During the Eocene Epoch, alligator relatives swam in the swamps on Ellesmere Island and mammals climbed in the dawn redwood trees. (Credit: Bob Hynes/Smithsonian Institution)
As climate change continues, the rate at which Earth warms could increase in the future, according to new simulations.
Researchers used a state-of-the-art climate model to successfully simulate—for the first time—the extreme warming of the Early Eocene Period, which scientists consider an analog for Earth’s future climate.
The researchers found that the rate of warming increased dramatically as carbon dioxide levels rose, a finding with far-reaching implications for Earth’s future climate, the researchers report in a paper in the journal Science Advances.
Another way of stating the result is that the climate of the Early Eocene became increasingly sensitive to additional carbon dioxide as the planet warmed.
“We were surprised that the climate sensitivity increased as much as it did with increasing carbon dioxide levels,” says first author Jiang Zhu, a postdoctoral researcher in the earth and environmental sciences department at the University of Michigan.
“It is a scary finding because it indicates that the temperature response to an increase in carbon dioxide in the future might be larger than the response to the same increase in CO2 now. This is not good news for us.”
Looking to the past to predict the future
The researchers determined that the large increase in climate sensitivity they observed—which scientists had not been seen in previous attempts to simulate the Early Eocene using similar amounts of carbon dioxide—is likely due to an improved representation of cloud processes in the climate model they used, the Community Earth System Model version 1.2, or CESM1.2.
Scientists expect global warming to change the distribution and types of clouds in the Earth’s atmosphere, and clouds can have both warming and cooling effects on the climate. In their simulations of the Early Eocene, Zhu and his colleagues found a reduction in cloud coverage and opacity that amplified CO2-induced warming.
The same cloud processes responsible for increased climate sensitivity in the Eocene simulations are active today, according to the researchers.
“Our findings highlight the role of small-scale cloud processes in determining large-scale climate changes and suggest a potential increase in climate sensitivity with future warming,” says coauthor Christopher Poulsen, a paleoclimate researcher.
“The sensitivity we’re inferring for the Eocene is indeed very high, though it’s unlikely that climate sensitivity will reach Eocene levels in our lifetimes,” says coauthor Jessica Tierney of the University of Arizona.
The Early Eocene (roughly 48 million to 56 million years ago) was the warmest period of the past 66 million years. It began with the Paleocene-Eocene Thermal Maximum, which is known as the PETM, the most severe of several short, intensely warm events.
The Early Eocene was a time of elevated atmospheric carbon dioxide concentrations and surface temperatures at least 14 degrees Celsius (25 degrees Fahrenheit) warmer, on average, than today. Also, the difference between temperatures at the equator and the poles was much smaller.
Geological evidence suggests that atmospheric carbon dioxide levels reached 1,000 parts per million in the Early Eocene, more than twice the present-day level of 412 ppm. If nothing is done to limit carbon emissions from the burning of fossil fuels, CO2 levels could once again reach 1,000 ppm by the year 2100, according to climate scientists.
A better climate change model
Until now, climate models have been unable to simulate the extreme surface warmth of the Early Eocene—including the sudden and dramatic temperature spikes of the PETM—by relying solely on atmospheric CO2 levels. Unsubstantiated changes to the models were necessary to make the numbers work, says Poulsen, a professor in the Earth and environmental sciences department and associate dean for natural sciences.
“For decades, the models have underestimated these temperatures, and the community has long assumed that the problem was with the geological data, or that there was a warming mechanism that hadn’t been recognized,” he says.
But the CESM1.2 model was able to simulate both the warm conditions and the low equator-to-pole temperature gradient seen in the geological records.
“For the first time, a climate model matches the geological evidence out of the box—that is, without deliberate tweaks made to the model. It’s a breakthrough for our understanding of past warm climates,” Tierney says.
CESM1.2 was one of the climate models the Intergovernmental Panel on Climate Change used in the authoritative Fifth Assessment Report, finalized in 2014. The model’s ability to satisfactorily simulate Early Eocene warming provides strong support for CESM1.2’s prediction of future warming, which it expresses through a key climate parameter called equilibrium climate sensitivity.
The term equilibrium climate sensitivity refers to the long-term change in global temperature that would result from a sustained doubling—lasting hundreds to thousands of years—of carbon dioxide levels above the pre-industrial baseline of 285 ppm. The consensus among climate scientists is that the ECS is likely to be between 1.5 C and 4.5 C (2.7 F-8.1 F).
The equilibrium climate sensitivity in CESM1.2 is near the upper end of that consensus range at 4.2 C (7.7 F). The new study’s Early Eocene simulations exhibited increasing equilibrium climate sensitivity with warming, suggesting an Eocene sensitivity of more than 6.6 C (11.9 F), much greater than the present-day value.
Support for the research came from a Heising-Simons Foundation grant to Poulsen and Tierney.
Source: University of Michigan
Life After Carbon: The Next Global Transformation of Cities
by Peter Plastrik , John Cleveland
The future of our cities is not what it used to be. The modern-city model that took hold globally in the twentieth century has outlived its usefulness. It cannot solve the problems it helped to create—especially global warming. Fortunately, a new model for urban development is emerging in cities to aggressively tackle the realities of climate change. It transforms the way cities design and use physical space, generate economic wealth, consume and dispose of resources, exploit and sustain the natural ecosystems, and prepare for the future. Available On Amazon
by Elizabeth Kolbert
Over the last half-billion years, there have been Five mass extinctions, when the diversity of life on earth suddenly and dramatically contracted. Scientists around the world are currently monitoring the sixth extinction, predicted to be the most devastating extinction event since the asteroid impact that wiped out the dinosaurs. This time around, the cataclysm is us. In prose that is at once frank, entertaining, and deeply informed, New Yorker writer Elizabeth Kolbert tells us why and how human beings have altered life on the planet in a way no species has before. Interweaving research in half a dozen disciplines, descriptions of the fascinating species that have already been lost, and the history of extinction as a concept, Kolbert provides a moving and comprehensive account of the disappearances occurring before our very eyes. She shows that the sixth extinction is likely to be mankind's most lasting legacy, compelling us to rethink the fundamental question of what it means to be human. Available On Amazon
Climate Wars: The Fight for Survival as the World Overheats
by Gwynne Dyer
Waves of climate refugees. Dozens of failed states. All-out war. From one of the world’s great geopolitical analysts comes a terrifying glimpse of the strategic realities of the near future, when climate change drives the world’s powers towards the cut-throat politics of survival. Prescient and unflinching, Climate Wars will be one of the most important books of the coming years. Read it and find out what we’re heading for. Available On Amazon
From The Publisher:
Purchases on Amazon go to defray the cost of bringing you InnerSelf.comelf.com, MightyNatural.com, and ClimateImpactNews.com at no cost and without advertisers that track your browsing habits. Even if you click on a link but don't buy these selected products, anything else you buy in that same visit on Amazon pays us a small commission. There is no additional cost to you, so please contribute to the effort. You can also use this link to use to Amazon at any time so you can help support our efforts.