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Neutrally Buoyant Sediment Trap surface float is located.
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Neutrally Buoyant Sediment Trap surface float is located.
Neutrally Buoyant Sediment Trap surface float is located.
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525165
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R/V Roger Revelle crew member
Title
Neutrally Buoyant Sediment Trap surface float is located.
Neutrally Buoyant Sediment Trap surface float is located.
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Date
08/13/2005
File name
Needle in Haystack_C.jpg
Notes
Caption from Oceanus magazine, Vol. 45, No. 2, Pg. 15: When a Neutrally Buoyant Sediment Trap surfaces after a three- to five-day particle-collecting mission in the ocean depths, “only its orange cap is visible, about the size of a 2-liter bottle of Coke,” said Jim Valdes, an engineer at WHOI, “a proverbial needle in a haystack.” “Couple this with a 6- to 10-foot swell and a wind of 35 or more knots producing whitecaps and blowing water, and you’ll have some idea of how daunting a task finding an NBST can be,” he said. “The engineers at Woods Hole, with years of seagoing experience, designed a number of recovery aids into our NBST s,” Valdes said. “They knew that locating an NBST after deployment would not be trivial.” Scientists use an Acoustic Doppler Current Profiler onboard ship to monitor the speed and direction of subsurface currents that have carried the NBST. They estimate where the NBST will surface and steer the ship in that direction. At the surface, the NBST turns on an internal Global Positioning System receiver and then sends its position to the ship via a series of satellite relays. The NBST also transmits a radio signal that a sophisticated Radio Direction Finding receiver on the ship picks up at a range of 5 to 7 nautical miles (9 to 13 kilometers).
Caption from Oceanus magazine, Vol. 45, No. 2, Pg. 15:
When a Neutrally Buoyant Sediment Trap surfaces after a three- to five-day particle-collecting mission in the ocean depths, “only its orange cap is visible, about the size of a 2-liter bottle of Coke,” said Jim Valdes, an engineer at WHOI, “a proverbial needle in a haystack.” “Couple this with a 6- to 10-foot swell and a wind of 35 or more knots producing whitecaps and blowing water, and you’ll have some idea of how daunting a task finding an NBST can be,” he said. “The engineers at Woods Hole, with years of seagoing experience, designed a number of recovery aids into our NBST s,” Valdes said. “They knew that locating an NBST after deployment would not be trivial.” Scientists use an Acoustic Doppler Current Profiler onboard ship to monitor the speed and direction of subsurface currents that have carried the NBST. They estimate where the NBST will surface and steer the ship in that direction. At the surface, the NBST turns on an internal Global Positioning System receiver and then sends its position to the ship via a series of satellite relays. The NBST also transmits a radio signal that a sophisticated Radio Direction Finding receiver on the ship picks up at a range of 5 to 7 nautical miles (9 to 13 kilometers).
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© Woods Hole Oceanographic Institution
©Shane Gross/Greenpeace
Adobe Farmhouse Photography
Getty Images/iStockphoto
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
Photo by Craig LaPlante
Photo by Daniel Hentz
Photo by Danielle Fino
Photo by Darlene Trew Crist
Photo by Elise Hugus
Photo by Hannah Piecuch
Photo by Jayne Doucette
photo by Jeff Yonover
Photo by Katherine Spencer Joyce
Photo by Ken Kostel
Photo by Marley L. Parker
Photo by Matthew Barton
Photo by ML Parker
Photo by Rebecca Travis
Photo by Sean Patrick Whelan
Photo by Tina Thomas
Photo by Tom Kleindinst
Photo by Véronique LaCapra
Photo courtesy of Woods Hole Oceanographic Institution Archives
Photographie : @alexis.rosenfeld
ROV SuBastian / Schmidt Ocean In
Video by Craig LaPlante
Video by Danielle Fino
Video by Hannah Piecuch
Video by Jayne Doucette
Video by Ken Kostel
Video by Matthew Barton
-- Other --
Photo by R/V Roger Revelle crew
Copyright statement
@2021 Woods Hole Oceanographic Institution, all rights reserved
@2023 Woods Hole Oceanographic Institution, all rights reserved
© Alexis Rosenfeld
© Bearwalk Cinema
© Consortium for Ocean Leadership
© Daniel P. Zitterbart
© Luis Lamar
© Mote Marine Laboratory
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©Shane Gross/Greenpeace
2012 Backyard Productions LLC
2018 - The Boston Globe
ADOBE FARMHOUSE PHOTOGRAPHY2023
Alan Chung © 2022
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CC BY-SA Troy Sankey
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Copyright (c) 2012 Vanderhaegen Bart
Copyright © 2010 David M. Lawrence
Copyright 2002
Copyright 2007 Jeff Yonover
Copyright 2019 to Nick Valentine
Copyright Jim Stringer
Copyright: Jenouvrier - WHOI
Croy Carlin
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Image courtesy of NOAA Ocean Exploration, Deep Connections 2019.
Jeff Yonover 2015
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Luis Lamar
Marley Parker/WHOI
Martin Schiller http://martin-schiller.de
MINFIN PHOTOGRAPHY
Moorefam
NautilusLive/Ocean Exploration Trust
Paul Caiger
Photo by Chris Linder, WHOI
Rachael Talibart 2016
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roger fishman 2019
SP Whelan
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UnderCurrent Productions
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WHOI 2005
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Woods Hole Oceanographic Institution.
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-- Other --
Copyright © Woods Hole Oceanographic Institution
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jcanavan: Oceanus magazine, Vol. 45, No. 2, Pg. 15
jcanavan: Oceanus magazine, Vol. 45, No. 2, Pg. 15
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