Generation of Long-Term Record of Contaminant Transport
Publication: Journal of Environmental Engineering
Volume 124, Issue 7
Abstract
A long-term record (1900–1993) of streamflow, sediment, and metal transport was simulated for an urbanized watershed, the Aberjona River watershed, located near Boston, Mass. The approach is an innovative procedure that includes the use of a watershed-specific contaminant transport model. The input to the program is hourly precipitation; the output is hourly streamflow, sediment, and metal fluxes. Hourly precipitation was available for part of the record. For time periods for which only daily precipitation data were available, the data were disaggregated into hourly values. The effects of urbanization on streamflow were simulated by adjusting the timing of river flood routing and the area contributing to different flow components. Variations in industrial water withdrawals were also considered. Sediment core data were utilized to estimate changes in source metal concentrations in time. The long-term record that was generated confirms that urbanization can account for a flashier river response including larger peaks in streamflow and sediment transport. Metal transport was affected by changes in metal source characteristics as well as hydrologic factors.
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References
1.
Aurilio, A. C., Durant, J. L., Hemond, H. F., and Knox, M. L.(1995). “Sources and distribution of arsenic in the Aberjona watershed, eastern Massachusetts.”Water, Air, Soil Pollution, 81, 265–282.
2.
Bo, Z., Islam, S., and Eltahir, E. A. B.(1994). “Aggregation-disaggregation properties of a stochastic rainfall model.”Water Resour. Res., 30(12), 3423–3435.
3.
Brainard, E. D. (1990). “Groundwater modeling of the Aberjona basin,” MS thesis, MIT, Cambridge, Mass.
4.
Bras, R. L., and Perkins, F. E.(1975). “Effects of urbanization on catchment response.”J. Hydr. Div., ASCE, 101(3), 451–466.
5.
DeFeo, F. L. (1971). “The establishment and operation of the Aberjona River Commission,” MS thesis, Tufts Univ., Medford, Mass.
6.
Durant, J. L., Zemach, J. J., and Hemond, H. G.(1990). “The history of the leather industry waste contamination in the Aberjona River watershed: a mass balance approach.”Civ. Engrg. Pract., J. Boston Soc. of Civ. Engrs., ASCE, 5(2), 41–66.
7.
“Hydrological study of the Aberjona River and tributaries.” (1967). Camp Dresser and McKee, Inc., Cambridge, Mass.
8.
Islam, S., Entekhabi, D., Bras, R. L., and Rodriguez-Iturbe, I. (1990). “Parameter estimation and sensitivity analysis for the modified Bartlett-Lewis rectangular pulses model of rainfall.”J. Geophys. Res., 95(D3), 2093–2100.
9.
Knox, M. L. (1991). “The distribution and depositional history of metals in surface sediments of the Aberjona River watershed,” MS thesis, MIT, Cambridge, Mass.
10.
“Permits on file for groundwater withdrawals.” (1992). Massachusetts Dept. of Envir. Protection, Boston, Mass.
11.
“Resolves of 1956—Study of sanitary condition of the Aberjona River.” (1957). Massachusetts Dept. of Public Health. Chap. 139, Boston, Mass.
12.
Rodriguez-Iturbe, I., Cox, D. R., and Isham, V. (1987a). “Some models for rainfall based on stochastic point processes.”Proc. R. Soc. Lond., A410, 269–288.
13.
Rodriguez-Iturbe, I., Cox, D. R., and Isham, V. (1988). “A point proces model for rainfall: further developments.”Proc. R. Soc. Lond., A417, 283–298.
14.
Rodriguez-Iturbe, I., Febres de Power, B., and Valdes, J. B. (1987b). “Rectangular pulses point process models for rainfall: analysis of empirical data.”J. Geophys. Res., 92(D8), 9645–9656.
15.
Schwarzenbach, R. P., Gschwend, P. M., and Imboden, D. M. (1995). Environmental organic chemistry. John Wiley & Sons, New York, N.Y.
16.
Solo-Gabriele, H. M. (1995). “Metal transport in the Aberjona River system: monitoring, modeling and mechanisms,” PhD thesis, Vols. I and II, MIT, Cambridge, Mass.
17.
Solo-Gabriele, H. M., and Perkins, F. E.(1997a). “A watershed-specific model for streamflow, sediment, and metal transport.”J. Envir. Engrg., ASCE, 123(1), 61–70.
18.
Solo-Gabriele, H. M., and Perkins, F. E.(1997b). “Metal transport within a small urbanized watershed.”J. Irrig. and Drain. Engrs., ASCE, 123(2), 114–122.
19.
Solo-Gabriele, H. M., and Perkins, F. E.(1997c). “Streamflow and suspended sediment transport in an urban environment.”J. Hydr. Engrg., 123(9), 1–5.
20.
Spliethoff, H. M., and Hemond, H. F. (1996). “History of toxic metal discharge to surface waters of the Aberjona watershed. Envir. Sci. and Technol., 30(1), 121–128.
21.
Warrington, R. A. (1973). “Hydraulic survey of the Aberjona River and operation of the Aberjona River commission,” MS thesis, Tufts Univ., Medford, Mass.
Information & Authors
Information
Published In
Journal of Environmental Engineering
Volume 124 • Issue 7 • July 1998
Pages: 619 - 627
Copyright
Copyright © 1998 American Society of Civil Engineers.
History
Published online: Jul 1, 1998
Published in print: Jul 1998
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