Seasonal and interannual variability in particle fluxes of carbon, nitrogen and silicon from time series of sediment traps at Ocean Station P, 1982-1993: relationship to changes in subarctic primary productivity

An extended time series of particle fluxes at 3800 m was recorded using automated sediment traps moored at Ocean Station Papa (OSP, 50 degrees N, 145 degrees W) in the northeast Pacific Ocean for more than a decade (1982-1993). Time-series observations at 200 and 1000 m, and short-term measurements using surface-tethered free-drifting sediment traps also were made intermittently. We present data for fluxes of total mass (dry weight), particulate organic carbon (POC), particulate organic nitrogen (PON), biogenic Si (BSi), and particulate inorganic carbon (PIC) in calcium carbonate. Mean monthly fluxes at 3800 m showed distinct seasonality with an annual minimum during winter months (December-March), and maximum during summer and fall (April-November). Fluxes of total mass, POC, PIC and BSI showed 4-, 10-, 7- and 5-fold increases between extreme months, respectively. Mean monthly fluxes of PIC often showed two plateaus, one in May-August dominated by <63 mu m particles and one in October-November, which was mainly >63 mu m particles. Dominant components of the mass flux throughout the year were CaCO3 and opal in equal amounts. The mean annual fluxes at 3800 m were 32 +/- 9 g dry weight g m(-2) yr(-1), 1.1 +/- 0.5 g POC m(-2) yr(-1), 0.15 +/- 0.07 g PON m(-2) yr(-1), 5.9 +/- 2.0 g BSi m(-2) yr(-1) and 1.7 +/- 0.6 g PIC m(-2) yr(-1). These biogenic fluxes clearly decreased with depth, and increased during "warm" years (1983 and 1987) of the El Nino, Southern Oscillation cycle (ENSO). Enhancement of annual mass flux rates to 3800 m was 49% in 1983 and 36% in 1987 above the decadal average, and was especially rich in biogenic Si. Biological events allowed estimates of sinking rates of detritus that range from 175 to 300 m d(-1), and demonstrate that, during periods of high productivity, particles sink quickly to deep ocean with less loss of organic components. Average POC flux into the deep ocean approximated the "canonical" 1% of the surface primary production. (C) 1999 Elsevier Science Ltd. All rights reserved.