Sorption Behaviour of Forchlorfenuron in Soil
详细信息 查看全文
- 作者:Kaushik Banerjee (1)
Dasharath P. Oulkar (1)
Sangram H. Patil (1)
Soma Dasgupta (1)
Archana T. Nikam (1)
Pandurang G. Adsule (1) - 关键词:Forchlorfenuron ; Soil ; Adsorption kinetics ; Adsorption isotherm ; Desorption
- 刊名:Bulletin of Environmental Contamination and Toxicology
- 出版年:2008
- 出版时间:March 2008
- 年:2008
- 卷:80
- 期:3
- 页码:201-205
- 全文大小:218KB
- 参考文献:1. Bailey GW, White JL (1970) Factors influencing the adsorption, desorption and movement of pesticides in soil. Res Rev 32:39-2
2. Bansal OP (2004) Kinetic interaction of three carbamate pesticides with Indian soils: Aligarh district. Pest Manag Sci 60:1149-155 CrossRef
3. Beulke S, Brown CD (2001) Evaluation of methods to derive pesticide degradation parameters for regulatory modelling. Biol Fertil Soils 33:558-64 CrossRef
4. EPA (1982) Chemical fate test guidelines, Test guideline no. CG 1710 August. Office of pesticides and toxic substances. US Environmental Protection Agency, Washington, DC
5. Gustafson DI (1993) Pesticides in drinking water. Van Nostrand Reinhold, NY
6. Hamaker JW, Thompson JM (1972) Organic chemicals in soil environment. Marcel Dekker, NY, pp 49-43
7. Koskinen WC, Harper SS (1990) The retention process: mechanisms. In: Cheng HH (ed) Pesticides in the soil environment: processes, impacts, and modelling. Soil Science Society of America, Madison, WI, pp 51-8
8. Langmuir D (1997) Aqueous environmental geochemistry. Prentice Hall, NJ, pp 343-63
9. Lindstrom FT, Haque R, Coshow WR (1970) Adsorption from solution. III. A new model for the kinetics of adsorption-desorption processes. J Phys Chem 74:495-03 CrossRef
10. Ramteke SD, Somkuwar RG, Shikhamany SD, Satisha J (2002) Growth regulators in increasing pedicel thickness and shelf life in Tas-A-Ganesh grape ( / Vitis vinifera) grafted on 1613C root stock. Indian J Agric Sci 72:3-
11. Sharma D, Awasthi MD (2003) Behavior of forchlorfenuron residues in grape, soil and water. Chemosphere 50:589-94 CrossRef
12. Sundaram KMS, Curry J, Landmark M (1995) Sorptive behaviour of the neem-based biopesticide, Azadirachtin in sandy loam forest soil. J Environ Sci Health B 30:827-39 CrossRef - 作者单位:Kaushik Banerjee (1)
Dasharath P. Oulkar (1)
Sangram H. Patil (1)
Soma Dasgupta (1)
Archana T. Nikam (1)
Pandurang G. Adsule (1)
1. National Research Centre for Grapes, P.O. Manjri Farm, P.B. No. 3, Pune, Maharashtra, 412307, India - ISSN:1432-0800
文摘
Adsorption of forchlorfenuron on three Indian soils reached equilibrium within 48?h with rate of adsorption being highest on sandy-loam followed by clay and silty-clay soils. The relative adsorptivity of the test soils could be attributed to the different organic matter and clay contents. Desorption rate followed the reverse trend. The rate constants for adsorption and desorption at 298 and 308?K were determined from Lindstrom model, which simultaneously evaluated adsorption and desorption kinetics. The data for rate constants, activation energies, enthalpy of activation, entropy of activation and free energy indicated chemical adsorption of forchlorfenuron on soil. A good fit to the linear and Freundlich isotherms was observed with correlation coefficients >0.97. The groundwater ubiquity score for different soils varied between 1.6 and 2.2, on the basis of which forchlorfenuron could be categorised as a chemical with low to medium leaching category.