The year 2023 was the hottest in recorded history.
The European climate agency recently reported this new record, with global temperatures close to 1.5 degrees Celsius (2.7 degrees Fahrenheit) above pre-industrial times.
“We have been talking a lot about the danger of hitting 1.5 C, and we hit it,” said Michael Wysession, a professor of earth, environmental and planetary sciences in Arts & Sciences at Washington University in St. Louis. Here, Wysession explains four factors that drove 2023’s extreme heat and climate disasters — and what this means for the future.
The following article by Michael Wysession was originally published on The Conversation under a Creative Commons license. It has been updated to reflect January 2024 data. Read it on The Conversation website.
Between the record-breaking global heat and extreme downpours, it’s hard to ignore that something unusual was going on with the weather in 2023.
People have been quick to blame climate change — and they’re right: human-caused global warming plays the biggest role. The weekslong heat wave that started in June 2023 in Texas, the U.S. Southwest and Mexico would have been virtually impossible without it, one study found.
However, the extremes of 2023 were sharper than anthropogenic global warming alone would be expected to cause.
July was Earth’s hottest month on record, also by a large margin, with average global temperatures more than half a degree F (a third of a degree C) above the previous record, set just a few years earlier in 2019.
Human activities have been increasing temperatures at an average of about 0.2 F (0.1 C) per decade. But three additional natural factors are also helping drive up global temperatures and fuel disasters: El Niño, solar fluctuations and a massive underwater volcanic eruption.
Unfortunately, these factors are combining in a way that is exacerbating global warming. Still worse, we can expect unusually high temperatures to continue, which means even more extreme weather in the near future.
How El Niño is involved
El Niño is a climate phenomenon that occurs every few years when surface water in the tropical Pacific reverses direction and heats up. That warms the atmosphere above, which influences temperatures and weather patterns around the globe.
Essentially, the atmosphere borrows heat out of the Pacific, and global temperatures increase slightly. This happened in 2016, the time of the last strong El Niño. Global temperatures increased by about 0.25 F (0.14 C) on average, making 2016 the warmest year on record. A weak El Niño also occurred in 2019-2020, contributing to 2020 becoming the world’s second-warmest year.
El Niño’s opposite, La Niña, involves cooler-than-usual Pacific currents flowing westward, absorbing heat out of the atmosphere, which cools the globe. The world just came out of three straight years of La Niña, meaning we’re experiencing an even greater temperature swing.
Based on increasing Pacific sea surface temperatures in mid-2023, climate modeling now suggests a 90% chance that Earth is headed toward its first strong El Niño since 2016.
Combined with the steady human-induced warming, Earth is once again breaking its temperature records. Each month in the second half of 2023, June through December, set the record as the hottest ever recorded for that month. There was also a huge number of one-day regional temperature records broken, including an incomprehensible one-day heat index of 152 F (67 C) in Iran.
Solar fluctuations
The sun may seem to shine at a constant rate, but it is a seething, churning ball of plasma whose radiating energy changes over many different time scales.
The sun is slowly heating up and in half a billion years will boil away Earth’s oceans. On human time scales, however, the sun’s energy output varies only slightly, about 1 part in 1,000, over a repeating 11-year cycle. The peaks of this cycle are too small for us to notice at a daily level, but they affect Earth’s climate systems.
Rapid convection within the sun both generates a strong magnetic field aligned with its spin axis and causes this field to fully flip and reverse every 11 years. This is what causes the 11-year cycle in emitted solar radiation.
Earth’s temperature increase during a solar maximum, compared with average solar output, is only about 0.09 F (0.05 C), roughly a third of a large El Niño. The opposite happens during a solar minimum. However, unlike the variable and unpredictable El Niño changes, the 11-year solar cycle is comparatively regular, consistent and predictable.
The last solar cycle hit its minimum in 2020, reducing the effect of the modest 2020 El Niño. The current solar cycle has already surpassed the peak of the relatively weak previous cycle (which was in 2014) and will likely peak at the end of 2024 or start of 2025.
A massive volcanic eruption
Volcanic eruptions can also significantly affect global climates. They usually do this by lowering global temperatures when erupted sulfate aerosols shield and block a portion of incoming sunlight — but not always.
In an unusual twist, the largest volcanic eruption of the 21st century so far, the 2022 eruption of Tonga’s Hunga Tonga-Hunga Ha’apai, is having a warming and not cooling effect.
The eruption released an unusually small amount of cooling sulfate aerosols but an enormous amount of water vapor. The molten magma exploded underwater, vaporizing a huge volume of ocean water that erupted like a geyser high into the atmosphere.
Water vapor is a powerful greenhouse gas, and the eruption may end up warming Earth’s surface by about 0.06 F (0.035 C), according to one estimate. Unlike the cooling sulfate aerosols, which are actually tiny droplets of sulfuric acid that fall out of the atmosphere within one to two years, water vapor is a gas that can stay in the atmosphere for many years. The warming impact of the Tonga volcano is expected to last for at least five years.
Underlying it all: global warming
All of this comes on top of anthropogenic, or human-caused, global warming.
By the start of 2023, humans had raised global average temperatures by about 2 F (1.1 C) since 1900. We’ve done this by releasing large volumes of greenhouse gases, particularly carbon dioxide, into the atmosphere. The amount of carbon dioxide in the atmosphere is up 50%, primarily from the combustion of fossil fuels in vehicles and power plants. The warming from greenhouse gases is actually greater than 2 F (1.1 C), but it has been masked by other human factors that have a cooling effect, such as air pollution.
If human impacts were the only factors, each successive year would set a new record as the hottest year ever, but that doesn’t happen. The year 2016 was the warmest in part because temperatures were boosted by the last large El Niño.
What does this mean for the future?
The next couple of years could be very rough.
If a strong El Niño develops over the coming months as forecasters expect, combined with the solar maximum and the effects of the Hunga Tonga-Hunga Ha’apai eruption, Earth’s temperatures will likely continue to soar.
As temperatures continue to increase, weather events get more extreme. The excess heat can mean more heat waves, forest fires, flash floods and other extreme events, climate models show.
In January 2023, some scientists predicted that Earth’s temperature had a greater than 50% chance of reaching 2.7 F (1.5 C) above preindustrial era temperatures by the year 2028, at least temporarily, increasing the risk of triggering climate tipping points with even greater human impacts. Remarkably, and sadly, this has already happened, and 2024 will most likely be even warmer. The globe started out 2023 at 1.2 C (2.2 F) above preindustrial levels. Earth is now starting out 2024 at 1.78 C (3.2), one whole degree F warmer than last year. However, even if this peak dips in a few years, when the El Niño is over and the solar peak has passed, the steady increase in human-released greenhouse gases means that Earth’s annual temperature will soon surpass 1.5 C (2.7 F) for good.