+

Cookies on the Business Insider India website

Business Insider India has updated its Privacy and Cookie policy. We use cookies to ensure that we give you the better experience on our website. If you continue without changing your settings, we\'ll assume that you are happy to receive all cookies on the Business Insider India website. However, you can change your cookie setting at any time by clicking on our Cookie Policy at any time. You can also see our Privacy Policy.

Close
HomeQuizzoneWhatsappShare Flash Reads
 

The Crazy Colors In This Amazing Photo Of The Ocean Are Caused By Tiny Organisms

Dec 13, 2014, 01:43 IST

Advertisement

Late spring and summer weather brings blooms of color to the Atlantic Ocean off of South America, at least from a satellite view.

The Patagonian Shelf Break is a biologically rich patch of ocean where airborne dust from the land, iron-rich currents from the south, and upwelling currents from the depths provide a bounty of nutrients for the grass of the sea-phytoplankton. In turn, those floating sunlight harvesters become food for some of the richest fisheries in the world.

The Visible Infrared Imaging Radiometer Suite (VIIRS) on Suomi NPP captured this view of phytoplankton-rich waters off of Argentina on December 2, 2014. Scientists in NASA's Ocean Color Group used three wavelengths (671, 551, and 443 nanometers) of visible and near-infrared light to highlight different plankton communities in the water.

Bands of color not only reveal the location of plankton, but also the dynamic eddies and currents that carry them.

Advertisement

The aquamarine stripes and swirls are likely coccolithophores, a type of phytoplankton with microscopic calcite shells that can give water a chalky color. The various shades of green are probably a mix of diatoms, dinoflagellates, and other species.

Previous ship-based studies of the region have shown that Emiliania huxleyicoccolithophores and Prorocentrum sp. dinoflagellates tend to dominate. Scientists are working to identify types of phytoplankton from satellites images; hyperspectral imagers planned for future satellite missions should make that easier.

Blooms occur off of Patagonia because warmer, saltier waters from the subtropics meet the colder, fresher waters flowing up from the south. These currents collide along what oceanographers call a shelf-break front, a turbulent area of vertical and horizontal mixing on the edge of the continental shelf. The eddies and swirls in this region mix the waters and pull nutrients up from the deep ocean.

The Patagonian Shelf Break lies on the northern edge of a region that some scientists refer to as the "great southern coccolithophore belt" or the "great calcite belt."

From November to March of each year, satellite instruments detect an abundance of particulate inorganic carbon in far southern waters. That carbon signal often comes from the calcium carbonate of coccolithophores.

Advertisement
  1. Related Reading

  2. Balch, W.M. et al (2014) Surface biological, chemical, and optical properties of the Patagonian Shelf coccolithophore bloom, the brightest waters of the Great Calcite Belt. Limnology and Oceanography, 59, (5), 1715-1732.
  3. Garcia, V.M.T., et al (2008). Environmental factors controlling the phytoplankton blooms at the Patagonia shelf-break in spring. Deep-Sea Research I, 55, (9), 1150-1166.
  4. NASA Earth Observatory (2013, October 22) Something Fishy in the Atlantic Night.
  5. NASA Earth Observatory (2010, January 31). Patagonian Bloom.
  6. NASA Earth Observatory (2010, July 13) What are Phytoplankton?
  7. Painter, S.C., et al (2010). The COPAS'08 expedition to the Patagonian Shelf: Physical and environmental conditions during the 2008 coccolithophore bloom. Continental Shelf Research, 30 (18), 1907-1923.

NASA images by Norman Kuring, NASA's Ocean Color Group, using VIIRS data from the Suomi National Polar-orbiting Partnership. Suomi NPP is the result of a partnership between NASA, the National Oceanic and Atmospheric Administration, and the Department of Defense. Caption by Michael Carlowicz, with Norman Kuring.

More from NASA Earth Observatory:

You are subscribed to notifications!
Looks like you've blocked notifications!
Next Article