Effect of small-scale shear on grazing and growth of the dinoflagellate Pfiesteria piscicida

Abstract

Low turbulence environments have been hypothesized to be necessary for toxic outbreaks of the heterotrophic/mixotrophic dinoflagellate Pfiesteria piscicida. A toxic Pfiesteria outbreak occurred in the shallow waters (the flats) of the lower Pocomoke River, MD, USA, in 1997. During August 1999 and May and August 2000, data were collected with a Shallow Water ADV Turbulence Tripod (SWATT) to estimate turbulent shear at a location monitored for Pfiesteria on the flats. Approximately 78% of the observed shears were ≤1 s −1 and 98% were ≤2 s −1. Densities of Pfiesteria-like dinoflagellates were low in the Pocomoke River during 1999 and 2000 and no toxic outbreaks occurred. In the laboratory, Couette cylinders were used to determine the effect of small-scale shear on feeding and growth of cultured P. piscicida growing on cryptophyte prey. Shear of 1 s −1 had little or no effect on feeding or growth but 3 s −1 reduced feeding and survival/growth of Pfiesteria zoospores. Small, rapidly dividing Pfiesteria cells were most susceptible to negative effects of shear. Pfiesteria appears to be more sensitive to small-scale shear than are most autotrophic dinoflagellates. However, in the lower Pocomoke River, turbulent shear is rarely high enough to inhibit the growth of non-toxic Pfiesteria zoospores. Toxic functional types (TOX-A and TOX-B) may be more sensitive to small-scale shear; it will be important to determine the responses of these types of Pfiesteria in order to predict the affects of wind and tidal mixing on toxic outbreaks.