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Salp
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Salp
Salp
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54920
Creator
Madin, Laurence P.
Title
Salp
Salp
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Date
12/06/2004
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graphics/dd_Lmadin-animals/DSC_0843.jpg
Notes
Salps are transparent animals that eat phytoplankton by filtering it from the water with a mucus net inside their barrel-shaped bodies. They can be single animals, called solitaries, or live in chains called aggregates. Dive and Discover Expedition 10. Used in Oceanus magazine, Vol. 48, No. 2, Pg. 4 and 5 as story header image. Caption from Oceanus magazine, Vol. 46, No. 1, Pg. 27: SAVED BY THE SALPS–Another proposed scheme to reduce CO2 levels would promote swarms of transparent animals called salps, whose heavy fecal pellets sink fast, ferrying carbon to the depths. Image of The Day caption: Salps--transparent organism that range from 0.5 to five inches long--are the subject of MIT-WHOI Joint Program graduate student Kelly Rakow Sutherland's PhD dissertation. Observing them in their habitat off the Pacific Coast of Panama, she focused on how the creatures balance their food-energy resources, which they use to propel themselves. Salps swim and eat by rhythmic pulses. Each pulse draws seawater in through a siphon opening at the front end of the animal. Then the salp contracts muscle bands, and the water shoots out another siphon at its rear end, producing a jet that propels the animal forward. In the process, food particles in the water (mostly tiny plankton) are caught on a mesh of mucus strands inside the salp's mostly hollow body. There are about 40 species of salps with a widely diverse body shapes. Rakow Sutherland posits that some species may be good at filtering seawater through their feeding mesh at the expense of being good swimmers, and vice versa. Dive and Discover, Expedition 10, Antarctica.
Salps are transparent animals that eat phytoplankton by filtering it from the water with a mucus net inside their barrel-shaped bodies. They can be single animals, called solitaries, or live in chains called aggregates. Dive and Discover Expedition 10.
Used in Oceanus magazine, Vol. 48, No. 2, Pg. 4 and 5 as story header image.
Caption from Oceanus magazine, Vol. 46, No. 1, Pg. 27:
SAVED BY THE SALPS–Another proposed scheme to reduce CO2 levels would promote swarms of transparent animals called salps, whose heavy fecal pellets sink fast, ferrying carbon to the depths.
Image of The Day caption:
Salps--transparent organism that range from 0.5 to five inches long--are the subject of MIT-WHOI Joint Program graduate student Kelly Rakow Sutherland's PhD dissertation. Observing them in their habitat off the Pacific Coast of Panama, she focused on how the creatures balance their food-energy resources, which they use to propel themselves. Salps swim and eat by rhythmic pulses. Each pulse draws seawater in through a siphon opening at the front end of the animal. Then the salp contracts muscle bands, and the water shoots out another siphon at its rear end, producing a jet that propels the animal forward. In the process, food particles in the water (mostly tiny plankton) are caught on a mesh of mucus strands inside the salp's mostly hollow body. There are about 40 species of salps with a widely diverse body shapes. Rakow Sutherland posits that some species may be good at filtering seawater through their feeding mesh at the expense of being good swimmers, and vice versa.
Dive and Discover, Expedition 10, Antarctica.
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jdoucette: for Ben Wallace efitzpatrick: Vetlesen 2018 vlacapra: Oceanus kjoyce: presentation jdoucette: For Ann Bucklin hrivera: jp blog twilight: Catalyst jmcnichol: Public presentation etaylor: Oceanus magazine, Vol. 48, No. 2, Pg. 4 and 5 etaylor: Under the Waves jtromp: for public event efitzpatrick: magazine article efitzpatrick: book efitzpatrick: textbook acaracappaqubeck: exhibit center efitzpatrick: VU adorsk: personal akline: AVDF visit slide show efitzpatrick: world expo 2012 fheide: CD calendar acaracappaqubeck: Oceanus magazine, Vol. 48, No. 1, Pg. 4 and 5 adorsk: library website images kjoyce: oceanus dbrown: Redfield Display Monitor dpandya: for times square ad dglover: to check for potential cover images jdoucette: Image of The Day, 01/01/2010 abehring: flyer ekoenig: jellies for NEAq request fheide: Avery presentation possibilities efitzpatrick: textbook ekoenig: NSF jellyfish report rhurst: book anorton: Larry Madin use. jcanavan: Oceanus magazine, Vol. 46, No. 1, Pg. 27 sdawicki: media use
jdoucette: for Ben Wallace
efitzpatrick: Vetlesen 2018
vlacapra: Oceanus
kjoyce: presentation
jdoucette: For Ann Bucklin
hrivera: jp blog
twilight: Catalyst
jmcnichol: Public presentation
etaylor: Oceanus magazine, Vol. 48, No. 2, Pg. 4 and 5
etaylor: Under the Waves
jtromp: for public event
efitzpatrick: magazine article
efitzpatrick: book
efitzpatrick: textbook
acaracappaqubeck: exhibit center
efitzpatrick: VU
adorsk: personal
akline: AVDF visit slide show
efitzpatrick: world expo 2012
fheide: CD calendar
acaracappaqubeck: Oceanus magazine, Vol. 48, No. 1, Pg. 4 and 5
adorsk: library website images
kjoyce: oceanus
dbrown: Redfield Display Monitor
dpandya: for times square ad
dglover: to check for potential cover images
jdoucette: Image of The Day, 01/01/2010
abehring: flyer
ekoenig: jellies for NEAq request
fheide: Avery presentation possibilities
efitzpatrick: textbook
ekoenig: NSF jellyfish report
rhurst: book
anorton: Larry Madin use.
jcanavan: Oceanus magazine, Vol. 46, No. 1, Pg. 27
sdawicki: media use
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