Analyze This! Planets

Analyze This: Neptune’s cloud cover syncs up with the solar cycle

Sunlight-driven chemistry may puff up cloud cover on our solar system’s farthest planet

Solar energy plays a role in cloud cover and storms. It might seem that Neptune, our solar system’s farthest planet, would have a boring atmosphere because of its distance from the sun. But actually, the planet is windy, stormy and often cloudy.

NASA/JPL-Caltech

By Carolyn Wilke

The sun’s rays may prompt cloudy days on our solar system’s farthest planet.

Neptune’s atmosphere swirls with storms and clouds. “It has one of the most active atmospheres of all the planets in our solar system,” says Erandi Chavez. They’re an astronomer at Harvard University in Cambridge, Mass. Neptune’s intense winds — the fastest in the solar system — and swiftly changing weather have inspired Chavez and others to watch the gas giant’s clouds. Recently, the researchers noticed something unusual.

The areas between the planet’s equator and the poles are usually quite cloudy. But in pictures taken in early 2020, the planet was strangely bare. The smidge of Neptune’s usual cloud cover was confined to near the south pole. “The fact that those are the only clouds left was like, ‘Oh, this is very weird,’” Chavez says.

To investigate, Chavez and their team looked to images taken by three telescopes. One provided snapshots going back almost 30 years. From the pictures, the researchers measured the clouds’ brightness, or how much sunlight they reflect. This provides a way to gauge how thick the clouds are. The researchers also mapped the clouds’ area across Neptune’s surface. Together these measurements captured Neptune’s cloud activity.

The sun’s light intensity is known to rise and fall every 11 to 13 years. Neptune’s cloudiness also seemed to vary over this timescale, suggesting that it’s linked to the solar cycle. The researchers shared their findings in the November issue of Icarus.

Chavez and their colleagues suspect sunlight triggers chemical reactions in Neptune’s atmosphere that form clouds. Neptune’s atmosphere contains molecules made of only carbon and hydrogen known as hydrocarbons. Methane is one example. Ultraviolet light from the sun can break methane gas apart, freeing its atoms to form other hydrocarbons. These heavier hydrocarbons can sink to cooler spots in the atmosphere, become liquid droplets and form clouds.

To catch the clouds’ connection to the solar cycle, the researchers needed decades of data. “Until now, we just didn’t have enough data to do that,” Chavez says. But there’s still more to learn about Neptune’s clouds. Sunlight didn’t explain some blips observed in the planet’s cloud activity.

All this atmospheric action on Neptune hints that there could be exciting things aloft on exoplanets, too. “Imagine what’s happening on all of these other planets orbiting other stars,” Chavez says. “Could they have clouds, too? Could they have big storms, too?”

Neptune’s clouds

a graph showing how the appearance of Neptune's clouds correlated to UV radiation from the sun from 1994 to 2000
Researchers looked at images of Neptune taken by the Hubble Space Telescope and the Keck and Lick Observatories from 1994 to 2022. In some years, the planet had more clouds (brighter spots in top row of images). In the figure, vertical lines connect each image of Neptune with the year it was taken. Researchers investigated how Neptune’s clouds may have been linked to ultraviolet, or UV, radiation from the sun (data plotted in white). Click image for the full-size version.NASA, ESA, LASP, Erandi Chavez (UC Berkeley), Imke de Pater (UC Berkeley); adapted by L. Steenblik Hwang

Data Dive:

  1. Look at the data plotted in white. How does the sun’s ultraviolet, or UV, radiation change from 1994 to 2004?
  2. In which years is solar UV radiation highest? What is the length of time between these years?
  3. Look at the pictures of Neptune. In which years does Neptune have the most clouds? In which years does Neptune have the least cloud cover?
  4. How does the extent of clouds on Neptune relate to the level of solar radiation? 
  5. Why did the researchers need decades of data to catch this link? (Hint: What do the data look like over shorter periods of time? For instance, within a two-year period?)

Power Words

More About Power Words

astronomer: A scientist who works in the field of research that deals with celestial objects, space and the physical universe.

atmosphere: The envelope of gases surrounding Earth, another planet or a moon.

atom: The basic unit of a chemical element. Atoms are made up of a dense nucleus that contains positively charged protons and uncharged neutrons. The nucleus is orbited by a cloud of negatively charged electrons.

carbon: A chemical element that is the physical basis of all life on Earth. Carbon exists freely as graphite and diamond. It is an important part of coal, limestone and petroleum, and is capable of self-bonding, chemically, to form an enormous number of chemically, biologically and commercially important molecules.

chemical: A substance formed from two or more atoms that unite (bond) in a fixed proportion and structure. For example, water is a chemical made when two hydrogen atoms bond to one oxygen atom. Its chemical formula is H2O. Chemical also can be an adjective to describe properties of materials that are the result of various reactions between different compounds.

chemical reaction: A process that involves the rearrangement of the molecules or structure of a substance, as opposed to a change in physical form (as from a solid to a gas).

cloud: A plume of molecules or particles, such as water droplets, that move under the action of an outside force, such as wind, radiation or water currents. (in atmospheric science) A mass of airborne water droplets and ice crystals that travel as a plume, usually high in Earth’s atmosphere. Its movement is driven by winds.

colleague: Someone who works with another; a co-worker or team member.

condense: To become thicker, denser or to distill out the essence of something. This can occur, for instance, when moisture evaporates out of a liquid. Condense also can mean to change from a gas or a vapor into a liquid. (This can occur when water molecules in the air join together to become droplets of water.) It can also mean to identify the central meaning of something through analysis of data or through discussions.

data: Facts and/or statistics collected together for analysis but not necessarily organized in a way that gives them meaning. For digital information (the type stored by computers), those data typically are numbers stored in a binary code, portrayed as strings of zeros and ones.

equator: An imaginary line around Earth that divides Earth into the Northern and Southern Hemispheres.

exoplanet: Short for extrasolar planet, it’s a planet that orbits a star outside our solar system.

gas giant: A giant planet that is made mostly of helium and hydrogen, which on Earth are gases. Jupiter and Saturn are gas giants.

gauge: A device to measure the size or volume of something. For instance, tide gauges track the ever-changing height of coastal water levels throughout the day. Or any system or event that can be used to estimate the size or magnitude of something else. (v. to gauge) The act of measuring or estimating the size of something.

hydrocarbon: Any of a range of large molecules containing chemically bound carbon and hydrogen atoms. Crude oil, for example, is a naturally occurring mix of many hydrocarbons.

hydrogen: The lightest element in the universe. As a gas, it is colorless, odorless and highly flammable. It’s an integral part of many fuels, fats and chemicals that make up living tissues. It’s made of a single proton (which serves as its nucleus) orbited by a single electron.

link: A connection between two people or things.

liquid: A material that flows freely but keeps a constant volume, like water or oil.

mass: A number that shows how much an object resists speeding up and slowing down — basically a measure of how much matter that object is made from.

molecule: An electrically neutral group of atoms that represents the smallest possible amount of a chemical compound. Molecules can be made of single types of atoms or of different types. For example, the oxygen in the air is made of two oxygen atoms (O2), but water is made of two hydrogen atoms and one oxygen atom (H2O).

Neptune: The farthest giant planet from the sun in our solar system. It is the fourth largest planet in the solar system.

planet: A large celestial object that orbits a star but unlike a star does not generate any visible light.

poles: (in Earth science and astronomy) The cold regions of the planet that exist farthest from the equator; the upper and lower ends of the virtual axis around which a celestial object rotates.

radiation: (in physics) One of the three major ways that energy is transferred. (The other two are conduction and convection.) In radiation, electromagnetic waves carry energy from one place to another. Unlike conduction and convection, which need material to help transfer the energy, radiation can transfer energy across empty space.

solar: Having to do with the sun or the radiation it emits. It comes from sol, Latin for sun.

solar cycle: Sometimes referred to as the sunspot cycle, this is the roughly 11-year period during which the sun undergoes a host of changes as the star swings between periods of minimum and maximum activity. The number of sunspots changes (drops to near zero during the minimum). The magnetic field values at the solar surface also undergoes changes.

solar system: The eight major planets and their moons in orbit around our sun, together with smaller bodies in the form of dwarf planets, asteroids, meteoroids and comets.

sun: The star at the center of Earth’s solar system. It is about 27,000 light-years from the center of the Milky Way galaxy. Also a term for any sunlike star.

telescope: Usually a light-collecting instrument that makes distant objects appear nearer through the use of lenses or a combination of curved mirrors and lenses. Some, however, collect radio emissions (energy from a different portion of the electromagnetic spectrum) through a network of antennas.

ultraviolet: A portion of the light spectrum that is close to violet but invisible to the human eye.

ultraviolet light: A type of electromagnetic radiation with a wavelength from 10 nanometers to 380 nanometers. The wavelengths are shorter than that of visible light but longer than X-rays.

water vapor: Water in its gaseous state, capable of being suspended in the air.

weather: Conditions in the atmosphere at a localized place and a particular time. It is usually described in terms of particular features, such as air pressure, humidity, moisture, any precipitation (rain, snow or ice), temperature and wind speed. Weather constitutes the actual conditions that occur at any time and place. It’s different from climate, which is a description of the conditions that tend to occur in some general region during a particular month or season.

Citations

Journal:​ ​​E. Chavez ​et​ ​al.​ Evolution of Neptune at near-infrared wavelengths from 1994 through 2022.​ ​​Icarus.​ ​​Vol.​ ​404,​ ​November 2023. doi: 10.1016/j.icarus.2023.115667. 

About Carolyn Wilke

Carolyn Wilke is a former staff writer at Science News Explores. She has a Ph.D. in environmental engineering. Carolyn enjoys writing about chemistry, microbes and the environment. She also loves playing with her cat.

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