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Matt Resteck and Ken Buesseler deploying a sediment trap.
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Matt Resteck and Ken Buesseler deploying a sediment trap.
Matt Resteck and Ken Buesseler deploying a sediment trap.
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Santoro, Alyssa
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Matt Resteck and Ken Buesseler deploying a sediment trap.
Matt Resteck and Ken Buesseler deploying a sediment trap.
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08/15/2018
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Santoro_Ken_Matt deploying STT.jpeg
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Caption from Oceanus magazine, Vol. 55, No. 2, Pg. 6: The ocean’s ‘biological pump’ captures more carbon than expected. Every year the ocean erupts in a bloom of phytoplankton that plays a major role in capturing carbon from the atmosphere. The organisms consume carbon dioxide and emit oxygen through the process of photosynthesis. When the phytoplankton die, their carbon-rich bodies sink down in the ocean, where they are eaten or buried. A study by WHOI geochemist Ken Buesseler and a group of international researchers demonstrated that this carbon capture process takes place over a much greater area than previously believed, as the depth where photosynthesis occurs varies greatly throughout the ocean. The team used sensors detecting the presence of phytoplankton to measure the depth of the sunlit zone. With this method, the authors calculated that nearly twice as much carbon sinks into the ocean each year than previously estimated. Caption from WHOI News Release, 04/06/2020: Marine chemist Ken Buesseler (right) deploys a sediment trap from the research vessel Roger Revelle during a 2018 expedition in the Gulf of Alaska. Buesseler's research focuses on how carbon moves through the ocean. Buesseler and co-authors of a new study found that the ocean's biological carbon pump may be twice as efficient as previously estimated, with implications for future climate assessments. Image Of the Day caption: Marine chemist Ken Buesseler (right) deployed a sediment trap from the research vessel Roger Revelle in the fall of 2018 during the EXPORTS expedition in the Gulf of Alaska. EXPORTS (Export Processes in the Ocean from Remote Sensing) is a NASA-funded program to provide insight into the role of the upper ocean in Earth's carbon cycle and climate system using both satellite and ship-based observations and data-gathering. In addition to being a member of the EXPORTS science team, Buesseler is also a part of WHOI's Ocean Twilight Zone initiative, which aims to explore the little-known part of the ocean from 200 to 1,000 meters.
Caption from Oceanus magazine, Vol. 55, No. 2, Pg. 6:
The ocean’s ‘biological pump’ captures more carbon than expected.
Every year the ocean erupts in a bloom of phytoplankton that plays a major role in capturing carbon from the atmosphere. The organisms consume carbon dioxide and emit oxygen through the process of photosynthesis. When the phytoplankton die, their carbon-rich bodies sink down in the ocean, where they are eaten or buried. A study by WHOI geochemist Ken Buesseler and a group of international researchers demonstrated that this carbon capture process takes place over a much greater area than previously believed, as the depth where photosynthesis occurs varies greatly throughout the ocean. The team used sensors detecting the presence of phytoplankton to measure the depth of the sunlit zone. With this method, the authors calculated that nearly twice as much carbon sinks into the ocean each year than previously estimated.
Caption from WHOI News Release, 04/06/2020:
Marine chemist Ken Buesseler (right) deploys a sediment trap from the research vessel Roger Revelle during a 2018 expedition in the Gulf of Alaska. Buesseler's research focuses on how carbon moves through the ocean. Buesseler and co-authors of a new study found that the ocean's biological carbon pump may be twice as efficient as previously estimated, with implications for future climate assessments.
Image Of the Day caption:
Marine chemist Ken Buesseler (right) deployed a sediment trap from the research vessel Roger Revelle in the fall of 2018 during the EXPORTS expedition in the Gulf of Alaska. EXPORTS (Export Processes in the Ocean from Remote Sensing) is a NASA-funded program to provide insight into the role of the upper ocean in Earth's carbon cycle and climate system using both satellite and ship-based observations and data-gathering. In addition to being a member of the EXPORTS science team, Buesseler is also a part of WHOI's Ocean Twilight Zone initiative, which aims to explore the little-known part of the ocean from 200 to 1,000 meters.
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© Shane Gross/Greenpeace
© Woods Hole Oceanographic Institution
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Courtesy of National Aeronautics and Space Administration
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Illustration by Eric S. Taylor, WHOI Creative
Illustration by Jack Cook
Illustration by Jayne Doucette
Illustration by Natalie Renier, WHOI Creative
Marine Imaging Technologies, LLC © Woods Hole Oceanographic Institution
Photo by Amy Apprill
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Photo by Alyssa Santoro
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Credit: Universal Images Group North America LLC / Alamy Stock Photo
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Image courtesy of NOAA Ocean Exploration, Deep Connections 2019.
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etaylor: Oceanus magazine, Vol. 55, No. 2, Pg. 6 ehugus: news release, 04/06/2020 jdoucette: Image Of the Day, 01/11/2019
etaylor: Oceanus magazine, Vol. 55, No. 2, Pg. 6
ehugus: news release, 04/06/2020
jdoucette: Image Of the Day, 01/11/2019
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EXPORTS - Export Processes in the Ocean from Remote Sensing (NASA)
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Revelle, Roger R. D.
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