Category:Ocean Science: Difference between revisions

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''Research published in the last month in the Journal of 'Environmental Pollution' has found microplastics in greater quantities than ever before on the seabed and suggested that hundreds of thousands of tonnes of microplastics could be blowing ashore on the ocean breeze every year...''
''Research published in the last month in the Journal of 'Environmental Pollution' has found microplastics in greater quantities than ever before on the seabed and suggested that hundreds of thousands of tonnes of microplastics could be blowing ashore on the ocean breeze every year...''
<big>'''The Rise of the Jellyfish'''
Invasion across the oceans of the world
''After roaming the oceans for more than a half billion years, jellyfish may finally be poised to overtake Earth's largest bodies of water. A combination of pollution and warming is fostering a perfect environment for the alien-looking creatures to rule the seas.''
''Thousands of species fall under the jellyfish umbrella, similar only in their basic body composition and tendency in undergoing sudden population booms. Some scientists use the term “gelatinous zooplankton”... Jellyfish may finally be poised to overtake Earth's largest bodies of water.''
''Jellymageddon: Can we stop the rise of the jellyfish?''
[https://www.youtube.com/watch?v=hWvsAiTkI5o <big>'''''Rise of the Jellyfish'''''</big>]
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Revision as of 21:05, 2 July 2020

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Seaweed, not just seaweed but a 'Sea of Seaweed'

Warming oceans produce abundant 'weed'


Satellites tracking 'the weed'

Satellites in Space Spot Largest Seaweed Bloom on Earth


The great Atlantic Sargassum belt

Floating mats of Sargassum seaweed in the center of the North Atlantic were first reported by Christopher Columbus in the 15th century. These mats, although abundant, have until recently been limited and discontinuous. However, Wang et al. report that, since 2011, the mats have increased in density and aerial extent to generate a 8850-kilometer-long belt that extends from West Africa to the Caribbean Sea and Gulf of Mexico. This represents the world's largest macroalgal bloom. Such recurrent blooms may become the new normal.


Seaweed, seaweed everywhere

Millions of tonnes of floating Sargassum seaweed in coastal waters smother fragile seagrass habitats, suffocate coral reefs and harm fisheries. And once washed ashore on Mexican and Caribbean beaches, this foul-smelling, rotting seaweed goes on to devastate the tourist industry, prevent turtles from nesting and damage coastal ecosystems, while releasing hydrogen sulphide and other toxic gases as it decomposes.

Seaweed blooms are exacerbated by fertilisers washing into the ocean, as well as by warming sea temperatures. “Sargassum blooms on the Atlantic gyre [tidal current] have got much worse in recent years partly due to increasing intensive agriculture discharging fertiliser into the sea via rivers such as the Mississippi and Amazon,” says Prof Mike Allen, of the University of Exeter and Plymouth Marine Laboratory. “Fertiliser makes the seaweed grow faster and this influx of biomass just shouldn’t be there in that abundance – it’s out of control.”


Sargassum: The biggest seaweed bloom in the world


Sargasso Sea (video) from the Smithsonian Channel


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Microplastic Pollution Across World Oceans

'Ginormous' Disaster in the Making

"Plastic Particles may outnumber zooplankton, which underpin marine life and regulate climate"


Microplastics have entered the food chain in rivers, with birds found to be consuming hundreds of particles a day via the aquatic insects on which they feed.

Microplastic pollution has contaminated the whole planet, from Arctic snow and mountain soils to many rivers and the deepest oceans. It is also being consumed and inhaled by people, and the health impacts are as yet unknown.

Research published in the last month in the Journal of 'Environmental Pollution' has found microplastics in greater quantities than ever before on the seabed and suggested that hundreds of thousands of tonnes of microplastics could be blowing ashore on the ocean breeze every year...


The Rise of the Jellyfish

Invasion across the oceans of the world

After roaming the oceans for more than a half billion years, jellyfish may finally be poised to overtake Earth's largest bodies of water. A combination of pollution and warming is fostering a perfect environment for the alien-looking creatures to rule the seas.

Thousands of species fall under the jellyfish umbrella, similar only in their basic body composition and tendency in undergoing sudden population booms. Some scientists use the term “gelatinous zooplankton”... Jellyfish may finally be poised to overtake Earth's largest bodies of water.

Jellymageddon: Can we stop the rise of the jellyfish?


Rise of the Jellyfish


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Seagrass: A 'Secret Weapon' Against Global Heating


Impacts of Ocean Warming /AGU Science - Geophysics


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Cyanobacteria Prochlorococcus worldmapping MIT.jpg


TinyBlueGreen


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Molecular Understanding of Ocean Warming

Peter G. Brewer

July 2019


A grand challenge for ocean chemists in the years ahead lies in the need to tackle the chemical consequences of ocean warming with the same rigor and intensity that has been brought to bear on the physical chemistry of ocean acidification...

The ocean absorbs some 93% of all greenhouse gas‐generated heat, and ocean warming is already creating observable impacts on marine life. To make reliable projections for the future, we cannot rely on Ptolemy‐like rules, built as something to match field observations, to apply in the years to come. Instead, we will need to apply the laws of chemical physics to calculate and predict the changes that ocean warming will have on the physical properties of sea water and the associated impacts on marine life. This includes treating water as a fluid with defined temperature‐and pressure‐dependent chemical structures.

Sea water is 96.5% water, and some 78–85% of water in the oceans has a form with a much higher molecular weight than the water molecule that typically comes to mind, with a single oxygen and two hydrogens. These varied structures are now directly relatable to the high heat capacity of water, why the speed of sound is faster in warmer water, and the viscosity of sea water that provides constraints on microbial motion. Microbial activity is a key driver to the amount of oxygen in different parts of the ocean, and if their activity is affected by increased warmth, it seems quite possible that large regions may exist with no oxygen at all. Marine life responds strongly to changing oxygen status. This is because both warmer waters can hold less oxygen, and because warming drives higher rates of microbial growth.

Marine fisheries, and the great majority of all marine species, are already responding to these forces and are migrating toward cooler waters near the poles. Using known laws of science to connect chemistry, physics, and ocean warming would allow the ocean sciences to proceed on firmer footing and to improve future projections of the impact of ocean warming. The ocean is now experiencing the twinned invasions of heat and fossil fuel carbon dioxide that drive up its acid level. It is the combined impact of these two great waves, both resulting from our use of fossil fuels, that will be critical...


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Monitoring Earth's Oceans from Space

How Satellites and Big Data Can Help to Save the Oceans
Will the new availability of sophisticated, satellite-based technologies, coupled with the democratization of online data about the health of our environment, help ensure that these positive advancements live up to their potential to protect the oceans?


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"What percentage of the Earth is covered by oceans?"'


71% -- Via http://www.noaa.gov/oceans-coasts


Ocean Ecosystems

Ocean Sustainability


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Science on the Seas (SOS)



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Join in Planet Scientists, do some difference-making Citizen Science


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Mapping & Tracking


Virtual Earth

Google Earth Outreach
Global Fishing Watch


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Where is the heat - IPCC.jpg


Open Science Access to Ocean Research



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Global Impacts of Ocean Acidification and Warming


Reefscape

To gather a more comprehensive understanding of the condition of global reef ecosystems, we need a way to assess and monitor them on a large geographic scale.
The Reefscape project aims to improve our understanding of the condition of coral reefs worldwide, while simultaneously developing spectral libraries needed to advance the development of a new satellite mission.
New satellites, such as those from Planet (formerly Planet Labs), are, as of 2017, able to capture near-daily imagery of coral reefs worldwide. Planet’s high-resolution imagery of reef locations provides new imaging, science and understanding of the composition and extent of shallow, horizontally oriented reefs.


Reefscape.png

 

 


 

 

Chasing Coral.jpg


Reefs and Coral, sentinel species

Coral reefs in peril as ocean environment is transformed




Ocean Research Missions - http://schmidtocean.org/

(News) http://schmidtocean.org/news/



Rachel Carson ecology - ecosystem.png


RACHEL CARSON - 1949.jpg


Subcategories

This category has the following 21 subcategories, out of 21 total.

A

B

C

E

F

G

N

  • NOAA(8 C, 63 P, 639 F)

O

P

S

T

W

  • Water(20 C, 56 P, 215 F)

Pages in category "Ocean Science"

The following 99 pages are in this category, out of 99 total.

Media in category "Ocean Science"

The following 200 files are in this category, out of 840 total.

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