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March 25, 2017
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December 21, 2017
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Abstract

The experiments were conducted to observe the effect of different soil and sand ratios on the growth of cassia fistula. Three different ratios of sand and soil viz; 60:40(sand: soil), 80:20(sand: soil) and 100:00(without adding sand) were taken for the cultivation and the growth was observed every month. Different growth parameters were also taken for calculating the difference among all the plants under different soil conditions as well as under different weather conditions. Different soil nutrients percentage was also calculated to find out the best nutrients requirement for cassia fistula.After observing the experiments it was concluded that the ratio 60:40 was most suitable soil condition for the growth of Cassia fistula.

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Cultivation Cassia fistula medicinal plant soil conditions

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Vishnoi, R. ., Rajwar, G. ., Kumar Vishnoi, V. ., & Upreti, J. . (2017). Cultivation of Cassia fistula, a medicinal plant under different conditions of soil. Environment Conservation Journal, 18(3), 61–69. https://doi.org/10.36953/ECJ.2017.18308
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References

  1. Bray, J.R., 1963. Root production and the estimation of net productivity. Can. J. Bot. 41: 65-72.
  2. Bray, R.H., 1948. In: Kitchen, H.B. (Ed.) Diagnostic Techniques for Soils and Crops. American Potash Institute, Washington 6, DC. pp 53-86.
  3. Dhyani, S.K., Narain, P. and Singh, R.K., 1990. Studies on distribution of five multipurpose tree species in Doon valley, India. Agrofor. Syst. 12: 49.
  4. Gibson, A.C. 1998. Photosynthetic organs of desert plants. Bioscience. 48: 911-920.
  5. Ginvish, T.J., 1986. On the Economy of Plant Form and Function. Cambridge University Press, New Yolk.
  6. Gulmon, S.L. and Turner, N.C., 1978. Differences in root and shoot development of tomato (Lycopersicon esculentum Mill.). Plant Soil. 49: 127- 136.
  7. Jackson, J.K., 1987. Manual of Afforestation in Nepal. Nepal-UK Forestry Research Project, Kathmandu, Nepal, 232 pp.
  8. Kala, S. P. and Gaur, R. D., 1982. A contribution to the flora of Gopeshwar (Chamoli, Garhwal), U.A. In: G.S. Paliwal (Ed.) Vegetational Wealth of Himalaya, Puja Publication, New Delhi.
  9. Kannan, D. and Paliwal, K., 1992. Dry matter production, chlorophyll, protein contents and foliar nutrient concentration in Peltophorum ferrugineum and Albizia lebbek under nursery conditions. For. Ecol. Mgmt. 50: 265-273.
  10. Klich, M.G., 2000. Leaf variations in Elaeagnus angustifolia related to environmental heterogeneity. Environ. Exp. Bot. 44: 171-183.
  11. Mishra, K.C., 1980. Manual of Plant Ecology. Oxford and IBH Publishing Co., New Delhi.
  12. Mishra, R., 1968. Ecology Work Book. Oxford and IBH Publishing Co., New Delhi.
  13. Pandit, B.R. and Thampan, S., 1988. Total concentration of P, Ca, Mg, N, C in the soil of reserve forests near Bhavnagar (Gujrat State). Ind. J. For. 11(2): 98-100.
  14. Paulilo, M.T.S., Fellippe, G.M., and Dale J., 1998. Root/shoot partitioning and water relations in quargrandiflora (Vochysiaceae) seedlings under water stress. Revista de Biologia Tropical 46: 41- 44.
  15. Sah, S.P., Upadhyay, S.K., Pandit, P., and Lilles, J.B., 2003. Effects of soil on sissoo (Dalbergia sissoo, Roxb.) growth in a plantation forest of Nepal. Indian Forester. 129 (9-12): 1059-1068.
  16. Sanchez, E.E., Rithetti, T.L., Suger D. and Lombard, P.B., 1991. Recycling of nitrogen in field grown ‘coppice’ pears. J. Hortic. Sci. 66: 479- 486.
  17. Singh G., Bala N., Kuppusamy, V. and Rathod, T.R., 2003. Adaptability and productivity of Cassia angustifolia in sandy soil of Indian desert. Indian Forester. 129 (2): 213-223.
  18. Singh J., Sinha K., Mishra N.P., Singh S.C., Sarma, Ashok and Khanuja S.P.S., 2003. Traditional uses of Terminalia arjuna (Arjun). J. Med. Arom. Pl. Sci. 25:1039-1042.
  19. Singh, B. and Singh, G., 2007. Influence of soil water deficit on the growth and root growth potential of Dalbergia sissoo seedlings in an arid environment. Indian Forester. 133: 229- 238.
  20. Singh, G., Bala, N., Kuppusamy V. and Rathod T.R., 2003. Adaptability and productivity of Cassia angustifolia in sandy soil of Indian desert. Indian Forester. 129(2): 2003.
  21. Singh, S., Singh, A.K. and Joshi, H.K., 2003. Storage behaviour of Indian goose berry (Emblica officinalis) cultivars under semi-arid ecosystem of Gujarat. Ind. J. Agric. Sci. 73(10): 530-534.
  22. Smith, M.E. and Zobel, R.W., 1991. Plant genetic interactions in alternative cropping systems: considerations for breeding methods. In: Plant Breeding and Sustainable Agriculture: Considerations for Objectives and Methods. Crop Science Society of America Special Publication 18, pp. 57-81.
  23. Sundriyal, R.C., 2005. Medicinal plant cultivation and conservation in the Himalaya: An agenda for action. Indian Forester. 131(3): 410-424.
  24. Zheng, Y. and Feng, Y.L., 2006. Leaf water absorption of epiphytes and non-epiphytes in Xishuangbanna. Chinese J. Appl. Ecol. 27: 977-981.
  25. Zobel, R.W., 1975. The genetics of root development. In: Torrey, J.G. and Clarkson, D.F. (Eds.) The Development and Function of Roots. Academic Press, London, pp. 261-275.