10. Bibliografia   

Boethling, R.S., Howard, P.H., Meylan, W.M., Stiteler, W., Beauman, J. and Tirado.N.   1994.  Group contribution method for predicting probability and rate of aerobic biodegradation.  Environ. Sci. Technol. 28: 459-65.  (BIOWIN Software available from Syracuse Research Corp, Environmental Science Center, Syracuse, NY 13210). 

Clark, B., J.G. Henry and D. Mackay.  1995.  Fugacity analysis and model of organic chemical fate in a sewage treatment plant.  Environ. Sci. Technol.  29: 1488-1494. 

Howard, P.H., Boethling, R.S., Stiteler, W., Meylan, W.M., Hueber, A.E., Beauman, J. and Larosche, M.E.   1992.   Predictive model for aerobic biodegradability developed from a file of evaluated biodegradation data.  Environ. Toxicol. Chem. 11: 593-603.   (BIOWIN Software available from Syracuse Research Corp, Environmental Science Center, Syracuse, NY 13210). 

Joback, K.G.   1982.   A Unified Approach to Physical Property Estimation Using Multivariate Statistical Techniques.  Stevens Institute of Technology, submitted to the Dept. of Chem. Eng. for M.S. Degree at the Massachusetts Institute of Technology in June 1984. (see  also: Reid et al., 1987) 

Lyman, W.J.   1985.   In: Environmental Exposure From Chemicals. Volume I., Neely,W.B. and Blau,G.E. (eds), Boca Raton, FL: CRC Press, Inc., Chapter 2. 

Lyman, W.J., Reehl, W.F and Rosenblatt, D.H..   1990.   Handbook of Chemical Property Estimation Methods.  Washington, DC: American Chemical Society. 

Mackay, D.  1991.  Multimedia Environmental Models; The Fugacity Approach. Lewis Publishers, CRC Press, pp 67-183. 

Mackay, D. et al.  1996a.  Assessing the fate of new and existing chemicals: a five-stage process.  Environ. Toxicol. Chem. 15(9): 1618-1626. 

Mackay,D. et al.  1996b.  Evaluating the environmental fate of a variety of types of chemicals using the EQC model.  Environ. Toxicol. Chem. 15(9): 1627-1637. 

Meylan, W.M. and Howard, P.H.  1991.  Bond contribution method for estimating Henry's Law Constants.  Environ. Toxicol. Chem. 10: 1283-93.   (HENRYWIN Software available from Syracuse Research Corp, Environmental Science Center, Syracuse, NY 13210). 

Meylan, W.,  Howard, P.H. and Boethling, R.S.  1992.  Molecular topology/fragment contribution method for predicting soil sorption coefficients.  Environ. Sci. Technol.  26: 1560-6.  (PCKOCWIN Software available from Syracuse Research Corp, Environmental Science Center, Syracuse, NY 13210). 

Meylan, W.M. and P.H. Howard.  1993.  Computer estimation of the atmospheric gas-phase reaction rate of organic compounds with hydroxyl radicals and ozone.  Chemosphere 26: 2293-9   (AOPWIN Software available from Syracuse Research Corp, Environmental Science Center, Syracuse, NY 13210). 

Meylan, W.M. and P.H. Howard.    1994a.    Upgrade of PCGEMS Water Solubility Estimation Method (May 1994 Draft).  prepared for Robert S. Boethling, U.S. Environmental Protection Agency, Office of Pollution Prevention and Toxics, Washington, DC;  prepared by Syracuse Research Corporation, Environmental Science Center, Syracuse, NY 13210. 

Meylan, W.M. and P.H. Howard.    1994b.   Validation of Water Solubility Estimation Methods Using Log Kow for Application in PCGEMS & EPI (Sept 1994, Final Report).  prepared for Robert S. Boethling, U.S. Environmental Protection Agency, Office of Pollution Prevention and Toxics, Washington, DC;  prepared by Syracuse Research Corporation, Environmental Science Center, Syracuse, NY 13210. 

Meylan, W.M. and Howard, P.H.  1995.  Atom/Fragment contribution method for estimating octanol-water partition coefficients. J. Pharm. Sci. 84: 83-92. 

Meylan, W.M. and Howard, P.H.   1996.  Improved method for estimating water solubility from octanol/water partition coefficient.  Environ. Toxicol. Chem. 15: 100-106. 

Meylan,W.M., P.H. Howard, D. Aronson, H. Printup and S. Gouchie.    1997.   Improved Method for Estimating Bioconcentration Factor (BCF) from Octanol-Water Partition Coefficient. Third Updatr Report - August 1997. SRC-TR-97-006 (EPA Contract No. 68-D5-0012).  prepared for Robert S. Boethling, U.S. Environmental Protection Agency, Office of Pollution Prevention and Toxics, Washington, DC;  prepared by Syracuse Research Corporation, Environmental Science Center, North Syracuse, NY 13212.  (submitted for publication). 

Meylan,W.M. and P.H. Howard.   1999.  Userís Guide for the ECOSAR Class Program. Version 0.99e (Mar 1999),  prepared for J. Vincent Nabholz and Gordon Cash, U.S. Environmental Protection Agency, Office of Pollution Prevention and Toxics, Washington, DC;  prepared by Syracuse Research Corporation, Environmental Science Center, North Syracuse, NY 13212.  

Meylan,W.M., P.H. Howard, R.S. Boethling, D. Aronson, H. Printup and S. Gouchie.    1997.   Improved Method for Estimating Bioconcentration Factor (BCF) from Octanol-Water Partition Coefficient. Environ. Toxicol. Chem. 18(4): 664-672. 

Reid, R.C., Prausnitz, J.M. and B.E. Poling.   1987.   The Properties of Gases and Liquids. Fourth edition.  NY: McGraw-Hill, Inc., Chapter 2. 

Stein, S.E. and Brown, R.L.   1994.   Estimation of normal boiling points from group contributions.  J. Chem. Inf. Comput. Sci. 34: 581-7. 

Thomas, R.G.  1990.  Volatilization from water.  In: Handbook of Chemical Property Estimation Methods.  Lyman, W.J. et al. (eds), Washington, DC: American Chemical Society,  Chapter 15.  

USEPA. 1992.  Dermal Exposure Assessment: Principles and Applications.  EPA/600/8-91-011B, January 1992, Interim Report.  U.S. Environmental Protection Agency, Exposure Assessment Group, Office of Health and Environmental Assessment, Washington, DC.