Please note: You are viewing the unstyled version of this website. Either your browser does not support CSS (cascading style sheets) or it has been disabled. Skip navigation.

Ocean Microscope Reveals Surprising Abundance of Life

Widespread bacterial colonies may play crucial role in ocean ecosystem

  Email    Print  PDF  Change text to small (default) Change text to medium Change text to large

Enlarge Image

WHOI scientists Dennis McGillicuddy (left) of the Applied Ocean Physics and Engineering Department and Cabell Davis of the Biology Department collaborated to tow an automated digital underwater microscope called a Video Plankton Recorder (VPR) across the Atlantic Ocean. (Photo by Tom Kleindinst, Woods Hole Oceanographic Institution)


Enlarge Image

Using the VPR, scientists found surprising abundances of cyanobacterium, such as Trichodesmium thiebautii, which form spherical colonies often called "puffs." (Photo by John Waterbury, Woods Hole Oceanographic Institution)


Enlarge Image

A collage of images of Trichodesmium collected by the Video Plankton Recorder. The cyanobacteria form tiny colonies of spiky balls called ?puffs? (bottom) or elongated rafts called ?tufts? (top). (Courtesy of Cabell Davis, Woods Hole Oceanographic Institution)


Related Multimedia
Launching the Video Plankton Recorder
The Video Plankton Recorder (VPR) is an underwater video microscope system that that takes images of plankton and particulate matter as small as 50 microns and up to a few centimeters in size.
Video by Andrew Girard, Woods Hole Oceanographic Institution
Launching the Video Plankton Recorder

Related Links

» Cyanobacteriology at WHOI

» The Video Plankton Recorder
from the WHOI Ocean Instruments Web site

» Transatlantic Abundance of N2-Fixing Colonial Cyanobacterium
from Science magazine

» Getting a Better Picture of the Ocean's Nitrogen Budget
from Science magazine

» Cruise Track of the R/V Knorr

» Dennis McGillicuddy's Homepage

» Cabell Davis

Source: Oceanus Magazine

Towing an underwater video microscope across the Atlantic Ocean, two scientists found unexpected abundances of colonial cyanobacteria that fertilize the oceans with nitrogen. The bacteria may turn out to be “a crucial component” that stimulates the growth of plants and animals in vast ocean regions that might otherwise be nearly barren, they reported in the June 9, 2006, issue of the journal Science.

Just like plants on land, microscopic marine plants at the base of the food chain require nitrogen to grow. But the source of nitrogen, especially in the open ocean far from coastal waters fed by runoff from rivers and land, “represents one of the most intriguing conundrums in oceanography,” Zbigniew Kolber, a research engineer at Monterey Bay Aquarium Research Institute, wrote in Science. Two scientists at Woods Hole Oceanographic Institution (WHOI) “decided to have another ‘look’ at this problem, literally,” he wrote.

Cabell Davis of the Biology Department and Dennis McGillicuddy of the Applied Ocean Physics and Engineering Department towed a device called the Video Plankton Recorder (VPR) behind the WHOI-operated research vessel Knorr from the Azores almost back to Woods Hole. It remained in the water 24 hours a day, taking digital photographs 30 times per seconds as it undulated from the surface to depths of 425 feet (130 meters).

“It was the VPR’s longest tow, more than 5,500 kilometers (nearly 3,000 nautical miles), but slow—like driving a lawnmower across country at 12 knots,” Davis said.

The VPR images showed unexpected widespread populations of Trichodesmium, bacteria that were formerly (and inaccrately) known as blue-green algae. They form tiny colonies of golden-brown spiky balls (called “puffs”) or reddish rafts (called “tufts”). The fragile colonies, 1 to 3 millimeters in diameter, are visible to the eye, but are not easy to collect or count because they tend to break apart when handled.

The VPR gave scientists the ability to look observe and count Trichodesmium in a non-invasive way. Davis and McGillicuddy found that Trichodesmium live not only at the surface, as scientists previously thought, but throughout the region where light penetrates the ocean. They estimated that Trichodesmium were two to three times more abundant than previously believed.
 
Trichodesmium thrive in waters that are low in nutrients because of their ability to use molecular nitrogen (N2) found in air and water. They incorporate it into nitrogenous compounds that other organisms can use. (Plants that do this, such as alfalfa, are used as “green fertilizer” to add useable nitrogen to soil.)

“If traditional sampling has underestimated colonies in other regions of the world, estimates of global Trichodesmium abundance will increase dramatically, changing our perception of the importance of this organism to the productivity of the world ocean,” Davis said.

In July, Davis and McGillicuddy towed the VPR behind Knorr to survey Trichodesmium abundance, this time through the Caribbean Sea.

The project was supported by the Richard B. Sellars Endowed Research Fund, the Andrew W. Mellon Foundation Endowed Fund for Innovative Research, the WHOI Ocean Life Institute, the National Science Foundation, and the National Aeronautics and Space Administration.



Originally published: July 25, 2006

Last updated: August 28, 2013
 


whoi logo

Copyright ©2007 Woods Hole Oceanographic Institution, All Rights Reserved, Privacy Policy.
Problems or questions about the site, please contact webdev@whoi.edu
Contact | Site Map | Support WHOI Research
WHOI Facebook WHOI You TubeWHOI Twitter