Experiment 2: References

1. Chen, Y., N. Senesi, and M. Schnitzer. 1977. Information Provided on Humic Substances by E4/E6 Ratios. Soil Sci. soc. Am. J., 41:352-358.
2. Chin, Y-P., G. Aiken, and E. OšLoughlin. 1994. Molecular Weight, Polydispersity, and Spectroscopic Propoerties of Aquatic humic Substances. Environ. Sci. Technol. 28:1853-1858.
3. DeHaan, H. 1983. Use of Ultraviolet Spectroscopy, Gel Filtration, Pyrolysis/Mass Spectrometry and Numbers of Benzoate-Metabolozing Bacteria in the Sutdy of Humification and Degradation of Aquatic Organic Matter, in Aquatic and Terrestrial Humic Material , R. F Christman and E.T. Gjessing, Eds. (Ann Arbor Science, Ann Arbor, MI) 165-182.
4. Dobbs, R.A., R.H. Wise, and R. B. Dean. 1972. The Use of Ultra-Violet Absorbance for Monitoring the Total Organic Carbon Content of Water and Wastewater. Water Resaerch, 6:1173-1180.
5. Edzwald, J.K., W.C. Becker, and K.L. Wattier. 1985. Surrogate Parameters for Monitoring Organic Matter and THM Precursors. JAWWA, 77:122-132 (Apr, 1985).
6. Korshin, G.V. C-W. Li, and M.M. Benjamin. 1995. A Theoretcial Description of the UV Spectrum of Natrual Organic Matter and Changes in UV Absorption during Water Treatment, in Proceedings of the ACS Meeting, August 21-26, 1995, 639-642.
7. Kukkonen, J. Effects of Lignin and Chlorolignin in Pulp Mill Effluents on the Binding and Bioavailability of Hydrophobic Organic Pollutants. Water Research. 26:1523-1532.
8. Skoog, D.A. and J.J. Leary. 1992. Principles of Instrumental Analysis (Harcourt Brace College Publishers, New York).