[Eoas-seminar] Fwd: Fwd: FW: Title and abstract - correction, ZOOM ONLY
eoas-seminar at lists.fsu.edu
eoas-seminar at lists.fsu.edu
Fri Apr 22 10:40:32 EDT 2022
Sorry for the error, this seminar will ONLY be on zoom as the speaker
will be presenting remotely!
Please join us for an EOAS Colloquium on Friday Apr 29 at 3 pm over zoom:
Dr. Magdalena Andres, Woods Hole Oceanographic Institution
Title:
PEACH PIESs: Gulf Stream variability inferred from pressure-sensor
equipped inverted echo sounders (PIESs) as part of the Processes driving
Exchange at Cape Hatteras (PEACH) project
Abstract:
To better understand shelf-export mechanisms and the processes which
control the net shelf export along the eastern US, an observational
array was deployed near Cape Hatteras on the shelves and the neighboring
continental slopes spanning the Hatteras Front. These observations and a
hierarchy of numerical models comprise the National Science
Foundation-funded PEACH (Processes driving Exchange At Cape Hatteras)
Program.The /in situ/ observations from the 19-month deployment of
current- and pressure-sensor equipped inverted echo sounders (CPIESs)
along and across the Gulf Stream near Cape Hatteras capture spatial and
temporal variability where this western boundary current separates from
the continental margin. CPIESs’ records of acoustic travel time are used
to infer changes in thermocline depth /D/_T and Gulf Stream position.
Wave-like Gulf Stream meanders are observed where the Stream approaches
the separation location with periods less than 15 days, wavelengths less
than 500-km, and phase speeds between 40-70 km d^-1 . Though meander
amplitude decreases by 30% on the final approach to Cape Hatteras, some
signals are still coherent across the Gulf Stream separation location.
Temporal variability in meander intensity may be related to the Loop
Current ~1400 km upstream. Mesoscale variability is strongest downstream
of the separation location where Gulf Stream position is no longer
constrained by the steep continental slope.Low frequency transport
changes in the Florida Straits are correlated with SSH gradients along
the entire South Atlantic Bight (SAB) and with /D/_T inferred at the
CPIES sites. The correlations with /D/_T are likely due to coherent
transport anomalies in the Gulf Stream approaching the separation
location which then drive Gulf Stream position changes downstream of the
separation location. The patterns of coherent transport anomalies may be
reflect large-scale atmospheric forcing patterns or rapid equatorward
propagation of barotropic signals along the SAB.
Time: Apr 29, 2022 03:00 PM Eastern Time (US and Canada)
Join Zoom Meeting
https://fsu.zoom.us/j/93904494849
Meeting ID: 939 0449 4849
--
Amy Baco-Taylor, PhD
Professor
Earth, Ocean, and Atmospheric Sciences
Florida State University
(850) 645-1547
abacotaylor at fsu.edu
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