ACCUMULATION OF MARINE SNOW AT DENSITY DISCONTINUITIES IN THE WATER COLUMN

The vertical distribution of marine snow-aggregated particles >0.5 mm in diameter-was strongly correlated with density discontinuities in th e upper 100 m of the water column at 33 stations off central Californi a. Eighty-seven percent of peaks in aggregate abundance were associate d with density discontinuities in which N-2 (the Brunt-Vaisala frequen cy) exceeded 1.25 x 10(-4) s(-2) (N = 6 cph). For 56% of the peaks, N- 2 exceeded 2.5 x 10(-4) s(-2) (N = 9 cph). Absolute abundances of aggr egates increased from a mean of 38.7 +/- 18.3 aggregates liter-1 above peaks to 59.3 +/- 26.0 aggregates liter-1 within peaks. Accumulations of aggregates could result from sinking into denser water if sinking rates were reduced by at least 20% due to slow equilibrium of either i nterstitial water or mucus within the flocs with the surrounding, high er density water. However, our observed increases in sigma(t) were ins ufficient to cause such slowing for flocs whose porosity was 99% or le ss; such flocs comprised a significant proportion of aggregates in the observed peaks. However, larger flocs of moderate to high porosity we re likely to decelerate as they encountered denser water and could eve n become neutrally or negatively buoyant for changes in sigma(t) such as we observed. Equilibration times of the interstitial water of these generally larger flocs ranged from hundreds of seconds up to 3 h. Res ults of a random walk simulation of particle motion indicated that tur bulence was likely to cause localized accumulations of aggregates and to increase particle aggregation. Because we found subcritical values of the Richardson number (an indicator of turbulent mixing) at the top of regions of peak abundance but not at the base, for 68% of the peak s observed, we infer that turbulence may contribute to the accumulatio n of the smaller flocs. Occurrence of strong shear and deviations of t emperature and salinity profiles from typical patterns suggest that at least 23% of these aggregate peaks were associated with horizontal in trusions.