An anomalous near-bottom cross-shelf intrusion of slope water on the southern New England continental shelf

D. S. Ullman,C. R. Kincaid,A. Pfeiffer-Herbert,D. L. Codiga

doi:10.1002/2013jc009259

D. S. Ullman, C. R. Kincaid + Show 2 more

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https://doi.org/10.1002/2013jc009259

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Abstract

Hydrographic surveys and moored observations in Rhode Island Sound (RIS) in water depths of 30–50 m, off the southern New England coast, revealed a near-bottom intrusion of anomalously warm and saline water in late fall 2009. The properties of this water mass, with peak salinity of nearly 35, are typical of slope water that is normally found offshore of the shelfbreak front, located approximately 100 km to the south. The slope water intrusion, with a horizontal spatial scale of about 45 km, appears to have been brought onto the outer shelf during the interaction of a Gulf Stream warm core ring with the shelfbreak east (upshelf) of RIS. The along-shelf transport rate of the intrusion can be explained as due to advection by the mean outer-shelf along-isobath current, although the transit time of the intrusion is also consistent with the self-advection of a dense bolus on a sloping shelf. The mechanism responsible for the large onshore movement of the intrusion from the outer shelf is not entirely clear, although a wind-driven upwelling circulation appeared to be responsible for its final movement into the RIS region. Depth-averaged salinity at all RIS mooring sites increased by 0.5–1 over the 3–4 week intrusion period suggesting that the intrusion mixed irreversibly, at least partially, with the ambient shelf water. The mixing of the salty intrusion over the shelf indicates that net cross-isobath fluxes of salt and other water properties have occurred.

Highlights

The shelfbreak front in the Mid-Atlantic Bight (MAB) separates cooler, less saline shelf water from warmer, more saline slope water and is a typical feature on buoyancy-influenced continental shelves worldwide
The near-bottom intrusion observed in the Rhode Island Sound (RIS) region during late autumn 2009 had salinity that was roughly 1 salinity unit higher than had ever been observed in the historical record in that region
The spatial scale of the intrusion was estimated to be at least 45 km and it was present in the mooring region for 3–4 weeks, after which it appeared to retreat

Summary

Introduction

The shelfbreak front in the Mid-Atlantic Bight (MAB) separates cooler, less saline shelf water from warmer, more saline slope water and is a typical feature on buoyancy-influenced continental shelves worldwide. The MAB shelfbreak front is a water mass boundary, the increase in MAB shelf water salinity as it moves equatorward through the Bight [Wright and Parker, 1976] and salt balance calculations indicate that significant exchange across the front occurs [Wright, 1976]. This cross-frontal exchange is suggested by observations of parcels or streamers of shelf water offshore of the front [Wright, 1976; Churchill et al, 1986; Garfield and Evans, 1987] and by observations of slope water parcels or filaments inshore of the shelfbreak. In all of the above documented cases of near-bottom slope water intrusions in the MAB, the onshore displacement of the slope water was in the range of 10–30 km

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