The Trump administration’s reckless attack on radiation protection will have long-term consequences for public safety

In the absence of an objective ALARA (as low as reasonably achievable) cost-benefit analysis, future decisions on limiting doses from ionizing radiation to workers and the public from nuclear power operations will be determined in significant part by the relative political strengths of industry and regulators. Under the Trump administration, the industry clearly has the upper hand.

Just as it did with air pollution rules, the Trump administration has now, in effect, set the value of American lives to zero in regulatory protections against nuclear-radiation-caused cancer.

the attacks of the Trump administration on public safety must be exposed.

By Frank von Hippel | Analysis | May 27, 2026, https://thebulletin.org/2026/05/the-trump-administrations-reckless-attack-on-radiation-protection-will-have-long-term-consequences-for-public-safety/?utm_source=ActiveCampaign&utm_medium=email&utm_content=The%20Trump%20admin%20s%20attack%20on%20radiation%20protection&utm_campaign=20260528%20Thursday%20Newsletter

Worldwide, regulations limiting doses from the radiation emitted by nuclear fissions and decays are based on the Linear No-Threshold (LNT) model. This hypothesis posits that, irrespective of whether ionizing radiation comes in a pulse or over years, the additional risk of developing cancer as a result is proportional to the cumulative amount of energy deposited per gram of tissue, with weighting risk factors for radiation type, sex, age, and specific organs.

Since 1975, the US nuclear industry has been required to limit exposures to workers and the public to “as low as reasonably achievable” (ALARA) levels. What the ALARA level should be is determined by cost-benefit analysis in which the costs of dose reductions are compared with the benefits to workers and the public, measured in terms of reduced disease and longer life expectancy.

In May 2025, four months after taking office, the Trump administration challenged this five-decade-old regulatory approach as part of an Executive Order “Ordering the Reform of the Nuclear Regulatory Commission” (NRC). The order claimed the “NRC utilizes safety models that posit there is no safe threshold of radiation exposure and that harm is directly proportional to the amount of exposure,” which corresponds to the linear hypothesis. “Those models lack sound scientific basis,” the Executive Order added, before directing the NRC to “reconsider reliance on the linear no-threshold (LNT) model for radiation exposure and the ‘as low as reasonably achievable’ [ALARA] standard, which is predicated on LNT.”

The Nuclear Regulatory Commission had reviewed exactly this question in 2021 in response to a campaign by advocates of the radiation “hormesis” theory, which posits that low doses of ionizing radiation actually protect against cancer by stimulating the body’s DNA repair mechanism—the exact opposite of ALARA. The NRC rejected that contention, concluding that “the LNT model continues to provide a sound regulatory basis for minimizing the risk of unnecessary radiation exposure to both members of the public and radiation workers.” As a result, the commission maintained the current dose limit requirements contained in its regulations.

But President Donald Trump’s decision to bring independent regulatory agencies under White House control and to fire the NRC’s chairman ended the commission’s resistance. On July 2, 2025, an anonymous NRC spokesperson enthused in a social media post that the Executive Order reforming the NRC “gives us a chance to reconsider our radiation protection framework in support of the whole-of-government effort to safely enable the nation’s use of nuclear power.”

Two weeks later, the NRC hosted a webinar for input on the issue of the LNT hypothesis. The Nuclear Energy Institute—the US nuclear industry’s lobbying organization—recommended that the commission remove ALARA and dose minimization as regulatory requirements. Instead, the institute proposed to establish a “practical threshold”—for instance, 2 rem per year (or 20 milliGray per year for gamma rays) for workers—below which further dose reduction would not be required. (The rem is a unit of effective absorbed radiation in human tissue, equivalent to one roentgen of X-rays. One millirem is one-thousandth of a rem. The Gray measures the absorbed dose, which is the physical amount of radiation energy absorbed by any material or tissue. One Gray corresponds to one Joule per kilogram.)

Radiation hormesis. 

Advocates of the theory of radiation “hormesis” do not believe the LNT hypothesis. Radiation hormesis is a fringe theory with passionate adherents who are taking advantage of the Trump administration’s skepticism about regulations of all types.

One of the most vocal hormesis advocates is Edward Calabrese, an emeritus professor of toxicology at the University of Massachusetts in Amherst. He argues that the evidence for the linear no-threshold hypothesis is based on scientific fraud and, therefore, should be replaced with a model that considers the possibility of no risk—and even possible benefits—from ionizing radiation below a certain dose.

Calabrese’s arguments persuaded some recent leaders of the Health Physics Society (HPS), an association of radiation-protection professionals, to host a 22-part, 10-hour video lecture series by Calabrese on the history of the LNT model in 2021-22. John Cardarelli, the HPS president when the videos were produced, summarizes Calabrese’s argument at the end of each video. In the final one, Cardarelli declares his conclusion that the LNT model is “based on flawed research, ideological motives, deliberate misrepresentation of the research record, and political agendas.”

Although the Health Physics Society declares that “the views expressed in these videos are not intended to represent official positions,” it also advertises that its associated credentialing organization, the American Academy of Health Physics, has “preapproved 10 continuing education credits for certified health physicists watching all 22 episodes of this video series.”

Physicist-epidemiologist Jan Beyea published a critique of Calabrese’s allegations in the HPS journal Health Physics, to which both Calabrese and Cardarelli have responded with lengthy rebuttals.

The research and reports Calabrese and his supporters are trying to discredit were done more than 50 years ago. For decades, the largest human population studied for radiation effects was the survivors of the 1945 Hiroshima and Nagasaki bombings, who, depending on their proximity to the ground zeros, were exposed to whole-body doses ranging from near zero to several Gray delivered in a single burst. But the cancer statistics for the Japanese survivors were not good enough to determine with high confidence carcinogenic effects in the dose range relevant for worker radiation protection (in the tens of milliGray per year). Hormesis advocates also argue that cellular mechanisms should be more effective in repairing the damage from low-rate radiation than from a nuclear explosion’s short pulse.

The lack of data on the effect of small low-rate doses left a gap in the epidemiological confirmation of the applicability of LNT estimates of the cancer risks from low doses to radiation workers and to civilian populations exposed to radioactive releases from nuclear accidents. That gap has been partially filled, however, in more recent studies of large populations of individuals who have received low-rate doses of ionizing radiation.

A directly relevant example is the INWORKS study done by an international consortium of researchers on the excess cancer deaths among approximately 310,000 nuclear industry workers in the United States, the United Kingdom, and France, whose radiation doses were measured and recorded throughout their decades of employment. As of 2012-16, this population had an average age of about 65, and about one third had died, with 28 percent of the deaths being due to “solid” cancers (abnormal masses of tissue arising in organs, glands, or bones), therefore excluding leukemia. Of those deaths, 5,500 to 14,000 were excess cases relative to the rate observed in a control group of 51,000 nuclear workers with near-zero occupational doses.

Figure 1 [on original]shows the rate of excess deaths from solid cancers in this population as a function of cumulative on-the-job dose 10 years before death, assuming that any solid cancer caused within the last decade of life would not have had time to become lethal. The bars show the 90-percent probability range associated with the number of deaths in each dose bin; that is, there is statistically only a 10-percent probability that, with more data, the number of excess deaths would converge outside that range (5 percent chance above and 5 percent below). The solid line is the best linear fit of the data to the LNT model.

By this measure, there are significant excess cancer deaths among nuclear workers down to cumulative doses of 30 milliGray.

Energy Department’s takeover. In addition to bringing the NRC to heel, the Energy Department’s Office of Nuclear Energy has been inviting startups promoting new-design nuclear power reactors to build prototypes on department land, including the 900-square-mile footprint of the Idaho National Laboratory, where they will not be subject to NRC safety requirements.

According to President Trump’s May 23 Executive Order, the NRC will be required “to approve reactor designs that the Defense Department or the Energy Department have tested and that have demonstrated the ability to function safely.”

At most, the startups will only be able to demonstrate that they will not have had a serious accident or a near miss within their first few years of operation before they hope to build their reactors in large numbers across the country and export them abroad. In their efforts to compete with natural gas, photovoltaic, and wind power plants, the nuclear startups are under great economic pressure to cut safety and security requirements currently required by the NRC and other regulators around the world. Costly requirements include containment buildings that prevent the release of radioactivity to the atmosphere in case of a core meltdown accident. Regulations also include requirements that it be possible for the timely evacuation of areas around the reactors where the population could be at risk of high radiation doses from an accident, and robust around-the-clock guard forces to protect nuclear plants against potential sabotage.

By putting the Energy Department, which is pouring billions of dollars into nuclear startups, first in line in safety regulation, the Trump administration has partially undone the 1974 decision of the post-Watergate Congress to separate safety regulation from nuclear power promotion by breaking up the Atomic Energy Commission to create the NRC and Energy Department.

Even before the Trump administration, under political pressure from the nuclear industry through congressional Republicans, the NRC commissioners backed off by majority vote from requiring filtered vents for a set of US reactors designed by General Electric that were clones of the Fukushima-Daiichi reactors 1–3, whose small-volume containments released large amounts of radioactivity due to overpressure after core meltdowns. The NRC also refused to end the practice of dense-packing spent fuel pools to five times their design density despite Fukushima unit 4’s near miss of a potentially much more catastrophic spent-fuel fire because of an undetected water level drop.

The end of ALARA. After it was effectively given much of the responsibility of regulating the US nuclear industry, the Energy Department commissioned a review of the LNT hypothesis by the Idaho National Laboratory, which supports the Office of Nuclear Energy’s mission to promote new types of nuclear power reactors.

INL quickly produced a report, which cited a 2013 comparison by Mohan Doss of the LNT model against the radiation hormesis, as “[p]erhaps most significant for regulatory considerations.” Dr. Doss is a radiologist, not an epidemiologist. His article was published in the journal Dose-Reponse, which was founded in 2003 with Professor Calabrese as its editor-in-chief and focuses on hormesis advocacy. Contrary to what the INL report claims, Dr. Doss’ article is not a meta-analysis but rather an argument for radiation hormesis.

Doss starts by arguing at length that the atomic bomb survivors study would have shown a hormesis effect had it been compared with a control group that had a higher incidence of cancer. Doss even replotted the atomic bomb survivor data to show the result if such a control group were used. In fact, there are appropriate zero-dose control groups for the atomic bomb survivors study, including those who were away from the cities at the time of the bombings. When those control groups have been used in studies, they showed some non-linearity with dose for male cancers, but no hormesis effect.

At the same time, INL referenced but ignored the findings of two actual meta-analyses of low-dose studies: one by the National Council on Radiation Protection and Measurements and one by an international team of 16 cancer epidemiologists led by Michael Hauptmann and published in the Journal of the National Cancer Institute and partly funded by the National Cancer Institute, National Institutes of Health, and the Energy Department.

The National Council review concluded that “no alternative dose-response relationship appears more pragmatic or prudent for radiation protection purposes than the LNT model.” Hauptmann and colleagues found that “there is evidence of cancer risks from low-dose ionizing radiation.”

INL’s “reevaluation report” was quickly cited in a memorandum by the Department’s Undersecretaries of Science and Nuclear Security recommending that the Secretary of Energy “eliminate ALARA from all Department of Energy Directives and Regulations,” which he reportedly has done.

In the absence of an objective ALARA cost-benefit analysis, future decisions on limiting doses from ionizing radiation to workers and the public from nuclear power operations will be determined in significant part by the relative political strengths of industry and regulators. Under the Trump administration, the industry clearly has the upper hand.

The Trump administration’s Environmental Protection Agency has recently made a similar decision that it will no longer take into account the health benefits from limiting air pollution. In 2024, the Biden administration announced new limits on fine particulate pollution from coal power plants and other facilities. Those regulations were justified by an estimate that, on average, 77 dollars in health benefits would result from each dollar spent by industry on emission reductions and that the regulations would save 4,500 lives per year.

A climate reporter commented in the New York Times about the Trump administration’s decision to roll back the air-pollution regulation that, for over four decades, “different administrations have used different estimates of the monetary value of a human life in cost-benefit analyses. But until now, no administration has counted it as zero.”

Just as it did with air pollution rules, the Trump administration has now, in effect, set the value of American lives to zero in regulatory protections against nuclear-radiation-caused cancer.

The damage that will result from the evisceration of the Nuclear Regulatory Commission will not be immediate and may arguably turn out to be minor on the scale of the damage the Trump administration is doing in other policy areas. But public safety analysts and decision makers must keep track of the dismantlement of regulatory structures that have been built over generations. Hopefully, it will be possible to reconstruct some of them, with improvements where possible. In the meantime, however, the attacks of the Trump administration on public safety must be exposed.

May 30, 2026 Posted by Christina Macpherson | radiation, Reference, USA | Leave a comment