TinyBlueGreen

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::<small>[http://www.tinybluegreen.com www.tinybluegreen.com]</small>
  
<big><big>'''''Blue-Green Connection to Life on Earth'''''</big></big> 
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::[[File:Plankton Phytoplankton--'Climate Dance'.jpg]]
  
  
:: '''''"A single kind of blue-green algae in the ocean ('Prochlorococcus') produces the oxygen in [https://www.youtube.com/watch?v=-ty5puoADMU one of every five breaths we take"]'''''
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::<big><big>'''''Blue-Green Connection to Life on Earth'''''</big></big> 
  
::: [http://voices.nationalgeographic.com/2016/11/17/fate-of-small-species-has-huge-implications-for-our-ocean/ '''''~ The Fate of Small Species and the Oceans -- Sylvia Earle''''']
 
  
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::'''''"A single kind of blue-green algae in the ocean ('Prochlorococcus') produces the oxygen in [https://www.youtube.com/watch?v=-ty5puoADMU one of every five breaths we take"]'''''
  
:::: '''''"The World Is Blue: How Our Fate and the Ocean’s Are One"'''''  
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:::[http://voices.nationalgeographic.com/2016/11/17/fate-of-small-species-has-huge-implications-for-our-ocean/ '''''~ The Fate of Small Species and the Oceans / Sylvia Earle''''']
  
:::::: ● '''''"I see things that others do not..."'''''  [https://www.youtube.com/watch?v=B1wp2MQCsfQ ''''' 'Mission Blue' (preview)''''']
 
:::::::  [https://www.outsideonline.com/2030946/marine-biologist-sylvia-earle-profile '''''~ Can Sylvia Earle Save the Oceans?''''']
 
  
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::[[File:Plankton Phytoplankton--'Climate Dance'.jpg]]
 
  
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<big><big>'''''"The World Is Blue: How Our Fate and the Ocean’s Are One"'''''</big></big>
  
<big>'''''"The Tiny Little Ones - Plankton"'''''</big>
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:'''''"I see things that others do not..."''''' [https://www.youtube.com/watch?v=B1wp2MQCsfQ ''''' 'Mission Blue' (preview)''''']
:: '''''"Ecosystems of the Sea"'''''
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:::''Nearly all marine plants are single celled, photosynthetic plankton-algae''
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: [https://www.outsideonline.com/2030946/marine-biologist-sylvia-earle-profile '''''~ Saving the Oceans'''''] ○ [https://www.mission-blue.org/category/mission-blue-2/ ''''' 'Mission Blue-2' '''''] ○ [http://time.com/collection/firsts/4898567/sylvia-earle-firsts/ '''''Sylvia Earle - video''''']
:::''Marine plants produce over 50% percent of the oxygen in the atmosphere''  
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:::<big><font color=blue>'''○ ○ ○ ○ ○ ○ ○'''</font></big> <big><font color=green>'''○ ○ ○ ○ ○ ○ ○ ○'''</font></big> <big><font color=blue>'''○ ○ ○ ○ ○ ○ ○'''</font></big> <big><font color=green>'''○ ○ ○ ○ ○ ○ ○ ○'''</font></big>
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<big>'''''The "Tiny Little Ones"'''''</big>
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:'''''Algae, Kelp, Phytoplankton, Plankton, Seagrasses and Seaweed...'''''
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::''Nearly all marine plants are single celled, photosynthetic algae-plankton''
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::: [https://www.greenpolicy360.net/w/Category:Ocean_Sustainability '''''~ Ocean Sustainability''''']
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:::<big><font color=blue>○ ○ ○ ○ ○ ○ ○</font></big> <big><font color=green>○ ○ ○ ○ ○</font></big> <big><font color=blue>○ ○ ○ ○ ○ ○ ○</font></big>
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:::<big><big>'''''How Tiny? A Big Single Cell?'''''</big></big>
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::[http://schaechter.asmblog.org/schaechter/2015/01/lets-not-forget-acetabularia.html '''''Take a closer look at a Single-Cell "Acetabularia"''''']
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:::[[File:Acetabularia.png]]
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::: '''Spotted in Florida -- Project Noah'''
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::: http://www.projectnoah.org/spottings/1142280661
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::: http://www.projectnoah.org/spottings/506786004
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:::<big><font color=blue>○ ○ ○ ○ ○ ○ ○</font></big> <big><font color=green>○ ○ ○ ○ ○ ○ ○ ○</font></big> <big><font color=blue>○ ○ ○ ○ ○ ○ ○</font></big>  
  
  
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::[http://e360.yale.edu/feature/kelp_seagrass_slow_ocean_acidification_netarts/3013/ '''''Could Kelp and Seagrass Save Our Oceans from Acidification''''']
 
::[http://e360.yale.edu/feature/kelp_seagrass_slow_ocean_acidification_netarts/3013/ '''''Could Kelp and Seagrass Save Our Oceans from Acidification''''']
  
:::<big><font color=blue>'''○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○'''</font></big> <big><font color=green>'''○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○'''</font></big>
 
  
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:::<big><font color=blue>○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○</font></big> <big><font color=green>○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○</font></big>
  
<big><big>'''''Approximately half Earth's oxygen produced by blue-green sea plants'''''</big></big>
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<big><big>'''''Approximately half Earth's oxygen is produced by blue-green sea plants'''''</big></big>
  
 
''http://www.genomenewsnetwork.org/articles/09_03/ocean.shtml (2003)''
 
''http://www.genomenewsnetwork.org/articles/09_03/ocean.shtml (2003)''
  
 
''Lush tropical rainforests, green prairie pastures and other soil-bound vegetation have long flourished in the ecological limelight. But now the other half of the planet is about to enjoy its day in the sun. Half of the world’s oxygen supply is produced by tiny microbes that live in the sea. And researchers sequencing their genomes have turned up some surprising results... "Photosynthetic organisms in the ocean are as important as photosynthetic organisms on earth... The organisms in the ocean are much less impressive than trees in terms of size, but are extremely important to the biosphere. They produce a significant fraction of the oxygen we breathe and, fortunately for us, [some scientists] believe [they] are in less danger than the tropical forests..." [While other scientists are only now beginning to measure and study photosynthetic life in the oceans and how it is changing]...''
 
''Lush tropical rainforests, green prairie pastures and other soil-bound vegetation have long flourished in the ecological limelight. But now the other half of the planet is about to enjoy its day in the sun. Half of the world’s oxygen supply is produced by tiny microbes that live in the sea. And researchers sequencing their genomes have turned up some surprising results... "Photosynthetic organisms in the ocean are as important as photosynthetic organisms on earth... The organisms in the ocean are much less impressive than trees in terms of size, but are extremely important to the biosphere. They produce a significant fraction of the oxygen we breathe and, fortunately for us, [some scientists] believe [they] are in less danger than the tropical forests..." [While other scientists are only now beginning to measure and study photosynthetic life in the oceans and how it is changing]...''
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'''New studies are now indicating more danger to ocean photosynthetic organisms...'''
 
  
'''Recent research shows increasing ecosytems disruption globally. Ocean science is indicating changes to worldwide phythoplankton and the effects of climate change are beginning to be observed by a first-generation of earth/ocean monitoring satellites and 'on Earth' science studies...'''  
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:[[File:Greennews.gif|link=http://www.greenpolicy360.net/w/Climate_News]]
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[https://www.theverge.com/2017/6/23/15861932/offshore-drilling-airgun-seismic-surveys-zooplankton-death-oceans ''The hunt for offshore oil is killing tiny sea creatures that are key for healthy oceans'']
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: <big>''''' ‘Plankton underpin whole ocean productivity’ '''''</big>
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'''''June 2017''''' / [https://www.nature.com/articles/s41559-017-0195 ''Nature'']
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A widely used method to find oil and gas for offshore drilling can kill tiny sea creatures that are key for feeding many marine animals and maintain the ocean food chain...
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'''''New studies are indicating more danger to ocean photosynthetic organisms...'''''
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''Recent research shows increasing ecosystems disruption globally. Ocean science is indicating changes to worldwide phytoplankton and the effects of climate change are beginning to be observed by a first-generation of earth/ocean monitoring satellites and 'on Earth' science studies...''  
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''Scientific results of 'blue-green monitoring' are cause for serious concern...''
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[http://e360.yale.edu/features/as-oceans-warm-the-worlds-giant-kelp-forests-begin-to-disappear '''''As Oceans Warm the Giant Kelp (Plankton) Forests Begin to Disappear''''']
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● https://en.wikipedia.org/wiki/Kelp_forest
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<big>'''''Kelp, Forests of the Sea: Phytoplankton & Marine Plants'''''</big>
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●http://marinebio.org/oceans/forests/index.aspx
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● https://www.greenpolicy360.net/w/Earth_Science_Research_from_Space
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● https://www.greenpolicy360.net/w/Category:Earth_Observations
  
'''Scientific results of 'blue-green monitoring' are cause for serious concern.'''
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● https://www.greenpolicy360.net/w/File:Chlorophyll_in_the_oceans_and_vegetation_on_land_world_map_2003_NASA-Goddard.jpg
 
    
 
    
  
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<big>'''''What's Happening Now with the Tiny Blue-Green?'''''</big>  
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<big>'''''What's Happening Now with the Tiny Blue-Green Ocean/Sea Life?'''''</big>  
  
 
[http://blueplanetsociety.blogspot.co.uk/2016/02/whats-happening-to-oceans-phytoplankton.html '''''Via Blue Planet:What’s happening to the oceans’ phytoplankton?''''']
 
[http://blueplanetsociety.blogspot.co.uk/2016/02/whats-happening-to-oceans-phytoplankton.html '''''Via Blue Planet:What’s happening to the oceans’ phytoplankton?''''']
 
:[http://blueplanetsociety.blogspot.co.uk/2015/03/the-importance-of-plankton.html '''''The Importance of Plankton''''']
 
:[http://blueplanetsociety.blogspot.co.uk/2015/03/the-importance-of-plankton.html '''''The Importance of Plankton''''']
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[[File:Planktonbluegreen tinyones.jpg]]
 
[[File:Planktonbluegreen tinyones.jpg]]
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:[[File:Greennews.gif|link=http://www.greenpolicy360.net/w/Climate_News]]
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[http://www.bbc.com/news/science-environment-32831814 '''''Ocean's hidden world of plankton revealed in 'enormous database' ''''']
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'''''2015'''''
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''Researchers have found that many of the plankton organisms, particularly the bacteria, are sensitive to temperature.
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''"It is temperature that determines what sort of communities of organisms we find. If we look at our data and we see what organisms are there, we can predict with 97% probability the temperature of the water they are living in.''
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''"These organisms are most sensitive to temperature, more than anything else, and with changing temperatures as a result of climate change we are likely to see changes in this community."''
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''The researchers say that this scientific analysis is just the beginning.''
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''They are making their findings freely available to the scientific community to gain a better understanding of this vital but unseen underwater world.''
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'' "The amount of data we have released is already enormous; it is one of the largest databases of DNA available to the scientific community. But we've analysed perhaps 2% of the samples we have collected throughout the world - so there is a huge amount of work to do in the future to understand even more about the functioning of these marine ecosystems and the importance of that for the wellbeing of the planet.''
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''It said zooplankton will see a massive spurt in toxic mercury by 300 to 600 percent if runoff goes up by 15 to 30 percent triggered by higher rainfall.''
 
''It said zooplankton will see a massive spurt in toxic mercury by 300 to 600 percent if runoff goes up by 15 to 30 percent triggered by higher rainfall.''
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'''''Damage To Food Chain'''''
 
'''''Damage To Food Chain'''''
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''The research traced the new route by which the rising warming would shoot up mercury toxin levels in sea creatures. Rising rainfall would drive up the amount of organic material flowing into the sea and will add serious implications on the food chain by the addition of an extra layer of organisms to the chain.''
 
''The research traced the new route by which the rising warming would shoot up mercury toxin levels in sea creatures. Rising rainfall would drive up the amount of organic material flowing into the sea and will add serious implications on the food chain by the addition of an extra layer of organisms to the chain.''
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''For humans, exposure to high mercury content will be from eating fish containing methylmercury, which is generated by the reaction of bacteria with mercury in water, soil, or plants. The toxic methylmercury is very harmful to nervous, digestive, and immune systems.''
 
''For humans, exposure to high mercury content will be from eating fish containing methylmercury, which is generated by the reaction of bacteria with mercury in water, soil, or plants. The toxic methylmercury is very harmful to nervous, digestive, and immune systems.''
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'''''Carbon Matter Runoff'''''
 
'''''Carbon Matter Runoff'''''
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''The study also said, in a climate scenario of rising temperatures, the organic matter outflow into seas will increase by an average 15-20 percent by the close of the century. Correspondingly, the methylmercury levels in zooplankton will zoom by seven fold.''
 
''The study also said, in a climate scenario of rising temperatures, the organic matter outflow into seas will increase by an average 15-20 percent by the close of the century. Correspondingly, the methylmercury levels in zooplankton will zoom by seven fold.''
  
''The worst hit by the "mercury invasion" will be coastal waters and lakes the Northern Hemisphere with sharp increases of methylmercury in fish.
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''The worst hit by the "mercury invasion" will be coastal waters and lakes the Northern Hemisphere with sharp increases of methylmercury in fish.''
At the same time, the regions that see a reduction in mercury levels will include central United States, Southern Africa, and the Mediterranean.''
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[https://www.greenpolicy360.net/w/File:Reefscape.png '''Reefscape''']
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[[File:Reefscape.png]]
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<big>'''''Coral Reef Ecoregions in Oceans of the World Endangered'''''</big>
 
<big>'''''Coral Reef Ecoregions in Oceans of the World Endangered'''''</big>
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:[http://www.nytimes.com/2016/04/10/world/asia/climate-related-death-of-coral-around-world-alarms-scientists.html '''''NYT: Climate-Related Death of Coral Around World Alarms Scientists''''']
 
:[http://www.nytimes.com/2016/04/10/world/asia/climate-related-death-of-coral-around-world-alarms-scientists.html '''''NYT: Climate-Related Death of Coral Around World Alarms Scientists''''']
  
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<big><big>'''''Australia's Great Barrier Reef and Environment in Grave Danger'''''</big></big>
 
<big><big>'''''Australia's Great Barrier Reef and Environment in Grave Danger'''''</big></big>
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[[File:Coral bleaching Great Barrier Reef 2016.jpeg]]
 
[[File:Coral bleaching Great Barrier Reef 2016.jpeg]]
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'''''Coral Reef Updates 2017/2016/2015'''''
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● [https://www.forbes.com/sites/trevornace/2017/04/15/the-great-barrier-reef-is-its-final-terminal-stage/#606737793f2e '''''The Great Barrier Reef Is In Its Final 'Terminal Stage' ''''']
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● [http://www.nature.com/nature/journal/v543/n7645/full/nature21707.html '''''Nature / March 2017 -- Global warming and recurrent mass bleaching of corals''''']
  
  
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*[http://coralreef.noaa.gov/aboutcorals/coral101/symbioticalgae/ '''''"Reef Systems, Symbiotic Algae"''''']
 
*[http://coralreef.noaa.gov/aboutcorals/coral101/symbioticalgae/ '''''"Reef Systems, Symbiotic Algae"''''']
  
<big><font color=green>'''○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○'''</font></big> <big><font color=blue>'''○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○'''</font></big>
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<big><font color=green>○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○</font></big> <big><font color=blue>○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○</font></big>
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<big>'''''Underwater Heat Wave Devastates Great Barrier Reef'''''</big>
 
<big>'''''Underwater Heat Wave Devastates Great Barrier Reef'''''</big>
  
 
'''''A Nightmare is Unfolding in the Great Barrier Reef'''''  
 
'''''A Nightmare is Unfolding in the Great Barrier Reef'''''  
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:● https://www.coralcoe.org.au/
  
 
''CANBERRA, Australia — An underwater heat wave is devastating huge swaths of Australia’s Great Barrier Reef, marine researchers have found.''
 
''CANBERRA, Australia — An underwater heat wave is devastating huge swaths of Australia’s Great Barrier Reef, marine researchers have found.''
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*[http://www.smh.com.au/environment/climate-change/coral-growth-already-being-affected-by-acidifying-oceans-new-research-finds-20160223-gn1vs4.html '''''Coral growth being affected by acidifying oceans''''']
 
*[http://www.smh.com.au/environment/climate-change/coral-growth-already-being-affected-by-acidifying-oceans-new-research-finds-20160223-gn1vs4.html '''''Coral growth being affected by acidifying oceans''''']
  
<big><font color=green>'''○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○'''</font></big> <big><font color=blue>'''○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○'''</font></big>
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<big>'''''Great Barrier Reef bleaching may be "last wake-up call", marine scientists say'''''</big>
 
<big>'''''Great Barrier Reef bleaching may be "last wake-up call", marine scientists say'''''</big>
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<big><font color=blue>'''○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○'''</font></big> <big><font color=green>'''○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○'''</font></big>
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::[[File:Phyto tinybluegreen.jpg]]
 
::[[File:Phyto tinybluegreen.jpg]]
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○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○  
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<big>'''''Endangered Tiny-Miniscule Species'''''</big>
 
<big>'''''Endangered Tiny-Miniscule Species'''''</big>
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[[File:Phytoplankton decline NASA study Sept2015.png]]
 
[[File:Phytoplankton decline NASA study Sept2015.png]]
  
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<big>'''''Phytoplankton Population Drops 40 Percent Since 1950'''''</big>
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'''Researchers find trouble among phytoplankton, the base of the food chain, which has implications for the marine food web and the world's carbon cycle'''
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'''By Lauren Morello, ClimateWire'''
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'''July 29, 2010'''
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* https://www.scientificamerican.com/article/phytoplankton-population/
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''The microscopic plants that form the foundation of the ocean's food web are declining, reports a study published July 29 in Nature.''
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''The tiny organisms, known as phytoplankton, also gobble up carbon dioxide to produce half the world's oxygen output—equaling that of trees and plants on land.''
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''"It's very disturbing to think about the potential implications of a century-long decline of the base of the food chain," said lead author Daniel Boyce, a marine ecologist.''
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''They include disruption to the marine food web and effects on the world's carbon cycle. In addition to consuming CO2, phytoplankton can influence how much heat is absorbed by the world's oceans, and some species emit sulfate molecules that promote cloud formation.''
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>''Researchers at Canada's Dalhousie University say the global population of phytoplankton has fallen about 40 percent since 1950. That translates to an annual drop of about 1 percent of the average plankton population between 1899 and 2008.''
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>''"In some respect, these findings are the beginning of the story, not the end," Boyce said. "The first question is what will happen in the future. We looked at these trends over the past century but don't know what will happen 10 years down the road."''
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>''The study "makes a sorely needed contribution to our knowledge of historical changes in the ocean biosphere," said David Siegel of the University of California, Santa Barbara, and Bryan Franz of NASA in an essay, also published in Nature.''
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>''"Their identification of a connection between long-term global declines in phytoplankton biomass and increasing ocean temperatures does not portend well for [ocean] ecosystems in a world that is likely to be warmer."''
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''"Phytoplankton productivity is the base of the food web, and all life in the sea depends on it."''
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[[Category:Ecology Studies]]
 
[[Category:Ecology Studies]]
 
[[Category:Ecoregions]]
 
[[Category:Ecoregions]]
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[[Category:Education]]
 
[[Category:Environmental Security]]
 
[[Category:Environmental Security]]
 
[[Category:Extinction]]
 
[[Category:Extinction]]
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[[Category:Planet Scientist]]
 
[[Category:Planet Scientist]]
 
[[Category:Planet Citizens, Planet Scientists]]
 
[[Category:Planet Citizens, Planet Scientists]]
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[[Category:Strategic Demands]]
 
[[Category:Water]]
 
[[Category:Water]]
 
[[Category:Whole Earth]]
 
[[Category:Whole Earth]]
 
[[Category:Zoology]]
 
[[Category:Zoology]]

Revision as of 17:58, 17 May 2018

www.tinybluegreen.com
Plankton Phytoplankton--'Climate Dance'.jpg


Blue-Green Connection to Life on Earth


"A single kind of blue-green algae in the ocean ('Prochlorococcus') produces the oxygen in one of every five breaths we take"
~ The Fate of Small Species and the Oceans / Sylvia Earle


···················································································


"The World Is Blue: How Our Fate and the Ocean’s Are One"

"I see things that others do not..." 'Mission Blue' (preview)
~ Saving the Oceans 'Mission Blue-2' Sylvia Earle - video


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The "Tiny Little Ones"

Algae, Kelp, Phytoplankton, Plankton, Seagrasses and Seaweed...
Nearly all marine plants are single celled, photosynthetic algae-plankton
~ Ocean Sustainability


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How Tiny? A Big Single Cell?
Take a closer look at a Single-Cell "Acetabularia"


Acetabularia.png


Spotted in Florida -- Project Noah
http://www.projectnoah.org/spottings/1142280661
http://www.projectnoah.org/spottings/506786004


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Cyanobacteria Prochlorococcus worldmapping MIT.jpg


Olivia's "Prochlorococcus" post -- National Geo for Students: A Message About Saving the 'Little Ones', the Plankton
Students calculate how many breaths we take each day that come from oxygen produced by (blue-green) phytoplankton
Could Kelp and Seagrass Save Our Oceans from Acidification


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Approximately half Earth's oxygen is produced by blue-green sea plants

http://www.genomenewsnetwork.org/articles/09_03/ocean.shtml (2003)

Lush tropical rainforests, green prairie pastures and other soil-bound vegetation have long flourished in the ecological limelight. But now the other half of the planet is about to enjoy its day in the sun. Half of the world’s oxygen supply is produced by tiny microbes that live in the sea. And researchers sequencing their genomes have turned up some surprising results... "Photosynthetic organisms in the ocean are as important as photosynthetic organisms on earth... The organisms in the ocean are much less impressive than trees in terms of size, but are extremely important to the biosphere. They produce a significant fraction of the oxygen we breathe and, fortunately for us, [some scientists] believe [they] are in less danger than the tropical forests..." [While other scientists are only now beginning to measure and study photosynthetic life in the oceans and how it is changing]...



Greennews.gif


The hunt for offshore oil is killing tiny sea creatures that are key for healthy oceans

‘Plankton underpin whole ocean productivity’


June 2017 / Nature

A widely used method to find oil and gas for offshore drilling can kill tiny sea creatures that are key for feeding many marine animals and maintain the ocean food chain...



New studies are indicating more danger to ocean photosynthetic organisms...

Recent research shows increasing ecosystems disruption globally. Ocean science is indicating changes to worldwide phytoplankton and the effects of climate change are beginning to be observed by a first-generation of earth/ocean monitoring satellites and 'on Earth' science studies...

Scientific results of 'blue-green monitoring' are cause for serious concern...


As Oceans Warm the Giant Kelp (Plankton) Forests Begin to Disappear

https://en.wikipedia.org/wiki/Kelp_forest


Kelp, Forests of the Sea: Phytoplankton & Marine Plants


http://marinebio.org/oceans/forests/index.aspx



https://www.greenpolicy360.net/w/Earth_Science_Research_from_Space

https://www.greenpolicy360.net/w/Category:Earth_Observations

https://www.greenpolicy360.net/w/File:Chlorophyll_in_the_oceans_and_vegetation_on_land_world_map_2003_NASA-Goddard.jpg


Chlorophyll in the oceans and vegetation on land world map 2003 NASA-Goddard.jpg


What's Happening Now with the Tiny Blue-Green Ocean/Sea Life?

Via Blue Planet:What’s happening to the oceans’ phytoplankton?

The Importance of Plankton


Planktonbluegreen tinyones.jpg



Ocean's hidden world of plankton revealed in 'enormous database'


2015

Researchers have found that many of the plankton organisms, particularly the bacteria, are sensitive to temperature.

"It is temperature that determines what sort of communities of organisms we find. If we look at our data and we see what organisms are there, we can predict with 97% probability the temperature of the water they are living in.

"These organisms are most sensitive to temperature, more than anything else, and with changing temperatures as a result of climate change we are likely to see changes in this community."

The researchers say that this scientific analysis is just the beginning.

They are making their findings freely available to the scientific community to gain a better understanding of this vital but unseen underwater world.

"The amount of data we have released is already enormous; it is one of the largest databases of DNA available to the scientific community. But we've analysed perhaps 2% of the samples we have collected throughout the world - so there is a huge amount of work to do in the future to understand even more about the functioning of these marine ecosystems and the importance of that for the wellbeing of the planet.



'Via TechTimes'

Rising temperatures and precipitation driven by climate change would trigger heavy runoff into oceans and the resulting pollution will shoot up mercury levels in all oceanic creatures and harm the food chain.

The new study said the impact will be quite high on the bottom level zooplanktons, fish, and to humans who consume the fish. The mercury levels are expected to rise seven times the current rate.

It said zooplankton will see a massive spurt in toxic mercury by 300 to 600 percent if runoff goes up by 15 to 30 percent triggered by higher rainfall.


Damage To Food Chain


The research traced the new route by which the rising warming would shoot up mercury toxin levels in sea creatures. Rising rainfall would drive up the amount of organic material flowing into the sea and will add serious implications on the food chain by the addition of an extra layer of organisms to the chain.

"When bacteria become abundant in the water there is also a growth of a new type of predators that feed on bacteria," said lead author Erik Bjorn of the Umea University in Sweden. That is like adding a new step in the food chain and methylmercury being enriched to a bigger factor in the food web.

For humans, exposure to high mercury content will be from eating fish containing methylmercury, which is generated by the reaction of bacteria with mercury in water, soil, or plants. The toxic methylmercury is very harmful to nervous, digestive, and immune systems.


Carbon Matter Runoff


The study also said, in a climate scenario of rising temperatures, the organic matter outflow into seas will increase by an average 15-20 percent by the close of the century. Correspondingly, the methylmercury levels in zooplankton will zoom by seven fold.

The worst hit by the "mercury invasion" will be coastal waters and lakes the Northern Hemisphere with sharp increases of methylmercury in fish.


Reefscape


Reefscape.png


Coral Reef Ecoregions in Oceans of the World Endangered

NYT: Climate-Related Death of Coral Around World Alarms Scientists


Australia's Great Barrier Reef and Environment in Grave Danger


Coral bleaching Great Barrier Reef 2016.jpeg


Coral Reef Updates 2017/2016/2015


The Great Barrier Reef Is In Its Final 'Terminal Stage'

Nature / March 2017 -- Global warming and recurrent mass bleaching of corals


Coral reefs in peril as ocean environment is transformed

"Coral Bleaching": Mass expulsion and death of zooxanthellae


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Underwater Heat Wave Devastates Great Barrier Reef

A Nightmare is Unfolding in the Great Barrier Reef

https://www.coralcoe.org.au/

CANBERRA, Australia — An underwater heat wave is devastating huge swaths of Australia’s Great Barrier Reef, marine researchers have found.


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Great Barrier Reef bleaching may be "last wake-up call", marine scientists say

Extensive bleaching has been caused by higher ocean temperatures...


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Australia's Great Barrier Reef hit by severe bleaching - Video


Great Barrier Reef severe bleaching die-off.png


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Ocean Grass (Plankton) and Ocean Forests (Kelp)

Marine Algae: The Most Important Organism?

It is estimated that marine plants produce more than 50%, up to between 70 and 80 percent of the oxygen in the atmosphere... Nearly all marine plants are single celled, photosynthetic algae... Even marine seaweed is, many times, colonial algae. They are a bunch of single cells trying to look like a big plant ('seaweed' - kelp)... Think about it, 70 percent to 80 percent of all the oxygen we breathe... Why does so much of our oxygen come from algae? First of all, remember that the oceans cover about 71 percent of this planet and land is only about 29 percent... Overall, the production of oxygen in the oceans is at least equal to the production on land



Watch Forests in the Ocean ... Green Motion in the Seas (video)

by Mares with Philip Glass music


Mares Kelp.png



Science is just beginning to study the role of 'the tiny little ones' in the oceans

Removing Carbon, Adding Oxygen: Plankton's Role is Critically Important

http://www.nature.com/nature/journal/vaop/ncurrent/full/nature16942.html

Follow the Tara Expeditions Project

Worldwide view of oceans phytoplankton earth observatory nasa.gif

Big Trouble Ahead for Ocean Plankton

Blue-green phyto swirling 2015.png

-- 'Prochlorococcus, Tiny Blue-Green Ones'

Phytoplankton.jpg

Wikipedia References

-- Plankton

-- Phytoplankton obtain energy through the process of photosynthesis and must therefore live in the well-lit surface layer (termed the euphotic zone) of an ocean, sea, lake, or other body of water. Phytoplankton account for half of all photosynthetic activity on Earth.

Phytoplankton are responsible for much of the oxygen present in the Earth’s atmosphere – half of the total amount produced by all plant life.

See Prochlorococcus

Cyanobacteria /saɪˌænoʊbækˈtɪəriə/, also known as Cyanophyta, is a phylum of bacteria that obtain their energy through photosynthesis. The name "cyanobacteria" comes from the color of the bacteria (Greek: κυανός (kyanós) = blue). They are often called blue-green algae...

220px-Tolypothrix_%28Cyanobacteria%29.JPG

Cyanobacteria are arguably the most successful group of microorganisms on earth. They are the most genetically diverse; they occupy a broad range of habitats across all latitudes, widespread in freshwater, marine, and terrestrial ecosystems, and they are found in the most extreme niches such as hot springs, salt works, and hypersaline bays. Photoautotrophic, oxygen-producing cyanobacteria created the conditions in the planet's early atmosphere that directed the evolution of aerobic metabolism and eukaryotic photosynthesis. Cyanobacteria fulfill vital ecological functions in the world's oceans, being important contributors to global carbon and nitrogen budgets. See Carbon Sinks

Aquatic cyanobacteria are known for their extensive and highly visible blooms that can form in both freshwater and marine environments. The blooms can have the appearance of blue-green paint...

Cyanobacteria use the energy of sunlight to drive photosynthesis, a process where the energy of light is used to split water molecules into oxygen, protons, and electrons. Because they are aquatic organisms, they typically employ several strategies which are collectively known as a "carbon concentrating mechanism" to aid in the acquisition of inorganic carbon (CO2 or bicarbonate)...

See Diatoms

[Diatoms are] among the most common types of phytoplankton. Diatoms play an important role in biogeochemical earth because they contribute an estimated 75% of primary production in coastal waters... There are more than 200 genera of living diatoms, and it is estimated that there are approximately 100,000 extant species.

Sea Drifters (slideshow from BBC - 2010) -- http://news.bbc.co.uk/2/hi/science/nature/8498786.stm

Close up images of plankton, the tiny creatures that hold the key to survival in the world's oceans
Phytoplankton - the foundation of the oceanic food chain m.jpg


https://www.eoas.ubc.ca/research/phytoplankton/at_a_glance/chain_forming_diatoms.html

Phytoplankton-Phytopedia 2016.png


Phytoplankton/Diatoms/Algae -- Microorganisms of the Oceans

Phytoplankton: "Climate & Phytoplankton-Algae"
Plankton Climate Dance

Plankton swirl Jan 2015.jpg


~ Phytoplankton, photosynthesis, carbon cycle, and oxygen in Earth's atmosphere

Plankton.jpg
Phyto tinybluegreen.jpg


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Endangered Tiny-Miniscule Species

GP360: The standard approach, when looking at threatened species, is to focus on well-known larger species. The Red List is widely known for its work to identify species at risk of extinction. Its work forms the basis for many biodiversity preservation efforts. The focus on [https://en.wikipedia.org/wiki/The_world's_100_most_threatened_species larger, readily identified animals is the norm and these species, often mammals, provides just a part of the larger picture of our threatened environment.

Large 'charismatic', or 'iconic' species, most often eclipse recognition of rarely considered species that are not even 'known' or known to be in danger...

The reality is that much of the extinction in our era is of the small species, the lesser known, unknown and unconsidered species, whether in the rich biospheres of the rainforest or the oceans, the micro-organisms are at risk and in peril of collapse.

When we speak of Plankton, as a profoundly critical keystone species, the food chain of the oceans begins with plankton, yet the disruption of the atmosphere and the heating of the ocean, or acidification, will have great consequences to the Phytoplankon, flagellates who cannot move with their limited locomotion system... Acidification of the oceans and the increases of heat or strengthened suns rays due to changes in atmospheric conditions and UV radiation can have deadly consequences to the 'least of and smallest of' the species -- and as a result effect the larger systems in ways that science is only now beginning to measure and monitor.

We are, our species is, beginning to understand that as the small animals comprising the foundations of the 'food chain' and biosphere systems are disrupted, endangered and/or destroyed, the rest of the food chain and integral ecological connections between species will be disrupted, endangered, and/or destroyed.

Microbiomes at Risk

The understanding of and protection of biodiversity, large and small, easily recognized and difficult to recognize, is a great challenge of the era in which we live... loss of biodiversity is producing a 'ripple effect' over time, a threat multiplier that demands strategic environmental security as a key goal, a green policy objective beginning with awareness and policies and practices of sustainability.

Racing Extinction websiteplankton.jpg


SMALL v LARGE SPECIES

Phytoplankton obtain energy through the process of photosynthesis and must therefore live in the well-lit surface layer (termed the euphotic zone) of an ocean, sea, lake, or other water.

Phytoplankton account for half of all photosynthetic activity on Earth...

Phytoplankton are responsible for much of the oxygen present in the Earth’s atmosphere – half of the total amount produced by all plant life. - http://en.wikipedia.org/wiki/Phytoplankton

Phyto glowing beauty of the oceans.jpg

Marine Biodiversity Strongly Linked to Ocean Temperature

ScienceDaily / 2010 — In an unprecedented effort published online by the international journal Nature, a team of scientists mapped and analyzed global biodiversity patterns for over 11,000 marine species ranging from tiny plankton to sharks and whales.

The researchers found striking similarities among the distribution patterns, with temperature strongly linked to biodiversity for all thirteen groups studied. These results imply that future changes in ocean temperature, such as those due to climate change, may greatly affect the distribution of life in the sea.

http://www.sciencedaily.com/releases/2010/07/100728131707.htm

CO2 Carbon Pollution and Ocean Ecosystems

2015 - Big Trouble Ahead for Ocean Plankton

Sobering news: Ocean acidification will likely kill off some phytoplankton species and let others thrive, while warming waters will likely cause mass phytoplankton migrations toward the poles. In short: The base of the marine food web could be in for some serious upheaval in the coming decades. Here’s more from MIT News:

“I’ve always been a total believer in climate change, and I try not to be an alarmist, because it’s not good for anyone,” says (Dr. Stephanie) Dutkiewicz, who is the paper’s lead author. “But I was actually quite shocked by the results. The fact that there are so many different possible changes, that different phytoplankton respond differently, means there might be some quite traumatic changes in the communities over the course of the 21st century. A whole rearrangement of the communities means something to both the food web further up, but also for things like cycling of carbon.”

Dutkiewicz and her colleagues studied 154 published experiments...


Phytoplankton Dutkiewicz article avail via 'Nature Climate Change' scientific journal publ.png


SecchiApp .jpg


GLOBAL PLANKTON WATCH SECCHI DISK

THE GLOBAL SEAFARER STUDY OF THE MARINE PHYTOPLANKTON

ABOUT THE PROJECT

The phytoplankton in the sea account for approximately 50% of all photosynthesis on Earth and, through the food web they support, they underpin the marine food chain.

Living at the surface of the sea the phytoplankton are particularly sensitive to changes in sea surface temperature.

We need to know much more about these changes and you can help by making a simple piece of scientific equipment called a Secchi Disk and using the free Secchi App.

Full instructions for the project are included in the free Secchi App.

Press Release -- Scientists fear the population of the microscopic beings is in decline due to rising sea temperatures and, if true, that could have consequences for every aspect of marine life.

Plankton biologist Dr Richard Kirby, who is leading the study, said: "As the phytoplankton live at the surface of the sea they are being affected by rising sea temperatures due to climate change. A scientific paper published in 2010 suggested the ocean's plankton population had declined by as much as 40 per cent since 1950. Like all marine creatures, phytoplankton have a preferred optimum sea temperature no matter where they are in the world and we need to know more about how they are changing in order to understand the effects on the ocean's biology.” To check the levels of phytoplankton in our oceans, marine experts have developed a free smart phone app for sailors and fishermen to use wherever they are in the world.

Dr Kirby added: "The Secchi Disks are still used by marine scientists to study phytoplankton but there are too few scientists to survey the world's oceans as well as we would wish. This app enables seafarers around the world to take part in a science project and if we can just get a small percentage of the global population of sailors involved, we can generate a database that will help us understand how life in the oceans is changing. It would help us learn much more about these important organisms at a crucial time when their habitat is altering due to climate change."

The Secchi app has been developed by Dr Nicholas Outram and Dr Nigel Barlow, from Plymouth University’s School of Computing and Mathematics, and the database will be maintained by Pixalytics Ltd.

Phytoplankton obtain energy through the process of photosynthesis and must therefore live in the well-lit surface layer (termed the euphotic zone) of an ocean, sea, lake, or other body of water. Phytoplankton account for half of all photosynthetic activity on Earth. Thus phytoplankton are responsible for much of the oxygen present in the Earth’s atmosphere – half of the total amount produced by all plant life. (Wikipedia)


Plankton - phytoplankton m.jpg


Marine Biodiversity Strongly Linked to Ocean Temperature

Ocean Temperatures: Are our oceans dying?

"Phytoplankton have declined 40% in 60 years as figures reveal Earth has been getting hotter since the Eighties and much of the heat has been absorbed by oceans...

Microscopic marine algae form the basis of the ocean food chain are dying at a "terrifying rate"...

Phytoplankton, described as the 'fuel' on which marine ecosystems run, are experiencing declines of about 1 per cent of the average total a year...

According to researchers, a 40 per cent drop in phytoplankton since 1950...

Marine diatom cells (Rhizosolenia setigera), an important group of phytoplankton in the oceans are now in massive decline...

The reduction in the amount of algae in the pceams could have an impact on a wide range of species, from tiny zooplankton to marine mammals, seabirds, fish and humans...

The decline of the phytoplankton would be a more dramatic change than the loss of the tropical rainforests, scientist say...

The research, published in the journal Nature, says plankton declines are linked to rising sea-surface temperatures and changes in the conditions of the ocean, particularly close to the equator...

Most of the declines are seen in tropical regions, polar and in the open ocean, where most phytoplankton are produced...


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Ocean's Oxygen Starts Running Low

Via Scientific American: Rising levels of CO2 are making it hard for fish to breathe in addition to exacerbating global warming and ocean acidification

Via Grist (2016): Oceans in crisis in as little as 15 years


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Via Ocean Scientists for Informed Policy: Ocean Deoxygenation

Via AGU / Global Biogeochemical cycles: Finding forced trends in oceanic oxygen

Via National Center for Atmospheric Research: "Loss of oxygen in the ocean is one of the serious side effects of a warming atmosphere"

"A major threat to marine life," says NCAR scientist Matthew Long...

Loss of Ocean Oxygen, A 'Forced Trend'


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Marine food chains at risk of collapse, extensive study of world's oceans finds

http://www.theguardian.com/environment/2015/oct/13/marine-food-chains-at-risk-of-collapse-extensive-study-of-worlds-oceans-reveals

Important ecosystems could be massively damaged by 2050 unless greenhouse gas emissions and localised pollution is drastically reduced, researchers say...

The food chains of the world’s oceans are at risk of collapse due to the release of greenhouse gases, overfishing and localised pollution, a stark new analysis shows.

A study of 632 published experiments of the world’s oceans, from tropical to arctic waters, spanning coral reefs and the open seas, found that climate change is whittling away the diversity and abundance of marine species.

The paper, published in the Proceedings of the National Academy of Sciences, found there was “limited scope” for animals to deal with warming waters and acidification, with very few species escaping the negative impact of increasing carbon dioxide dissolution in the oceans.

Cardinal directions s.png

Published by Nature Climate Change:

Revaluating ocean warming impacts on global phytoplankton


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Whole Earth One Connected System Astro-Gerst 2014.png


Phytoplankton Oxygen Factories

Phytoplankton are the grass of the sea. They are floating, drifting, plant-like organisms that harness the energy of the Sun, mix it with carbon dioxide that they take from the atmosphere, and turn it into carbohydrates and oxygen.

Phytoplankton are critical to the marine food web, being the primary producers of food for the oceanic food web, from zooplankton to fish and shellfish to whales.

Like plants and trees on land, phytoplankton give us a lot more than food. It is estimated that 50 to 80 percent of the oxygen in our atmosphere has been produced by phytoplankton. At the same time, they are responsible for drawing down significant portions of the carbon dioxide from the air. The tiniest of living organisms exert an outsized influence on the planet.

Phytoplankton, DMS, Clouds and Climate

New Microbiology Ocean Research / Summer 2016

Earth's climate could be shaped by some of the smallest known free-living bacteria, new research suggests.

While studying the bacterial group Pelagibacterales, the most abundant organism at the ocean's surface and one of the most abundant across the entire globe, scientists found that they are involved in an integral process that helps regulate our climate – the production of dimethylsulfide (DMS).

This revelation will likely be instrumental in developing more accurate climate models, but it may also stimulate a fresh bout of scientific interest in the simple bacteria, which have so far seen only low levels of study, yet could turn out to hold crucial roles in various systems.

As reported in the journal Nature Microbiology, researchers observed two gases being produced by the Pela ocean bacteria: DMS and methanethiol.

Methanethiol is a colorless gas with a distinctive scent that is used in industrial processes to identify 'natural gas'...

More critically, "DMS is involved in cloud formation, forming a critical link in a negative feedback loop known as the CLAW hypothesis: Sunlight stimulates the production of phytoplankton, which in turn produce dimethylsulfoniopropionate (DMSP). Other microbes break this down to form DMS, which boosts the formation of clouds, reducing the amount of sunlight that reaches the ocean."

"Here's what I think is important," according to study researcher Dr. Stephen Giovannoni of Oregon State University. "We're studying the most abundant organism in the ocean surface and we've discovered an unusual mechanism that produces DMS.... Ultimately the question is how are compounds made by this organism affecting the climate?"

Tags: Biogeochemistry: Environmental microbiology; Microbial biooceanography; Microbial ecology



Ecosystems such as seagrass should no longer be ignored on the conservation agenda

http://ensia.com/notable/threatened-ecosystem-seagrass/

Seagrass ecoregions, which are increasingly threatened, "provide a spectrum of services to humans, including sequestering millions of metric tons of carbon each year, protecting shorelines, providing nurseries for marine life, contributing to global food security, supporting biodiversity and keeping ocean water clean..."


http://www.greenpolicy360.net/w/Seagrass


Seagrass florida keys-noaa.jpg



Phytoplankton kamchatka NASA.jpg


sepacific_vir_2016013.jpg


NASA Earth Observatory


Earthviews from Astronauts


Earth Science Research from Space



Big Blue-Green News

Phytoplankton are the foundation of the ocean's food web

Via Nature Geoscience - December 2016 - Washington DC, US

More: http://phys.org/news/2016-12-space-based-lidar-plankton.html

Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) aboard the Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) satellite measures plankton levels from space in all weather... through clouds, continuously monitoring this essential 'blue-green' ocean resource.

Michael Behrenfeld from the Oregon State University's College of Agricultural Sciences explains the importance of the earth science research from the mission.

"It's really important for us to understand what controls these boom-bust cycles and how they might change in the future, because the dynamics of plankton communities have implications for all the other organisms throughout the web."

Phytoplankton also influence Earth's carbon cycle. Through photosynthesis, they absorb a great deal of the carbon dioxide near the ocean's surface. That, in turn, allows carbon dioxide from the atmosphere to go into the ocean. The satellite-mounted LIDAR instrument, dubbed Cloud-Aerosol Lidar with Orthogonal Polarisation (CALIOP), uses a laser beam to map the ocean's surface and immediate subsurface.

NASA's space-based sensor maps plankton behaviour on Earth

The results of the CALIOP/CALIPSO mission are providing the first continuous look at the boom-bust cycles of polar phytoplanktons - microscopic marine plants that are the foundation of the ocean's food web...


Phytoplankton decline NASA study Sept2015.png



Phytoplankton Population Drops 40 Percent Since 1950

Researchers find trouble among phytoplankton, the base of the food chain, which has implications for the marine food web and the world's carbon cycle

By Lauren Morello, ClimateWire

July 29, 2010



The microscopic plants that form the foundation of the ocean's food web are declining, reports a study published July 29 in Nature.

The tiny organisms, known as phytoplankton, also gobble up carbon dioxide to produce half the world's oxygen output—equaling that of trees and plants on land.


"It's very disturbing to think about the potential implications of a century-long decline of the base of the food chain," said lead author Daniel Boyce, a marine ecologist.

They include disruption to the marine food web and effects on the world's carbon cycle. In addition to consuming CO2, phytoplankton can influence how much heat is absorbed by the world's oceans, and some species emit sulfate molecules that promote cloud formation.


>Researchers at Canada's Dalhousie University say the global population of phytoplankton has fallen about 40 percent since 1950. That translates to an annual drop of about 1 percent of the average plankton population between 1899 and 2008.

>"In some respect, these findings are the beginning of the story, not the end," Boyce said. "The first question is what will happen in the future. We looked at these trends over the past century but don't know what will happen 10 years down the road."

>The study "makes a sorely needed contribution to our knowledge of historical changes in the ocean biosphere," said David Siegel of the University of California, Santa Barbara, and Bryan Franz of NASA in an essay, also published in Nature.

>"Their identification of a connection between long-term global declines in phytoplankton biomass and increasing ocean temperatures does not portend well for [ocean] ecosystems in a world that is likely to be warmer."

"Phytoplankton productivity is the base of the food web, and all life in the sea depends on it."


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