Environment Planet Earth What Are the Different Types of Lightning? By Russell McLendon Senior Writer University of Georgia Russell McLendon is a science journalist who covers a wide range of topics about the natural environment, humans, and other wildlife. our editorial process Russell McLendon Updated May 14, 2019 Cloud-to-ground lightning during a storm in Iowa. Kevin Skow/NOAA Photo Library Share Twitter Pinterest Email Planet Earth Weather Outdoors Conservation Although we tend to think of lightning as a bolt that crashes to the earth from the sky, lightning can strike the ground or hit inside clouds or the air. According to the U.S. National Severe Storm Laboratory, there are five to 10 times as many lightning flashes inside clouds as there are cloud-to-ground strikes. Here's a look at the different kinds of lightning that could occur during a thunderstorm. Cloud-to-ground lightning As the negative charge grows inside a thunderstorm's base, positive charge begins pooling within the Earth's surface below, shadowing the storm wherever it goes. This is responsible for nearly all cloud-to-ground lightning, shown in the image above. With cloud-to-ground lightning, a stepped leader lurches downward from the negative cloud base, intercepted on its way by a column of ionized air called a "positive streamer" that shoots up to meet it from the positively charged ground. When the two connect, a violent electrical current roars between the cloud and the ground, forming the lightning bolt. Multiple positive streamers sometimes compete for the same stepped leader. Almost any grounded object or organism under a thunderstorm may attract a stepped leader, but lightning is lazy, so the closer the better. Trees, tall buildings, towers and antennas are favorite targets, and, contrary to folk wisdom, lightning can strike twice. Intracloud and cloud-to-cloud lightning Intracloud lightning never leaves the cloud where it was formed. NOAA About three-quarters of all lightning on Earth never leaves the cloud where it formed, content to find another region of oppositely charged particles within the storm. These strikes are known as "intracloud lightning," but they're also sometimes called "sheet lightning," when, from our vantage point, they light up a glowing sheet on the cloud's surface. "Spider lightning" (see photo below) occurs when branching bolts creep along the cloud's underside. Spider lightning is the long, horizontally traveling flashes often seen on the underside of clouds. NOAA Lightning also sometimes leaves the cloud but stays in the sky, a phenomenon that can take many forms. It might jump to another cloud, or it might simply strike the air around the storm if enough charge has built up nearby. While cloud-based lightning doesn't normally bother humans on the surface, it can wreak havoc with our airplanes, rockets and other flying machines. Flight paths often lead passenger jets directly through large thunderstorms, and while lightning normally passes along on the outside of the plane, it's hard to completely protect any electrical system in such conditions. In 2009, company officials said Air France Flight 447 was probably struck by lightning before disappearing over the Atlantic — it flew into a tropical storm just before losing power in both electrical systems — although a variety of other factors likely compounded that. NASA engineers at Cape Canaveral also are regularly plagued by lightning from Florida's merciless summer thunderstorms, which can delay launches and damage expensive equipment. Bolt from the blue The University of Florida's Lightning Research Group caught this bolt from the blue with a high-speed camera. University of Florida Lightning Observatory The majority of lightning strikes are negative, descending from the cloud base to the positively charged ground. But in large thunderstorms, a supercharged positive bolt may launch out from the cloud's upper regions, flying away from the storm before crashing into a distant section of negatively charged earth. Sometimes traveling up to 25 miles, these strikes can sneak up on people who don't even know a thunderstorm is nearby — hence the name "bolt from the blue." In addition to being stealthy and rare, bolts from the blue are also much more powerful than normal lightning strikes, and therefore cause more bodily and property damage. In May 2019, a woman in Florida unintentionally captured this bolt of positive lightning. It rattled the windows — and her: Ball lightning Floating orbs of electricity have been reported during thunderstorms around the world — and even recreated in a lab — but have proven difficult to verify in nature. If natural ball lightning does exist, it's fleeting, erratic and rare. Still, there are tantalizing hints, such as the video below, that it's real. Scientists also have an intriguing theory about the nature of ball lightning. For a study published in March 2018, researchers created a supercooled state of matter called a Bose-Einstein condensate, then tied its magnetic fields into a complex knot. This produced a quantum object called a "Shankar skyrmion," which was theorized more than 40 years ago but had never been successfully created in a lab. A skyrmion is a "knotted configuration of atomic magnetic moments," according to a statement from Amherst University, essentially a set of interlocking magnetic fields. (As LiveScience reports, it's sort of like a cluster of connected key rings.) This kind of knotted magnetic field is key to the topological theory of ball lightning, the researchers note, which describes a plasma of hot gas magnetically confined by the knotted field. Ball lightning can theoretically last much longer than a typical bolt due to the difficulty of "untying" the magnetic knot holding the plasma in place. Transient luminous events Lightning isn't the only electrical trickery thunderstorms have up their sleeves. There's another world of weird, ghostly lights that most humans never see, dancing around the upper atmosphere above storms. They aren't really lightning in the traditional sense — "transient luminous events" or "atmospheric optical phenomena" are the preferred terms — but we still don't know a lot about them. Color image of a sprite, taken from an aircraft. NASA/University of Alaska Fairbanks/Wikimedia Commons Sprites are huge flashes of light that appear directly above active thunderstorms, usually corresponding with powerful, positively charged cloud-to-ground lightning below. Also known as "red sprites" since most of them glow red, these wispy flares can shoot up to 60 miles from the cloud's top, although they're weakly charged and rarely last more than a few seconds. Sprites' shapes have been compared to columns, carrots and jellyfish, but their faint charge and soft glow means they're rarely spotted with the naked eye — in fact, there was no photographic evidence of them until 1989. Since then, however, thousands of sprites have been photographed and filmed from the ground, from aircraft and from space. Blue jets last only a fraction of a second. NOAA Blue jets are what they sound like: beams of blue energy that blast out of a thunderstorm's top into the surrounding sky. But despite the straightforward name, they're one of the more mysterious transient luminous events, since they're not directly associated with cloud-to-ground lightning and aren't aligned with the local magnetic field. As the glowing blue-and-white streaks emerge from a cloud, they extend upward in narrow cones, gradually fanning out and dissipating at heights of about 30 miles. Blue jets last only a fraction of a second but have been witnessed by pilots and even caught on video. This image of an elf was captured by 's Space Dynamics Lab. Utah State University Elves, like sprites, occur over an area of active cloud-to-ground lightning, and are also found in the ionosphere. These glowing, quickly expanding discs can stretch out for 300 miles, but they last less than a thousandth of a second, which would make spotting them difficult even if there wasn't a thunderstorm in your way. NASA discovered elves in 1992 when a low-light video camera on the space shuttle taped one in action, and scientists believe they're caused by an electromagnetic pulse shot up from a thunderstorm into the ionosphere. Lightning events include sprites, elves and blue jets. NOAA Lightning safety Over the last 30 years, more Americans have been killed by lightning per year than by hurricanes or tornadoes, but because the deaths are spread out over more time and distance, it's "the most underrated weather hazard," according to NOAA. For some reason, a lot more men die from lightning strikes than women — since 2006, more than 78 percent of U.S. lightning fatalities were male. Lightning is also more frequent and severe in certain parts of the country, especially Florida, Texas and other states near the Gulf of Mexico. Cloud-to-ground lightning strikes can attack people in several ways. Being out in the open during a thunderstorm — or 30 minutes before or after one — isn't a good idea, and neither is standing near anything tall like a tree or pole. But ideally you should be inside, anyway. The best place to be is a building with plumbing and electrical wiring, since they'll conduct the electricity better than a human body will. Structures with exposed openings aren't safe, including sheds, carports, picnic shelters, baseball dugouts and open-air stadiums. If you're stuck outside, try to get into an enclosed metal vehicle with the windows rolled up, avoiding things with open cabs like convertibles, golf carts, tractors or construction equipment. Swimming pools are notoriously dangerous during thunderstorms because water conducts electricity so easily. Along with metal, another top conductor, water also can help lightning invade our homes and businesses, letting it in through the plumbing and electrical systems. The bolt may hit the building directly or travel through the power lines, potentially electrocuting anyone who's taking a shower, using a computer or talking on the phone at the time (land lines are the main risk; cell phones are generally safe to use in a storm). Even if tornadoes aren't expected, the safest part of a building is the interior, away from windows, water and electrical appliances.