We use cookies to improve your experience, some are essential for the operation of this site.
About the cookies we use
Accept
Log in
ImportActions
Selections
0
Settings
View items
Field search
Subject search
Location search
Recent searches
Documentation
Quick start guide
Subject matches "Plankton" or its children
Item
of 29
0
of
0
highlighted terms
No highlightable terms
Hide highlights
AssetActions
Feedback
Share via email
Share via email
Share via Facebook
Share via Twitter
Workflow
Marine phytoplankton Melosira sp.
This item is active and ready to use
Marine phytoplankton Melosira sp.
Marine phytoplankton Melosira sp.
Comments
(0)
Main
Digital original
Analog original
Scientific
Use of image
Version
iBase ID
399629
Creator
Moran, Dawn
Title
Marine phytoplankton Melosira sp.
Marine phytoplankton Melosira sp.
Type
Animation
Audio
File
Illustration
Instructional
Still Image
Video
Still Image
Date
04/18/2006
File name
top_174594.jpg
Notes
Caption in Oceanus magazine, Vol. 51, No. 2, pg. 56-57: Marine phytoplankton like these Melosira sp. play critical roles that have impacts on the ocean food web and Earth's climate. Caption in Oceanus magazine, Vol. 51, No. 2, pg. 51: WHOI scientists found that stressed or dying phytoplankton release "infochemicals" that stimulate marine bacteria to consume the phytoplankton. As a result, more heat-trapping carbon dioxide returns back to the atmosphere. Image Of the Day caption: They may be microscopic and single-celled, but marine phytoplankton like these Melosira sp. are not immune to the stresses of everyday life. Like us, they require essential nutrients such as iron and Vitamin B12, and when nutrient supplies diminish in the ocean, phytoplankton populations show signs of stress. Phytoplankton produce half of Earth's oxygen supply and are the base of the ocean food chain, so it's important to learn more about how they respond to such to changes as ocean acidification and pollution. Former MIT-WHOI Joint Program graduate student Erin Bertrand wrote a playful Oceanus article on this research called "Psychotherapy for Phytoplankton." Image Of the Day repeat caption: In a recent study, WHOI scientists found that single-celled marine phytoplankton like these Melosira sp. can release infochemicals that signal marine bacteria to rev up their metabolisms and decompose phytoplankton faster. That rapidly converts organic carbon from phytoplankton back into carbon dioxidebefore carbon-rich particles from decomposed phytoplankton can sink to the deep ocean. So instead of being sequestered in the deep, the carbon remains in shallow waters and is recirculated back to the atmosphere in the form of heat-trapping carbon dioxide. MIT-WHOI Joint Program graduate student Bethanie Edwards and her Ph.D. advisor Ben Van Mooy conducted the study.
Caption in Oceanus magazine, Vol. 51, No. 2, pg. 56-57:
Marine phytoplankton like these Melosira sp. play critical roles that have impacts on the ocean food web and Earth's climate.
Caption in Oceanus magazine, Vol. 51, No. 2, pg. 51:
WHOI scientists found that stressed or dying phytoplankton release "infochemicals" that stimulate marine bacteria to consume the phytoplankton. As a result, more heat-trapping carbon dioxide returns back to the atmosphere.
Image Of the Day caption:
They may be microscopic and single-celled, but marine phytoplankton like these Melosira sp. are not immune to the stresses of everyday life. Like us, they require essential nutrients such as iron and Vitamin B12, and when nutrient supplies diminish in the ocean, phytoplankton populations show signs of stress. Phytoplankton produce half of Earth's oxygen supply and are the base of the ocean food chain, so it's important to learn more about how they respond to such to changes as ocean acidification and pollution. Former MIT-WHOI Joint Program graduate student Erin Bertrand wrote a playful Oceanus article on this research called "Psychotherapy for Phytoplankton."
Image Of the Day repeat caption:
In a recent study, WHOI scientists found that single-celled marine phytoplankton like these Melosira sp. can release infochemicals that signal marine bacteria to rev up their metabolisms and decompose phytoplankton faster. That rapidly converts organic carbon from phytoplankton back into carbon dioxidebefore carbon-rich particles from decomposed phytoplankton can sink to the deep ocean. So instead of being sequestered in the deep, the carbon remains in shallow waters and is recirculated back to the atmosphere in the form of heat-trapping carbon dioxide. MIT-WHOI Joint Program graduate student Bethanie Edwards and her Ph.D. advisor Ben Van Mooy conducted the study.
Credit line
© Shane Gross/Greenpeace
© Woods Hole Oceanographic Institution
Adinah Barnett
Adobe Farmhouse Photography
Alamy Stock Photo
Courtesy of National Aeronautics and Space Administration
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 Katherine Spencer Joyce
Photo by Ken Kostel
Photo by Marley L. Parker
Photo by Matthew Barton
Photo by ML Parker
Photo by Rachel Mann
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
WHOI Creative © Woods Hole Oceanographic Institution
-- Other --
Photo by Dawn Moran
Copyright statement
© Scripps Institution of Oceanography at UC San Diego
© 2021 Woods Hole Oceanographic Institution, all rights reserved
© 2023 Woods Hole Oceanographic Institution, all rights reserved
© Alexis Rosenfeld
© Bearwalk Cinema
© C. A. Linder
© Cape Cod Times
© Consortium for Ocean Leadership
© Daniel P. Zitterbart
© Figure 8 Studio
© Luis Lamar
© Mote Marine Laboratory
© National Aeronautics and Space Administration
© National Oceanic and Atmospheric Administration
© Shane Gross/Greenpeace
© Woods Hole Oceanographic Institution
2012 Backyard Productions LLC
2018 - The Boston Globe
ADOBE FARMHOUSE PHOTOGRAPHY2023
Alan Chung © 2022
Alfred-Wegener-Institut / Michael Gutsche (CC-BY 4.0)
Amy Van Cise/www.cascadiaresearch.org
Art Wager
Aurora Lampson
Austin Greene Photography
Avatar Alliance Foundation
bjoernkils@gmail.com +1.732.586.7394 www.NewYorkMediaBoat.com
Caiger_173_March 17, 2019.CR2: Paul Caiger
CC BY-SA Troy Sankey
Commonwealth of Australia (GBRMPA)
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,
Copyright: Jenouvrier - WHOI
Copyright: Peter Kimball
Credit: Universal Images Group North America LLC / Alamy Stock Photo
Croy Carlin
Dee Sullivan
Franz Mahr
FtLaudGirl
Hasselblad H6D
Henley Spiers
Image courtesy of NOAA Ocean Exploration, Deep Connections 2019.
Jeff Yonover 2015
Lewis Burnett
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
Robert E. Todd
roger fishman 2019
SP Whelan
thexfilephoto
Thomas A D Slager
Tom Shlesinger
UnderCurrent Productions
Unless otherwise noted (copyrighted material for example), information presented on this World Wide Web site is considered publi
WHOI
WHOI 2005
WHOI/ML Parker
Woods Hole Oceanographic Institution
Woods Hole Oceanographic Institution.
www.joshuaqualls.com
-- Other --
© Woods Hole Oceanographic Institution
Other restrictions
Provenance
URL
Orientation
Landscape
Resolution (DPI)
72
File name
top_174594.jpg
File type
Image
File extension
JPEG
File size
0.16MB
Height
450px
Width
700px
Uploaded by
jdoucette
Uploaded on
2014-01-22 00:00:00
Views
373
Analog file name
Analog source type
Analog source notes
Archives location
Analog negative number
Latitude
Longitude
Time (hh:mm:ss)
Depth
Altitude
Heading
Pitch
Roll
Licensing information
Legacy usage
jdoucette: Image Of the Day repeat, 10/16/2015 etaylor: Oceanus magazine, Vol. 51, No. 2, pg. 51 & pg. 56-57 samurphy: press release kmadin: curriculum jdoucette: Image Of the Day, 02/08/2014
jdoucette: Image Of the Day repeat, 10/16/2015
etaylor: Oceanus magazine, Vol. 51, No. 2, pg. 51 & pg. 56-57
samurphy: press release
kmadin: curriculum
jdoucette: Image Of the Day, 02/08/2014
Version
Labels
Subjects
Biology
>
Plankton
>
Phytoplankton
remove
Assign subject
Remove all subjects
This item includes these files
Image
Collections
Selections
0
Open full page
Clear all
Search within
By field
By subject
By location
By folder / collection
By recent searches
Print
Export data
Collection
Edit
Lock
Workflow