Invisible helpers of the sea: Marine bacteria boost growth of tiny ocean algae

Invisible helpers of the sea: Marine bacteria boost growth of tiny ocean algae
Diatoms are intricate, often beautiful single-celled algae. The Pseudo-nitzschia multiseries look like simple rods and carry out photosynthesis throughout the world's oceans. Credit: California Academy of Sciences / Flickr

A glass of seawater is teeming with life, and recent research reveals more about what ocean water contains. Microscopic creatures in the world's oceans weigh more than all of the fish in the sea and produce about half of the Earth's oxygen.

Yet the ecology of , which are crucial for everything from absorbing carbon dioxide from the air to regulating the productivity of major fisheries, are only beginning to be understood.

In a step to understanding this hidden world, University of Washington oceanographers have found that diatoms—the intricately patterned single-celled algae that exist throughout the world's oceans—grow faster in the presence of that release a known to benefit land plants. The study, published online May 27 in Nature, uses genetic and molecular tools to discover what controls marine ecosystems.

"These very are interacting with their environment, but they're also interacting with other organisms," said co-author Ginger Armbrust, a UW professor of oceanography. "In my mind, in order to understand how future ecosystems will work, we need to understand how these organisms that are the basis of the marine food web interact with one another."

Armbrust's research group has long studied diatoms, which are microscopic algae that carry out one fifth of the planet's photosynthesis, more than all the terrestrial rainforests combined. Lab members began this project by looking at which bacteria were found in all samples of Pseudo-nitzschia multiseries, a common coastal diatom collected from five places throughout the northern Pacific and Atlantic Oceans. Next they cured the water samples of all bacteria living in the seawater, and found that the diatoms did not reproduce as well.

Co-author Shady Amin, a former UW postdoctoral researcher now on the faculty at New York University Abu Dhabi, added the bacteria common to all five samples back one at a time. One type, Sulfitobacter, sped up the growth dramatically when added back at a high enough concentration.

Invisible helpers of the sea: Marine bacteria boost growth of tiny ocean algae
Black circles and triangles show the growth of diatoms collected from Golden Gardens in Seattle and Penn Cove on Whidbey Island, respectively. White circles and triangles are those same populations with the addition of sulfitobacter. Credit: V. Armbrust / Univ. of Washington

The authors showed that these bacteria exchange material with the diatoms while in turn producing auxin, a well-known hormone made by microbes living around the roots of .

"The back-and-forth exchange of materials between these tiny creatures resembles an ongoing dialogue between two that culminates in the production of auxin," Amin said. "It was so fascinating that we wondered if we could see this behavior elsewhere."

Next, researchers went to sea and adopted some high-tech tools. Having shown what happens in the lab, they collected other ocean samples and found the same growth hormone. Then they used new genetic techniques to detect the activity of marine microbes—famously difficult to raise in captivity—that would never survive the transition to the lab. The same interaction was taking place, especially along coasts, but between different organisms that cannot be transferred to the lab.

"We're just at a place as a field where we recognize that there may be very specific interactions between marine microbes," Armbrust said. "Don't ask me how many comparable interactions are out there. I have no idea. I can only imagine that there's lots. And we've grabbed one of them."

She predicts that more such interactions will help to explain how ocean waters become or stay productive, or how the base of the might shift in a changing climate.

"A lot of the high-powered tools that look at the function of individual cells were developed in the medical world," Armbrust said. "Now that we can apply them to the ocean, we are starting to pull the curtains back on how this hidden world works."

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More information: Interaction and signaling between a cosmopolitan phytoplankton and associated bacteria, Nature, DOI: 10.1038/nature14488
Journal information: Nature

Citation: Invisible helpers of the sea: Marine bacteria boost growth of tiny ocean algae (2015, May 27) retrieved 7 March 2021 from
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