Data Exploration: How Do We Know Climate Change Is Real?

By Bennett Sherry
Climate change is altering our world in all sorts of ways. In this data introduction, we’ll explore some of the numbers behind the direct impacts of climate change.

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Low angle view of two scientists wearing warm clothes and using tools to core ice in Utqiavik, Alaska.

Warning icon Data reminder:
No matter how official a chart might look, and no matter how carefully the data was collected, data simply can’t tell the whole story. The data can change, or be represented differently, or we can learn a new and more effective way to capture certain data. This is not to say that you shouldn’t trust data—it’s an extremely important piece to understanding climate change. But data can quickly become outdated. We encourage you to seek additional, well-researched sources of data, and to let us know if you think something is out of date!

Introduction

The direct impacts of climate change include global warming, rise in sea levels, extreme weather, forest fires, drought, and flooding. Later, you’ll learn about the impacts of those changes on society, which we call indirect impacts. But for now, let’s focus on one direct impact: sea-level rise.

Greenhouse gas emissions are trapping heat in Earth’s atmosphere. This causes a rise in global average temperatures. As global temperatures increase, water that was once stored in polar ice sheets and glaciers melts and enters the oceans. As water gets warmer, it also expands. So, when temperatures in the ocean go up, so do sea levels.

The world is experiencing long-term heating of the climate due to human activities. This is known as climate change.

Some people want to convince you climate change isn’t happening. For example, some people who work for oil companies say climate change isn’t real. Or, they claim humans aren’t causing it. But here’s the truth: Nearly all scientists believe climate change is happening. And nearly all believe humans are causing it. Scientists came to this conclusion by examining a huge amount of climate data. This data suggests that human emissions of greenhouse gases—such as carbon dioxide (CO2)—are causing global temperatures to rise more rapidly than at any point in the last century. There is also very clear evidence that these rising temperatures are causing major changes: The oceans are getting warmer. Ice sheets and glaciers are shrinking. Sea levels are rising. Extrem=e weather, such as major storms, is becoming more and more common.

A scientist inspects a freshly drawn tree core sample from a Big Cone Douglas Fir.

A scientist studies a tree ring core sample. © Getty Images.

Humans have only had the tools to measure CO2 levels for the last hundred years. However, today’s scientists have advanced tools that allow them to closely examine ice cores, tree rings, and more. This has allowed them to collect data that stretches back hundreds of thousands of years. That data shows that our current rate of warming is not part of a natural cycle. The climate is changing quickly and in different ways than ever before. Climate change is happening, and it’s driven by human activity. How can we say this with such certainty? Let’s explore the connections between data on rising temperatures and data on concentrations of CO2 in the Earth’s atmosphere.

Is it hot in here, or is it just me?

It’s not just you! Earth is heating up at an alarming rate. Chart 1, on the next page, measures the global monthly temperature anomaly since 1880. Temperature anomaly is a way of measuring the rise or fall in temperature compared to a baseline. That baseline is an average of temperatures over several decades. This chart uses the average monthly temperature from 1951 to 1980 as its baseline. It shows that global temperatures have increasingly risen above the baseline. This has been particularly true over the last 50 years. In recent years, temperatures have peaked above 1 degree Celsius over the baseline. Looking back to 1880, you can see that temperatures were often below the baseline. The world is warmer than it was just 50 years ago. It is much warmer than in the nineteenth century. A 1-degree Celsius increase might not seem like much. However, even apparently minor changes in global average temperatures will cause tremendous problems in many parts of the world. The rise in global temperatures is what is driving all the other signs of climate change—including ice melt, sea-level rise, and extreme weather.

Chart demonstrating the upward slope for the rate of global warming from 1880 to present day.

Chart 1: Global warming as illustrated by changes in monthly temperature anomaly, 1880 to 2023. By Our World in Data, CC BY. Explore Chart 1 here.

Greenhouse gas emissions

Scientists believe the rapid warming illustrated by Chart 1 is a result of the release of greenhouse gases into Earth’s atmosphere. And they believe those gases are being released by humans. Greenhouse gases include carbon dioxide, methane, and nitrous oxide. These gases all trap heat from the Sun inside Earth’s atmosphere. This causes temperatures to rise over time. Carbon dioxide is—by far—the most abundant greenhouse gas that’s released by human activity. The majority of it is released through the burning of fossil fuels like coal, oil, and natural gas. Chart 2 illustrates the change in the amount of CO2 that has been released into the atmosphere since 1750. After the Industrial Revolution, which began in 1750, human societies started to increasingly burn fossil fuels to power machines. Burning fossil fuels releases large amounts of CO2 into the atmosphere. Chart 2 shows that, before the Industrial Revolution, CO2 emissions were very low. From 1950 to the present, the population of Earth tripled. During that time, as we used ever more fossil fuels to power our lives, CO2 emissions increased enormously.

Chart showing a dramatic upward slope for global annual CO2 emissions from 1750 to 2021.

Chart 2: Changes in annual CO2 emissions over time, from 1750 to 2021. By Our World in Data, CC BY. Explore Chart 2 here.

Earth has been around for a long time. A really long time. Four-and-a-half billion years long. And Chart 2 only shows the last 275 or so years. So how do we know this level of carbon in the atmosphere is actually a big deal? After all, there have been plenty of ice ages and warming periods during the 2 million years of human existence. Yet, as Chart 3 shows, we have data on CO2 levels from ice core samples—data that goes back 800,000 years. In this chart, you can see that in the past century—a century of much fossil fuel use—the concentration of CO2 in Earth’s atmosphere has reached levels never before seen. This strongly suggests that humans are transforming our atmosphere far beyond any natural cycle.

Chart showing ice core carbon dioxide levels from 800,000 years ago with sharp spike upwards beginning around 1911.

Chart 3: Carbon dioxide levels from 800,000 years ago to the present, obtained by ice core analysis and modern instruments. Source: climate.nasa.gov

Combining data

We know from Chart 1 that global temperatures have been rising in the last century. We also know from Charts 2 and 3 that CO2 emissions have risen enormously thanks to human industrialization and the burning of fossil fuels. How are the two trends related, and what does it mean for the future of climate change? Take a look at Chart 4, below. This chart shows both temperature anomaly and CO2 atmospheric concentration over the last 800,000 years. What does it suggest about the relationship between global warming and CO2 in Earth’s atmosphere? Finally, what does it suggest about the future of climate change? Look, in particular, at the point labeled “Today.”

Chart showing temperature anomalies and carbon dioxide concentrations over the last 800,000 years with a sharp rise in recent time.

Chart 4: Temperature anomaly and carbon dioxide concentration over last 800,000 years. Source: World Economic Forum.

Conclusion

So, how do we know climate change is real? And how do we know it’s caused by human activity? From the four charts we’ve just examined, there are a few conclusions we can draw:

  • Earth’s temperature is rising at a rate that is faster than anything seen over the last 150 years.
  • There is more CO2 in our atmosphere than any time in the last 800,000 years. Furthermore, the dramatic increase over the last century suggests that human activity is responsible.
  • There is a strong correlation between the concentration of CO2 in our atmosphere and rising global temperatures. This is shown by data from the last 800,000 years.

In short, climate change is real. It’s happening. And humanity’s use of fossil fuels is to blame.

Bennett Sherry

Bennett Sherry holds a PhD in history from the University of Pittsburgh and has undergraduate teaching experience in world history, human rights, and the Middle East at the University of Pittsburgh and the University of Maine at Augusta. Additionally, he is a research associate at Pitt’s World History Center. Bennett writes about refugees and international organizations in the twentieth century.

Credit: “Data Introduction: How Do We Know Climate Change Is Real?”, Bennett Sherry / OER Project, https://www.oerproject.com/

Image credits

Creative Commons This work is licensed under CC BY 4.0 except for the following:

Cover image: Scientists Rachel Lekanoff and Daniel Watkins core ice in Utqiavik, AK on April 9, 2019. The researchers were among a group gathered to prepare for the upcoming year-long MOSAIC expedition that will collect data on Arctic climate and ecosystems. © Bonnie Jo Mount/The Washington Post via Getty Images. https://www.gettyimages.ca/detail/news-photo/rachel-lekanoff-and-daniel-watkins-core-ice-in-utqiavik-ak-news-photo/1149419676

Scientist Erica Bigio, of University of Arizona’s Laboratory of Tree-Ring Research, studies a tree ring core sample on June 14, 2016 from a Big Cone Douglas Fir in the Angeles National Forest. Researchers are reconstructing hydrology in Southern California for a 2017 drought study with the Department of Water Resources (DWR). © Sarah Reingewirtz/MediaNews Group/ Pasadena Star-News via Getty Images.


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