What are the nuclear contamination risks from Israel’s attacks on Iran?
Israel says it is determined to destroy Iran’s nuclear capabilities in its military campaign, but that it also wants to avoid any nuclear disaster in a region that is home to tens of millions of people and produces much of the world’s oil.
Fears of catastrophe rippled through the Gulf on Thursday when the Israeli military said it had struck a site in Bushehr on the Gulf coast—home to Iran’s only nuclear power station—only to later say the announcement was a mistake.
Below are details on the damage caused so far by Israel’s attacks, and what experts are saying about the risks of contamination and other disasters.
What has been hit?
Israel has announced attacks on nuclear sites in Natanz, Isfahan, Arak and Tehran itself. Israel says it aims to stop Iran from building an atom bomb. Iran denies ever seeking one.
The international nuclear watchdog IAEA has reported damage to the uranium enrichment plant at Natanz, to the nuclear complex at Isfahan, including the Uranium Conversion Facility, and to centrifuge production facilities in Karaj and Tehran.
Israel said on Wednesday that it had targeted Arak, also known as Khondab, the location of a partially built heavy-water research reactor, a type that can easily produce plutonium which, like enriched uranium, can be used to make the core of an atom bomb.
The IAEA said it had information that the Khondab heavy water research reactor had been hit, but that it was not operational and reported no radiological effects.
Fallout risks
Peter Bryant, a professor at University of Liverpool in England who specializes in radiation protection science and nuclear energy policy, said he is not too concerned about fallout risks from the strikes so far.
He noted that the Arak site was not operational while the Natanz facility was underground and no release of radiation was reported.
“The issue is controlling what has happened inside that facility, but nuclear facilities are designed for that,” he said. “Uranium is only dangerous if it gets physically inhaled or ingested or gets into the body at low enrichments,” he said.
Darya Dolzikova, a senior research fellow at London think tank Rusi, said attacks on facilities at the front end of the nuclear fuel cycle—the stages where uranium is prepared for use in a reactor—pose primarily chemical, not radiological risks.
At enrichment facilities, UF6, or uranium hexafluoride, is the concern. “When UF6 interacts with water vapor in the air, it produces harmful chemicals,” she said.
The extent to which any material is dispersed would depend on factors including weather conditions, she added.
“In low winds, much of the material can be expected to settle in the vicinity of the facility; in high winds, the material will travel farther, but is also likely to disperse more widely.”
The risk of dispersal is lower for underground facilities.
Nuclear reactors
The major concern would be a strike on Iran’s nuclear reactor at Bushehr.
Richard Wakeford, honorary professor of epidemiology at University of Manchester, said that while contamination from attacks on enrichment facilities would be “mainly a chemical problem” for the surrounding areas, extensive damage to large power reactors “is a different story.”
Radioactive elements would be released either through a plume of volatile materials or into the sea, he added.
James Acton, codirector of the Nuclear Policy Program at Carnegie Endowment for International Peace, said an attack on Bushehr “could cause an absolute radiological catastrophe,” but that attacks on enrichment facilities were “unlikely to cause significant off-site consequences.”
Before uranium goes into a nuclear reactor it is barely radioactive, he said.
“The chemical form uranium hexafluoride is toxic … but it actually doesn’t tend to travel large distances and it’s barely radioactive. So far the radiological consequences of Israel’s attacks have been virtually nil,” he added, while stating his opposition to Israel’s campaign.
Gulf states
For Gulf states, the impact of any strike on Bushehr would be worsened by the potential contamination of Gulf waters, jeopardizing a critical source of desalinated potable water.
In the UAE, desalinated water accounts for more than 80 percent of drinking water, while Bahrain became fully reliant on desalinated water in 2016, with 100 percent of groundwater reserved for contingency plans, according to authorities.
Qatar is 100 percent dependent on desalinated water.
In Saudi Arabia, a much larger nation with a greater reserve of natural groundwater, about 50 percent of the water supply came from desalinated water as of 2023, according to the General Authority for Statistics.
While some Gulf states like Saudi Arabia, Oman and the United Arab Emirates have access to more than one sea to draw water from, countries like Qatar, Bahrain and Kuwait are crowded along the shoreline of the Gulf with no other coastline.
“If a natural disaster, oil spill, or even a targeted attack were to disrupt a desalination plant, hundreds of thousands could lose access to freshwater almost instantly,” said Nidal Hilal, professor of engineering and director of New York University Abu Dhabi’s Water Research Center.
“Coastal desalination plants are especially vulnerable to regional hazards like oil spills and potential nuclear contamination,” he said.
