Original Research Article I Volume 2 I Issue 3 I 2014

EFFECT OF FLYASH INCORPORATION IN SOIL ON GERMINATION AND SEEDLING CHARACTERISTICS OF RICE (Oryza sativa L.)

Debabrata panda; Poly tikadar

Biolife; 2014, 2(3), pp 800-807

DOI:https://doi.org/10.5281/zenodo.7219469

Abstract:

Fly ash is a waste product of Industrial plants that pose serious environmental hazards. The possibility of using fly ash as a soil amendment in the reclamation of disturbed areas is a research topic of growing interest. The present study evaluated effects of fly ash on germination of rice crops to work out the optimum level of ash addition and relate germination effects with early seedling vigour characteristics caused by mixing ash with the soil.

Keywords:

Adriano D. C., Page A. L., Elseewi A. A., Change A. C., Straughan I. 1980. Utilization and Disposal of fly-ash and other residues in terrestrial ecosystems: review. Jornal ofEnviron. Qual. 9: 333-334. Chang A. C, Lund L. J., Page A. L., Warneke J. E. 1977. Physical properties of fly ash amended soils. J. Environ. Qual. 6: 267-270. Eary L.E., Rai D., Mattigod S. V., Ainsworth C.C. 1990. Geochemical factors controlling the mobilization of inorganic constituents from fossil fuel combustion residues. J Environ. Qual. 19: 202–214. El-mogazi D., Lisk D.J., Weinstin L.H. 1988. A review of physical, chemical and biological properties of fly-ash and effects on agricultural ecosystems. Sci Total Environ. 74:1–37 Gautam S., Singh A., Singh J. and Shikha. 2012. Effect of Flyash Amended Soil on Growth and Yield of Indian Mustard (Brassica Juncea). Advances in Bio. Res.3: 39-45. Gupta D. K., Rai U. N. Tripathi R. D. Inouhe M. 2002. Impacts of fly-ash on soil and plant responses. J Plant Res. 115:401–409 Kumar A., Vajpayee P., Ali M. B., Tripathi R. D., Singh N., Rai U. N., Singh S. N. 2002 Biochemical responses of Cassia siamea Lam. grown on coalcombustion residue (fly-ash). Bull Environ Contam. Toxicol. 68: 675–683. Kumar V., Goswami G., Zacharia A. K. 2001. Fly ash use in agriculture: issues and concerns. Technology demonstration projects commissioned by fly-ash mission under technology information forecasting assestment council (TIFAC) News and Views, pp 1-6. Mandal P. K. and Sinha A. K. 1988. Potential utilization of fly ash from thermal power stations-Magnitude of problems and remedies thereof, Nat Workshop Coal Ash Utilization India. Sponsored by Department of Science and Technology, New Delhi, 1-18. Martens D. C. 1971. Availability of plant nutrients in fly-ash. Compost Sci. 12: 15–19. Pathak H., Kalra N., Sharma S. and Joshi H.C. 1996. Use of fly ash in agriculture: Potentialities and constraints. Yojana, 40: 24-25. Panda D., Sharma S. G. and Sarkar R.K. 2008. Chlorophyll fluorescence parameters, CO2 photosynthetic rate and regeneration capacity as a result of complete submergence and subsequent re-emergence in rice (Oryza sativa L.). Aquatic Botany. 88: 127-133.

References:

1. Adriano D. C., Page A. L., Elseewi A. A., Change A. C., Straughan I. 1980. Utilization and   Disposal of fly-ash and other residues in terrestrial ecosystems: review. Jornal ofEnviron. Qual. 9: 333-334.
2. Chang A. C, Lund L. J., Page A. L., Warneke J. E. 1977. Physical properties of fly ash amended soils. J. Environ. Qual. 6: 267-270.
3. Eary L.E., Rai D., Mattigod S. V., Ainsworth C.C. 1990. Geochemical factors controlling the mobilization of inorganic constituents from fossil fuel combustion residues. J Environ. Qual. 19: 202–214.
4. El-mogazi D., Lisk D.J., Weinstin L.H. 1988. A review of physical, chemical and biological properties of fly-ash and effects on agricultural ecosystems. Sci Total Environ. 74:1–37
5. Gautam S., Singh A., Singh J. and Shikha. 2012. Effect of Flyash Amended Soil on Growth and Yield of Indian Mustard (Brassica Juncea). Advances in Bio. Res.3: 39-45.
6. Gupta D. K., Rai U. N. Tripathi R. D. Inouhe  M. 2002. Impacts of fly-ash on soil and plant   responses.  J Plant Res. 115:401–409
7. Kumar A., Vajpayee P., Ali M. B., Tripathi R. D., Singh N., Rai U. N., Singh S. N. 2002 Biochemical responses of Cassia siamea Lam. grown on coalcombustion residue (fly-ash). Bull Environ Contam. Toxicol. 68: 675–683.
8. Kumar V., Goswami G., Zacharia A. K. 2001. Fly ash use in agriculture: issues and concerns.             Technology demonstration projects commissioned by fly-ash mission under  technology information forecasting assestment council (TIFAC) News and Views, pp     1-6.
9. Mandal P. K. and Sinha  A. K. 1988. Potential utilization of fly ash from thermal power         stations-Magnitude of problems and remedies thereof, Nat Workshop Coal Ash       Utilization India. Sponsored by Department of Science and Technology, New Delhi, 1-18.
10. Martens D. C. 1971. Availability of plant nutrients in fly-ash. Compost Sci. 12: 15–19.
11. Pathak H., Kalra N., Sharma S. and Joshi H.C. 1996. Use of fly ash in agriculture: Potentialities and constraints. Yojana, 40: 24-25.
12. Panda D., Sharma S. G. and Sarkar R.K. 2008. Chlorophyll fluorescence parameters, CO2 photosynthetic rate and regeneration capacity as a result of complete submergence   and subsequent re-emergence in rice (Oryza sativa L.).  Aquatic Botany. 88: 127-133....

Article Dates:

Received: 2 July 2014; Accepted: 5 August 2014; Published: 1 September 2014

How To Cite:

Debabrata panda, & Poly tikadar. (2022). EFFECT OF FLYASH INCORPORATION IN SOIL ON GERMINATION AND SEEDLING CHARACTERISTICS OF RICE (Oryza sativa L.). Biolife, 2(3), 800–807. https://doi.org/10.5281/zenodo.7219469