Jump to content
Sign in to follow this  

CO2 Concentration Highest in 800,000 Years

Recommended Posts

Earth's carbon dioxide levels continue to soar, at highest point in 800,000 years


Carbon dioxide — the gas scientists say is most responsible for global warming — reached its highest level in recorded history last month, at 410 parts per million.

This amount is highest in at least the past 800,000 years, according to the Scripps Institute of Oceanography. Prior to the onset of the Industrial Revolution, carbon dioxide levels had fluctuated over the millennia but had never exceeded 300 parts per million.

“We keep burning fossil fuels. Carbon dioxide keeps building up in the air,” said Scripps scientist Ralph Keeling, who maintains the longest continuous record of atmospheric carbon dioxide on Earth. “It’s essentially as simple as that.”

Ralph Keeling and his late father Charles David Keeling have kept carbon dioxide (CO2) measurements at the Mauna Loa Observatory in Hawaii since 1958.

The average concentration of carbon dioxide in the atmosphere was 410.31 parts per million (ppm) for the month of April, according to the Keeling Curve measurement series.

This marks the first time in the history of the Mauna Loa record that a monthly average has exceeded 410 parts per million. It's also a 30% increase in carbon dioxide concentration in the global atmosphere since the Keeling Curve began in 1958.

“As a scientist, what concerns me the most is not that we have passed yet another round-number threshold but what this continued rise actually means: that we are continuing full speed ahead with an unprecedented experiment with our planet, the only home we have,” Katharine Hayhoe, a climate scientist at Texas Tech University, tweeted Thursday.

Carbon dioxide is called a greenhouse gas for its ability to trap solar radiation and keep it confined to the atmosphere. It is the most prevalent among all greenhouse gases produced by human activities, attributed to the burning of fossil fuels.

The increase in gases such as carbon dioxide, methane and nitrous oxide is fueling climate change and making "the planet more dangerous and inhospitable for future generations," the World Meteorological Organization has said.

Increasing amounts of carbon dioxide and other gases are enhancing the planet's natural "greenhouse effect."

CO2 levels were around 280 parts per million prior to the Industrial Revolution in the late 1800s, when large amounts of greenhouse gases began to be released by burning fossil fuels.

The burning of the oil, gas and coal for energy releases greenhouse gases such as carbon dioxide and methane. These gases have caused the Earth's temperature to rise over the past century to levels that cannot be explained by natural variability.

Carbon dioxide is invisible, odorless and colorless, yet it's responsible for 63% of the warming attributable to all greenhouse gases, according to NOAA's Earth System Research Laboratory in Boulder, Colo.


Share this post

Link to post
Share on other sites

Interesting research going on in developing giant root systems for plants to keep more carbon in the ground.

Apparently cork doesn't decompose very well, so they've extracted the key ingredient of cork (suberin) and are planning to develop huge root systems containing suberin for commercially grown crops.

If half of the top five cereal crops grown in the world today had these carbon storing "cork" roots, we'd reduce current CO2 emissions by 20%.



And the "new" plants won't be a GMO trait (just 'naturally' hybridised).

Full but lengthy well-researched article: https://on.ft.com/2Sjkqbe

or https://www.ft.com/content/aa055276-2419-11e9-8ce6-5db4543da632

If no tilling (or less tilling) farming is the way ahead for the future too, what happens over time if these roots don't sufficiently decompose (and which store the carbon)?  Do you end up with an infertile field essentially full of dead 'cork' roots in which crops won't grow?

Edited by Snorky

Share this post

Link to post
Share on other sites

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
Sign in to follow this