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Agulhas Bank Boundary Processes (2)
Agulhas System Climate Array (ASCA) (8)
Anchovy Recruitment Survey (16)
Benguela Current Sources and Transport (BEST 1) (2)
Bio-optical Investigation of Phytoplankton (15)
Conservation Physiology Programme (155)
Gliders in the Agulhas (GINA) (13)
Gough Island Relief (23)
Horse Mackerel Hydroacoustic Pilot Survey (2)
Horse Mackerel Hydroacoustic Survey (2)
Hybrid Coordinate Ocean Model (HYCOM) (1)
Integrated Ecosystem Programme: Southern Benguela (IEP: SB) (124)
International Indian Ocean Expedition 2 (IIOE2) (10)
Long-term monitoring of nearshore temperatures around Southern Africa (872)
Marion Island Relief Voyage (61)
National Coastal Climate Change Vulnerability Assessment (5)
Pelagic Pre-Recruit Mesopelagic Biomass Survey (4)
Port St Johns CTD and Bathymetry Survey (1)
Shelf Circulation Patterns off Port Edward (40)
South African National Antarctic Expedition (SANAE) (32)
South Atlantic Meridional Overturning Circulation (SAMOC-SA) (286)
South Atlantic Meridional Overturning Circulation Basin-wide Array (SAMBA) (24)
South Coast Demersal Biomass Survey (11)
South Coast Moorings and Monitoring Lines Cruise (23)
Southern Ocean Seasonal Cycle Experiment (SOSCEx) (11)
Underwater Temperature Recorder Mooring Network (2)
Walters Shoal (4)
Weather stations (13)
West Coast Cetacean Distribution and Abundance Survey (15)
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Winter Cruise (7)
ANTARCTICA (23)
GOUGH ISLAND (23)
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SOUTH ATLANTIC OCEAN (937)
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PIES (73)
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UTR (870)
XBT (34)
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 8, April 2017 - October 2018
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterize the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (49.73 - 577.73m) from...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 8, December 2015 - April 2017
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterise the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (66.90 - 594.90m) from...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 8, September 2014 - December 2015
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterise the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (60.14 - 588.14m) from...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 7, April 2017 - October 2018
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterize the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (53.97 - 581.97m) from...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 7, December 2015 - April 2017
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterise the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (64.56 - 576.568m)...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 7, September 2014 - December 2015
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterise the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (53.88 - 581.88m) from...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 4, April 2017 - October 2018
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterize the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (27.77 - 291.77m) from...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 4, December 2015 - April 2017
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterize the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (26.39 - 290.39m) from...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 4, July - December 2014
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterize the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (43.49 - 291.49m) from...
Long-term observations of hourly currents along the SAMBA transect at SAMBA Mooring 3, July - December 2014
The South African component of the international South Atlantic Meridional Overturning Circulation project (SAMOC-SA) aims to characterize the time-mean and time-varying components of the SAMOC in the South Atlantic Ocean and monitor the variability of the main Southern Ocean frontal systems associated with the Antarctic Circumpolar Current (ACC), south of Africa. Here we present processed magnitude and direction of hourly currents in the upper part of the water column (26.75 - 266.75m) from...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, South Africa, 13 November 2019 to 12 April 2020
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Seawater temperature in the microhabitats of intertidal marine invertebrates in Sea Point, South Africa, 13 March to 12 April 2020
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, South Africa, 21 September to 12 November 2020
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 4 April to 9 May 2023
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 27 February to 4 April 2023
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 27 January to 27 February 2023
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 28 December 2022 to 27 January 2023
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 27 October to 28 December 2022
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 28 September to 27 October 2022
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 01 August to 28 September 2022
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 30 June to 01 August 2022
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 01 to 30 June 2022
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 14 April to 01 June 2022
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 18 March to 14 April 2022
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 01 February to 18 March 2022
To better understand the physiological effects of marine invertebrates to changing environmental conditions, long-term monitoring which captures the natural variability of environmental parameters is required. In this way, experimental findings can be related back to field conditions, and better predictions can be made as to how marine invertebrates, particularly in the harsh intertidal, will fair with rising temperature. In May 2020, Cape Sea Urchins, Parechinus angulosus, were collected...