Dynamics of Zebra Mussel Oxygen Demand in Seneca River, New York

Environ. Sci. Technol., 32 (6), 807 -812, 1998. es970838v S0013-936X(97)00838-9
Web Release Date: February 3, 1998

Dynamics of Zebra Mussel Oxygen Demand in Seneca River, New York

Steven W. Effler* and Stephen R. Boone

Upstate Freshwater Institute, P.O. Box 506, Syracuse, New York 13214

Clifford Siegfried

Biological Survey of the New York State Museum, Albany, New York 12230

Steven L. Ashby

USAE Waterway Experimental Station, 3909 Halls Ferry Road, Vicksburg, Mississippi 39180-6199

Received for review September 19, 1997

Revised manuscript received December 18, 1997

Accepted January 5, 1998

Abstract:

The magnitude and dynamics of oxygen depletion from zebra mussel metabolism for a severely infested 1.4 km section of the Seneca River, NY, is documented for a 3-month period of 1994, based on hourly measurements of dissolved oxygen (DO) concentrations at an upstream site and a downstream site and mass balance calculations. The average areal zebra mussel oxygen demand (ZOD) in the study section during a 30-day low-flow period (population density ~40 000 individuals m^-²) was 39.4 g m^-² d^-¹. The average value of ZOD for the same 30-day period, normalized for zebra mussel biomass mass (42.4 mg of O₂ (g of zebra mussel)^-¹ d^-¹), compares favorably to recently reported oxygen consumption rates from laboratory experiments, sup porting its application elsewhere to accommodate the effects on oxygen resources of invaded systems. Values of ZOD varied greatly during the study reflecting responses of the invader to changes in ambient conditions, including flow and a major decrease in the population.

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