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To better understand and manage the intricate ecosystem off the Northeast U.S. coast, the National Science Foundation has announced the selection of this critical ocean region for a new Long Term Ecological Research (LTER) site led by WHOI.
A new multiyear study from scientists at WHOI has shown for the first time how changes in ocean temperature affect a key species of phytoplankton.
Just as crocus and daffodil blossoms signal renewal and the start of a warmer season on land, a similar "greening" event—a massive phytoplankton bloom—unfolds each spring in the Atlantic Ocean from Bermuda to the Arctic. But, what happens to all that organic material produced in the surface ocean?
Scientists from the WHOI, University of Washington, and University of Maine are combining models with data from a flotilla of high-tech robots to shed new light on life-sustaining phytoplankton, including when their spring bloom begins and the role that small-scale eddies play in promoting their growth.
A team of researchers, including scientists from the Woods Hole Oceanographic Institution (WHOI), discovered a massive bloom of phytoplankton beneath ice-covered Arctic waters. Until now, sea ice was thought to block sunlight and limit the growth of microscopic marine plants living under the ice.
Studying algal cultures and seawater samples from the Southern Ocean off Antarctica, a team of researchers from Woods Hole Oceanographic Institution and the J. Craig Venter Institute have revealed a key cog in the biochemical machinery that allows marine algae at the base of the oceanic food chain to thrive. They have discovered a previously unknown protein in algae that grabs an essential but scarce nutrient out of seawater, vitamin B12.
A Woods Hole Oceanographic Institution (WHOI) scientist, analyzing ancient plankton DNA signatures in sediments of the Black Sea, has found for the first time that the same genetic populations of a virus and its algal host can persist and coexist for centuries. The findings have implications for the ecological significance of viruses in shaping algae ecosystems in the ocean, and perhaps fresh water as well.
Woods Hole Oceanographic Institution (WHOI) researchers have filled an important gap in the study of tunicate evolution by genetically sequencing 40 new specimens of thaliaceans, a gelatinous type of tunicate. Their study was featured on the cover of the June issue of the Journal of Plankton Research.
A chemical culprit responsible for the rapid, mysterious death of phytoplankton in the North Atlantic Ocean has been found by collaborating scientists at Rutgers University and the Woods Hole Oceanographic Institution (WHOI). This same chemical may hold unexpected promise in cancer research.
A newly published paper by ocean scientists shows that airborne particles off the continents can have deadly effect on some marine phytoplankton. The findings have implications for atmospheric carbon dioxide levels and climate.
Get ready to send the biology textbooks back to the printer. In a new paper published in Nature, Benjamin Van Mooy, a geochemist with the Woods Hole Oceanographic Institution (WHOI) and his colleagues report that microscopic plants growing in the Sargasso Sea have come up with a completely unexpected way of building their cells.
A research team led by Dennis McGillicuddy of the Woods Hole Oceanographic Institution has shown that episodic, swirling current systems known as eddies act to pump nutrients up from the deep ocean to fuel such blooms.
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