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List of orphan source incidents

From Wikipedia, the free encyclopedia

This is a chronological list of orphan source incidents and accidents.

Note: As incident reporting has used inconsistent units of measurement, here are the conversion factors; metric prefixes are used where appropriate: kilo (k), mega (M), giga (G), tera (T):

Property non-SI unit SI unit equivalent
Radioactivity 1 Curie (Ci) 37 gigabecquerels (GBq)
Equivalent radiation dose 1 rem 0.01 Sievert (Sv)
Absorbed radiation dose 1 rad 0.01 Gray (Gy)

20th century

[edit]

1960s

[edit]
  • 1962 – Mexico City – 1962 Mexico City radiation accident[1]
  • January 11, 1963 – Sanlian, Hefei, Anhui, China – A 10 Ci (370 GBq) cobalt-60 source from an industrial seed irradiator was removed from a buried waste repository and taken to a residence by a child. Over the next 5–9 days, six total family members were exposed. Two died and four were injured.[2]
  • May 3, 1968 – La Plata, Argentina – A construction worker at a chemical plant discovered a caesium-137 source and carried it in his pants pocket for 17 hours (right pocket for 7 hours, left pocket for 10 hours). The worker suffered a localized dose of 50–1,700 rad (0.50–17.00 Gy), leading to permanent sterility and the eventual amputation of both legs. 17 workers were exposed to an estimated dose of 40 rad (0.40 Gy).[3]
  • September 18, 1968 – F.R. Germany – An iridium-192 source was mishandled by workers, with one person placing the source in their jacket pocket. Six workers were exposed, with one receiving a 100 rad (1.0 Gy) whole body dose and 4,000–6,000 rad (40–60 Gy) localized dose to their pelvic and thigh regions.[4]

1970s

[edit]
  • 1971 – Chiba, Japan – a 5.26 Ci (195 GBq) iridium-192 source used for industrial radiography was lost. Six construction workers received doses of 15–130 rem (0.15–1.30 Sv).[5]
  • January 8, 1977 – Sasolburg, Free State, South Africa – a 6.7 Ci (250 GBq) iridium-192 source fell out of its container at a construction site. The radiographer did not notice the loss of the source and left the site. A construction supervisor later picked up the source and placed it in his shirt pocket. He travelled home and placed the source in a cupboard. The source was recognized as lost two days later after workers were shown a replica and it was recovered the same day. The supervisor received a whole body dose of 116 rad (1.16 Gy) and required the amputation of two fingers. His wife and child received doses of 17 rad (0.17 Gy) and 10 rad (0.10 Gy) respectively.[6]
  • May 5, 1978 – Setif, Algeria – A 25 Ci (920 GBq) iridium-192 source fell off a truck during transport. Two children found it and kept it for several days before giving it to their grandmother, who kept it in the kitchen of her home. After 38 days radiation exposure was identified by medical personnel. The grandmother died of radiation injuries, and six members of her family received varying radiation injuries.[7]
  • November 14, 1978 – Kambalda East, Western Australia, Australia – A density gauge containing caesium-137 at the Kambalda Nickel Operations was discovered to be missing. Subsequently, caesium-137 radiation contamination was found at a furnace in Singapore which had accepted scrap metal from the Kambalda operation. After years of negotiation, 119 drums of slightly contaminated waste, holding bricks and sludge from the Singapore furnace, were eventually transported to Western Australia in December 1981 and stored in a bunker at Kambalda.[8][9]
  • June 5, 1979 – Los Angeles, California, United States – A 28 Ci (1,000 GBq) iridium-192 source was lost on a job site. A worker picked it up and carried it in his pocket for 45 minutes before giving it to a manager. The worker received a 68 rem (0.68 Sv) whole body dose and a 1.5 Mrem (15 kSv) surface dose (60 krem (600 Sv) at 1-cm depth) to his buttocks.[10]

1980s

[edit]
  • October 5, 1982 – Baku, Azerbaijan – An individual carried a caesium-137 source in their pocket, exposing several individuals. Five people died and 13 others were exposed, including one person who suffered ARS.[11]
  • 1982 – Vikhroli, Mumbai, India – An iridium-192 source was lost during transport. A railway worker who found the source suffered significant exposure.[12]
  • December 6, 1983 – Ciudad Juárez, Mexico.[13] Ciudad Juárez cobalt-60 contamination incident. A local resident salvaged materials from a discarded radiation therapy machine containing 6,010 pellets of cobalt-60. The transport of the material led to severe contamination of his truck. Remaining pellets in the scrapyard contaminated another 5,000 metric tonnes of steel to an estimated 300 Ci (11 TBq) of activity. This steel was used to manufacture kitchen and restaurant table legs and rebar, some of which was shipped to the U.S. and Canada. The incident was discovered months later when a truck delivering contaminated building materials to the Los Alamos National Laboratory drove through a radiation monitoring station. Contamination was later measured on roads used to transport the original damaged radiation source. Some pellets were actually found embedded in the roadway. In the state of Sinaloa, 109 houses were condemned due to use of contaminated building material. This incident prompted the U.S. Nuclear Regulatory Commission and Customs Service to install radiation detection equipment at all major border crossings.[14][15]
  • March 19, 1984 – Casablanca, Morocco – A 16.3 Ci (600 GBq) iridium-192 source was lost and taken home by a laborer, who placed the source on a table in the family bedroom. The source remained in the house for several weeks. Eight people died and three were injured.[16]
  • September 13, 1987 – In the Goiânia accident, scavengers broke open a radiation-therapy machine in an abandoned clinic in Goiânia, Brazil. They sold the 1,375 Ci (50.9 TBq) caesium-137 source as a glowing curiosity. Two hundred and fifty people were contaminated; four died.[17][18]
  • 1989 - The Kramatorsk radiological accident occurred in Kramatorsk in the Ukrainian SSR. A radioactive capsule from a radiation gauge was lost in a quarry; quarried gravel and the capsule were later used to construct the walls of an apartment building. At least four residents of the apartment died before an investigation discovered the capsule in 1989.

1990s

[edit]
  • 1990 – Sasolburg, Transvaal, South Africa – A cobalt-60 source was left behind following radiography work. Six people handled the source for approximately 5–20 minutes.[19]
  • November 19, 1992 – A 10 Ci (370 GBq) cobalt-60 source (which was used for an agricultural project) was taken home by a worker from a well within a construction site which used to be part of an environmental monitoring station in Xinzhou, Shanxi, China. This resulted in three deaths and affected 100+ people. A woman was exposed to radiation while nursing her sick husband. 41 days after the accident, her dose was estimated to be 2.3 Gy (230 rad) by means of a blood test. 16 years after the accident, the woman suffered from premature aging. Her then unborn child (induced at 37 weeks, with a birth weight of 2 kilograms) received a dose of almost 2 Gy (200 rad) in utero; at the age of 16, the child had an IQ of 46. Eight years after the event, her second baby died because of an incident six months into pregnancy.[20][21][22][23][24][25]
  • October 21, 1994 – Estonia – Theft of radioactive material in Tammiku. A caesium-137 source was stolen from a waste storage facility by two brothers. One received a 4,000 rad whole-body dose and died 12 days later. His family's dog also died, and his stepson developed radiation burns on his hands after touching the source.
  • 1995 – France – A worker disassembled a density gauge at a textile treatment plant and handled a 0.2 Ci (7.4 GBq) cesium-137 source for 30–45 minutes.[26]
  • January 5, 1996 – Jilin, Xinzhou, China – A worker found a 2.765 TBq (74.7 Ci) iridium-192 source on the ground. He held it in his hand for 15 minutes before putting the source in his pants pocket. The man received a 290 rad (2.9 Gy) whole body dose as well as large localized doses to the left hand, left wrist, and right thigh.[27]
  • June 1996 – October 9, 1997 – Lilo, Tbilisi, Georgia – 11 servicemen at the Lilo Training Center were hospitalized for symptoms found to be consistent with radiation exposure between April and September 1997. An additional hospitalization in June 1996 was later recognized as having been caused by radiation exposure. An investigation in October 1997 found a number of sources throughout and around the property, including 200 radium-226 coated gun sights. The primary and most active source, a metal cylinder containing cesium-137 with an estimated dose rate of 13 mGy (1.3 rad)/h at 1 meter's distance, was found in the pocket of a winter jacket stored in an underground shelter. It was estimated that the servicemen were exposed intermittently via the jacket over a period ranging from 60 to 300 days.[28] It is believed that the radiation sources were training material left over from Soviet use of the installation, and a further 352 contaminated sites were identified within the country during subsequent investigations spurred by this incident.[17]
  • July 24, 1996 – Gilan, Iran – A radiographer using a 5 Ci (180 GBq) iridium-192 source to check boiler welds at a power plant had the source become detached from the device cable. The source fell into a trench where it was found by a worker who put it into his chest pocket. The worker carried around the source, at times removing it from his pocket and examining it. After approximately 90 minutes he began to experience nausea, dizziness and a burning sensation in his chest; he then returned the source to the trench and left it where he found it. The source was recovered by operators, unaware it had been handled in the intervening period. The worker received a whole body dose of 450 rem (4.5 Sv).[29]
  • December 2, 1997 – Volgograd, Russia – An accidental exposure to an iridium-192 source caused 1 injury.[30]
  • 1997 – Georgia – A medical teletherapy cobalt-60 source was left unsecured near a station, causing a fatal radiation exposure to one individual.[31]
  • December 1998 – Istanbul, Turkey – two sealed transport packages for spent cobalt-60 teletherapy sources from a shipment of three planned for export in 1993 were instead stored in a warehouse in Ankara, then moved to Istanbul, where a new owner sold them off as scrap metal. The buyers dismantled the containers, exposing themselves and others to ionizing radiation. Eighteen people, including seven children, were admitted to hospital. Ten of the adults developed acute radiation syndrome. One exposed cobalt-60 source was retrieved, but the source from the other package was still unaccounted for one year later. It is believed that the second container was empty all along, but this could not be conclusively proven from company records.[32][33]
  • February 20, 1999 – Yanango, Peru – A welder picked up an iridium-192 source lost by an industrial radiographer working at a hydroelectric plant and placed it in his rear pants pocket. The source was kept in the pocket for several hours, then brought home. The welder received severe exposure to the thigh, requiring the amputation of the leg. His wife and child were also exposed to a lesser extent, and the source was recovered shortly after midnight.[34]
  • April 26–28, 1999 – Henan, China – A radiotherapy unit was sold as scrap to a waste disposal company, where its cobalt-60 source was removed from its shielding. A scrap metal dealer purchased the source, then brought it into his home where he placed it in the bedroom of his wife and child. The family suffered from acute radiation sickness and later recovered. The source was identified and removed 24 hours after its sale.[35]
  • September 13, 1999 – Grozny, Chechnya, Russia – Six individuals attempted to steal radioactive material from a chemical factory in Grozny. They opened a container and removed several 12-cm rods of cobalt-60, each one 27 kCi (1,000 TBq). One of the thieves handled one of the rods for several minutes and reportedly died after 30 minutes. Of the remaining thieves, two died and three received radiation injuries.[36]
  • 1999 – Kingisepp, Leningrad Oblast, Russia – The radioisotope core of a radio thermal generator was recovered at a bus station in Kingisepp. Radiation levels at the surface of the source were 1,000 rad (10 Gy)/hour. The source had been stolen from a lighthouse 50 km away by three men stealing metal to sell as scrap; all three died of radiation injury.[37]

21st century

[edit]

2000s

[edit]
  • February 1, 2000 – Samut Prakan radiation accident: The radiation source of an expired teletherapy unit was purchased and transferred without registration, and stored in an unguarded car park in Samut Prakan, Thailand without warning signs.[38][39] It was then stolen from the car park and dismantled in a junkyard for scrap metal. Workers completely removed the cobalt-60 source from the lead shielding, and became ill shortly thereafter. The radioactive nature of the metal and the resulting contamination was not discovered until 18 days later. Seven injuries and three deaths were a result of this incident.[40]
  • May – July 2000 – Meet-Halfa village in Qalyubia, Egypt, where a farmer took a source of iridium-192 home. Two household members died; 5 were injured with skin, bone marrow, and/or muscle damage. An additional 76 others were treated for changes to their blood.[41][42]
  • August 16, 2000 – Samara Oblast, Russia – A 240 Ci (8.9 TBq) iridium-192 source became detached from its shield assembly while being used by three radiographers to check welds in a gas pipeline. The unshielded source was packed into the workers' vehicle, in which they also slept that night. The next morning all three workers experienced nausea and vomiting. After returning to their base, the loose source was not discovered for eight days. When discovered, one of the radiographers picked up the source with his bare hand to return it to its container, receiving a localized dose of 3,000–7,000 rad (30–70 Gy) to his hand. All three suffered whole body doses of 10–300 rad (0.10–3.00 Gy) from sleeping in the vehicle containing the unshielded source.[43]
  • December 2, 2001 – Lia radiological accident: In the village of Lia, Georgia, three lumberjacks discovered two strontium-90 cores from Soviet radioisotope thermoelectric generators. These were of the Beta-M type, built in the 80s, with an activity of 1,295 TBq (35.0 kCi) each. The lumberjacks were scavenging the forest for firewood, when they came across two metal cylinders melting snow within a one meter radius laying in the road. They picked up these objects to use as personal heaters, sleeping with their backs to them. All lumberjacks sought medical attention individually, and were treated for radiation injuries. One patient, DN-1, was seriously injured and required multiple skin grafts. After 893 days in the hospital, he was declared dead after sepsis caused by complications and infections of a radiation ulcer on the subject's back.[44] The disposal team consisted of 24 men who were restricted to a maximum of 40 seconds worth of exposure (max. 20 mSv (2.0 rem)) each while transferring the canisters to lead-lined drums.[45]
  • November 12–13, 2003 – Kola Harbor, Polyarny, Russia – Inspectors discovered scrap metal thieves had disassembled the radio-thermal generators at two separate lighthouses around Kola Bay. The 5-kg 35 kCi (1,300 TBq) strontium-90 sources were found, removed from their shielding, nearby. With their depleted uranium shielding removed, the dose rate for a single source was 800–1,000 rem (8.0–10.0 Sv)/hour at a distance of 2–5 cm. The perpetrators likely sustained radiation injuries or even fatal doses; but authorities were unsuccessful in locating the perpetrators.[46]
  • March 23, 2008 – Rades, Tunisia – A worker carried an unshielded iridium-192 source by hand for an unspecified period. The worker sustained a 200 rem (2.0 Sv) whole body dose.[47]
  • April, 2009 – Ecuador – A construction worker picked up a loose 16 Ci (590 GBq) radiography source and carried it next to his left leg for an unspecified period, causing significant localized exposure.[48]

2010s

[edit]
  • April 2010 – INES level 4 – A 35-year-old man was hospitalized in New Delhi after handling radioactive scrap metal. Investigation led to the discovery of an amount of scrap metal containing cobalt-60 in Delhi's industrial district of Mayapuri. The 35-year-old man later died from his injuries, while six others remained hospitalized.[49][50] The radioactivity was from a Gammacell 220 research source which was incorrectly disposed of by sale as scrap metal.[51] The Gammacell 220 was originally made by Atomic Energy of Canada Limited (whose radio-chemical division is now known as Nordion). A year later, Delhi Police charged six Delhi University professors from the Chemistry Department for negligent disposal of the radioactive device.[52][53]
  • June 3, 2010 – Turmero, Aragua, Venezuela – An unshielded iridium-192 source was handled by several workers, one of whom received a significant enough exposure to necessitate transport to France for medical treatment.[54]
  • July 2010 – During a routine inspection at the Port of Genoa, on Italy's northwest coast, a shipping container from Saudi Arabia containing nearly 23,000 kg of scrap copper was detected to be emitting gamma radiation at a rate of around 500 mSv (50 rem)/h. After quarantining the container for over a year on Port grounds, Italian officials dissected it using robots and discovered a rod of cobalt-60, 23 cm long and 0.8 cm in diameter, intermingled with the scrap. Officials suspected its provenance to be inappropriately disposed-of medical or food-processing equipment. The rod was sent to Germany for further analysis, after which it was likely to be recycled.[55]
  • December 2013 – A truck transporting a 111 TBq (3.0 kCi) cobalt-60 teletherapy source from a Tijuana hospital to a waste storage facility was hijacked near Mexico City.[56][57] This triggered a nationwide search by Mexican authorities. The truck was found a day later near Hueypoxtla, where it was discovered that the source had been removed from its shielding. The source was found shortly after in a nearby field, where it was safely recovered.[58] The thieves could have received a fatal dose of radiation.[58][59]

2020s

[edit]
  • January 2023 – Western Australian radioactive capsule incident: A capsule of caesium-137 went missing from a truck in Western Australia somewhere along a stretch of highway 1,400 kilometres long while being transported between a mine in the Pilbara region and a depot in Perth.[60] After an extensive search the ceramic source, with an activity of 19 GBq (0.51 Ci),[61] was recovered without incident six days after it was discovered missing.[62]
  • March 2023 – A radiographic camera containing radioactive material went missing from a work truck belonging to the Statewide Maintenance Company in Houston, United States;[63] it was returned intact in May 2023.[64]
  • March 2023 – Four iridium-192 sources (with radioactivity levels of 35.64, 7.61, 1.14 and 0.11 Ci) were stolen, along with the truck being used to transport them, in Salamanca, Guanajuato, Mexico. An alert covering seven central states was issued.[65][66] The sources were recovered six days later after an anonymous call.[67]
  • June 2023 - Two caesium-137 sources were reportedly stolen from a mining facility in Nazareno, Minas Gerais, Brazil, where they were being used in density measuring equipment. The National Nuclear Energy Commission has stated that these sources are 300,000 times weaker than the one involved in the 1987 Goiânia accident, with an activity of 5 mCi each (0.185 GBq), or 10 mCi combined (0.37 GBq).[68] On July 10, the two sources were found on a scrapyard in São Paulo, 432 km away from their original location. They were sent to the Nuclear and Energy Research Institute for analysis to determine their integrity, dosage and usage conditions.[69]
  • May 2024 - Two Americium-241 sources were deposited at a swap shop at Electromagnetic Field Festival in Eastnor, Herefordshire. The sources were recovered for disposal by a participant at the festival.[70] These sources were rated to provide 3.5 μCi.
  • July 2024 - A van containing five drums of Technetium-99 and Germanium-68 was stolen in São Mateus, in eastern São Paulo. Although the theft happened on the 1st of June, the National Nuclear Energy Commission only made this information public on the 5th of July. Authorities claim said sources have "an extremely low radioactive risk to the general population", and advise the public to keep their distance and call the police if any of the drums is found.[71] As of July 5th, one of the drums, blue in colour, was found open in an empty lot.[72]

See also

[edit]

References

[edit]
  1. ^ Johnston, William Robert. "Mexico City orphaned source, 1962". johnstonsarchive.net. Retrieved 10 December 2020.
  2. ^ Johnston, William Robert. "Sanlian orphaned source, 1963".
  3. ^ "La Plata orphaned source, 1968". johnstonsarchive.net. Retrieved 10 December 2020.
  4. ^ "F. R. Germany orphaned source accident, 1968". johnstonsarchive.net. Retrieved 10 December 2020.
  5. ^ "Chiba orphaned source, 1971". johnstonsarchive.net. Retrieved 10 December 2020.
  6. ^ "Sasolburg orphaned source, 1977". johnstonsarchive.net. Retrieved 10 December 2020.
  7. ^ "Setif orphaned source, 1978". johnstonsarchive.net. Retrieved 10 December 2020.
  8. ^ Arvi Parbo (April 1999). Sir Arvi Parbo Recollections: Book 2 - Vol 2: Nickel (Report). WMC Resources. Retrieved 14 March 2023 – via National Library of Australia.
  9. ^ "Radiation forces furnace closure". The Canberra Times. Australian Capital Territory, Australia. 14 December 1978. p. 12. Retrieved 14 March 2023 – via National Library of Australia.
  10. ^ "Los Angeles orphaned source, 1979". johnstonsarchive.net. Retrieved 10 December 2020.
  11. ^ "Baku orphaned source, 1982". johnstonsarchive.net. Retrieved 10 December 2020.
  12. ^ "Vikhroli lost source, 1982". johnstonsarchive.net. Retrieved 10 December 2020.
  13. ^ Sandra Blakeslee (1984-05-01). "Nuclear Spill At Juarez Looms As One of Worst". New York Times. Archived from the original on 2015-02-08. Retrieved 2015-02-08.
  14. ^ "El Cobalto". Window on State Government. Texas Comptroller of Public Accounts. July 1998. Archived from the original on 2008-06-03. Retrieved 2005-11-27.
  15. ^ "Ciudad Juarez orphaned source dispersal, 1983". johnstonsarchive.net. Retrieved 10 December 2020.
  16. ^ "Casablanca orphaned source, 1984". johnstonsarchive.net. Retrieved 10 December 2020.
  17. ^ a b Llumá, Diego (2000-05-01). "Former Soviet Union: What the Russians left behind". Bulletin of the Atomic Scientists. 56 (3): 14–17. doi:10.2968/056003005. ISSN 0096-3402. S2CID 145248534.
  18. ^ "Goiania orphaned source dispersal, 1987". johnstonsarchive.net. Retrieved 10 December 2020.
  19. ^ "Sasolburg orphaned source, 1990". johnstonsarchive.net. Retrieved 10 December 2020.
  20. ^ Wm. Robert Johnston (26 October 2008). "Jilin orphaned source, 1992". Johnston's Archive. Archived from the original on 20 April 2014. Retrieved 2013-08-19.
  21. ^ Zhang, Zhao-hui; Liang, Li; Zhang, Shu-lan; Jia, Ting-zhen; Liu, Qing-jie; Ma, Li-wen; Su, Xu; Liu, Ying; Chen, Sen; Qing, Bin; Cao, Bao-Shan; Xiao, Yu; Ying, Wen-chen; Zhang, Yu; Wang, Wen-xue; Wang, Zuo-yuan (2011). "Follow-up study of a pregnant woman 16 years after exposure in the Xinzhou radiation accident". Journal of Radiological Protection. 31 (4): 489–494. doi:10.1088/0952-4746/31/4/N01. ISSN 0952-4746. PMID 22089365. S2CID 29297615.
  22. ^ Liang, Li; Zhang, Zhao-hui; Chen, Sen; Ma, Li-wen; Chen, Ya-mai; Zhang, Shu-luan; Jia, Ting-zhen; Liu, Ying; Liu, Qing-jie; Su, Xu; Qin, Bin; Wang, Zuo-yuan (2011). "Clinical observation of a 16-year-old female exposed to radiationin utero: follow-up after the Shanxi Xinzhou radiation accident". Journal of Radiological Protection. 31 (4): 495–498. doi:10.1088/0952-4746/31/4/N02. ISSN 0952-4746. PMID 22089422. S2CID 30871088.
  23. ^ Cui Zheng (April 6, 2011). "In Shanxi, lasting pain". chinadialogue. Archived from the original on September 4, 2014. Retrieved August 1, 2014.
  24. ^ 崔筝 (March 28, 2011). "辐射摧残忻州少女 放射源事故堪比核泄露". Archived from the original on March 9, 2016. Retrieved February 22, 2016.
  25. ^ "Jilin orphaned source, 1992". johnstonsarchive.net. Retrieved 10 December 2020.
  26. ^ "France orphaned source, 1995". johnstonsarchive.net. Retrieved 10 December 2020.
  27. ^ "Jilin lost source accident, 1996". johnstonsarchive.net. Retrieved 10 December 2020.
  28. ^ "Lilo orphaned sources, 1996-1997". johnstonsarchive.net. Retrieved 10 December 2020.
  29. ^ "Gilan orphaned source, 1996". johnstonsarchive.net. Retrieved 10 December 2020.
  30. ^ "Volgograd source accident, 1997". johnstonsarchive.net. Retrieved 10 December 2020.
  31. ^ "Georgia orphaned source, 1997". johnstonsarchive.net. Retrieved 10 December 2020.
  32. ^ The radiological accident in Istanbul (PDF) (Report). Vienna: IAEA. 2000. ISBN 92-0-101400-7. Archived (PDF) from the original on 2013-07-28. Retrieved 2013-06-13.
  33. ^ "Istanbul orphaned sources, 1998-1999". johnstonsarchive.net. Retrieved 10 December 2020.
  34. ^ "Yanango orphaned source, 1999". johnstonsarchive.net. Retrieved 10 December 2020.
  35. ^ "Henan orphaned source, 1999". johnstonsarchive.net. Retrieved 10 December 2020.
  36. ^ "Gronzy orphaned source, 1999". johnstonsarchive.net. Retrieved 10 December 2020.
  37. ^ "Kingisepp orphaned source, 1999". johnstonsarchive.net. Retrieved 10 December 2020.
  38. ^ [1] Bangkok Post, 2009[dead link]
  39. ^ "Samut Prakarn orphaned source, 2000". johnstonsarchive.net. Retrieved 10 December 2020.
  40. ^ The Radiological Accident at Samut Prakarn (PDF) (Report). IAEA. 2002. ISBN 92-0-110902-4. Archived (PDF) from the original on 2013-07-27. Retrieved 2013-06-13.
  41. ^ "Meet Halfa orphaned source, 2000". johnstonsarchive.net. Retrieved 10 December 2020.
  42. ^ Shabon, M.H. (2013). "Heath Effects Sequence of Meet Halfa Radiological Accident After Twelve Years" (PDF). Proceedings of the Eleventh Radiation Physics and Protection Conference. Egypt: IAEA. Retrieved 23 December 2020.
  43. ^ "Samara lost source, 2000". johnstonsarchive.net. Retrieved 10 December 2020.
  44. ^ The radiological accident in Lia, Georgia (PDF) (Report). IAEA. 2014. ISBN 978-92-0-103614-8. Archived (PDF) from the original on 2017-07-12. Retrieved 2019-03-10.
  45. ^ The radiological accident in Lia, Georgia. Vienna: International Atomic Energy Agency. 2014. ISBN 978-92-0-103614-8. OCLC 900016880.
  46. ^ "Kola Harbor orphaned sources, 2003". johnstonsarchive.net. Retrieved 10 December 2020.
  47. ^ "Rades orphaned source, 2008". johnstonsarchive.net. Retrieved 10 December 2020.
  48. ^ "Ecuador orphaned source, 2009". johnstonsarchive.net. Retrieved 10 December 2020.
  49. ^ Yardley, Jim (27 April 2010). "Indian Man Dies After Radiation Exposure". The New York Times. Archived from the original on 3 December 2017. Retrieved 3 January 2018.
  50. ^ Yardley, Jim (23 April 2010). "Scrap Metal Radiation Raises Concerns in India". The New York Times. Archived from the original on 3 December 2017. Retrieved 3 January 2018.
  51. ^ "Origin of Cobalt-60 traced to Delhi University – Times of India". The Times of India. 28 April 2010. Archived from the original on 4 February 2017. Retrieved 3 January 2018.
  52. ^ "Six DU professors charged in Mayapuri radiation case". NDTV.com. Retrieved 2020-11-22.
  53. ^ "Mayapuri orphaned source, 2010". johnstonsarchive.net. Retrieved 10 December 2020.
  54. ^ "Turmero orphaned source, 2010". johnstonsarchive.net. Retrieved 10 December 2020.
  55. ^ Curry, Andrew (2011-10-21). "Why Is This Cargo Container Emitting So Much Radiation?". Wired. Vol. 19, no. 11. Archived from the original on 2011-11-06. Retrieved 2011-11-03.
  56. ^ "Mexico Informs IAEA of Theft of Dangerous Radioactive Source". IAEA. 2013-12-03. Archived from the original on 2015-01-31. Retrieved 2013-12-05.
  57. ^ "The Radiological Incident in Hueypoxtla". International Atomic Energy Agency. September 2022. pp. 1–48.
  58. ^ a b "Mexico Says Stolen Radioactive Source Found in Field". IAEA. 2013-12-05. Archived from the original on 2015-01-31. Retrieved 2013-12-05.
  59. ^ Will Grant (2013-12-05). "BBC News – Mexico radioactive material found, thieves' lives 'in danger'". BBC. Archived from the original on 2013-12-05. Retrieved 2013-12-05.
  60. ^ "Capsule that emits 10 X-rays' worth of radiation every hour missing somewhere on WA highway". ABC News. 2023-01-27. Retrieved 2023-01-27.
  61. ^ Doherty, Ben (29 January 2023). "Search stepped up for potentially deadly radioactive capsule lost in Western Australia". The Guardian. Archived from the original on 29 January 2023. Retrieved 21 February 2023.
  62. ^ "Missing radioactive capsule found on remote road in Australia". CNN. 2023-02-01. Retrieved 2023-02-01.
  63. ^ "Device with sealed radioactive material missing in Texas". MSN. Retrieved 2023-03-12.
  64. ^ Zuvanich, Adam (26 May 2023). "Camera containing radioactive material, missing since March, found intact in Houston". Houston Public Media. Retrieved 26 December 2023.
  65. ^ Robles, Carlos (23 March 2023). "Alert in central Mexico after theft of radioactive material". BNO News.
  66. ^ "Emiten alerta en siete estados por robo de material radioactivo". Aristegui Noticias Network. 22 March 2023.
  67. ^ IAEA (30 March 2023). "Missing Dangerous Source at Salamanca, Guanajuato, Mexico". www-news.iaea.org. Retrieved 2024-02-29.
  68. ^ "Polícia investiga furto de fontes radioativas de Césio-137 de mineradora em Nazareno, em MG". G1. 5 July 2023.
  69. ^ "Fontes radioativas de césio-137 furtadas de mineradora no interior de MG são encontradas, diz Polícia Civil". G1. 5 July 2023.
  70. ^ "Post by EMF info desk, @info@emfcamp.org". emfcamp.org. 2024-06-02. Retrieved 2024-06-13.
  71. ^ "Veículo com embalagens de material radioativo é furtado em São Paulo, alerta Comissão Nacional de Energia Nuclear". G1 (in Brazilian Portuguese). 2024-07-05. Retrieved 2024-07-06.
  72. ^ "Polícia encontra um dos cinco galões do material radioativo furtado em SP em desmanche de veículos roubados". G1 (in Brazilian Portuguese). 2024-07-05. Retrieved 2024-07-06.
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