최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기지하수토양환경 = Journal of soil and groundwater environment, v.10 no.1, 2005년, pp.26 - 34
The effects of soil-chemical contact time (aging) on sorption and desorption of atrazine were studied in soil slurries because aging is an important determinant affecting on the sorption and desorption characteristics of organic contaminants in the environment. Sorption isotherm and desorption kinet...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
Carroll, K.M., Harkness, M.R., Bracco, A.A., and Balcarcel, R.R., 1994, Application of a penneant/polymer diffusional model to the desorption of polychlorinated biphenyls from Hudson river sediments, Environ. Sci. Technol., 28, 253-258
Chen, W, Kan, A.T., Newell, C.J., Moore, E., and Tomson, M.B., 2002, More realistic soil cleanup standards with dualequilibrium desorption, Ground Water, 40, 153-164
Chiou, C.T., Porter, P.E., and Schmedding, D.W, 1983, Partition Equilibria of Nonionic Organic Compounds between Soil Organic Matter and Water, Environ. Sci. Technol., 227-231
Clay, S.A., Allmaras, R.R, Koskinen, W.C., and Wyse, D.L., 1988, Desorption of Atrazine and Cyanazine from Soil, J. Environ. Qual., 17, 719-723
Clay, S.A. and Koskinen, W.C., 1990, Characterization of alachlor and atrazine desorption from soils, Weed Sci., 38, 74-80
Connaughton, D.F., Stedinger, J.R., Lion, L.W, and Shuler, M.L., 1993, Description of time-varying desorption kinetics: Release of naphthalene from contaminated soils, Environ. Sci. Technol., 27, 2397-2403
Cornelissen, G., Van Noort, P.C.M., and Govers, H.A.J., 1998, Mechanism of slow desorption of organic compounds from sediments: A study using model sorbents, Environ. Sci. Technol., 32, 3124-3131
Garcia-Valcarcel, A.I., Matienzo, T., Sanchez-Brunete, C., and Tadeo, J.L., 1998, Adsorption of triazines in soils with low organic matter content, Fresenius Environ. Bull., 7, 649-656
Gschwend, P.M. and Wu, S.C., 1985, On the constancy of sediment-water partition coefficients of hydrophobic organic pollutants, Environ. Toxicol. Chem., 19, 90-96
Hance, R.J., 1967, A relationship between partition data and the adsorption of some herbicides by soils, Nature, 214, 630-631
Heyse, E.C., Mika, D.J., de Venoge, T.P., Coulliette, D.L., and McGowin, A., 1999, General radial diffusion model for heterogeneous sorbents, Environ. Toxicol. Chem., 18, 1694-1700
Jenks, B.M., Roeth, F.W., Martin, A.R., and McCallister, D.L., 1998, Influence of surface and subsurface soil properties on atrazine sorption and degradation, Weed Sci., 46, 132-138
Johnson, M.D., Keinath, T.M., and Weber, W.J., 2001, A distributed reactivity model for sorption by soils and sediments. 14. Characterization and modeling of phenanthrene desorption rates, Environ. Sci. Technol., 35, 1688-1695
Karickhoff, S.W., 1980, Sorption kinetics of hydrophobic pollutants in natural sediments, In: R.A. Baker (ed.), Contaminants and Sediments: Analysis, Chemistry, and Biology, Ann Arbor Press: Ann Arbor, MI. p. 193-205
Khan, S.U., 1991, Bound (nonextractable) pesticide degradation products in soils, Am. Chem. Soc. Symp. Ser. 459. Am. Chem. Soc.. Washington, DC
Kulikova, N.A. and Perminova, I.V., 2002, Binding of atrazine to humic substances from soil, peat, and coal related to their structure, Environ. Sci. Tech., 36, 3720-3724
Laird, D.A., Yen, P.Y., Koskinen, W.C., Steinheimer, T.R., and Dowdy, R.H., 1994, Sorption of Atrazine on Soil Clay Components, Environ. Sci. Tech., 28, 1054-1061
Lambert, S.M., Porter, P.E., and Schieferstein, H., 1965, Movement and sorption of chemicals applied to the soil, Weeds, 13, 185-190
Lambert, S.M., 1967, Functional relationship between sorption in soil and chemical structure, J. Agr. Food Chem., 15, 572-576
Leboeuf, E.J. and Weber, W.J., 2000, Macromolecular characteristics of natural organic matter. 2. Sorption and desorption behavior, Environ. Sci. Techol., 34, 3632-3640
Lesan, H.M. and Bhandari, A., 2003, Atrazine sorption on surface soils: time-dependent phase distribution and apparent desorption hysteresis, Water Res., 37, 644-1654
Loehr, R.C. and Webster, M.T., 1996, Behavior of fresh vs aged chemicals in soil, J. Soil Contam., 5, 361-383
Lyman, W.J., Reehl, W.F., and Rosenblatt, D.H., 1990, American Chemical Society, Washington, DC
Ma, L., Southwick, L.M., Willis, G.H., and Selim, H.M., 1993, Hysteretic Characteristics of Atrazine Adsorption-Desorption by a Sharkey Soil, Weed Sci., 41, 627-633
McCall, P.J. and Agin, G.L., 1985, Desorption kinetics of picloram as affected by residence time in the soil, Environ. Toxicol. Chem., 4, 37-44
Miller, C.T. and Pedit, J.A., 1992, Use of a Reactive Surface-Diffusion Model to Describe Apparent Sorption Desorption Hysteresis and Abiotic Degradation of Lindane in a Subsurface Material, Environ. Sci. Technol., 26, 1417-1427
Park, J.-H., Zhao, X., and Voice, T.C., 2001, Biodegradation of Non-desorbable Naphthalene in Soils, Environ. Sci. Technol., 35, 2734-2740
Park, J.-H., Zhao, X., and Voice, T.C., 2002, Development of a kinetic basis for bioavailability of naphthalene in soil slurries, Water Res., 36, 1620-1628
Park, J.-H., Feng, Y., Ji, P., Voice, T.C., and Boyd, S.A., 2003, Bioavailability Assessment of Soil-Sorbed Atrazine, Appl. Environ. Microbiol., 69, 3288-3298
Pignatello, J.J., 1990, Slowly reversible sorpiton of aliphatic halocarbons in soils. 1. formation of residual fractions, Environ. Toxicol. Chem., 9, 1107-1115
Radosevich, M., Traina, S.J., and Tuovinen, O.H., 1997, Atrazine mineralization in laboratory-aged soil microcosms inoculated with s-triazine-degrading bacteria, J. Environ. Qual., 26, 206-214
Sharer, M., Park, J.-H., Voice, T.C.., and Boyd, S.A., 2003, Aging effects on the sorption/desorption characteristics of anthropogenic organic compounds in soil, J. Environ. Qual., 32, 1385-1392
Sheng, G.Y., Johnston, C.T., Teppen, B.J., and Boyd, S.A., 2001, Potential contributions of smectite clays and organic matter to pesticide retention in soils, J. Agric. Food Chem., 49, 2899-2907
Weber, W.J. and Huang, W.L., 1996, A distributed reactivity model for sorption by soils and sediments .4. Intraparticle heterogeneity and phase- distribution relationships under nonequilibrium conditions, Environ. Sci. Technol., 30, 881-888
Xie, H., Guetzloff, T.F., and Rice, J.A., 1997, Fractionation of pesticide residues bound to humin, Soil Sci., 162, 421-429
Xing, B. and Pignatello, J.J., 1996, Time-dependent isotherm shape of organic compounds in soil organic matter: implications for sorption mechanism, Environ. Toxicol. Chem., 15, 1282-1288
Young, T.M. and Weber, W.J., 1995, A distributed reactivity model for sorption by soils and sediments. 3. Effect of diagenetic processes on sorption energetics. Environ. Sci. Technol, 29, 92-97
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.