Name: Raw CTD data from Port St Johns Conductivity Temperature Depth (CTD) and Bathymetry Survey on Algoa Voyage 198, May 2013
License: https://creativecommons.org/licenses/by-sa/4.0/

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Title	Raw CTD data from Port St Johns Conductivity Temperature Depth (CTD) and Bathymetry Survey on Algoa Voyage 198, May 2013
Project	Port St Johns CTD and Bathymetry Survey
Authors	Oceans and Coastal Research Department of Forestry, Fisheries and the Environment (DFFE) 2nd Floor, Foretrust Building, 1 Martin Hammerschlag Way, Cape Town, South Africa
Publisher	Department of Forestry, Fisheries and the Environment (2017)
Contributors	Contact Person: Marcel van den Berg Oceans and Coastal Research, Department of Forestry, Fisheries and the Environment (DFFE) Scientific Technician 2nd Floor, Foretrust Building, 1 Martin Hammerschlag Way, Cape Town, South Africa, marcel@oceanafrica.com
Abstract	Raw Conductivity, Temperature, Depth (CTD) data from Port St Johns Conductivity, Temperature, Depth (CTD) and Bathymetry Survey on Algoa Voyage 198, 8 May - 13 May, 2013. This cruise has two scientific objectives: (1) to investigate the dynamics of the Port St. Johns eddy and biological implications and (2) to investigate the existence of mesoscale eddies in the Agulhas Current. In the case of the former, Oceans & Coasts was asked to provide input to the recent spate of shark attacks off Port St. Johns. Very little is known about the oceanography except that Roberts et al (2010) discovered during a cruise a lee-trapped cyclonic eddy off Port St. Johns that caused substantial slope upwelling. The cold upwelled water is nutrient-rich and appears to provide a biological pump to the local ecosystem. This cruise will deploy an ADCP in a depth of approximately 80 m to determine the frequency of appearance of this eddy coupled with Conductivity, Temperature, Depth (CTD) lines to measure the biological implications. In the case of the second objective - offshore mesoscale eddies interact strongly with the Agulhas Current, and have been shown to initiate the Natal Pulse, cause early retroreflections, and influence slope upwelling at Port Alfred. They also act as vectors carrying biological material to areas along their trajectory and therefore play a role in shaping biodiversity patterns. A recent study however using altimetry and VSP drifters indicates that mesoscale eddies from both Madagascar and the Mozambique Channel tend to move down the Agulhas Current on its offshore boundary, but that these eddies dissapate southwest of East London. On this cruise we investigated whether mesoscale eddies exist in the lower region of the Agulhas Current using in situ measurements. The results may have a profound impact on local altimetry processing and our understanding of the regional oceanography.
Methods	Raw data in their original format, as received from the instrument and unprocessed.
Data	Attribution-ShareAlike 4.0 International (CC BY-SA 4.0) Terms of use These data are made available with the express understanding that any such use will properly acknowledge the originator(s) and publisher and cite the accession numbers and/or associated Digital Object Identifiers. Anyone wishing to use these data should properly cite and attribute the data providers listed as authors in the metadata provided with each dataset. It is expected that all the conditions of the data license will be strictly honoured. Use of any material herein should be properly cited using the dataset’s persistent identifiers such as accession numbers and DOIs. I agree to the terms of use
Temporal extent	08 May 2013 – 13 May 2013
Geographic extent	Umkomaas, Port St. Johns, East Coast, South Africa North: -31.43 South: -31.89 West: 29.86 East: 29.97
Keywords	Algoa, Algoa 198, Conductivity, CTD, Depth, INDIAN OCEAN, Temperature
Related resources	This digital object is part of Port St Johns Conductivity Temperature Depth (CTD) and Bathymetry Survey on Algoa Voyage 198, May 2013 (10.15493/dea.mims.26052219)

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