The Drop Cam Project – An Exploration Science Initiative (DAY 1 )
The University of Miami’s Rosenstiel School of Marine and Atmospheric Science and the Abess Center for Ecosystem Science and Policy, in collaboration with the National Geographic Society, has created a new “Exploration Science™” Program.
The Drop Cam Project is among the first collaborative efforts of the program. The goal of this project is to characterize the nocturnal species distribution and potential interactions along a vertical depth gradient spanning from the surface down to 2000 ft.
The largest migration on earth is that of the plankton that moves from the depths of the ocean to the surface at night. Following the plankton is a chain of species taking advantage of this pulse in resources. However, the night-time distribution of species relative to one another along this depth gradient remains poorly understood. Along this gradient there is potential for unique predator-prey interactions among the different species. The objectives of this project are to (1) identify the night-time species assemblages, (2) describe their vertical distribution and (3) explore their potential predator-prey interactions along a depth gradient from the surface down to 2000 ft deep.
For this project, the latest underwater video technology in ocean exploration will be utilized. These drop cameras are self-contained, autonomous, units that are able to regulate their own depth using a specialized bladder system. The drop cams are programmed to move and record throughout the water column without any tethers. The use of lights and reflectors allow the cameras to capture video at night.
The core field team is made up of:
- Eric Berkenpas – National Geographic
- Alan Turichik – National Geographic
- Brad Henning – National Geographic
- Neil Hammerschlag – University of Miami
The first day of the expedition was used for testing the gear. The day started at 6 am. The team went offshore to deploy the drop cams. However, the swells and choppy seas forced the team to go back to the dock and test the gear at the marina. The day was spent working to get the buoyancy system dialed in. A mistake in the buoyancy can result in the cameras failing to sink, but even worse, failing to ascend to the surface from depth. Losing a camera would not only be detrimental to the project, but would also be a huge hit to National Geographic. The cameras are extremely expensive and are a result of thousands of hours of brainstorming, engineering, building, programming and testing.
Stay tuned for day 2.