Document Type
Article
Department/Program
Virginia Institute of Marine Science
Publication Date
2022
Journal
Journal of Geophysical Research: Oceans
Volume
127
Issue
1
First Page
e2021JC017715
Abstract
The Mid-Atlantic Bight (MAB) hosts a large and productive marine ecosystem supported by high phytoplankton concentrations. Enhanced surface chlorophyll concentrations at the MAB shelf-break front have been detected in synoptic measurements, yet this feature is not present in seasonal means. To understand why, we assess the conditions associated with enhanced surface chlorophyll at the shelf break. We employ in-situ and remote sensing data, and a 2-dimensional model to show that Ekman restratification driven by upfront winds drives ephemerally enhanced chlorophyll concentrations at the shelf-break front in spring. Using 8-day composite satellite-measured surface chlorophyll concentration data from 2003–2020, we constructed a daily running mean (DRM) climatology of the cross-shelf chlorophyll distribution for the northern MAB region. While the frontal enhancement of chlorophyll is apparent in the DRM climatology, it is not captured in the seasonal climatology due to its short duration of less than a week. In-situ measurements of the frontal chlorophyll enhancement reveal that chlorophyll is highest in spring when the shelf-break front slumps offshore from its steep wintertime position causing restratification in the upper part of the water column. Several restratification mechanisms are possible, but the first day of enhanced chlorophyll at the shelf break corresponds to increasing upfront winds, suggesting that the frontal restratification is driven by offshore Ekman transport of the shelf water over the denser slope water. The 2-dimensional model shows that upfront winds can indeed drive Ekman restratification and alleviate light limitation of phytoplankton growth at the shelf-break front.
DOI
doi: 10.1029/2021JC017715
Publication Statement
© 2021. American Geophysical Union.
Recommended Citation
Oliver, H.; Zhang, W. G.; Hirzel, K. M.; Smith, Walker O. Jr.; and et al, Ephemeral Surface Chlorophyll Enhancement at the New England Shelf Break Driven by Ekman Restratification (2022). Journal of Geophysical Research: Oceans, 127(1), e2021JC017715.
doi: 10.1029/2021JC017715
