The “geologic eons of time”

This is the 6th episode in a series recounting the history of measurements and data related to Global Climate Change. If you’re just joining, you can catch up on the previous episodes:

  • Episode 1: Beginnings (or two British scientists’ adventures with leaves and CO2 measurements)
  • Episode 2: First measurement of anthropogenic global warming
  • Episode 3: Our “large scale geophysical experiment” (1940-1960)
  • Episode 4: Dave Keeling persists in a great idea
  • Episode 5: Icy time capsules

Episode 6

“I absolutely do not believe in the science of man-caused climate change. It’s not proven by any stretch of the imagination. It’s far more likely that it’s sunspot activity or just something in the geologic eons of time.”
-My own U.S. Senator, Ron Johnson, R-WI (Journal Sentinel, August 16, 2010)

“It’s a very complex subject. I’m not sure anybody is ever going to really know.”
-Donald Trump (New York Times interview, November 22, 2016)

“I think that measuring with precision human activity on the climate is something very challenging to do…”
-Scott Pruitt, EPA Administrator (CNBC Interview, March 9, 2017)

Mr. Pruitt is right, of course. Measuring with precision [the influence of] human activity on the climate is indeed challenging. Just like landing folks on the moon and returning them safely home. Or sending automobile-sized robots to drive themselves around on Mars taking photographs and analyzing soil samples and sending the results back to us on Earth. Or making giant aluminum tubes with wings that can carry hundreds of people by air to destinations anywhere on the globe in 24 hours or less with a safety record better than that of horse-drawn carriages. Or eradicating smallpox. Or making it possible for most of us to communicate with one another using our voices, text, images or videos, globally, in real time and at a moment’s notice, with little wireless devices we carry around in our pockets.

Once you recall we have accomplished all those rather challenging things, you may not be shocked to learn we have, indeed, also measured with precision the influence of human activity on the climate. Not only that, as we have seen in previous episodes and will continue to see, scientists have made these high-precision measurements publicly available. Anyone with web access can download and review much of the data. The detailed methods with which the precision measurements were conducted, and the resulting data analyzed, are also publicly available in scientific publications, the quality of which have been verified through peer-review (many of these are accessible as links on this website). Presumably, as Head of the United States Environmental Protection Agency, Mr. Pruitt has ready access to means for reviewing the precision measurements at his convenience.

And, as it turns out, we don’t have to speculate, as Senator Johnson evidently does, about mysterious somethings (sunspots maybe?) in the “geologic eons of time.” That’s because, as we saw in Episode 5 of this series, evidence of events during those “geologic eons” is available for study.

In Episode 5, we saw how tiny bubbles of old atmospheres, trapped and preserved in ice as deep as three quarters of a mile below ground at Law Dome, Antarctica, and extracted from ice cores, have enabled us to construct a measured record of atmospheric CO2 concentration over the past 2000 years. Thanks to the exceptionally high rate of snowfall at Law Dome, this 2000-year record has a very high resolution. But ice cores have been extracted at other locations in Antarctica, too, and some of those locations feature deeper ice.

Image credit: U.S. Department of Energy, Carbon Dioxide Information Analysis Center. Map of Antarctica showing locations of ice core drilling operations.

The deepest ice cores have been extracted by the European Project for Ice Coring in Antarctica (EPICA) at Dome C. EPICA has extracted ice cores three miles deep at Dome C, and those ice cores contain air bubbles trapped up to 800,000 years ago. Additionally, a collaborative project between Russia, the U.S., and France extracted ice cores as deep as 2.25 miles below ground at Vostok station, from which have been captured atmospheric samples from up to 420,000 years ago. Combining CO2 measurements from the Dome C ice cores, Vostok ice cores, Law Dome ice cores, and direct atmospheric measurements at Mauna Loa and the South Pole gives us this continuous plot of atmospheric CO2 concentrations going back a whopping 800,000 years:

Publicly available 800 KYr ice core data and Scripps ice core-merged data, downloaded and plotted by me. Original data sources: (A) Dome C (Luthi et al. 2008) measured at University of Bern; (B) Dome C (Siegenthaler et al. 2005) measured at University of Bern; (C) Dome C (Siegenthaler et al. 2005) measured at LGGE Grenoble; (D) Vostok (Petit et al. 1999, Pepin et al. 2001) measured at LGGE Grenoble; (E) Dome C (Monnin et al. 2001) measured at University of Bern; (F) Law Dome (Keeling et al. 2005, Meure et al. 2006); (G) Average yearly data from atmospheric sampling at Mauna Loa and South Pole (“Keeling Curve”); (H) Mauna Loa measurement made on April 29, 2017 (409.76 ppm). Human and other hominid experience milestones added by me with reference to Wikipedia.

More details about the measurement methods and access to the data sets are available at this website and by clicking links to the original scientific publications in the caption above.

The green and blue colored data in the graph above are the 2000-year Law Dome measurements and direct atmospheric CO2 measurements since 1958, respectively, that we plotted in Episode 5. They are shoved way over to the right now, dwarfed in time by the massive amount of historical data collected from the deeper ice cores at Vostok and Dome C.

I’m not sure what Senator Johnson meant by “the geologic eons of time.” But, insofar as we are interested in how CO2 has changed over a time period of interest to the success and survival of humans on Earth, I’d say 800,000 years fits the bill. To put that in context, anatomically modern humans appeared on the planet only 200,000 years ago. So, the CO2 record above goes back 4 times as long as the entirety of human experience. In fact, it goes back 200,000 years longer than fossil evidence of Homo heidelbergensis, the hominid thought likely to be the common evolutionary ancestor of Neanderthals and humans. (I included these and some other human and hominid milestones on the graph above. I find this useful for the purpose of putting geological and human events in perspective.)

In Episode 5, we saw that, over the past 2000 years, humans experienced atmospheric CO2 concentrations between 272 and 284 ppm prior to the Industrial Revolutions when we started to burn gobs of fossil fuels. The data in this episode extends that range somewhat, to a human experience of 184-287 ppm. The maximum pre-industrial concentration in human experience occurred 126,000 years ago, and it was roughly matched at the time of the Second Industrial Revolution, when we started to burn oil at an industrial scale. Since then, it has been up and up, such that our CO2 level as of April 29, 2017 is 43% higher than the maximum CO2 level over the entire pre-industrial experience of humans spanning 200,000 years.

Same plot of atmospheric CO2 concentrations over the past 800,000 years, showing the average pre-industrial CO2 concentration during that period (dashed line), the minimum and maximum pre-industrial concentrations during that period, and the minimum and maximum concentrations during all of pre-industrial human experience (that is, between about 200,000 years ago and the Industrial Revolutions).

And, in the context of the “geologic eons of time,” this is happening quickly! As we did for the shorter data set in Episode 5, we can take the derivative of the graph above to see the rate of change of the atmospheric CO2 concentration in parts per million per year:

Rate of change in atmospheric CO2 concentration in parts per million per year (ppm/year).

The answer is the same as we saw in Episode 5, but it’s all the more striking in the context of an 800,000 year record. Not only are we far above any “natural” CO2 level in the past 800,000 years, since the Industrial Revolutions we have been increasing that CO2 level at a rate much faster than Earth has experienced over at least that time period. And the rate of increase continues to accelerate.

When you hear about “controversy” in climate science, uncertainties about the Earth’s response to this super fast rate of change is what it’s about. It’s not about whether CO2 from our burning of fossil fuels is causing global climate change. (It is.) The uncertainty (which the popular media may refer to as “controversy”) is about how extremely and how quickly Earth’s climate will respond to the rapid change in atmospheric CO2. Questions like: How quickly will the land-based ice sheets in Antarctica and Greenland melt, contributing to sea level rise? How much and how quickly will the reduced reflectivity of the Earth, as a result of the melting of the reflective snow and ice, contribute to additional warming?

To a scientist, like myself, who is experienced in rate-of-change graphs, the plot above is terrifying. It’s what we refer to as, “going vertical.” That is, departing from the normal process at an accelerating rate. I, myself, am a product developer experienced with defining and controlling the conditions required to manufacture new products. People like me want to keep a graph of a critical process parameter (in this case, CO2 concentration) within narrow limits. From this point of view, the Earth has “manufactured” humans. This has occurred, until very recently, within narrow limits of the atmospheric CO2 concentration. We are now departing rapidly from those narrow limits. As an engineer, I would say we need to get that critical process parameter back in control, as soon as possible. Otherwise, we risk a failure of our manufacturing process. Since the manufactured product, in this case, is us, we have a strong interest in getting the process under control.

Stay tuned for Episode 7, where we link the historical CO2 record directly to the global temperature record.

To be continued…

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March 2017: 2nd warmest March on record

In Episode 4 and Episode 5 of our brief history of the scientific evidence of global climate change, we saw how direct atmospheric CO2 measurements and measurements from air bubbles trapped in ancient ice provide us a record of the Earth’s atmospheric CO2 concentration since Biblical times. This record reveals a dramatic and accelerating increase in atmospheric CO2 beginning with the onset of our large scale combustion of fossil fuels during the Industrial Revolutions:

Publicly available Scripps ice core-merged data, downloaded and plotted by me. Green: Ice core data from Law Dome, 0 C.E. to 1957 (see references here and here). Blue circles: Average yearly data from atmospheric sampling at Mauna Loa and South Pole, 1958-2016. Blue square: Mauna Loa measurement made on March 30, 2017. Human experience milestones added by me.

A new graphic prepared by Climate Central uses NASA and NOAA temperature data to show how the monthly global average temperature for each month since 1880 has compared with the average temperature for that month during the “early industrial” years of 1881-1910, highlighted in red in the plot above. (Basically, how much cooler or warmer each month was compared with that month during the time period when Dr. Brown and Mr. Escombe were conducting their early CO2 measurements at the Royal Botanical Gardens.) Cooler months are blue and warmer months are red, with the saturation of the color indicating the departure from the average temperature for that month between 1881 and 1910:

Image credit: Brian Kahn, Climate Central. Underlying data are from NASA and NOAA (see here for details).

March, 2017 was the second warmest March on record, 1.3 degrees Celsius (2.4 degrees Fahrenheit) above the average March that Dr. Brown and Mr. Escombe experienced around their time at the Royal Botanical Gardens. It also marked the 627th consecutive month of warmer-than-average temperatures since that time.

This is not “fancy scientific data” or computer models. Just readings from thermometers at meteorological stations. Do you generally believe thermometers?

If you were born after December, 1964 (look for that lonely blue box above), you have never experienced a “cool” month.

#AskYourDenierIfTheyveSeenThis

#rescuethatfrog

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Some thoughts from the March for Science

On March 22, 2017, my family and I joined tens of thousands of scientists and supporters of science in over 600 cities on 6 continents in a nonpartisan March for Science.

At the Minnesota State Capitol, it was a beautiful Spring day. Here are some of the signs we spotted in the crowd of more than 10,000:

A montage of signs spotted at the March for Science at the Minnesota State Capitol, St. Paul, MN.

It felt good.

But there is still much to do to make sure we hold our federal, state, and local governments accountable for implementing rational policies informed by scientific knowledge, particularly with regard to global climate change. As Americans, we owe it to our Alaskan neighbors. As the #1 cumulative national emitter of fossil carbon, we owe it to the rest of humanity. We owe it to the other species with whom we share the Earth. As the potential beneficiaries of technologies that are available now and can limit the future economic havoc of hotter temperatures and rising oceans, while providing us complete energy independence and putting lots of people to work developing a global leadership position in sustainable energy, we owe it to our economy. As fathers and mothers and grandmothers and grandfathers, we owe it to the children to whom we will leave our planet.

The federal budget proposal on the table, if implemented, would cut the EPA’s budget by 31%, eliminating the jobs of 19% of its workforce and terminating the Clean Power plan which is the primary current policy vehicle for meeting our commitments under the Paris Climate Agreement. This is to be accomplished under the “leadership” of the newly appointed EPA Administrator, Scott Pruitt, who recently said he “would not agree that [carbon dioxide] is a primary contributor to the global warming that we see.” (Um, it is. It definitely is.) The proposed budget would even terminate NASA’s missions designed to monitor the Earth’s climate.

In an official statement on the March for Science, President Trump said, “Rigorous science is critical to my Administration’s efforts to achieve the twin goals of economic growth and environmental protection.” He went on to say, “My Administration is committed to advancing scientific research that leads to a better understanding of our environment and environmental risks.”

These are very encouraging statements. If they are serious statements, that would suggest that the President will encourage his EPA Administrator to take the opportunity of talking with his own employees, who can explain to him the facts surrounding the known causal relationships between fossil fuel combustion, atmospheric CO2 concentration, and global warming. It would suggest that the President will begin championing infrastructure investments like this one, to create jobs, develop a leadership position in a sustainable energy economy, and protect the environment. I will be watching with excitement for signs of these developments.

But, just in case, let’s give our representatives in government some encouragement. The activities initiated with the March for Science continue. This week, we are encouraged to contact our representatives to motivate them on this issue. You can see the call to action on the March for Science website.

I’m providing my own letters (copy them if you want!) here, as well as some resources to help you write your own.

March on!

#MarchforScience

#rescuethatfrog

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Neil deGrasse Tyson on Science in America

On the day before Earth Day and the March for Science, it’s worth watching this 4-minute video commentary by astrophysicist and science communicator, Neil deGrasse Tyson on “Science in America”:

Video credit: StarTalk Radio. 4-minute commentary by astrophysicist Neil deGrasse Tyson on the past and present state of “Science in America”. The science related to global climate change is prominently discussed.

#rescuethatfrog

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Choosing a Bright Future: Kauai, Hawaii

In March, 2017, residents of the Hawaiian island of Kauai connected a 54,978-panel solar farm to giant battery packs provided by Tesla, creating the world’s largest photovoltaic-battery combination power plant. The batteries store electricity generated when the sun is up for use at night, enabling the 13 megawatt solar array to provide power around the clock.

This power plant has reduced Kauai’s fossil fuel consumption by 1.6 million gallons per year and brought the proportion of its power from renewables higher than 40%, well on the way to the island’s goals of 70% by 2030 and 100% by 2045.

Tesla has contracted with the Kauai Island Utility Cooperative to operate the solar plant, providing electricity to island residents at a guaranteed flat rate of 13.9 cents per kilowatt-hour for the next 20 years. This is well below the current Hawaiian average electricity rate of 28.3 cents per kW-h and competitive with the U.S. overall average rate of 12.2 cents per kW-h (source: U.S. Energy Information Administration).

Watch this short news report to learn more:

Video credit: CNNMoney. News report about the Kauai’s new 13 megawatt photovoltaic-battery combination power plant, the largest in the world, which came online in March, 2017.

Read more here.

This is the nature of renewable energy in 2017. It’s here now. It’s available. In many cases, it’s competitive in cost with fossil sources. (The installed price of solar photovoltaic systems has been falling year on year for decades.) It can provide complete, local-scale energy independence and insulation from the market forces that cause fossil fuel prices to vary. It has no greenhouse gas emissions. Its provision requires no miners to get black lung. With continued investment, it will only get better and better.

While many of us appreciate the seriousness of global climate change, I think many people may under-appreciate the rampant availability of the solutions.

When we are talking about choices between future scenarios, we are really talking about just that: choices. We have everything we need to make dramatic steps toward solving this problem and ensuring a livable future Earth for generations to come.

In fact, last month a group of scientists published in the prestigious journal, Science, a very readable, technical roadmap for meeting the goals of the Paris Climate Agreement. It’s a short but sobering read. We definitely don’t have much time left to engage in idiotic arguments about whether global warming is even happening.

On the other hand, our President has vowed “massive infrastructure spending” to get Americans “off of welfare and back to work rebuilding our country.” I think that’s great. I can’t imagine a more impressive, job creating, value creating national infrastructure project than this one.

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Before Our Eyes: The Great Barrier Reef

CNN reports in April, 2017 about the ongoing bleaching and death of two-thirds of the Great Barrier Reef due to elevated ocean temperatures that have been directly linked to global warming. (Watch short video; watch more detailed CNN report including interviews with scientists studying the changing reef.)

#AskYourDenierIfTheyveSeenThis

See more changes happening Before Our Eyes.

Sad about this post? Consider doing something about it. It’ll cheer you up!

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Some thoughts from 1994 (we’ve been talking about this a long time)

Her love rains down on me as easy as the breeze
I listen to her breathing, it sounds like the waves on the sea
I was thinking all about her, burning with rage and desire
We were spinning into darkness; the Earth was on fire

She could take it back, she might take it back some day

So I spy on her, I lie to her, I make promises I cannot keep
Then I hear her laughter rising, rising from the deep
And I make her prove her love for me, I take all that I can take
And I push her to the limit to see if she will break

She might take it back, she could take it back some day

Now I have seen the warnings, screaming from all sides
It’s easy to ignore them and God knows I’ve tried
All of this temptation, it turned my faith to lies
Until I couldn’t see the danger or hear the rising tide

She could take it back, she can take it back some day

She can take it back, she will take it back some day

She will take it back, she will take it back some day

-Pink Floyd, 16 May 1994

Video credit: YouTube. Pink Floyd performs “Take It Back” on The Division Bell tour, 1994.

Brief history of the scientific evidence

Evidence Before Our Eyes

Possible futures (it’s our choice)

Evidence of a scientific consensus

Take Action

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Icy time capsules

This is the 5th episode in a series recounting the history of measurements and data related to Global Climate Change. If you’re just joining, you can catch up on the previous episodes:

  • Episode 1: Beginnings (or two British scientists’ adventures with leaves and CO2 measurements)
  • Episode 2: First measurement of anthropogenic global warming
  • Episode 3: Our “large scale geophysical experiment” (1940-1960)
  • Episode 4: Dave Keeling persists in a great idea

Episode 5

In Episode 4, we saw Dave Keeling and coworkers discover the atmospheric CO2 concentration has been on a marked upward sweep, from about 290 ppm in 1900 to over 400 ppm now, and accelerating. Well, is that unusual? Is that a big swing? Or, does the CO2 concentration vary a lot due to natural causes?

Since Dave Keeling only began our continuous, high-accuracy CO2 measurements in 1958, it would seem we would need a time machine to figure that out. In some of the loneliest places on Earth, it turns out, nature has been quietly making time capsules for us.

In parts of Greenland and Antarctica, the snow never melts. In between the snowflakes, tiny volumes of air are trapped. As the years go by, each layer of snow is compacted under new layers. The snow is eventually compacted into ice, and the air is entrapped in minute, isolated bubbles. Geologists in heavy coats prospect for those historical bubbles, little bits of past atmospheres. Good spots to prospect are where it snows very often, such that the snow and ice are deep and the annual layers thick. One such place is Law Dome, Antarctica, a coastal location of Antarctica where the snowfall is as much as 225 lbs of snow per square foot per year.

(A) Field tents at Law Dome, Antarctica (Australian Antarctic Division). Ice core drilling was conducted in the tent in the foreground. (B) Slice from an ice core showing entrapped, ancient air bubbles (Norwegian Polar Institute). (C) Section of an ice core showing visible seasonal layers (Wikimedia Commons). (D) A researcher selects ice cores for greenhouse gas analysis at an Australian ice core storage facility (Australian Antarctic Division).

Ice cores are drilled out using cylindrical drills. Layers in the ice are dated, sometimes visually (see image C above), most times using more sophisticated methods. For example, a rare, heavy isotope of oxygen, O-18, is present in the frozen H2O of Antarctic precipitation at a higher concentration in summer than in winter. Thus, the years in an ice core can be counted as summer stripes and winter stripes, through isotopic analysis of the oxygen in ice layers using a mass spectrometer.

Scientists in the 1980’s expended considerable effort developing accurate methods of harvesting and measuring the composition of the old atmospheric air trapped in ice core bubbles. Since CO2 is water soluble, it’s important not to allow any of the ice to melt while you’re getting the air out. The figure below, from a 1988 paper, shows a schematic diagram of an apparatus used to measure the CO2 concentrations in gas samples retrieved from Law Dome ice cores. This has become known as the “cheese grater” technique, and is still used for CO2 analysis of ice cores.

Figure 1 of Etheridge, Pearman & de Silvia, 1988. Schematic diagram of “cheese grater” and associated gas condensing equipment for harvesting ice core air samples for analysis.

In a cold room (to prevent any melting), an ice core section is inserted in a cylinder with raised cutting blades on the inside, like an inside-out cheese grater. This is put inside a vacuum flask and shaken on a machine, crushing the ice inside. The released gases are sucked by a vacuum pump over, first, a water vapor trap, cooled to -100 degrees Celsius, to condense and remove water vapor. The dry sample is then made to flow over a “cold finger,” cooled by liquid helium to a frigid -269 degrees Celsius, cold enough to condense to liquid all the gases in the air sample. Once all the gas has been sucked out of the sample, the cold finger is isolated and warmed, and the accumulated gas sample is sucked into a gas chromatograph, a standard piece of analytical equipment for separating the gas constituents from each other and measuring their concentrations.

Between 1987 and 1993, Australian and French scientists working at Law Dome drilled 3 separate ice cores to depths of as much as three quarters of a mile. Samples of these ice cores have been analyzed by various groups. Below, in green, is a plot of data from a 2006 study of CO2 concentration from these ice cores going back over 2000 years.

Publicly available Scripps ice core-merged data, downloaded and plotted by me. Green: Ice core data from Law Dome, 0 C.E. to 1957 (see references here and here). Blue circles: Average yearly data from atmospheric sampling at Mauna Loa and South Pole, 1958-2016. Blue square: Mauna Loa measurement made on March 30, 2017. Human experience milestones added by me.

The data is publicly available; anyone can download it here. While this is a single data set, it is in agreement with data sets obtained from multiple ice cores, stored in multiple locations, by multiple scientific groups using a variety of methods (for a discussion of agreement between the various data sets, see here). The ice core data overlaps, with a high degree of agreement, with the Keeling Curve of direct atmospheric CO2 measurements made since 1958, shown in blue in the plot above. (Note that the blue data in the above plot are yearly averages, so the seasonal variations we saw in Episode 4 have been “smoothed out.”) No reasonable, well-informed person refutes this data, which has now been replicated by a multitude of independently sponsored research groups and reviewed extensively for years.

The historical CO2 data tells a story of remarkable stability for 90% of human experience since Biblical times. In fact, until around 1850, the atmospheric CO2 concentration averaged 279 ppm and never strayed outside a narrow range between 272 ppm and 284 ppm (see black lines on the plot below):

Plot of Scripps ice core-merged data showing the pre-industrial average (black dashed line) and range (black solid lines) of CO2 concentrations going back to 0 AD.

Around the time of the First and Second Industrial Revolutions (attended by the advent of coal-fired steam engines and the petroleum industry, respectively), atmospheric CO2 began its relentless upward sweep that continues today. By the time Dr. Brown and Mr. Escombe were doing CO2 measurements at the Royal Botanical Gardens around the year 1900, and certainly by the time Guy Callendar and Dave Keeling were publishing their CO2 measurements and analyses starting in the late 1930’s, the atmospheric CO2 concentration had already departed significantly from the pre-industrial range. The March 30, 2017 direct measurement at Mauna Loa was 47% higher than the average CO2 concentration that had persisted, until very recently, since classical antiquity.

The rate of increase of the atmospheric CO2 level is also strongly accelerating. The graph below shows the rate of change of CO2 concentration over the past two millenia. (If you remember your pre-calculus, I obtained the graph below by taking the derivative of the graph above.)

Rate of change of atmospheric CO2 concentration in parts per million per year (ppm/year).

Prior to the Industrial Revolutions, the atmospheric CO2 concentration changed very little from year to year, and the rate of change hovered around zero. Following the Industrial Revolutions, the rate of change was positive much more often than it was negative; the CO2 concentration was increasing. Immediately following World War II commenced an unprecedented period of positive and increasing rate of change of the CO2 concentration. Some climatologists have labelled the time period between the end of World War II and today as the “Great Acceleration.” During this period, the global population doubled in just 50 years, while the size of the global economy grew by a factor of 15 (Steffen, Crutzen & McNeill, 2007). At the same time, the global CO2 concentration has not only increased to levels unprecedented in previous human experience, but the rate of that increase has sped up from year to year. In 2016 (the hottest global year on record), the rate of increase reached 2.24 ppm/year.

The question for us is, how high do we wish to allow the atmospheric CO2 concentration to go? For me, I have to say the data shown above is alarming. The fact that, in spite of the data above, we are still having discussions about “putting coal miners back to work” is terrifying.

“It will bring back manufacturing jobs across the country, coal jobs across the country. Across the energy sector, we have so much opportunity, George. And the last administration had an idea of keeping it in the ground. We need to be more independent, less reliant upon foreign energy sources. And this is an opportunity.” (EPA Head, Scott Pruitt, explaining to ABC News Anchor, George Stephanopoulos, the merits of President Trump’s executive order of March 28, 2017, seeking to redefine the government’s role in protecting the environment)

In a future episode in this series, we will get into the details of how historical temperature records have been created and linked to the CO2 concentrations above. But there is already enough information on this website to show that our prodigious CO2 production, if unabated, will lead to prodigious warming. The physics of the greenhouse effect are well understood and have been refined by scientists since the effect was first proposed in 1824. It is a mathematical certainty that more CO2 in the atmosphere will cause warming. As we saw in Episode 3, physicist Gilbert Plass used this known math and some of the first computers to predict in 1956 that the combustion of fossil fuels would lead to a warming of about 1 degree Celsius by around the year 2000, and that has come to pass.

In a 2013 paper, respected climatologist, James Hansen, and co-workers calculated that the Earth’s fossil fuel reserves are sufficient to raise the average land surface temperature by 20 degrees Celsius (36 degrees Fahrenheit). Try adding that to the summer temperature where you live. Since humans require a wet bulb temperature less than 35 degrees Celsius (95 degrees Fahrenheit) to maintain body temperature, this temperature change would literally make most of the Earth uninhabitable for humans in the summer. As an engineer, it’s impossible for me to imagine a workable adaptation for this problem that could be accomplished on the short time scale over which this change is presently on track to occur. In fact, given the comfortable stability in CO2 concentration humans have “grown up” with, there is nothing to suggest our social systems are prepared to deal with many of the consequences of the rapid climate changes we would experience on the current trajectory. Our farm land will be moving toward the poles. (Will we then clear more carbon-absorbing forests as it moves?) Our most valuable coastal real estate will be submerged.

As for the consideration of jobs, I suspect it will always be plausible to make the argument that jobs in fossil fuel reliant sectors of our economy will be eliminated by shifting to more sustainable sources of energy. It seems to me that new jobs will be created making solar panels, solar concentrators, and wind turbines. With respect to energy independence, I would argue that the sun shines and wind blows in all regions of the Earth. In any case, given the conclusions of the last paragraph, it would seem the only reasonable conclusion is, yes, as much as it may pain us, we will need to leave much of our remaining fossil fuels in the ground.

To be continued…

Continue to 6th Episode

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2 possible futures: Dust Bowl (or the better choice)

Know anyone who remembers the Dust BowlGrapes of Wrath and all that? Our President’s recent executive order, which can only be called “business as usual” (or worse) with respect to carbon emissions, aims to bring it back. To stay.

Image credit: NASA’s Goddard Space Flight Center. Projected soil moisture in 2095 at 30-cm depth (as deviations from the 20th century average) for a “business as usual” CO2 emissions scenario. Under this scenario, the atmospheric CO2 concentration reaches 1,370 ppm in 2100.

This projection was not made by a bunch of hacks and conspiracy theorists. The lead author on the study is a NASA scientist, and the picture above results from analyses of 17 different climate models by a team of independent scientists from multiple institutions. I myself am a scientist who dreamed of working at NASA, but I don’t. Please trust me when I say it’s competitive. The climate models involve enhanced versions of the same math that enabled the physicist, Gilbert Plass, to predict in 1956 almost the exact temperature rise and environmental observations we see now. See the NASA press release here. See the technical paper here.

The image above is called “business as usual.” It assumes the Paris Climate Agreement is not honored (as our President has clearly signaled his intent that we not honor it), and all of us go on emitting carbon like we have been. In this scenario, the atmospheric CO2 concentration reaches 1,370 ppm by 2100. (This is not crazy but quite realistic; as we have seen, the CO2 level has risen from 290 ppm in 1900 to 410 ppm today and the rate of increase is strongly accelerating.) The darkest regions in the above image have soil moisture comparable to the 1930’s Dust Bowl. Farmers and grocery shoppers, take note.

The image below is a “moderate emissions” scenario, which assumes we constrain our CO2 emissions such that the atmospheric CO2 concentration in 2100 is 650 ppm. It’s still dry compared with the 20th century average and, make no mistake, this will be challenging. But it’s not a Dust Bowl.

Image credit: NASA’s Goddard Space Flight Center. Projected soil moisture in 2095 at 30-cm depth (as deviations from the 20th century average) for a “moderate emissions” CO2 emissions scenario. Under this scenario, the atmospheric CO2 concentration reaches 650 ppm in 2100.

The second image seems like a better choice, for sure. But it’s not the trajectory we Americans are on, under the conditions of our President’s recent executive order. Under those conditions, if we achieve the second choice, it will be thanks to the Chinese, India, Europe, Brazil, and the rest of the 194 other nations that signed the Paris Climate Agreement. And it will be in spite of our own irresponsible actions as the current 2nd largest carbon emitter, the #1 cumulative historical emitter, and the most wealthy nation on the planet. We should be ashamed.

Look, I have no ill will toward coal miners. They have helped bring us enormous human progress. But we now clearly understand that progress has had a price we can no longer afford (and have developed the technology to avoid) paying. Modern coal mining is a technical job. Much like building solar panels or wind turbines. I propose that coal miners could learn to do either one of those. I recognize it would be a hardship (which we could choose to ease, for example, through government-subsidized retraining programs). I believe some of them would end up enjoying and prospering from such a change. And new jobs of the future, not the past, would be created. And the United States would be more competitive in the future global economy, which will embrace sustainable energy sources to the extent that it survives.

But, in any case, it would also be a hardship for all the residents of New Orleans and Miami to choose between building a 25-foot seawall (the height of the Great Wall of China!) or abandoning their homes and skyscrapers. It would also be a hardship for American farmers to look for new professions or seek their farming fortunes in Canada, where they don’t presently own any land.

And let’s be clear. We’re not talking about the fate of some distant human generations. The children living among us, our children, will experience the year 2095 that we are choosing right now.

We have real choices to make. Not made-for-TV choices. And the time for making them is now. (The Earth doesn’t watch TV.)

Watch a short NASA video about this study narrated by lead researcher Ben Cook, NASA Climate Scientist:

Video credit: NASA’s Goddard Space Flight Center.

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A possible future: Sea-level rise

Source: CSIRO. Graph of global average sea level data from 1880 to 2014. Link to primary data source: Church & White, 2011.

Scientists nearly double sea level rise projections for 2100, because of Antarctica (The Washington Post, 30 Mar 2016)

Source: NASA Climate Time Machine. Map of the Southeast US with 6 meters (20 feet) of sea level rise. Red shaded regions would be underwater. For context, satellite observations have indicated a thinning of parts of the Greenland ice sheet. If it were to melt completely, water from the Greenland ice sheet would raise the global sea level by 5-7 meters (16-23 feet).

London and New York could be underwater ‘in our lifetimes’: Scientists warn of devastating floods if the West Antarctic ice shelf breaks up (The Daily Mail, 28 Nov 2016)

The processes that could bring about this awful future have already been obviously underway for well over a decade.

Read more: J. Church, Science (2010).

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