Drifter (floating device)


A drifter is an oceanographic device floating on the surface to investigate ocean currents and other parameters like temperature or salinity. Modern drifters are typically tracked by satellite, often GPS. They are sometimes called Lagrangian drifters since the location of the measurements they make moves with the flow. A major user of drifters is the Global Drifter Program.

Construction principle

The major components of a drifter include surface floats for buoyancy, underwater drogues to ensure the drifter follows the movements of the water and is unaffected by wind, instruments, and waterproof containers for instruments. Drifters are a technological evolution of ocean current analysis historically performed through drift bottle experiments, which in turn were built on the principle of a message in a bottle.

Applications

Physical oceanography

Drifters provide real-time information about ocean circulation. They make more accurate and frequent observations of surface current velocity than is possible from remote sensing measurements.

Biological oceanography

Drifters are frequently used to collect information on biological oceanography, such as transport of organisms.
Lagrangian drifters may be chosen over more Eulerian-type seagliders for biological research when the advective effects, or influence of mixing water, is to be minimized. See Lagrangian and Eulerian specification of the flow field. Drifters are meant to follow a water parcel as it moves rather than measuring water properties in a specific area. They are generally sent to depth at a specific isopycnal, or line of constant density, before beginning measurements. This depth is usually below the influence of surface winds and mixing. Drifters are used to show the specific water parcel changed over time while gliders which move independently over the water can give larger spatial context.
An example of drifters being used is the North Atlantic Bloom experiment looking at physical and biological process in phytoplankton blooms. Dissolved compounds and nutrients, such as O2, NO3, and particulate organic carbon, change within a bloom on various temporal and spatial scales. The drifter measured these compounds, and because drifters are “patch-following”, the influence of water mixing was minimized. Any changes to these oxygen and nutrient levels can be considered ‘internal’ to the water parcel and likely a result of processes such as photosynthesis or respiration that occurred within the parcel itself.

Types