10.2190/W6TE-JF55-LK0R-KGMD W6TEJF55LK0RKGMD 1 Acid Precipitation and its Effects on Water Quality of Small River Basins in Rhode Island 79 92 20020509 20020509 20020509 20020509 W6TEJF55LK0RKGMD.pdf http://baywood.metapress.com/link.asp?target=contribution&id=W6TEJF55LK0RKGMD 2 Calvin P. C. Poon Todd Chaplin Rhode Island Water Resources Center, University of Rhode Island, Kingston The effects of acid precipitation on the water acidity, alkalinity, and pH of three small rivers in Rhode Island rural areas were studied. Satellite pictures, radar scans, and pressure maps were used to trace storm paths. In general more acidity was found in storms coming from the west-southwest direction. Rainfall pH as low as 3.81 and another rainfall with strong acid components at a concentration of 1.59 × 10^-4 N were recorded. The degree of impact on river water quality depended on storm acidity, storm size, amount of dry deposition prior to the storm, river flow prior to the storm, and land use pattern in the watershed. It was found that a drop of half a pH unit in a river could take place in one-half day. The largest pH drop recorded was 2.15 units and the largest increase of acidity was eleven fold. The impact on water quality could last longer than five days from the onset of the maximum impact, which generally coincided with that of the peak flow, to the time of recovery of the pre-storm water acidity, alkalinity, and pH. Anon., Acid Precipitation and the Long Range Transport of Air Pollutants in Eastern Canada and New England, prepared for the New England Governors and Eastern Canadian Premiers, Final Draft, 1982. A. P. Altshuller and G. A. McBean, <i>Second Report of the US-Canada Research Consultation Group on the Long-Range Transport of Air Pollutants</i>, Canadian Embassy, Washington, D. C., 1980. P. J. Galvin, Transport of Sulfate to New York State, <i>Environmental Science and Technology</i>, pp. 580-584, 1978. J. M. Miller, Origin of Air Masses Producing Acid Precipitation at Ithaca, NY, A Preliminary Report, <i>Geophysical Research Letters, 5</i>, pp. 757-769, 1978. H. F. Kolak, "Particulate Sources Contribution in the Niagara Frontier", New York Department of Environmental Conservation, New York, 1979. T. E. Harr and P. E. Coffey, <i>Acid Precipitation in New York State</i>, Technical Paper No. 43, Environmental Quality Research Unit, NY Department of Environmental Convervation, NY, 1975. N. E. Peters, R. A. Schroeder, and D. E. Troutman, <i>Temporal Trends in the Acidity of Precipitation and Surface Waters of New York</i>, Water Supply Paper 2188, U. S. Geological Survey, 1982. L. Bruckman, Connecticut Department of Environmental Protection, Personal Communication, 1981. Acid Rain: Sources and Effects in Connecticut, Report of the Acid Rain Task Force, Bulletin 8-9 Connecticut Agricultural Export Station, 1983. B. J. Wittaker, Testimony on Long Range Transport of Acid Rain Before the House Energy and Commerce Subcommittee on Health and the Environment, February, 1982. Cortell Associates, Unpublished Data Available at the Massachusetts Department of Environmental Quality Engineers, Boston, 1980. K. Rahn, Statement Made in <i>Science, 215</i>, 1982. APHA, AWWA, WPCF, <i>Standard Methods for the Examination of Water and Wastewater</i>, 15th Edition, 1980. M. D. Seymour, J. W. Clayton, Jr., and Q. Fernando, Determination of pKa Values of Acid Components in Atmospheric Condensates by Linearlization of Segmented Titration Curves, <i>Analytical Chemistry, 49</i>, p. 1429, 1977.