Ocean heat content variability analysis in the Brazil Current recirculation gyre

The primary goal of the proposed internship will be to understand the interannual variability of the western boundary current in the subtropical South Atlantic Ocean (Brazil Current) observing the ocean heat content and mixed layer depth in this region, and its relations to the recirculation gyre. A...

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Bibliographic Details
Main Author: Webber, Vinicius
Format: Other/Unknown Material
Language:unknown
Published: Scholarly Repository 2015
Subjects:
currents
gyre
altimeter
Environmental Sciences
South Atlantic Ocean
Online Access:https://scholarlyrepository.miami.edu/rsmas_intern_reports/53
https://scholarlyrepository.miami.edu/cgi/viewcontent.cgi?article=1052&context=rsmas_intern_reports
Description
Summary:The primary goal of the proposed internship will be to understand the interannual variability of the western boundary current in the subtropical South Atlantic Ocean (Brazil Current) observing the ocean heat content and mixed layer depth in this region, and its relations to the recirculation gyre. A complementary focus will be to determine through temporal series analysis of extreme events or relevant anomalies in the western South Atlantic region. To accomplish this goal, we will use a synthesis of in-situ and satellite (e.g., altimeter) oceanographic data. The collection of data from the AX97 XBT transect that crosses the South Atlantic Ocean at the 22°S, and is carried out in partnership between NOAA/AOML and FURG/Brazil, will be an important resource for the study. Another goal expected with this internship will be to learn how to work with a large amount of oceanographic data, and how to use a software to process and visualize this data. This will be very important for foster my future career. Information obtained with this research will provide a better understanding for the Brazil Current variability and therefore a better climate predictability for the region. In addition, this work will contribute to the multi-institutional collaboration between NOAA/AOML, University of Miami/RSMAS, and the Brazilian universities FURG and UFRJ. Information obtained with this research will provide a better understanding for the Brazil Current variability and therefore a better climate predictability for the region. In addition, this work will contribute to the multi-institutional collaboration between NOAA/AOML, University of Miami/RSMAS, and the Brazilian universities FURG and UFRJ.

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