevertheless, preservation/protection of the footprints occupying a big area, lying scattered in a very negligible manner requires safeguard against several deterioration factors; right from various physical, chemical and biological agents which are indeed interrelated to each other.
Materials and Methods: In the present study, some microbial communities possibly responsible for deteriorating the rocks of Kabra-pahad, where the most famous pre-historic rock paints of India prevail have been identified. The diversity of fungi and bacteria present in the stone crust of the infected areas has been studied by employing standard laboratory methods.
Results:The cultivated cultures confirmed total fifteen fungal species, among which Aspergillus group were the most dominant. Among bacteria, total 80 numbers of colonies were observed that dominated by two major groups; Micrococcus. spp and Staphylococcus spp.
Conclusion: The pre-historic footprint in the form of rock paints in Kabra-pahad of district Raigarh, Chhattisgarh, India is lying in a very deteriorated manner. In the present study, we have tried to identify few major deteriorating factors that are responsible for such degradation of our existing pre-historic footprints.
Kumar R, Kumar AV (1999). Biodeterioration of Stone in Tropical Environments:An Overview. The J.Paul Getty Trust, USA. p. 96.
Garg KL, Jain KK, Mishra AK. Role of fungi in the deterioration of wall paintings. Sci Total Environ 1995;167: 255-271.
Garg KL, Mishra AK, Singh A, Jain KK (1995).Biodeterioration of cultural heritage: Some case studies. In: Conservation, Preservation and Restoration: Traditions, Trends and Techniques, Ed. G Kamlakar, VP Rao, Hyderabad, India: Birla Archaeological and Cultural Research Institute, pp. 31-38.
Urzì C, De Leo F, de Hoog S, Sterflinger K (2000). Recent advances in the molecular biology and ecophysiology of meristematic stone-inhabiting fungi. In: Of Microbes and Art. The role of microbial communities in the degradation and protection of cultural heritage, Ed O Ciferri, P Tiano, G Mastromei. Kluwer Academic, New York, pp. 3-19.
Doehne E, Price CA (2011). Stone Conservation: An Overview of Current Research, 2nd Edition; The Getty Conservation Institute, Los Angeles, CA.
Agrawal OP, Dhawan S, Garg KL, Shaheen F, Pathak, N, Misra A. Study of biodeterioration of the Ajanta wall paintings. Int Biodeterior 1988; 24: 121-129.
Sterflinger K. Fungi: Their role in deterioration of cultural heritage. Fung Biol Rev 2010; 24: 47-55.
Hueck-van der Plas EH. The biodeterioration of materials as a part of hylobiology. Mater Organismen 1965; 1: 5-34.
Bastian F, Alabouvette C. Lights and shadows on the conservation of a rock art cave: the case of Lascaux cave. Int J Speleol 2009; 38: 55-60.
Sharma BRN, Chaturvedi K, Samadhia NK, Tailor PN (1985). Biological growth removal and comparative effectiveness of fungicides from central India temples for a decade in-situ. In 5th International Congress on Deterioration and Conservation of Stone, Proceedings, Lausanne, vol. 2, comp. G. Félix, 675-83. Lausanne, Switzerland: Presses polytechniques romandes.
Mathpal Y (1984). Prehistoric Rock Paintings of Bhimbetka. Abhinav Publications, India. p. 236.
Grover R, Sharma KP, Kumar P, Kumar S. Response of fungal community in the unpolluted and polluted habitats. J Environ Sci Eng 2007; 49: 93-98.
Waksman SA, Fred EB. A tentative outline of the figure method for determining the number of microorganisms in soil. Soil Sci 1922; 14: 27-28.
Warcup JH. The soil-figure method for isolation of fungi from soil. Nature 1950; 166: 117-118.
Schleifer KH (1989). Gram Positive Cocci. In: Bergey’s Manual of Systematic Bacteriology. Ed. DH Bergey, ST Williams, JG Holt, NR Krieg. 9th Edn. Lippincott Williams and Wilekins, New York, USA. pp:999-1043.
Aneja KR (2005). Experiments in Microbiology, Plant pathology and Biotechnology. 4th Edn., New Age International Pvt. Ltd., India.
Burford EP, Fomina M, Gadd M. Fungal involvement in bioweathering and biotransformation of rocks and minerals. Mineral Mag 2003; 67: 1127–1155.
Sharma K, Lanjewar S. Biodeterioration of ancient monument (Devarbija) of Chhattisgarh by fungi. J Phytol 2010; 2: 4-49.
Sharma K, Agrawal M, Jaiswal AK. Biodeterioration of ancient monuments: Problems and prospects. Curr Bot 2011; 2: 23-24.
Sharma K, Nafis A. Aeromycological study of monument in relation to environmental factors. Curr Bot 2011; 2: 09-10.
Gupta SP, Sharma K. Biodeterioration and preservation of Sitadevi temple, Deorbija, Chhattisgarh, India. Int J Conserv Sci 2011; 2: 89-94.
Langham CD, Williams ST, Sneath PH, Mortimer AM. New probability matrices for identification of streptomyces. J Gen Microbiol. 1989; 35: 121-133.
Rajput Y, Biswas J. Subterranean depth dependent protein constitutions of the Micrococcus sp., isolated from the Kotumsar Cave, India. Asian J Biochem 2012;7: 90-97.
Rajput Y, Rai V, Biswas J. Screening of Bacterial isolates from various microhabitat sediments of Kotumsar cave: a cogitation on their respective benefits and expected threats for complete biosphere and tourists. Res J Environ Toxicol 2012; 6: 13-24.
Rajput Y, Biswas J. The role of heterotrophic bacteria in bio-deterioration of our cultural heritage: a case study of Udayagiri caves of Odisha, India.J Eco Biotech.2012;4: 112-115.
Hochella MF. Sustaining Earth: thoughts on the present and future roles in mineralogy in environmental science. Mineral Mag 2002; 66: 627-652.
Vaughan DJ, Pattrick RAD, Wogelius RA. Minerals, metals and molecules: ore and environmental mineralogy in the new millennium. Mineral Mag 2002; 66: 653-676.
Warscheid T, Braams J. Biodeterioration of stone: a review. Int Biodeter Biodegr2 000; 46: 343-368.
Eckhardt FEW (1985). Solubilization, transport, and deposition of mineral cations by microorganisms- efficient rock weathering agents. In: The Chemistry of Weathering. Ed JI Drever. D. Reidel Publishing Co., Dordrecht. pp. 161-173.
Realini M, Sorlini C, Bassi M (1985). The Certosa of Pavia: A case study of biodeterioration In: Vth International Congress on deterioration and conservation of stones. Ed. G Felix. Lausanne.
Saiz-Jimenez C, Samson RA (1981). Microorganisms and environmental pollution as deteriorating agents of the frescoes of the Monastery of Santa Maria de la Rabida, Huelva, Spain. In: VIth ICOM Triennial Meeting, Ottawa, Canada. ICOM, London, pp. 81.15.5-14.
Nuhoglu Y, Oguz E, Uslu H, Ozbek A, Ipekoglu B, Ocak I, Hasenekoglu I. The accelerating effects of the microorganisms on biodeterioration of stone monuments under air pollution and continental-cold climatic conditions in Erzurum, Turkey. Sci Total Environ 2006;364: 272- 283.
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| Issue | Vol 5 No 3 (2013) | |
| Section | Articles | |
| Keywords | ||
| Bio-deterioration Cultural heritage Rock weathered Rock-paint microbial attacks | ||
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