How Sinkholes Work

A hole 2-3 feet deep in the middle of a parking lot
While this sinkhole in the middle of a parking lot looks like a huge inconvenience, it's actually a major safety hazard. Luis Diaz Devesa / Getty Images

Maybe you've seen one on the news: a giant, yawning hole in the road, swallowing an unfortunate car that was in the wrong place when the Earth opened up without warning. Or maybe you were on vacation in Mexico and saw one of the country's beautiful cenotes, or water-filled pools, surrounded by verdant green.

Both of these geological features are sinkholes, formations that are much more than holes in the ground. Though many are less than 100 feet (30 meters) deep, sinkholes can look like ponds, cover hundreds of miles or fit discreetly in your backyard [source: USGS].

In this article, we'll cover how sinkholes occur and what problems they cause.

How Sinkholes Form

Also called sinks, sinkholes owe much to water. A sinkhole usually forms by erosion caused by frequent exposure to water.

It comes down to the type of rocks underlying the soil (as opposed to the soil above called the overburden). Most sinkholes occur in areas where the bedrock derives from soft minerals and rocks like salt, gypsum, limestone, dolomite or other types of evaporate or carbonate rock.­

Sinkholes typically develop slowly as water, which has turned acidic from absorbing carbon dioxide and interacting with plants, whittles away at bedrock. As the acidic water dissolves rock, it carves out conduits, or underground passages, for water. These conduits help to develop underground basins known as recharge areas.

Recharge areas contribute to the formation of sinkholes as water flowing to and from them and into the subsurface (the earth overhead) erodes bedrock. When water floods a developing sinkhole, some of the topsoil and other material can get caught in the conduits, further trapping water and limiting its ability to flow outward.

A lack of water can contribute to sinkholes, too. In some underground cavities, water may actually be holding up a thin overhang of earth. If that water level falls, the overhang has no support and collapses.

Where Do Sinkholes Form?

Sinkholes appear all over the United States. With its frequent rains and marshy terrain, Florida is a common place for sinkholes to spring up, but they're also prominent in Alabama, Kentucky, Missouri, Pennsylvania, Tennessee and Texas [source: USGS].

Sinkholes generally develop in karst terrain, which has soluble rocks like limestone and gypsum [source: Southwest Florida Water Management District]. The U.S. Geological Service describes karst sinkholes as having many water elements, such as springs, underground streams, caves and, of course, sinkholes [source: USGS].

In the United Kingdom, the sinkhole-prone areas are mostly in rural environments, and according to the British Geological Survey, they are particularly common in Ripon and other areas of northeast England.

<b>Aren't you glad you don't live there? A landslide caused this 200-by-240-foot sinkhole near San Diego, Calif. Watch natural disaster videos.</b> Kent Horner/<a class="link " href="http://www.gettyimages.com/Home.aspx" rel="nofollow noopener" target="_blank" data-ylk="slk:­Getty Images;elm:context_link;itc:0;sec:content-canvas">­Getty Images</a>
Aren't you glad you don't live there? A landslide caused this 200-by-240-foot sinkhole near San Diego, Calif. Watch natural disaster videos. Kent Horner/­Getty Images

Types of Naturally Occurring Sinkholes

Sinkholes look dramatic when you're peering down into one, but it's below the surface where the real action takes place. A sinkhole's identity centers on the gaps, crevices, cavities and voids that lie under the overburden, or the soil above the bedrock. As these gaps develop, expand and merge, soil from the overburden starts filling the void.

Cover-collapse Sinkholes

In the case of a sinkhole suddenly opening to swallow a car, it formed because the overburden was no longer stable enough to hold itself up.

These common type of sinkhole are collapse or cover-collapse sinkholes. Although these sinkholes can appear suddenly on the land surface, the erosion that makes them happen has likely been taking place for weeks or years before, underground and out of view. So let's head underground.

The top layer of a cover-collapse sinkhole is usually a soft overburden, made of soil with a lot of clay in it. Over time, a small cavern forms underneath that soil. Opportunistic sediment takes advantage of the newly free real estate and starts spilling into the cavern — a process known as spalling.

As spalling continues, the underground cavern fills with more sediment, hollowing out the space under the overburden. Eventually, the overburden becomes so thin that there's a sudden collapse into the cavern below (this is the "cover collapse"), creating a sinkhole.

In some cases, the cover can support its own weight but crumbles when additional weight, whether from a hapless person or car, passes over it.

Cover-subsidence Sinkholes

With cover-subsidence sinkholes, water permeates the soft overburden.

An example of this type of terrain is an overburden made up of up to 100 feet (30 meters) of sand with a small amount of clay below before yielding to soft limestone. As limestone dissolves and leaves a void, sediment from the overburden seeps in, creating a bowl-like impression on the Earth.

These sinkholes, often only a few feet across and deep, are smaller than many others because after reaching a certain size, sand and sediment pour into the hole [source: Southwest Florida Water Management District].

This inflow of sediment can block the outflow of water by stopping the cracks and passages that connect the sinkhole to underground conduits. Many of these sinkholes then become ponds, as the water has nowhere to drain. They also don't produce the spectacular kind of cave-in associated with a cover-collapse sinkhole.

Dissolution Sinkholes

Dissolution or solution sinkholes are essentially a deep impression in the ground. These sinkholes usually have a thin overburden (if any), which washes away or erodes. The now-exposed rock then progressively dissolves when it touches acidic water.

The bare area hollows out, forming a shallow basin. Water often pools on the surface of a dissolution sinkhole, creating a sort of pond that compounds the erosion of rock below.

Also, like in other types of sinkholes, objects and other material can get stuck in the fractures where water would normally flow out. Unlike a cover-subsidence sinkhole, there is no overburden or covering sediment to spall into the sinkhole or cover the eroding rock.

While sinkholes are natural hazards, human activity can also produce them.

<b>A broken water main collapsed part of the street in Los Angeles, California, in December 2002. Sinkholes caused by water eroding the foundation of streets are a big problem in Los Angeles.</b> Mike Nelson/AFP/<a class="link " href="http://www.gettyimages.com/Home.aspx" rel="nofollow noopener" target="_blank" data-ylk="slk:Getty Images;elm:context_link;itc:0;sec:content-canvas">Getty Images</a>

Sinkholes Caused by Humans

In urban settings in particular, human-induced sinkholes occur. In some cases, sinkholes appear because of the combination of industrial activity or development, soft limestone bedrock and less than 200 feet (61 meters) of overburden [source: Southwest Florida Water Management District].

The following human actions can also trigger sinkholes:

  • Drilling and vibrations

  • Mining

  • Changes in weight

  • Heavy increase in water flow, formation of a pond or body of water, or broken pipes, among other things

Sinkholes may also form in places where water flows regularly, such as surface drainage, or when water sources are diverted or cut off, especially by pumping out groundwater.

A broken pipe can contribute to sinkhole development by flooding and weakening the soil, but it can also provide an outlet for the dirt and rock that's supposed to surround pipes. After enough material falls into pipes and is transported away, the surrounding earth becomes destabilized, contributing to sinkhole formation, sewage or water spills, or other disasters.

Human-caused Sinkholes in Florida

­One­ of the worst human-caused sinkholes occurred in 1994 in Polk Cou­nty, located in Central Florida.

First, some background: 30 percent of the world's phosphate comes from Florida and often ends up as an ingredient in fertilizer [source: Laufenberg]. That booming phosphate industry comes with tons of mildly radioactive waste known as phosphogypsum. Florida mining companies arrange phosphogypsum into massive stacks that can cover hundreds of acres and weigh millions of tons.

Other phosphogypsum disposal methods, including recycl­ing it for use in construction or artificial reefs, have yet to take off because of debate over whether the material is too radioactive to reuse. Almost a billion tons of the stuff is in Central Florida [source: EPA]. All that weight pressing down on the soft, sinkhole-riddled Florida terrain can lead to disaster.

It was 1994 when one of these stacks collapsed into a 150-foot (46-meter) deep sinkhole. Millions of tons of phosphogypsum entered the sinkhole and polluted the state's water supply. The cleanup cost millions and cast a light on both the problem of sinkholes and the need to find uses for the millions of tons of byproduct waste produced by the state's phosphate industry.

­We've talked about how sinkholes form and some of the basic hazards involved. But what other problems can they cause?

­Again with the Fertilizer!

In Berezniki, Russia, a giant sinkhole first appeared in 1986, apparently after a potash mine flooded. The sinkhole now measures 656 feet (200 meters) deep, 262 feet (80 meters) long and 131 feet (40 meters) wide — and growing. The sinkhole threatens the region's massive potash industry. Potash is an important ingredient in many fertilizers.

<b>Aerial view of the huge hole in Guatemala City after the sewage system collapsed. If you look at the surrounding buildings, you can see how big that scary sinkhole is.</b> Orlando Sierra/AFP/<a class="link " href="http://www.gettyimages.com/Home.aspx" rel="nofollow noopener" target="_blank" data-ylk="slk:Getty Images;elm:context_link;itc:0;sec:content-canvas">Getty Images</a>

More Problems Caused by Sinkholes

Sinkhole collapses aren't always a grave danger. Sometimes, depending on their size, they're just an inconvenience. It's their sudden or deceptively large appearance that makes sinkholes dangerous, both to human safety and to buildings and infrastructure.

Construction projects frequently have to contend with the specter of sinkholes brought on by broken pipes or careless drilling. These geologic cavities can be expensive to repair, voracious in their appetite to swallow homes and cars, and toxic in their ability to contaminate groundwater supplies by sucking up debris or sewage.

Flooding, Flooding Everywhere

­Flooding looms as a particular concern when it comes to sinkholes. Not only does flooding contribute to sinkhole development, but sinkholes can also factor into the flooding of a surrounding area in several ways.

If the outlet that connects a sinkhole to a conduit or underground water supply, such as a stream, becomes filled with trash and debris, water has nowhere to flow. The basin or sinkhole then fills with water, causing flooding.

Sinkhole flooding can also occur simply because water enters a sinkhole more quickly than it can drain through a conduit or other outlet.

The last flooding scenario happens when an overflowing river connects to a sinkhole via underground streams and conduits. Water flowing through the sinkhole would normally drain into the river. But because the river is already flooded, flow reversal takes place and excess water shoots back into the sinkhole, filling it with water and potentially flooding the surrounding area.

Tragedy in Guatemala City

Sinkholes can appear suddenly and with great violence, and they're something that any city planner or engineer must keep in mind. One notable, tragic case of this type occurred in Guatemala's capital, Guatemala City.

Early in the morning on Feb. 23, 2007, a 330-foot (101-meter) deep sinkhole appeared almost instantly, killing at least three people and devouring homes in a packed urban area. The ground shook, and a terrible smell wafted from the ruptured sewer lines that, along with rain, were thought to have caused the disaster.

Although the catastrophe occurred suddenly, residents reported hearing and feeling the ground shaking about a month before the sinkhole appeared [source: Associated Press]. The government had plans to send a robotic camera system to investigate, but it didn't act in time.

<b>We have some bad news for you if your house is in a landscape like this.</b> G. R. 'Dick' Roberts/NSIL/<a class="link " href="http://www.gettyimages.com/Home.aspx" rel="nofollow noopener" target="_blank" data-ylk="slk:Getty Images;elm:context_link;itc:0;sec:content-canvas">Getty Images</a>
We have some bad news for you if your house is in a landscape like this. G. R. 'Dick' Roberts/NSIL/Getty Images

Detecting and Dealing with Sinkholes

Sometimes we don't need a government agent to confirm that a sinkhole collapse looms. Rather, it's obvious from the gaping hole in the ground. But other times, sinkholes may be difficult to detect —for example, if a thin overburden that has yet to collapse into the void below covers them.

Property damages, especially around the foundation, may be subtle warning signs that something is wrong. In addition, if vegetation is dying unexpectedly, a sinkhole may have disrupted underlying streams that usually feed the plants. Other signs to look for include polluted or muddied well water, formation of new ponds and trees, or signposts that appear to be slumping over.

Some people use sinkholes as makeshift trash cans when, in fact, anything thrown in them may end up in the local water supply. In many communities, this practice, in addition to being harmful to the environment, is illegal [source: Pennsylvania Department of Environmental Protection].

­If your house suffers damage from a sinkhole, homeowners' insurance may cover it. Officials should fence off or mark sinkholes to keep people safe. The Southwest Florida Water Management District recommends filling them in with sand, though many homeowners turn to professional contractors [source: Southwest Florida Water Management District].

If the sinkhole sit on public property, you must contact city officials. A severe sinkhole found on public or private land may require reparation with concrete or earthmoving equipment to stymie erosion.

The United States can't afford to ignore sinkholes. The country's aging sewer and water systems worry experts that deadly sinkholes like Guatemala City's could develop [source: Rooney].

Their worries, no doubt, come from the fact that there is a lack of many essential infrastructure improvements across the country. Pipes, bridges and the like should only have lasted 50 or so years and are now approaching or have passed their intended shelf life [sources: Rooney, Wald].

For example, you may remember the disastrous Interstate 35W bridge collapse in Minneapolis that occurred on Aug. 1, 2007, and killed 13 people. Authorities later attributed the bridge collapse to faulty design and the gradual addition of more weight, such as concrete lane dividers, without upgrading the bridge's support systems.

Is Three a Crowd?

When several sinkholes come together to form a larger basin or hole, the new formation is a poljen.

Aerial view of a Sarisarinama sinkhole
Aerial view of a Sarisarinama sinkhole in Bolivar, Venezuela. If you tumble in there, will you reach the lost world? Juan Silva/­Getty Images

Unusual and Stunning Sinkholes

We already discussed the large sinkholes in Polk County, Florida; Berez­niki, Russia; and Guatemala City. Now let's look at some other unusual sinkholes from around the world.

Qattara Depression

Perhaps no sinkhole is more distinctive than the Qattara Depression. The massive sinkhole is more like a large basin, stretching across a wide swath of Egypt. It's the largest naturally forming sinkhole on Earth [source: WebEcoist]. The depression is "only" 436 feet (133 meters) deep, but it's also 75 miles (120 kilometers) wide and 50 miles (80 kilometers) long.

The depression's difficult terrain made it an important defensive border for the British army during World War II, and now it's a tourist attraction. Various schemes have been conceived to harness the Qattara Depression for energy production. One possibility calls for filling it with water and then using the basin's low elevation and water evaporation as part of a hydro-solar project.

Sarisarinama Sinkholes

­Sinkholes like the Qattara Depression can be beautiful and relatively harmless, though frequently the difference between stunning and disastrous is a matter of location.

Venezuela has the Sarisarinama sinkholes: basins 1,000 feet (305 meters) wide and at least that deep that are practically perfect circles. These sinkholes are distinctive because of where they appear: They lie on top of high mesas in the country's Tepui region.

Tepuis are incredibly isolated areas filled with lush forests and waterfalls. Sarisarinama sinkholes were first discovered in 1974, high up on flat-topped Tepui mountains, and some describe them as part of a "lost world" [source: Melham]. These sinkholes have been treasure troves for scientists, who remain fascinated by the unique plant and animal species found nowhere else but in some Sarisarinama sinkholes.

The sinkholes and the tepuis have also attracted numerous explorers throughout the centuries, some lured by the challenge of their remote setting, others following rumors of massive gold nuggets washing up in streams on top of Tepuis.

Cenotes

­If you've ever seen the "Planet Earth" documentary series, then you're probably familiar with cenotes, water-filled sinkholes connected to underwater caves and streams. Cenotes often form gorgeous swimming spots and feature underwater caves, waterfalls and other intriguing formations.

The Bimmah Sinkhole in the Middle Eastern nation of Oman is similar. This sinkhole attracts many tourists to its shimmering, translucent blue-green water. Similarly, Mount Gambier in southern Australia has picturesque water-filled sinkholes and volcanic craters. Some of these sinkholes contain well-manicured, terraced gardens.

The Dead Sea

One of the world's centers of sinkhole activity is the Dead Sea, the salty body of water sandwiched between Israel and Jordan. The Dead Sea is the lowest point on the planet (1,371 feet or 417 meters below sea level) and an important tourist and historical site, as well as part of a migratory route for hundreds of millions of birds.

The water level of the Dead Sea has been dropping yearly because of work by the mineral extraction industry and diversion of water from the Jordan River, which feeds the sea, for use in watering crops and providing drinking water.

These areas of the Dead Sea have become riddled with sinkholes. Evaporating freshwater pools are breaking down salt deposits, creating "holes" and destabilizing the ground, leading to sinkholes. Various remedies have been proposed, including multibillion-dollar canals connecting the Dead Sea to the Mediterranean or Red seas.

One scientist has theorized that a point of equilibrium will inevitably be reached, as the sea will become too salty to further evaporate [source: Anderson]. But by then, the Dead Sea will be about one-third of its early 21st-century size, and in the meantime, resorts around the sea have struggled with receding waters and the unstable, sinkhole-laden earth left behind.

An Ancient Name

The name "cenote" derives from a Mayan word meaning "abysmal and deep" [source: ­Yucatan Today].

Lots More Information

Related Articles

Sources

  • "5 Giant Sinkholes That Devoured Everything Around Them." Environmental Graffiti. May 20, 2008. (Nov. 10. 2008) http://www.environmentalgraffiti.com/offbeat-news/5-giant-holes-devoured-everything-around-them/1196

  • "13 of the Biggest, Strangest, and Most Devastating Sinkholes on Earth." WebEcoist. Aug. 26, 2008. (Nov. 10. 2008) http://webecoist.com/2008/08/26/incredible-strange-amazing-sinkholes/

  • "About Phosphogypsum." EPA. Sept. 11, 2008. http://www.epa.gov/rpdweb00/neshaps/subpartr/about.html

  • "Another sinkhole threatens Russia." Virtual Globetrotting. Nov. 2, 2007. (Nov. 10. 2008) http://virtualglobetrotting.com/map/40512/

  • "Beneficial Uses of Phosphogypsum?" StackFree - The Phosphogypsum Project. http://stackfree.com/

  • "Cenotes in the Yucatan, Mexico." Yucatan Today. (Oct. 30. 2018) http://yucatantoday.com/cenotes-underwater-sinkholes/?lang=en

  • "Florida Sinkholes - Your Guide." CAIP and University of Florida. 2003. (Nov. 10. 2008) http://aquat1.ifas.ufl.edu/guide/sinkholes.html

  • "Geotechnical Engineering Gem." Ardaman and Associates. (Nov. 10. 2008) http://www.ardaman.com/award3.htm

  • "Living Edens: The Lost World." PBS. (Nov. 10. 2008) http://www.pbs.org/wnet/nature/lostworld/photoessay6.html

  • "Managing water for peace in the Middle East." United Nations University. (Nov. 10. 2008) http://www.unu.edu/unupress/unupbooks/80858e/80858E0a.htm

  • "Mount Gambier." (Nov. 10. 2008) http://www.mountgambiertourism.com.au/home.htm

  • "Sinkhole." Encyclopedia Britannica. (Nov. 10. 2008) http://www.britannica.com/EBchecked/topic/546115/sinkhole/546115rellinks/Related-Links

  • "Sinkholes." Florida Department of Environmental Protection. Oct. 17, 2007. (Nov. 10. 2008) http://www.dep.state.fl.us/geology/geologictopics/sinkhole.htm

  • "Sinkholes." North Carolina Division of Water Resources. Nov. 16, 2004. (Nov. 10. 2008) http://www.ncwater.org/Education_and_Technical_Assistance/Ground_ Water/Sinkholes/

  • "Sinkholes." Southwest Florida Water Management District. (Nov. 10. 2008) http://www.swfwmd.state.fl.us/hydrology/sinkholes/

  • "Sinkholes." Southwest Florida Water Management District. (Nov. 10. 2008) http://www.swfwmd.state.fl.us/hydrology/sinkholes/brochure.pdf

  • "Sinkholes." U.S. Geological Survey (USGS). Nov. 7, 2008. (Nov. 10. 2008) http://ga.water.usgs.gov/edu/sinkholes.html

  • "Sinkhole Flooding." Kentucky Geological Survey. Dec. 1, 2004. (Nov. 10. 2008) http://www.uky.edu/KGS/water/general/karst/sinkhole_flooding.htm

  • "The Sinkhole." Real Travel. April 22, 2007. (Nov. 10. 2008) http://realtravel.com/muscat-journals-j4591693.html

  • "What causes a sinkhole?" Pennsylvania Department of Environmental Protection. (Nov. 10. 2008) http://www.depweb.state.pa.us/sinkholes/cwp/view.asp?a=3&Q=503856

  • "What if I do have a sinkhole?" Pennsylvania Department of Environmental Protection. (Nov. 10. 2008) http://www.depweb.state.pa.us/sinkholes/cwp/view.asp?a=3&Q=503863 &sinkholesNav=|

  • Anderson, John Ward. "For Dead Sea, a Slow and Seemingly Inexorable Death." Washington Post. May 19, 2005. (Nov. 10. 2008) http://www.washingtonpost.com/wp-dyn/content/article/2005/05/18/AR2005051802400_pf.html

  • Associated Press. "Third body pulled from giant sinkhole." MSNBC. Feb. 24, 2007. (Nov. 10. 2008) http://www.msnbc.msn.com/id/17303991/

  • Laufenberg, Kathleen. "What a Waste!" Research in Review. Summer 1996. (Nov. 10. 2008) http://www.rinr.fsu.edu/summer96/features/gyp.html

  • Llora, Juan Carlos. "2 Die in Guatemala City Sinkhole." Associated Press. Washington Post. (Nov. 10. 2008) http://www.washingtonpost.com/wp-dyn/content/article/2007/02/23/AR2007022302006.html

  • Melham, Tom. "Venezuela's Tepuis." National Geographic. (Nov. 10. 2008) http://www.nationalgeographic.com/traveler/articles/1017venezuela.html

  • Rooney, Thomas. "The looming sinkhole crisis." LA Times. March 28, 2007. (Nov. 10. 2008) http://www.latimes.com/news/opinion/commentary/la-oe-rooney28 mar28,0,2169993.story?coll=la-home-commentary

  • Shalev, Eyal, Lyakhovsky, Vladimir and Yechieli, Yoseph. "Salt dissolution and sinkhole formation along the Dead Sea shore." Journal of Geophysical Research. March 11, 2006. (Nov. 10. 2008) http://www.agu.org/pubs/crossref/2006/2005JB004038.shtml

  • Wald, Matthew L. "Faulty Design Led to Minnesota Bridge Collapse." The New York Times. Jan. 15, 2008. (Nov. 10. 2008) http://www.nytimes.com/2008/01/15/washington/15bridge.html

  • Witt, Emitt. "Sinkholes." USGS. 2007. (Nov. 10. 2008) http://pubs.usgs.gov/fs/2007/3060/pdf/FS2007-3060.pdf

Original article: How Sinkholes Work

Copyright © 2023 HowStuffWorks, a division of InfoSpace Holdings, LLC, a System1 Company