Toxic Effect of Urea on Earthworms Determined by a Simple Paper Contact Method.

Authors

Keywords:

Earthworms, Urea, Acute toxicity, LC50 value

Abstract

Objective- Now-a-days the utilization of chemical fertilizer is hiked tremendously to achieve a high yield. The aim of this experimental research work is to confirm and detect the lethal or toxic effect of those chemical fertilizers on the earthworms which are the natural friend of soil as well as the farmer and also maintains the soil health by porosity and aeration.

Materials and Methods- A simple paper contact method was adopted for the toxicity testing on the earthworms on the bed prepared using Petri plate and filter paper.

Result and Discussion- The lethal dose value was determined and the toxic effect of the urea on earthworm was calculated and represented by using statistical inferences, and a scope of the future study was created for the biochemical profiling towards the body degradation of the earthworms.

Conclusion- From the above results, it may be concluded that the acute toxicity of urea on E.fetida by using a simple paper contact method was actually significant in confirming the toxic impending. The application of environmentally levelheaded doses of urea exposed the possible harmful effects on earthworms when comes in contact directly. Thus, in future, this method will be necessary to find an approach to establish the sensitivity of the earthworm's acute toxicity before going for the evaluation in soil (i.e. acute and chronic toxicity tests in artificial soil sample).

Author Biographies

Anshurekha Dash, fakir mohan university

dept of biotechnology

SHUVENDU SHEKHAR MOHAPATRA, fakir mohan university

dept of biotechnology

References

Bartlett, M.D., Briones, M.J.I., Neilson, R., Schmidt, O., Spurgeon, D., and Creamer, R.E.

(2010): A critical review of current methods in earthworm ecology: from individuals to populations, Eur. J. Soil Biol, 46: 67–73.

Karanjkar, A.S., and Naik, R.L. (2010): Acute Toxicity: Novel Mode of Pesticides on Earthworm, International Journal of Plant Protection, 2(2): 182-185.

Ma, W.C., Brussaard, L., and De Ridder, J.A. (1990): Long-term Effects of Nitrogenous Fertilizers on Grassland Earthworms (Oligochaeta: Lumbricidae): Their Relation to Soil Acidification, Agric.Ecosystem Env, 30: 71-80.

Miyazaki, A., Amano, T., Saito, H., and Nakano, Y. (2002): Acute toxicity of chlorophenols to earthworms using a simple paper contact method and comparison with toxicities to fresh water organisms, Chemosphere, 47: 65-69.

OECD, (1984): Organization for Economical Cooperation and Development Guideline for Testing of Chemicals, No. 207, Earthworm Acute Toxicity, OECD, Paris, France.

Roberts, B.L., and Dorough, H.W. (1984): Relative toxicities of chemicals to the earthworm E.fetida, Environ. Toxicol. Chem, 3: 67–78.

Velki, M., and Hackenberger, B.K. (2013): Biomarker responses in earthworm E.fetida to

pirimiphos-methyl and deltamethrin using different toxicity tests, Chemosphere, 90: 1216-1226.

K. S. Abbiramy and P. Ronald Ross

Wang, Y., Cang, T., Zhao, X., Yu, R., Chen, L., Wu, C., and Wang, Q. (2012): Comparative acute toxicity of twenty-four insecticides to earthworm, E.fetida, Ecotoxicol Environ Saf, 79: 122-128.

Xiao, H., Zhou, Q.X., and Liang, J.D. (2004), Single and joint effects of acetochlor and urea on earthworm E.fetida populations in phaiozem, Environmental Geochemistry and Health, 26: 277–283.

W.C. Ma, L. Brussaard, and J.A. de Ridder, ―Long-term effects of nitrogenous fertilizers on grassland earthworms (Oligochaeta: Lumbricidae): their relation to soil acidification,‖ Agriculture, Ecosystems and Environment, 30: 71–80, 1990.

R. Lal, and D. De Vleeschauwer, ‖ Influence of tillage methods and fertilizer application on chemical properties of worm casting in a tropical soils,‖ Soil Tillage Res 2:37-52, 1982.

M. R. Werner, and D. L. Dindal, ―Earthworm communlty dynamics in conventional and low-input agroecosystems,‖ Rev Ecol. Biol. Sol 26:427-437, 1989.

A. Lofs-Holmin, ‖lnfluence of agricultural practices on earthworms (Lumbricidae),‖ ActaAgric Scand. 33: 225 234, 1983.

C.A. Edwards, and J.R. Lofty, ―Nitrogenous fertilizers and earthworm populations in agricultural soils,‖ Soil Biology and Biochemistry, 14: 515–521, 1982.

S.C. Tiwari, ―Effects of organic manure and NPK fertilization on earthworm activity in an Oxisol,‖ BiolFertil Soils 16:293-295, 1993.

D.S. Rathore, ―Use of domestic and industrial waste water for vermiculture and soil fertility,‖ Ph.D. Thesis, MLS University, Udaipur, 2011.

J.M. Bremner, ― Recent research on problems in the use of urea as a nitrogen fertilizer,‖ Fert Res, 42, 321–329, 1995.

H. Lalthanzara, and S.N. Ramanujam, ―Effect of fertilizer (NPK) on earthworm population in the agroforestry system of Mizoram, India,‖ Science Vision, 10(4): 159 – 167, 2010.

E.K.Bunemann, G.D. Schwenke, and L.V. Zwieten, ―Impact of agricultural inputs on soil organisms—a review,‖ Australian Journal of Soil Research, 44, 379–406, 2006.

M. Iordache, and I. Borza, ―Relation between chemical indices of soil and earthworm abundance under chemical fertilization,‖ Plant Soil Environ, 56, (9): 401–407, 2010.

X. Yang, M. Warren, and Z. Xiaoming, ‖ Fertilization responses of soil litter fauna and litter quantity, quality, and turnover in low and high elevation forests of Puerto Rico,‖ ,Applied Soil Ecology, 37: 63–71, 2007.

T.S. Tran, and A. Dayegamiye, ‖Long-term effects of fertilizers and manure appiication on the forms and availability of soil phosphorus,‖ Canadian Journal of Soil Science 75: 281-285, 1995.

D. Bilalis, N. Sidiras, E. Vavoulidou, and A. Konstantas, ―Earthworm populations as affected by crop practices on clay loam soil in a Mediterranean climate,‖ ,ActaAgriculturaeScandinavica, Section B – Plant Soil Science, 59: 440–446, 2009.

B.W. Mathews, J.R. Carpenter, L.E. Sollenberger, and K.D. Hisashima, ―Macronutrient, soil organic carbon, and earthworm distribution in subtropical pastures on an andisol with and without long-term fertilization,‖ Communications in Soil Science and Plant Analysis, 32: 209–230, 2001.

K.M. Smetak, J.L. Johnson-Maynard, and J.E. Lloyd, ‖ Earthworm population density and diversity in different-aged urban systems,‖ Applied Soil Ecology, 37: 161–168, 2007.

B. Estevez, A. N‘Dayegamiye, and D. Coderre, ―The effect on earthworm abundance and selected soil properties after 14 years of solid cattle manure and NPKMg fertilizer application,‖ Canadian Journal of Soil Science, 76: 351–355, 1996.

D.A. Potter, B.L. Bridges, and F.C. Gordon, ‖ Effect of N fertilization on earthworm and microarthropod populations in Kentucky bluegrass.‖ Turf. Agron. J. 77: 361-312, 1985.

J. Scullion, and G.A. Ramshaw, ‖Effects of various manurial treatments on earthworm activity in grasslands,‖ Biol. Agri. Hortic. 4:271-281, 1987.

Chen?Jen-Hshuan, ‖The combined use of chemical and organic fertilizers and/or biofertilizers for crop growth and soil fertility,‖ International Workshop on Sustained Management of the Soil-Rhizosphere System for Efficient Crop Production and Fertilizer Use Land Development Department, Bangkok 10900 Thailand, 2006.

Zhou Qi-xing, Zhang Qian-ru, and Liang ji dong, ―Toxic effects of acetachlor and methamidophos on earthworm Eisenia fetida in phaiozem, northeast China‖, Journal of Environmental Sciences, Vol.18, No.4, pp. 741-745, 2006.

Published

01-06-2018

How to Cite

Dash, A., & MOHAPATRA, . S. S. (2018). Toxic Effect of Urea on Earthworms Determined by a Simple Paper Contact Method. Innovare Journal of Agricultural Sciences, 6(1), 17–19. Retrieved from https://mail.innovareacademics.in/journals/index.php/ijags/article/view/24318

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Section

Original Article(s)