Effect of Organic Contaminations on Seed Germination Studies in Tritium Aestivum (L.)

Smita Sureshrao Kharkale, Pratibha Sunil Agrawal, Lalitmohan Jainarayan Paliwal, Int J Cur Bio Med Sci. (2011) Effect of Organic Contaminations on Seed Germination Studies in Tritium Aestivum (L.). [Journal (Paginated)]

Full text available as:

PDF (Effect of Organic Contaminations on Seed Germination Studies in Tritium Aestivum (L.)) - Published Version
Available under License Creative Commons Attribution No Derivatives.



An attempt has been made for germination studies in Triticum Aestivum (L.) with1,2,4,5-trtrazin. It has a wide range of biological activity covering anticoagulant, bactericidal, fungicidal, neurotropopic. Such a vast uses of 1,2,4,5-Tetrazines, necessitate to concentrate on 1,2,4,5-Tetrazines for studying the germination pattern. The experimental data was used to calculate plant growth which in turn is decided on the basis of parameters such as percentage of germination survival, seedling height, chlorophyll content, SGI, shoot length, root length and vigour index.

Item Type:Journal (Paginated)
Keywords:1,2,4,5-tetrazines, root length, speed of germination index (SGI), Vigour index Chlorophyll content,shoot length
ID Code:7318
Deposited By: CurrentSciDirect Publications, International Journal of Current Biological and Medical Science (IJCBMS)
Deposited On:02 May 2011 15:52
Last Modified:02 May 2011 15:52

References in Article

Select the SEEK icon to attempt to find the referenced article. If it does not appear to be in cogprints you will be forwarded to the paracite service. Poorly formated references will probably not work.

[1] Moss HT. Quality standards for wheat varieties. J Aust Res. 1973; 39: 109-115.

[2] Laubscher EW. Nitrogen application,protein content and quality of wheat. Fertilizer Society

of South Africa Journal. 1981; 2: 41-47.

[3] Van Lill D, Purchase JL. Directions in breeding for winter wheat yield and quality from

1930 to 1990. Euphytica. 1994; 82: 79-87.

[4] Purchase JL. Botha AH. Maritz M, Tonder V. Interpretation of winter wheat

genotype x environment interaction in the orange free state using regression analysis and the

ammi-MODEL. South African Society of Crop production, 22nd Annual Congress, Rustenberg,

S. Africa. 1992.

[5] Takeda K, Frey KJ. Correlations among grain yield, protein yield and related traits of

oat. Crop Sci. 1979; 19: 623-628.

[6] Basra SMA, Zia MN, Mehmood T, Afjal I, Khaliq A. Comparison of different invigoration

techniques in wheat(Triticum Aestivum (L.) 2000;5(2):11-16.

[7] Mcartney M. Practical Medical Microbiology, Vol II 13th Ed., 260.

[8] AOSA; Rules for testing seeds. J Seed Technol. 1990;12(3):1-112

[09] Dadlani M. Seshu DV. Effect of wet and dry heat treatment on rice seed germination and seedling vigor. Int Rice Res News.1990;15:21-22

[10] Carley E, Watson RD. Effect of various aqueous plant extracts upon seed germination.Bot Gaz. 1968; 129(1): 57.

[11] Ashraf M. Akhtar N. Tahira F, Nasim F. Effect of NaCl pretreatment for improving seed quality of cereals. 1999; 15: 94-7.

[12] Bruckner PL, Frohberg RC. Rate and duration of grain filling in spring wheat. 1987; 27: 451-5.

[13] Jahagirdar DV. Experiment in Chemistry, 1st Ed., Himalaya Publishing House 1994.

[14] Kelley KW. Rate and time of N application for wheat following different crops. J Prod Agric.1995; 8: 339-45.

[15] Gautam DP, Kumar K, Bisnoi S. J of Environmental Biology. 1992; 13(1): 7-12.

[16] Abdul-Baki AA, Anderson JD. Vigour determination in soybean and multiple criteria. Crop Sci. 1973; 13: 630.

[17] Zamora OB, Rosario E L. Physiological and morphological responses of sugarcane to some selected chemical ripeners. Philippine Journal of Crop Science. 1977; 3 (2): 133-142.


Repository Staff Only: item control page