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Conservation Physiology Programme (155)

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SOUTH ATLANTIC OCEAN (155)

155 datasets found Page 7 of 7
DOI: 10.15493/DEA.MIMS.06732023
Sun exposed temperature data from Sea Point, 03 January to 11 February 2021

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...

DOI: 10.15493/DEA.MIMS.06722023
Sun exposed temperature data from Sea Point, 02 December 2020 to 02 January 2021

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...

DOI: 10.15493/DEA.MIMS.06712023
Raw sun exposed temperature data from Sea Point, 02 December 2020 to 11 February 2021

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...

DOI: 10.15493/DEA.MIMS.06692023
Seawater temperature in the microhabitats of intertidal marine invertebrates in Sea Point, 02 December 2020 to 02 January 2021

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...

DOI: 10.15493/DEA.MIMS.06682023
Raw seawater temperature data from the long-term monitoring of the microhabitats of intertidal invertebrates in Sea Point, 02 December 2020 to 11 February 2021

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...

155 datasets found Page 7 of 7