Shelfbreak Upwelling in the Western Beaufort Sea, Zooplankton Abundance data, September 2017

Atmospherically-forced wind-induced upwelling along the shelf break leads to enhanced feeding opportunities for intermediate links in the pelagic ecosystem that in turn sustain the exploitation of this environment by animals such as beluga, seabirds, and seals. The Beaufort Sea shelf break is a hots...

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Bibliographic Details
Main Authors: Cecilia Gelfman, Robert Campbell, Carin Ashjian
Format: Dataset
Language:unknown
Published: Arctic Data Center 2022
Subjects:
zooplankton
copepod
euphausiid
abundance
Calanus glacialis/marshallae
Calanus hyperboreus
Metridia longa
Thysanoessa raschii
Thysanoessa inermis
Beaufort Shelf
Beaufort Sea
Beluga
Beluga*
Calanus glacialis
Copepods
Online Access:https://doi.org/10.18739/A2Z60C357
Description
Summary:Atmospherically-forced wind-induced upwelling along the shelf break leads to enhanced feeding opportunities for intermediate links in the pelagic ecosystem that in turn sustain the exploitation of this environment by animals such as beluga, seabirds, and seals. The Beaufort Sea shelf break is a hotspot for upper trophic level animals because elevated numbers and biomass of large, high-energy zooplankton (e.g., lipid-rich copepods, euphausiids) are regularly upwelled from deeper water onto the shelf during winds from the east, retained there by frontal features when upwelling relaxes, and exploited by bowhead whales, seabirds, and forage fish that in turn are prey for piscivorous marine mammals, such as beluga whales. The zooplankton abundance data were collected to measure upwelling impacts to the Beaufort shelf break community structure. Data were acquired as part of the National Science Foundation (NSF)-funded project "The Importance of Shelf Break Upwelling to Upper Trophic Level Ecology in the Western Beaufort Sea". Data from net tows within the box 165 West (W) - 145 W, 69 North (N) - 72N between 30 August and 14 September 2017.

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