Your search keyword '"chlorophyll a concentration"' showing total 2 results

1. Water dynamics in the western Bering Sea and its impact on chlorophyll a concentration.

Author

Andreev, Andrey G., Budyansky, Maxim V., Khen, Gennady V., and Uleysky, Michael Yu.

Subjects

*CONTINENTAL slopes, *UPWELLING (Oceanography), *CHLOROPHYLL, *GEOSTROPHIC currents, *CONTINENTAL shelf, *SEAWATER

Abstract

To study the water dynamics in the western Bering Sea, the time series of geostrophic velocities derived from satellite altimetry, Global total current (Copernicus Globcurrent) velocities, Argo buoys, and ship, borne data are analyzed. We demonstrate that the surface currents in the study area are characterized by a significant seasonal and interannual variability. In January, the southwestern currents are prevailing in the western Bering Sea, the geostrophic currents are connected to the continental slope, and mesoscale anticyclonic movement of waters is observed on the shelf. In July, the surface flow is oriented to the northeast along the continental slope, and cyclonic water movement prevails on the shelf. The formation of mesoscale anticyclones in late winter – early spring – is related to the supply of low-temperature and low-salinity Bering Sea shelf water. The temporal variability of the direction and current velocity in the western part of the Bering Sea during the summer period is associated with the wind and coastal upwelling. The presence of coastal upwelling and eddies should be considered as one of the factors leading to the high concentration of chlorophyll a on a shelf and continental slope in the summer. [ABSTRACT FROM AUTHOR]

Published

2020

2. Mesoscale dynamics and walleye pollock catches in the Navarin Canyon area of the Bering Sea.

Author

Andreev, Andrey G., Budyansky, Maxim V., Uleysky, Michael Yu., and Prants, Sergey V.

Subjects

*WALLEYE pollock, *EDDIES, *ANTICYCLONES, *ALTIMETRY

Abstract

Large canyons incise the shelf break of the eastern Bering Sea to be preferred sites of the cross-shelf exchange. The mesoscale eddy activity is particularly strong near the shelf-break canyons. To study the mesoscale dynamics in the Navarin Canyon area of the Bering Sea, the time series of velocities derived from AVISO satellite altimetry between 1993 and 2015, drifters, Argo buoys, and ship-borne data are analyzed. We demonstrate that the strength of anticyclonic eddies along the shelf edge in spring and summer is determined by the wind stress in March-April. The increased southward wind stress in the central Bering Sea forced a supply of low-temperature and low-salinity outer shelf water to the deep basin and formation of the anticyclonic mesoscale circulation seaward of the Navarin Canyon. Enhanced northwestward advection of the Bering Slope Current water leads to increase in an ice-free area in March and April and increased bottom-layer temperature at the outer shelf. The strong (weak) northwestward advection of the eastern Bering Sea waters, determined by eastern winds in spring, creates favorable (unfavorable) conditions for the pollock abundance in the western Navarin Canyon area in summer. [ABSTRACT FROM AUTHOR]

Published

2018