Sa. Sanudo-wilhelmy et Ga. Gill, Impact of the Clean Water Act on the levels of toxic metals in urban estuaries: The Hudson River estuary revisited, ENV SCI TEC, 33(20), 1999, pp. 3477-3481
Citations number
25
Categorie Soggetti
Environment/Ecology,"Environmental Engineering & Energy
To establish the impact of the Clean Water Act on the water quality of urba
n estuaries, dissolved ( <0.45 mu m) trace metals and phosphate concentrati
ons were determined in surface waters collected along the Hudson River estu
ary between 1995 and 1997 and compared with samples collected in the mid-19
70s by Klinkhammer and Bender. The median concentrations along the estuary
have apparently declined 36-56% for Cu, 55-89% for Cd, 53-85% for Ni, and 5
3-90% for Zn over a period of 23 years. These reductions appear to reflect
improvements in controlling discharges from municipal and industrial wastew
ater treatment plants since the Clean Water Act was enacted in 1972. In con
trast, levels of dissolved nutrients (PO4) have remained relatively constan
t during the same period of time, suggesting that wastewater treatment plan
t improvements in the New York/New Jersey Metropolitan area have not been a
s effective at reducing nutrient levels within the estuary. While more adva
nced wastewater treatment could potentially reduce the levels of Ag and PO4
along the estuary, these improvements would have a more limited effect on
the levels of other trace metals. Rather than inputs from point sources, th
e release of Pb and Hg from watershed soils, and Ni and Cu from estuarine s
ediments, may represent the primary contemporary sources of these metals to
the estuary. These potentially important nonpoint sources need to be addre
ssed in metal contamination control strategies. This is critical to control
the high levels of dissolved Hg observed under high river flow conditions.
While levels of dissolved Ag, Cd, Cu, Ni, Ph, and Zn were at least three t
imes below current New York Water Quality Standards, Hg levels in surface w
aters of the estuary still exceed those standards.