Storm spotting

This articleneeds additional citations forverification.Please helpimprove this articlebyadding citations to reliable sources.Unsourced material may be challenged and removed. Find sources:"Storm spotting"–news·newspapers·books·scholar·JSTOR(February 2012)(Learn how and when to remove this message)

Storm spottingis a form ofweather spottingin which observers watch for the approach ofsevere weather,monitor its development and progression, and actively relay their findings to local authorities.^[1]

Storm spotting developed in theUnited Statesduring the early 1940s. A joint project between the military and the weather bureau saw the deployment of trained military and aviation lightning spotters in areas where ammunitions for the war were manufactured. During 1942, a serioustornadostruck a key operations center inOklahomaand another tornado on May 15, 1943 destroyed parts of theFort Rileymilitary base located in Kansas. After these two events and a string of other tornado outbreaks, spotter networks became commonplace, and it is estimated that there were over 200 networks by 1945.^[2]Their mandate had also changed to include reporting all types of active orsevere weather;this included giving snow depth and other reports during the winter as well as fire reports in the summer, along with the more typical severe weather reports associated with thunderstorms. However, spotting was still mainly carried out by trained individuals in either the military, aviation, or law enforcement fields of service. It was not until 1947 that volunteer spotting, as it exists today, was born.

After a series of vicious tornado outbreaks hit the state of Texas in 1947, the state placed special emphasis on volunteer spotting, and the local weather offices began to offer basic training classes to the general public.^[2]Spotting required the delivery of timely information so that warnings could be issued as quickly as possible, thus civilian landline phone calls andamateur radiooperators provided the most efficient and fastest means of communication. While phone lines were reliable to a degree, a common problem was the loss of service when an approaching storm damaged phone lines in its path. This eventually led to amateur radio becoming the predominant means of communication and resulted in the installation of special amateur radio work zones within local weather offices. Volunteer spotters would come into the local office and run a radio net from within, directly relaying information to meteorologists.

The 1950s saw the deployment of the first dedicatedweather radarsin the United States, and by this time, civilian spotter networks were commonplace. The new reflectivity-only radars provided meteorologists with basic information and helped identify potentially severe storms, but due to the nature of weather radar, most precipitation was detected at a height of 1 kilometer or more above the ground. Ultimately, the radar cannot see what exactly occurs at the surface of the earth, and storm spotters now correlatedground truthingwith radar signatures. This early conventional radar showed intensity of echoes, inferring precipitation intensity and types, and the horizontal and vertical distributions provided information about storm structures and processes. Thehook echowas a major method used as an indicator for potential for tornadic activity during the first decades of weather radar. During the 1990s in the US,Doppler weather radarwas deployed, providing velocity data on echoes flowing toward and away from the radar location, which enabled inferences about storm rotation, such asmesocyclones,and other dynamics, as well as data on downbursts (and wind shear aloft). The 2010s brought polarization radar in the US, which enabled confirmation of the presence of stronger tornadoes by discerning nonmeteorological echoes colocated with rotation in velocity data, which indicates the presence of lofted debris. However, radar is still limited by factors such as not capturing near surface environment and limitations on spatial and temporal resolution. Therefore, ground truth information remains important.^[3]

New spotter technologies and training techniques have been developing since the 1960s. Prior to the 1960s, the vast majority of amateur radio communication relied onAM-modulated signals and the use ofsimplex.It was not uncommon for spotters to hear the distant net control station and not hear other mobile or base stations which were much closer. After 1960, amateurs adopted the use ofFMrepeaterswhich operated in theVHFspectrum. The use of FM repeaters was a huge advancement for storm spotters; spotters could now hear each other regularly. The lownoise floorand greatly improved audio quality meant much better signal reception for all stations. By the 1970s, nearly all spotter radio activity consisted ofhalf-duplexFM repeater use.^[4]The next major technology to aid spotters was the development of thecell phonein the late 1970s and early 1980s. It was then possible for non-amateur radio operators to directly report severe weather.

Storm spotting became more popular with the public during the late 1980s and early 1990s. During this period, a number ofNSSL(National Severe Storms Laboratory) projects were carried out, some of which were documented and broadcast on television in a number of specials.^[5]Spotters and their actions were believed to have saved lives while also aiding university research groups, which dropped sensors such asTOTOin the path of tornadoes and at times firedrocketsondesdirectly at or very close to tornadoes.^[6]At about the same time, earlystorm chaserswere popularized and associated with spotters. It is believed this association is what has led many in the present era to associate storm chasers and storm spotters as carrying out the same actions or having the same goals.^{[citation needed]}

Technological advances such as theInternet,weather radio,pagers,andcell phoneshave made spotter activation quick and efficient; however, the basic goal of spotting has remained relatively unchanged to this day. In making these reports, spotters use a specialized set ofjargonandslangto describe their observations.^[7]

The primary group responsible for storm spotting in the U.S. is known asSkywarn.Many individuals hold Skywarn certification and/or amateur radio licenses. Other spotters are part of organized and highly trained local spotter groups, reporting their observations to the local emergency management office or National Weather Service office responsible for that area. A Skywarn group is either directly or indirectly affiliated or associated with the local weather office, and in many cases other agencies responsible for the well-being of individuals. Today, amateur radio still plays a key role, as most spotters opt to attain their radio licenses; however, cell phones are an ever increasingly popular means to directly relay information, along with other on-line spotter reporting protocols such as TheSpotter Network.^[8]

Other spotters groups have formed in various countries.Canwarnis the Canadian spotter program run byEnvironment Canadaand similarly the AustralianBureau of Meteorologyruns the ASP (Australian Storm Spotters) program inAustralia.In theUnited Kingdom,theTORROhas operated a network of observers since the 1970s. Since the 2000s, about a dozen European countries (including the UK) have operated autonomous storm-spotting organizations under the auspices ofSkywarn Europe.

Countries in Asia such as Malaysia introduced a Community Service Oriented application called 'RakanMET' which allows volunteer public weather reports/spotting and two-way communication between the public and the Meteorology Department of Malaysia with the live weather report using Global Positioning System (GPS) from the reporter's smartphone.^[9]Such service allows better information sharing especially during monsoon seasons as storms are a lot more frequent.

While there is no question that storm spotting has saved many lives and aided weather agencies greatly, there is concern that storm spotting may actually put individuals in danger. It is a common practice for many spotters to leave their vehicles or places of shelter to better observe, but this also places spotters in a situation where they can be harmed or killed by lightning. Most spotting groups do not recommend that individuals leave their vehicles or places of safety.^[10]

This sectiondoes notciteanysources.Please helpimprove this sectionbyadding citations to reliable sources.Unsourced material may be challenged andremoved.(May 2024)(Learn how and when to remove this message)

A storm spotter is volunteer or a paid county or municipal employee who is spotting as a community service. Most spotters work as part of an organized network and are in communication with their community or organization, which is in turn in communication with the National Weather Service. The purpose of spotting is to alert community officials and the NWS and assist them in warning the public. Schools, hospitals, and other facilities are encouraged to have spotters to alert people in their care of impending severe weather.

Most trained storm spotters in the US are volunteer HAM radio operators that are organized by the National Weather Service and local emergency management groups. Sometimes, police, fire, security and other safety personnel can act as spotters.

By contrast,storm chasinginvolves following a developing thunderstorm to view or photograph severe weather phenomena. Chasing may be done for educational purposes or scientific research but is mostly done for personal fulfillment.

The main difference between the two is storm spotters 'warn,' while storm chasers 'track.'

A person can be a storm spotter, a storm chaser, or both.

The USNational Weather Servicedeveloped an organized storm spotter training system starting in the 1970's. MeteorologistAlan Mollerplayed a significant role in the development of the effort. He believed that storm spotters are a vital part of the Integrated Warning System since they provide "ground truth verification" for forecasters. Moller developedTornadoes: A Spotter's Guide(1977) and latter co-produced the "StormWatch" storm spotter training video in 1995 with meteorologist Gary Woodall andTexas Severe Storms Association(TESSA) chairmanMartin Lisius.In 2001, TESSA began offering the Super Storm Spotter Training Session at its National Storm Conference. The session was created by Woodall to offer training that extended beyond the Weather Service's "basic" and "advanced" training. Training focuses primarily on the various weather elements storm spotters witness in the field including properly identifyingtornadoes,wall cloudsand other storm features.

The National Weather Service organizes in-person training sessions for storm spotters throughout the US. These often take place at a public venue such as a school or government building. Presentations usually include slide presentations and video. These sessions are free and open to the public for anyone wanting to become a spotter.

Some county spotter groups have regular over-the-air meetings using a local HAM radio frequency. This usually takes place on the same radio frequency used by the spotters during a severe weather event. The frequency connects spotters in the field to a network controller who relays reports to a Weather Service forecaster. Sometimes, the forecaster asks for only reports that exceed a certain severe threshold such as hail reports of a specific size or larger. If a forecaster thinks the storm may have immediate tornado potential, they will ask the spotters to relay only tornado and funnel cloud reports, or reports of rapid, low-level cloud base rotation. The forecaster will consider the spotter reports along with radar, local conditions, and sometimes live video feeds, to determine if a warning should be released to the public. If a warning is released, it will be sent to various outlets including social media, TV and radio broadcasters, and local emergency managers. The goal is to deliver accurate warnings to the public as quickly as possible.

• Citizen Weather Observer Program(CWOP)
• Convective storm detection
• Local storm report

• Canwarn
• U.S. Skywarn homepage
• Australian Storm Spotters' Guide(AustralianBOM)
• Storm Spotting and Public Awareness Since the First Tornado Forecasts of 1948(Doswell, et al.)