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How smoke from California wildfires turns the sky red - Los Angeles Times

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Smoke from California’s current unprecedented siege of deadly, destructive wildfires is giving skies in the Golden State a Martian look. The unhealthy atmosphere is enough to make California residents gasp, if not scream, like the agonized figure in Norwegian artist Edvard Munch’s iconic 1893 painting.

The red skies in California and the blood-red sunset in Munch’s painting, “The Scream,” may have something in common.

One theory is that Munch’s sunset was inspired by the eruption of the Indonesian volcano Krakatoa in August 1883. The massive eruption in the Sunda Strait spewed particles into the atmosphere that spectacularly colored sunsets around the globe for months.

The airborne ash particles caused “such vivid red sunsets that fire engines were called out in New York, Poughkeepsie, and New Haven to quench the apparent conflagration,” according to volcanologist Scott Rowland of the University of Hawaii, quoted on the NASA Science website.

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"The Scream" painting by Edvard Munch

“The Scream” by Edvard Munch, 1893.

(National Gallery of Norway)

Like light-scattering particles from volcanic eruptions, smoke particles from California’s numerous fires are producing red skies.

How does this happen?

Only a small portion of the full electromagnetic spectrum is visible to the human eye. There are seven colors in the visible spectrum: red, orange, yellow, green, blue, indigo and violet.

When sunlight enters the atmosphere, much of the violet and indigo light waves scatter at such high altitudes they are not readily seen.

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Next comes blue light, which has a short wavelength, so it is scattered efficiently by small objects such as molecules of nitrogen and oxygen. When rays from the sun hit these particles, they bounce around, giving the sky its blue cast in daytime. This is called Rayleigh scattering, the dominant type of light scattering in Earth’s atmosphere.

Red and orange light have the longest wavelengths.

Red and orange light have the longest wavelengths.

(Paul Duginski / Los Angeles Times)

But the smoke particles that are clogging the air over California and the West are much bigger than particles of nitrogen and oxygen. The same is true of water droplets that make up clouds and particles from volcanic eruptions. But they’re similar in size to the light waves. They scatter red light — the part of the visible spectrum with the longest wavelengths. This is known as Mie scattering. If particle concentrations are high enough, Mie scattering will overwhelm Rayleigh scattering, resulting in a red sky during the day, rather than the typical blue.

In addition to scattering, smoke particles also absorb light, which plays a role in darkening the sky.

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Smoke from West Coast wildfires has been detected in the atmosphere around the globe, much as particles from Krakatoa were seen in the skies of Europe and North America after the 1883 eruption. Smoke and haze from California fires were reported on the East Coast this week, carried there by the jet stream, and forecasters there suggested the smoke would keep temperatures a few degrees cooler. Smoke from U.S. fires was also reported over Northern Europe.

A larger catastrophe than the volcanic eruption at Krakatoa occurred at Mt. Tambora, also in present-day Indonesia, in April 1815. Its aftermath is depicted in the tinted skies of paintings by earlier 19th century artists such as J.M.W. Turner, for example. That volcanic blast was 100 times larger than that of Mt. St. Helens, and is considered to be the most powerful volcanic eruption in recorded history.

Catastrophic volcanic eruptions affected skies and the climate throughout the world.

Catastrophic volcanic eruptions affected skies and the climate throughout the world.

(Paul Duginski / Los Angeles Times)

That event, like Krakatoa, produced a cloud of material that encircled the globe, but this time it blocked sunlight, leading to three years of planetary cooling, including “the year without a summer” in 1816. The eruption gave rise to freakishly unseasonable cold weather, crop failures and global pandemics.

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Munch is said to have sensed an “infinite scream passing through nature” when he created his famous painting. Whether his blood-red sky was inspired by the eruption of Krakatoa or some other phenomenon, many Californians probably sense a similar scream coursing through the natural world as a result of the COVID-19 pandemic, global climate change and record, apocalyptic fires up and down the West Coast.

Unhealthy, smoky conditions are likely to persist this week in California, so experts recommend staying indoors and using air conditioning or other air filtering devices. Avoid strenuous outdoor activity and keep informed about changing air quality. Generally speaking, if you smell smoke or the air looks smoky, air quality probably isn’t good. You can check your local air quality at AirNow.gov.

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How smoke from California wildfires turns the sky red - Los Angeles Times
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