Cyanobacterial species biodiversity in Mahasamund district of Chhattisgarh region, India

• Autorzy: Sharma S.D. , Sahu K. , Jain P.K.
• Języki publikacji: EN

Abstrakty

EN

Rice is the principal crop of the Chhattisgarh State. It covers 66% of all cultivable land and is mostly grown within the kharif cropping season. To increase sustained productivity without decreasing soil quality, algal bio fertilizers are widely used in the State. Hence, the culture of cyanobacterial bio fertilizers has been started on a regional basis. This includes survey, isolation and screening of stress-tolerant cyanobacteria. Thus, this study concerns the characterization of physical and chemical properties of soil collected from Mahasamund districts of Chhattisgarh state with respect to the biodiversity of cyanobacteria.

• Wydawca: -
• Czasopismo: World News of Natural Sciences
• Rocznik: 2017
• Tom: 07
• Opis fizyczny: p.1-15,ref.

Twórcy

autor

Sharma S.D.

• Department of Botany, Govt. College, Bori Durg, India

autor

Sahu K.

• Department of Botany, Govt. College, Gobra Navapara, Raipur, India

autor

Jain P.K.

• Department of Botany, Kalyan P.G. College, Bhilai, India

Bibliografia

• [1] Anand, N. 1989. Hand Book of Blue-Green Algae. Bishen Singh Mahendra Pal Singh, Dehradun, pp. 1-77.
• [2] Anand, N. and Shanthakumar Hooper, R. S. 2005. Distribution of blue-green algae in rice field of Kerala State, India. Phykos, 34 (1&2), 55-64.
• [3] Bajpai, P. 2013. Phylogenetical characterization of Cyanobacteria from Paddy field of Chhattisgarh (Part i). Int J Pharm Sci Res, 4(3), 1110-1115.
• [4] Bhakta, S., H. Dey and A.K. Bastia. 2006. Study of algal diversity from rice-fields of Baripada, Mayurbhanj, Orissa. In: Environmental Biotechnology and Biodiversity conservation. (ed.) Das, M.K. Daya Publishing House, New Delhi, India, pp. 154-163.
• [5] Bryant D. A. 1994. The molecular biology of cyanobacteria. Kluwer Acadamic Publishers, Dordrecht.
• [6] Desikachary, T. V. 1959. Cyanophyta, A Monograph. Indian Council of Agric. Res., New Delhi, pp. 686.
• [7] Devi, G. A. 1997. Nitrogen fixing blue green algac from rice field soils of Manipur and their possible role as biofertilizer. Ph.D. thesis, to Manipur University, Imphal.
• [8] Dey, H. S. and A. K. Bastia. 2008. Cyanobacterial Flora from rice growing areas of Mayurbhanj. Plant. Sc. Res. 30(1&2), 22-26.
• [9] Digambar Rao, B., D. Srinivas, O. Padmaja and K. Rani. 2008. Blue-green algae of rice fields of South Telangana region, Andhra Pradesh. Indian Hydrobiology 11(1), 79-83.
• [10] Gerloff, G. C., G. P. Filzqerladand, F. Skoog 1950. The isolation, purification and culture of blue-green algae. Am. J. Bot., 37, 216-218.
• [11] Kondo, M. and M. Yasuda, 2003. Seasonal changes in N2 fixation activity and N enrichment in paddy soils as affected by soil management in the northern area of Japan. Japan Agricultural Research Quarterly 37, 105-111.
• [12] Nayak, S. and R. Prasanna. 2007. Soil pH and its role in cyanobacterial abundance and diversity in rice field soils. Applied Ecology and Environmental Research 5(2), 103-113.
• [13] Nayak, S., R. Prasanna, T. K. Dominic and P. K. Singh. 2001. Floristic abundance and relative distribution of different cyanobacterial genera in rice field soil at different crop growth stages. Phykos 40, 15-22.
• [14] Prasanna, R., P. Jaiswal, S. Nayak, A. Sood and B. D. Kaushik. 2009. Cyanobacterial diversity in the rhizosphere of rice and its ecological significance. Indian J. Microbiol. 49, 89-97.
• [15] Rai, M.K. 2006. Handbook of Microbial Biofertilizers. Haworth Press, New York.
• [16] Roger, P. and P. Reynaud. 1976. Dynamique de la population algale au cours d’un cycle d culture dans une rizière sahélienne. Rev. Ecol. Biol. Sol. 13(4): 545-560.
• [17] Roger, P.A. and S.A. Kulasooriya. 1980. Blue green algae and Rice. International Rice Research Institute, Manila.
• [18] Schopf J. W. 2000. The fossil record: tracing the roots of the cyanobacterial lineage. In: The Ecology of cyanobacteria. (Eds.) B.A. Whitton and M. Potts. Kluwer Academic Publishers, Dordrecht, the Netherlands. 13-35.
• [19] Sharma, S. S. and M. L. Naik, 1996. Rice field cyanobacteria of Pithora block of Raipur District of Madhya Pradesh. Phykos, 35(1&2), 139-141.
• [20] Sharma, S.S. and M.L. Naik, 1998. Non-heterocystous cyanobacteria of rice fields of Bhatapara block of Raipur District. Biom, 8(1&2), 113-116).
• [21] Shrivastava, A. K., Srivastava, D. K. and Taranjeet Saluja 2009. Biodiversity of cyanobacteria and its distributional pattern in different habitats of Durg district in Chhattisgarh State. National Journal of Life Sciences 6(2), 229-235.
• [22] Singh, R. N. 1961. Role of Blue Green Algae in nitrogen economy of Indian agriculture. Indian Council of Agricultural Research, New Delhi.
• [23] Venkataraman, G. S., S. K. Goyal, B. D. Kaushik and P. Roychoudhary 1974. Algae form and function. Pub. Today and Tomorrow’s Printers and Publishers. New Delhi, pp. 343-352.
• [24] Venkataraman, G. S. 1975. The role of blue-green algae in tropical rice cultivation. In nitrogen fixation by free living microorganism. Ed. Stewart, W.D.P. Cambridge Univ. Press, Cambridge, U.K. pp. 207-218.
• [25] Venkataraman, G. S. 1981. Blue-green algae for rice production–a manual for its promotion. FAO Soils Bulletin No. 46. FAO, Rome.
• [26] Watanabe, A. Effect of nitrogen fixing blue-green alga Tolypothrix tenuis on the nitrogenous fertility of paddy soil and on the crop yield of rice plant. J. Gen. Appl. Microbiol. 8 (1962) 85-91.
• [27] Watanabe, A. and Yamamoto, Y. Mass culturing, preservation and transportation of the N2 fixing blue-green algae. Proceedings of the second symposium on N2 fixation & N2 cycle 1970, Sendai, Japan, 22-80.