Nutrients From Deep-Sea Vents Key to Carbon Storage, Study Says

Published on March 15th, 2010 by Yale Environment 360

Posted in

Carbon Capture, Category

Climate Change & Carbon Emissions

1 Comment »
Rating:

Hot, nutrient-rich water seeping from a network of deep-sea volcanoes provides a consistent source of iron for the phytoplankton that soaks up carbon dioxide, playing a key role in limiting climate change, according to a new study by French and Australian scientists.

The world’s oceans capture about 25 percent of the carbon dioxide emitted by human activities, including the burning of fossil fuels, scientists say. Among the largest “carbon sinks” is the Southern Ocean between Antarctica and Australia.

Underpinning that cycle is the microscopic plant phytoplankton, which absorbs the carbon dioxide at the ocean surface and then eventually carries it to the ocean floor.

While it is well known that iron carried in dust or in coastal sediments can trigger phytoplankton blooms, the extent and consistency of deep-sea vents as a source of nutrients was not as well understood, according to the study published in the journal Nature Geoscience.

That source, researchers say, produces between 5 and 15 percent of the total carbon storage in the entire Southern Ocean, and as much as 30 percent in some parts.

Article appearing courtesy Yale Environment 360.

photo: Astacus

Welcome to the CleanTechies Blog! If you are new here, you might want to subscribe to the RSS feed or via email for updates on this topic.

Share and Bookmark:

Rating: 4.0/5 (1 vote cast)

Tags:

carbon emissions Tags

carbon storage Tags

oceans

volcanoes

[ Permalink ]

Posts you might like:

Grassland Carbon Storage

Planet’s Carbon Storing Capacity Keeping Pace with Human Emissions

Forests Absorb One-Third of Fossil Fuel Emissions, Landmark Study Finds

Forests Ability To Absorb Carbon May Be Better Than First Thought

Carbon Storage Projects Expanded in 2010 Despite Economic Challenges

This entry was posted on Monday, March 15th, 2010 at 11:50 am and is filed under Carbon Capture, Climate Change & Carbon Emissions.

You can follow any responses to this entry through the RSS 2.0 feed or via email. You can leave a response, or trackback from your own site.

View by Category

Jem Cooper says:

March 16, 2010 at 10:20 am

I was recently surprised to discover how little of the dead sinking solid organic matter from the upper ocean layer where photosynthesis is possible reaches the deep ocean for long term retention. The following is an extract from my website.

“Myles Allen pointed me to a paper

http://iopscience.iop.org/1748-9326/4/1/014012/pdf/erl9_1_014012.pdf?ejredirect=migration

which shows how very slowly atmospheric carbon dioxide concentration would decline even if emissions stopped. The ocean currently absorbs 2.2 billion tonnes/year of carbon (as noted in my November blog) but as described in the paper, uptake would fall to about a quarter of that value (ie only 6% of current emissions) if atmospheric carbon dioxide concentration stopped rising today.

The arctic ocean downwelling flow corresponding to the ongoing carbon uptake of 0.54 billion tonnes/year predicted in the paper gives an ocean turnover time of 2500 years. The 0.54 billion tonnes/year also implies that only about 1.4 billion tonnes/year of carbon in dead organisms sinks far enough to contribute to the measured increase in dissolved inorganic carbon in the cold downwelled polar water that fills the ocean below about 500 metres depth. Most of the often quoted 10 billion tonnes/year of sinking solid organic matter must decompose in the shallower water and leave the dissolved carbon there.

The observed 2 ppm per year increase in atmospheric carbon dioxide concentration would explain the other three quarters of the current 2.2 billion tonnes/ year of oceanic carbon uptake if the top 350 metres of the ocean were well mixed.