A Warming Sequel: Earth

Earth, in stunning contrast to Venus, is alive. It breathes, but very slowly. A single breath takes a whole year.

The forests contain most of Earth’s life, and most forests are in the Northern Hemisphere.

When spring comes to the north, the forests inhale carbon dioxide from the air and grow, turning the land green. The amount of CO2 in the atmosphere goes down. When fall comes and the plants drop their leaves, they decay, exhaling the carbon dioxide back into the atmosphere. The same thing happens in the Southern Hemisphere at the opposite time of the year. But the Southern Hemisphere is mostly ocean. So it’s the forests of the north that control the annual changes in global CO2.

Earth has been breathing like this for tens of millions of years. But nobody noticed until 1958 when an oceanographer named Charles David Keeling devised a way to accurately measure the amount of carbon dioxide in the atmosphere. Keeling discovered the Earth’s exquisite respiration. But he also discovered something shocking – a rapid rise, unprecedented in human history, in the overall level of CO2, one that has continued ever since.

It’s a striking departure from the CO2 levels that prevailed during the rise of agriculture and civilization. In fact, the Earth has seen nothing like it for millions of years.

How can we be so sure? The evidence is written in water.

The Earth keeps a detailed diary written in the snows of yesteryear. Climate scientists have drilled ice cores from the depths of glaciers in Greenland and Antarctica. The ice layers have ancient air trapped inside them. We can read the unbroken record of Earth’s atmosphere that extends back over the last 800,000 years. In all that time, the amount of carbon dioxide in the air never rose above three-hundredths of one percent. That is, until the turn of the 20th century. And it’s been going up steadily and rapidly ever since. It’s now more than 40% higher than before the Industrial Revolution. By burning coal, oil and gas, our civilization is exhaling carbon dioxide much faster than Earth can absorb it. So CO2 is building up in the atmosphere. The planet is heating up.

Every warm object radiates a kind of light we can’t see with the naked eye—thermal infrared light. We all glow with invisible heat radiation, even in the dark.

This is what Earth looks like in the infrared. You’re seeing the planet’s own body heat.

Incoming light from the Sun hits the surface. The Earth absorbs much of that energy, which heats the planet up and makes the surface glow in infrared light. But the carbon dioxide in the atmosphere absorbs most of that outgoing heat radiation, sending much of it right back to the surface. This makes the planet even warmer.

This is all there is to the greenhouse effect. It’s basic physics, just bookkeeping of the energy flow. There’s nothing controversial about it.

If we didn’t have any carbon dioxide in our atmosphere, the Earth would just be a great big snowball, and we wouldn’t be here. So, a little greenhouse effect is a good thing. But a big one can destabilize the climate and wreck our way of life.

All right but how do we know that we’re the problem? Maybe the Earth itself is causing the rise in CO2. Maybe it has nothing to do with the coal and oil we burn. Maybe it’s those damn volcanoes. They’ve already doomed the planet Venus anyway.

Every few years, Mount Etna, in Sicily, blows its stack. Each big eruption sends millions of tonnes of CO2 into the atmosphere.

Now, combine that with the output of all the other volcanic activity on the planet. Let’s take the largest scientific estimate – about 500 million tonnes of volcanic CO2 entering the atmosphere every year. Sounds like a lot, right? But that’s not even two percent of the 36 billion tonnes of CO2 that our civilization is cranking out every year. And, funny thing, the measured increase in CO2 in the atmosphere tallies with the known amount we’re dumping thereby burning coal, oil and gas. Volcanic CO2 has a distinct signature – it’s slightly heavier than the kind produced by burning fossil fuels. We can tell the difference between the two when we examine them at the atomic level. It’s clear that the increased CO2 in the air is not from volcanoes. What’s more, the observed warming is as much as predicted from the measured increase in carbon dioxide.

It’s a pretty tight case. Our fingerprints are all over this one.

How much is 36 billion tonnes of CO2 per year? If you compressed it into solid form, it would occupy about the same volume as 4 Mount Kilimanjaros. And we’re adding that much CO2 to the air every year, relentlessly, year after year.

Mount Kilimanjaro in Tanzania, the world’s tallest free-standing mountain. With a bit of tweaking, it gives a scale of just how much CO2 we are dumping into our atmosphere.

Unlucky for us, the main waste product of our civilization is not just any substance. It happens to be the chief climate-regulating gas of our global thermostat, year in, year out. Too bad CO2 is an invisible gas. Maybe if we could see it, if our eyes were sensitive to CO2 – and perhaps there are such beings in the cosmos – if we could see all that carbon dioxide, then we would overcome the denial and grasp the magnitude of our impact on the atmosphere.

But the evidence that the world is getting warmer is all around us. For starters, let’s just check the thermometers; Weather stations around the world have been keeping reliable temperature records since the 1880s, and NASA has used the data to compile a map tracking the average temperatures around the world through time.

Yellow means warmer temperatures than the average, for any region in the 1880s. Orange means hot. And red means hotter.
The world is warmer than it was in the 19th century.

As far back as 1896, Swedish scientist Svante Arrhenius calculated that doubling the amount of CO2 in the atmosphere would melt the Arctic ice. In the 1930s, the American physicist E.O. Hulburt, at the Naval Research Laboratory, confirmed that result. So far, it was still just theoretical. But then, the English engineer Guy Callendar assembled the evidence to show that both the CO2 and the average global temperature were actually increasing.

Since Dr Frank Baxter uttered these words in 1958, we’ve laden our atmosphere with an additional 1.36 trillion tonnes of CO2

If we don’t change our ways, what will the planet be like in our children’s future? Based on scientific projections, if we just keep on doing business as usual, our kids are in for a rough ride:

  • killer heat waves
  • record droughts
  • terminal tropical and highly infectious diseases in the far reaches of the globe
  • mass extinction of species
  • rising sea levels and sinking coastal cities
  • mass death of coral reefs by ocean warming
  • increase in the intensity of catastrophic storms
  • runaway wildfires

We inherited a bountiful world made possible by a relatively stable climate. Agriculture and civilization flourished for thousands of years. And now, our carelessness and greed put all of that at risk.

Okay, so if we scientists are so good at making these dire, long-term predictions about the climate, how come they’re so lousy about predicting the weather? Besides, this year, we are having a colder season in my country. For all us scientists know, we could be in for global cooling.

Here’s the difference between weather and climate: Weather is what the atmosphere does in the short term – hour to hour, day to day. Weather is chaotic, which means that even a microscopic disturbance can lead to largescale changes. That’s why those ten-day weather forecasts are useless. A butterfly flaps its wings in Damongo, and six weeks later, your outdoor wedding in Gaborone is ruined.

Climate is the long-term average of the weather, over a number of years. It’s shaped by global forces that alter the energy balance in the atmosphere, such as changes in the Sun, the tilt of the Earth’s axis, the amount of sunlight the Earth reflects back to space and the concentration of greenhouse gases in the air. A change in any of them affects the climate in ways that are broadly predictable.

Climate has changed many times in the long history of the Earth but always in response to a global force. The strongest force driving climate change right now is the increasing CO2 from the burning of fossil fuels, which is trapping more heat from the Sun. All that additional energy has to go somewhere. Some of it warms the air. Most of it ends up in the oceans. All over the world, the oceans are getting warmer. It’s most obvious in the Arctic Ocean and the lands that surround it.

Okay, so we’re losing the summer sea ice in a place where hardly anyone ever goes. What do I care if there’s no ice around the North Pole?

Ice is the brightest natural surface on the Earth, and open ocean water is the darkest. Ice reflects incoming sunlight back to space. Water absorbs sunlight and gets warmer, which melts even more ice, which exposes still more ocean surface to absorb even more sunlight. This is what we call a positive feedback loop. It’s one of many natural mechanisms that magnify any warming caused by CO2 alone.

Collapsed block of ice-rich permafrost along Drew Point, Alaska, at the edge of the Beaufort Sea. In the 1950s, the shoreline was two kilometres further out, and it was breaking off at a rate of about 6 metres per year. Now it’s been eaten away at about 20 metres per year.

The Arctic Ocean is warming and at an increasing rate. So it’s ice-free during more of the year. That leaves the shore more exposed to erosion from storms, which are also getting more powerful, another effect of climate change.

The northern reaches of Alaska, Siberia and Canada are mostly permafrost, ground that has been frozen year-round for millennia. It contains lots of organic matter, old leaves and roots from plants that grew thousands of years ago. Because the Arctic regions are warming faster than anywhere else on Earth, the permafrost is thawing and its contents are rotting, just like when you unplug the freezer. The thawing permafrost is releasing carbon dioxide and methane, an even more potent greenhouse gas, into the atmosphere. This is making things even warmer, another example of a positive feedback mechanism. The world’s permafrost stores enough carbon to more than double the CO2 in the atmosphere. At the rate we’re going, global warming could release most of it before the end of the century. We might be tipping the climate past a point of no return into an unpredictable slide.

Okay, the air, the water and the land are all getting warmer, so global warming is really happening. But maybe it’s not our fault. Maybe it’s just nature. Maybe it’s the Sun.

No, it’s not the Sun. Scientists have been monitoring the Sun very closely for decades, and the solar energy output hasn’t changed. What’s more, the Earth is warming more at night than in the daytime, and more in winter than in summer. That’s exactly what we expect from greenhouse warming, but the opposite of what increased solar output would cause. It’s now clear beyond any reasonable doubt that we are changing the climate.

The Sun isn’t the problem. But it is the solution. In all its glory, the Sun pours immaculate, free energy down upon us; more than we will ever need; More solar energy falls on Earth in one hour than all the energy our civilization consumes in an entire year. The winds themselves are solar-powered because our star drives the winds and the waves. Unlike solar collectors, wind farms take up very little land, and none at all, if offshore, where the winds are strongest. If we could tap even one percent of the available solar and wind power, we’d have enough energy to supply all our energy needs forever, and without adding any carbon to the atmosphere.

It’s not too late. There’s a future worth fighting for. How do I know? Every one of us comes from a long line of survivors. Our species is nothing if not adaptive. It was only because our ancestors learned to think long-term and act accordingly, that we’re here at all. We’ve had our backs to the wall before, and we came through to scale new heights. In fact, the most mythic human accomplishment of all came out of our darkest hour.

About 10,000 years ago, our ancestors all over the world took advantage of another form of climate change, the gentler climate of the intermission in the ice age – they invented agriculture.

They gave up the ceaseless wandering, hunting and gathering that had been their way of life for a million years or so, to settle down and produce food. They found a way to harvest ten to a hundred times more solar energy than the environment naturally provided for their ancestors. People all over the world made the difficult transition from nomadic cultures to agricultural ones that used solar energy more efficiently. It gave rise to civilization. We stand on the shoulders of those who did the hard work that such a fundamental transformation required.

Now it’s our turn.

If life ever existed on Venus, it would have had no chance to avert the hellish destiny of that world. The runaway greenhouse effect was unstoppable.

Earth is our world. And that world is now. There are no scientific or technological obstacles to protecting our world and the precious life that it supports. It all depends on what we truly value and if we can summon the will to act.

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