Nuclear testing at Bikini Atoll


The nuclear testing at Bikini Atoll program was a series of 23 nuclear weapons detonated by the United States between 1946 and 1958 at seven test sites on the reef itself, on the sea, in the air, and underwater. The test weapons produced a combined fission yield of 42.2 Mt of explosive power.
The United States was engaged in a Cold War nuclear arms race with the Soviet Union to build more advanced bombs from 1947 until 1991. The first series of tests over Bikini Atoll in July 1946 was code named Operation Crossroads. The first test was dropped from an aircraft and detonated above the target fleet. The second was Baker and was suspended under a barge. It produced a large Wilson cloud and contaminated all of the target ships. Chemist Glenn T. Seaborg was the longest-serving chairman of the Atomic Energy Commission, and he called the second test "the world's first nuclear disaster."
The second series of tests in 1954 was code named Operation Castle. The first detonation was Castle Bravo, which tested a new design utilizing a dry fuel thermonuclear bomb. It was detonated at dawn on March 1, 1954. Scientists miscalculated and the 15 megaton nuclear explosion far exceeded the expected yield of 4 to 8 Mt, and was about 1,000 times more powerful than either of the two atomic bombs dropped on Hiroshima and Nagasaki during World War II. The scientists and military authorities were shocked by the size of the explosion, and many instruments were destroyed which they had put in place to evaluate the effectiveness of the weapon.
Authorities had promised the Bikini Atoll's residents that they would be able to return home after the nuclear tests. A majority of the island's family heads agreed to leave the island, and most of the residents were moved to the Rongerik Atoll and later to Kili Island. Both locations proved unsuitable to sustaining life, and the United States had to provide residents with on-going aid. Despite the promises made by authorities, this and further nuclear tests rendered Bikini unfit for habitation, contaminating the soil and water, making subsistence farming and fishing too dangerous. The United States later paid the islanders and their descendants $125 million in compensation for damage caused by the nuclear testing program and their displacement from their home island. A 2016 investigation found radiation levels on Bikini Atoll as high as 639 mrem yr−1, well above the established safety standard for habitation. However, Stanford University scientists reported "an abundance of marine life apparently thriving in the crater of Bikini Atoll" in 2017.

Preparation

Residents relocated

In February 1946, the United States government asked the 167 Micronesian inhabitants of the atoll to temporarily relocate so that testing could begin on atomic bombs. King Juda agreed to the request, announcing that "we will go believing that everything is in the hands of God." Nine of the eleven family heads chose Rongerik as their new home. Navy Seabees helped them to disassemble their church and community house and prepare to relocate to their new home. On March 7, 1946, the residents gathered their belongings and building supplies. They were transported eastward on Navy landing craft 1108 and LST 861 to the uninhabited Rongerik Atoll, which was one-sixth the size of Bikini Atoll. No one lived on Rongerik because it had an inadequate water and food supply, and also due to traditional beliefs that the island was haunted by the Demon Girls of Ujae. The Navy left them with a few weeks of food and water which soon proved inadequate.

Military services

The United States assembled a support fleet of 242 ships that provided quarters, experimental stations, and workshops for more than 42,000 personnel. The islands were primarily used as recreation and instrumentation sites. Seabees built bunkers, floating dry docks, steel towers for cameras and recording instruments, and other facilities on the island to support the servicemen. These included the "Up and Atom Officer's Club" and the "Cross Spikes Club", a bar and hang-out created by servicemen on Bikini Island between June and September 1946. The "club" was little more than a small open-air building which served alcohol to servicemen and provided outdoor entertainment, including a ping pong table. The "Cross Spikes Club" was the only entertainment that the enlisted servicemen had access to during their June to September stay at Bikini.

Ship graveyard

The Navy designated Bikini Atoll lagoon as a ship graveyard, then brought in 95 ships including carriers, battleships, cruisers, destroyers, submarines, attack transports, and landing ships. The proxy fleet would have comprised the sixth largest naval fleet in the world if the ships had been active. All carried varying amounts of fuel, and some carried live ordnance.

Weapons tests

Operation Crossroads

Crossroads consisted of two detonations, each with a yield of. Able was detonated over Bikini on July 1, 1946 and exploded at an altitude of, it but was dropped by aircraft about off target. It sank only five of the ships in the lagoon. Baker was detonated underwater at a depth of on July 25, sinking eight ships. The second underwater blast created a large condensation cloud and contaminated the ships with more radioactive water than was expected. Many of the surviving ships were too contaminated to be used again for testing and were sunk. The air-borne nuclear detonation raised the surface seawater temperature by, created blast waves with speeds of up to, and shock and surface waves up to high. Blast columns reached the floor of the lagoon which is approximately deep.
Charlie was planned for 1947 but was canceled primarily because of the Navy's inability to decontaminate the target ships after the Baker test. Charlie was rescheduled as Operation Wigwam, a deep water shot conducted in 1955 off the California coast.

Castle Bravo test

The next series of tests over Bikini Atoll was code named Operation Castle. The first test of that series was Castle Bravo, a new design utilizing a dry fuel thermonuclear bomb. It was detonated at dawn on March 1, 1954.
The 15 megaton nuclear explosion far exceeded the expected yield of 4 to 8 Mt, and was about 1,000 times more powerful than each of the atomic bombs dropped on Hiroshima and Nagasaki during World War II. The device was the most powerful nuclear weapon ever detonated by the United States and just under one-third the energy of the Tsar Bomba, the largest ever tested. The scientists and military authorities were shocked by the size of the explosion, and many instruments were destroyed which they had put in place to evaluate the effectiveness of the device.

Castle Bravo contamination

The unexpectedly large yield led to the most significant radiological contamination caused by the United States. A few minutes after the detonation, blast debris began to fall on Eneu/Enyu Island on Bikini Atoll where the crew who fired the device were located. Their geiger counters detected the unexpected fallout, and they were forced to take shelter indoors for a number of hours before it was safe for an airlift rescue operation.
The fallout continued to spread across the inhabited islands of the Rongelap, Rongerik, and Utrik Atolls. The inhabitants of Rongelap and Rongerik Atolls were evacuated by servicemen two days after the detonation, but the residents of the more distant Utrik Atoll weren't evacuated for three days. Many of them soon began to show symptoms of acute radiation syndrome. They returned to the islands three years later but were forced to relocate again when they were found to be unsafe.
The fallout gradually dispersed around the globe, depositing traces of radioactive material in Australia, India, Japan, and parts of the United States and Europe. It had been organized as a secret test, but Castle Bravo quickly became an international incident prompting calls for a ban on atmospheric testing of thermonuclear weapons.

Local populations affected

The Rongelap Atoll was coated with up to of snow-like irradiated calcium debris and ash over the entire island. Virtually all the inhabitants experienced severe radiation sickness, including itchiness, sore skin, vomiting, diarrhea, and fatigue. Their symptoms also included burning eyes and swelling of the neck, arms, and legs. They were forced to abandon the islands three days after the tests, leaving behind all their belongings. The U.S. government relocated them to Kwajalein for medical treatment.
Six days after the Castle Bravo test, the government set up a secret project to study the medical effects of the weapon on the residents of the Marshall Islands. The United States was subsequently accused of using the inhabitants as medical research subjects without obtaining their consent to study the effects of nuclear exposure. Until that time, the Atomic Energy Commission had given little thought to the potential impact of widespread fallout contamination and health and ecological impacts beyond the formally designated boundary of the test site.

Japanese fishermen contaminated

Ninety minutes after the detonation, 23 crew members of the Japanese fishing boat the Daigo Fukuryū Maru were contaminated by the snow-like irradiated debris and ash. They had no idea what the explosion was and no understanding of the debris that rained down like snow, but they all soon became ill with the effects of acute radiation sickness. One fisherman died about six months later while under doctor supervision; his cause of death was ruled a pre-existing liver cirrhosis compounded by a hepatitis C infection. The majority of medical experts believe that the crew members were infected with hepatitis C through blood transfusions during part of their Acute radiation syndrome treatment.
Edward Teller was one of the driving minds behind the development of the hydrogen bomb and architect of the Marshall Island tests. The mass media painted the fisherman's death as an anti-nuclear call to arms, and Teller notoriously commented: "It's unreasonable to make such a big deal over the death of a fisherman."

Later tests

The 17-shot Redwing series followed—11 tests at Enewetak Atoll and six at Bikini. The island residents had been promised that they would be able to return home to Bikini, but the government thwarted that indefinitely by deciding to resume nuclear testing at Bikini in 1954. During 1954, 1956, and 1958, 21 more nuclear bombs were detonated at Bikini, yielding a total of, equivalent to more than three thousand Baker bombs. The 3.8 Mt Redwing Cherokee test was the only air burst. Air bursts distribute fallout in a large area, but surface bursts produce intense local fallout. These tests were followed by the 33-shot Hardtack tests which began in late April 1958. The last of ten tests were detonated on Bikini Atoll on July 22, 1958.

Shipwrecks

Shipwrecks in the lagoon include:
The following above-ground nuclear device tests were conducted on or near Bikini Atoll from 1946 to 1958, comprising 15.1% of total test yield worldwide. These dates are given in US Eastern time zone The days of the week are a day earlier than they were at Bikini
SeriesTest DateNamesLocationDeviceYield RangeTotal Yield, Notes
CrossroadsBakerNE Lagoon, Bikini Atoll
Helen of Bikini
Mk III
21 kt
CrossroadsAbleNE Lagoon, Bikini Atoll
Gilda
Mk III
21 kt23 kt
CrossroadsCharlie
NE Lagoon, Bikini Atoll
Mk III21 kt
21 kt
CastleBravoArtificial island on reef
from Namu Island
Shrimp
TX-21
4 - 8 Mt15 Mt
CastleUnionYurochi aka Irioj, Bikini Atoll
Alarm Clock
EC-14
3 - 4 Mt6.9 Mt
CastleYankee I
Yurochi aka Irioj, Bikini Atoll
Jughead/Runt-II
TX/EC-16/TX/EC-24
CastleYankee IIYurochi aka Irioj, Bikini Atoll
Ramrod
TX-22
8 Mt13.5 Mt
CastleNectarElugelab, Enewetak Atoll
Zombie
TX-15
1.8 Mt1.7 Mt
CastleRomeoYurochi aka Irioj, Bikini Atoll
Runt
TX/EC-17A
4 Mt11 Mt
CastleKoonEninmen, Bikini Atoll
Morgenstern
TX-22
1 Mt110 kt
RedwingCherokeeNamu, Bikini Atoll
TX-15-X13.8 Mt18.265 Mt
RedwingZuniEninmen, Bikini Atoll
Mk-413.5 kt3.5 Mt
RedwingFlatheadEninmen, Bikini Atoll
TX-28S365 kt
RedwingZuniEninmen, Bikini Atoll
Mk-41
Bassoon
3.5 Mt
RedwingDakotaNE Lagoon, Bikini Atoll
TX-28C1.1 Mt
RedwingNavajoNE Lagoon, Bikini Atoll
TX21C4.5 Mt
Hardtack 1YuccaBikini and Enewetak Atolls
W-251.7 Mt12.020 Mt
Hardtack 1FirNamu, Bikini Atoll
1.4 Mt
Hardtack 1NutmegEninmen, Bikini Atoll
early XW-47?25.1 kt
Hardtack 1SycamoreNamu, Bikini Atoll
TX-4192 kt
Hardtack 1MapleYurochi aka Irioj, Bikini Atoll
213 kt
Hardtack 1AspenNamu, Bikini Atoll
XW-47 ?319 kt
Hardtack 1RedwoodYurochi aka Irioj, Bikini Atoll
XW-47 ?412 kt
Hardtack 1HickoryEninmen, Bikini Atoll
XW-47 ?14 kt
Hardtack 1CedarNamu, Bikini Atoll
220 kt
Hardtack 1PoplarNamu, Bikini Atoll
TX-419.3 Mt
Hardtack 1JuniperEninmen, Bikini Atoll
XW-4765 ktFinal Bikini atmospheric shot
Hardtack 1Piñon
Bikini and Enewetak Atolls
Total 78.527 Mt

Relocation issues

Strategic Trust Territory

In 1947, the United States petitioned the United Nations to designate the islands of Micronesia a United Nations Strategic Trust Territory. This was the only trust ever granted by the U.N. The U.S. Navy controlled the trust from a headquarters in Guam until 1951, when the Department of the Interior took over control, administering the territory from a base in Saipan. The directive stipulated that the U.S. would "promote the economic advancement and self-sufficiency of the inhabitants" and "protect the inhabitants against the loss of their lands and resources".
The residents of Bikini Atoll were left alone on Rongerik Atoll from July 1946 through July 1947. Leonard E. Mason was an anthropologist from the University of Hawaii; he visited the islanders on Rongerik Atoll in January 1948 and found that they were starving. A team of U.S. investigators concluded in late 1947 that the islanders must be moved immediately. Press from around the world harshly criticized the U.S. Navy for ignoring them. Columnist Harold Ickes wrote that "the natives are actually and literally starving to death."
The Navy then selected Ujelang Atoll for their temporary home, and some young men from the Bikini Atoll population went ahead to begin constructing living accommodations. But U.S. Trust Authorities decided to use Enewetak Atoll as a second nuclear weapons test site, and they relocated Enewetak's residents to Ujelang Atoll to the homes built for the Bikini Islanders.
In March 1948, 184 malnourished Bikini islanders were temporarily relocated again to Kwajalein Atoll. In June 1948, the Bikini residents chose Kili Island as a long-term home. The island is one of the smallest in the Marshall Island chain; it was uninhabited and wasn't ruled by a paramount iroij. The Bikini islanders moved there in November 1948.

Return to Bikini Island

President Lyndon B. Johnson promised the 540 Bikini Atoll families living on Kili and other islands in June 1968 that they would be able to return to their home, based on scientific advice that the radiation levels were sufficiently reduced. But the Atomic Energy Commission learned that the coconut crabs, an essential food source, retained high levels of radioactivity and could not be eaten. The Bikini Council voted to delay a return to the island as a result.
In 1987, a few Bikini elders returned to the island to re-establish old property lines. Construction crews began building a hotel on Bikini and installed generators, desalinators, and power lines. A packed coral and sand runway still exists on Enyu Island. Three extended families moved back to their home island in 1972 despite the risk, eventually totaling about 100 people. But 10 years later, a team of French scientists found that some wells were too radioactive for use and determined that the pandanus and breadfruit were also dangerous for human consumption. Women were experiencing miscarriages, stillbirths, and genetic abnormalities in their children. The U.S.-administered Strategic Trust Territory decided that the islanders had to be evacuated from the atoll a second time.

Second evacuation

An 11-year-old boy who was born on Bikini in 1971 died from cancer that was linked to radiation exposure that he received on Bikini. The records obtained by the Marshallese Nuclear Claims Tribunal later revealed that Dr. Robert Conard, head of Brookhaven National Laboratory 's medical team in the Marshall Islands, understated the risk of returning to the atoll. BNL then contracted Dr. Konrad Kotrady to treat the Marshall Island residents. In 1977, he wrote a 14-page report to BNL which questioned the accuracy of Brookhaven's prior work on the islands. The Bikini Atoll islanders grew to distrust the official reports of the U.S. scientists.
The special International Atomic Energy Agency Bikini Advisory Group determined in 1997 that it was "safe to walk on all of the islands" and that the residual radioactivity was "not hazardous to health at the levels measured". They further stated that "the main radiation risk would be from the food", but they also added that "eating coconuts or breadfruit from Bikini Island occasionally would be no cause for concern". IAEA estimated that living in the atoll and consuming local food would result in an effective dose of about 15 mSv/year.
The leaders of the Bikini community have insisted since the early 1980s that the top of soil should be excavated from the entire island. Scientists reply that removing the soil would rid the island of cesium-137, but it would also severely damage the environment, turning the atoll into a virtual wasteland of windswept sand. The Bikini Council has repeatedly contended that removing the topsoil is the only way to guarantee safe living conditions for future generations.
In 1997, researchers found that the dose received from background radiation on the island was between 2.4 mSv/year—the same as natural background radiation—and 4.5 mSv/year, assuming that residents consumed a diet of imported foods. The local food supply is still irradiated and the group did not recommend resettling the island. A 1998 IAEA report found that Bikini is still not safe for habitation because of dangerous levels of radiation.
A 2002 survey found that the coral inside the Bravo Crater has partially recovered. Zoe Richards of the ARC Centre of Excellence for Coral Reef Studies and James Cook University observed matrices of branching Porites coral up to 8 meters high.

Compensation and reparations

The Bikini islanders sued the United States for the first time in 1975, and they demanded a radiological study of the northern islands. The United States set up The Hawaiian Trust Fund for the People of Bikini in 1975, totaling $3 million. Residents were removed from the island in 1978, and the government added $3 million to the fund and created The Resettlement Trust Fund for the People of Bikini, containing $20 million in 1982. The government added another $90 million to that fund to pay to clean up, reconstruct homes and facilities, and resettle the islanders on Bikini and Eneu islands.
In 1983, the U.S. and the Marshall islanders signed the Compact of Free Association which gave the Marshall Islands independence. The Compact became effective in 1986 and was subsequently modified by the Amended Compact that became effective in 2004. It also established the Nuclear Claims Tribunal, which was given the task of adjudicating compensation for victims and families affected by the nuclear testing program. Section 177 of the compact provided for reparations to the Bikini islanders and other northern atolls for damages. It included $75 million to be paid over 15 years. On March 5, 2001, the Nuclear Claims Tribunal ruled against the United States for damages done to the islands and its people.
The payments began in 1987 with $2.4 million paid annually to the entire Bikini population, while the remaining $2.6 million is paid into The Bikini Claims Trust Fund. This trust is intended to exist in perpetuity and to provide the islanders a 5% payment from the trust annually. The United States provided $150 million in compensation for damage caused by the nuclear testing program and their displacement from their home island.
By 2001, 70 of the 167 relocated residents were still alive, and the entire population had grown to 2,800. Most of the islanders and their descendants live on Kili, in Majuro, or in the United States. Only a few living people were born on the Bikini Atoll. Most of the younger descendants have never lived there or even visited. The population is growing at a four percent growth rate, so increasing numbers are taking advantage of terms in the Marshall Islands' Compact of Free Association that allow them to obtain jobs in the United States.

Recovery of marine ecosystem

Stanford University professor Steve Palumbi led a study in 2017 which reported on ocean life that seems highly resilient to the effects of radiation poisoning. The team described substantial diversity in the marine ecosystem, with animals appearing healthy to the naked eye. According to Palumbi, the atoll's "lagoon is full of schools of fish all swirling around the living coral. In a strange way they are protected by the history of this place, the fish populations are better than in some other places because they have been left alone, the sharks are more abundant and the coral are big. It is a remarkable environment, quite odd." Both corals and long-lived animals such as coconut crabs should be vulnerable to radiation-induced cancers, and understanding how they have thrived might lead to discoveries about preserving DNA. Pambuli notes that the Bikini Atoll is "an ironic setting for research that might help people live longer". PBS documented field work undertaken by Palumbi and his graduate student Elora López on Bikini Atoll for the second episode of their series Big Pacific. The episode explored "species, natural phenomena and behaviors of the Pacific Ocean" and the way that the team is using DNA sequencing to study the rate and pattern of any mutations. López suggested possible explanations for the health of the marine life to The Stanford Daily, such as a mechanism for DNA repair which is superior to that possessed by humans, or a method of maintaining a genome in the face of nuclear radiation.
The area has effectively become an unplanned marine-life sanctuary; this has also occurred in Europe in the Chernobyl exclusion zone where scientists are studying the effects of radiation on animal life. Most fish have relatively short lifespans, and Palumbi suggested that "it is possible the worst-affected fish died off many decades ago… and the fish living in Bikini Atoll today are only subject to low-levels of radiation exposure as they frequently swim in and out of the atoll." Nurse sharks have two dorsal fins, but Palumbi's team observed individuals with only a single fin, and they theorized that they might be mutations. Pambuli and his team have focussed on the hubcap-sized crabs, as their coconut diet is contaminated with radioactive caesium-137 from ground water, and on the corals, because both have longer life-spans that allow the scientists "to delve into what effect the radiation exposure has had on the animals' DNA after building up in their systems for many years."
Bikini Atoll remains uninhabitable for humans due to what United Nations reporter Călin Georgescu described as "near-irreversible environmental contamination". Gamma radiation levels in 2016 averaged 184 mrem yr−1, well above the maximum allowed for human habitation, thereby rendering the water, seafood, and plants unsafe for human consumption. Timothy Jorgensen reports on the increased cancer risk among the residents of the nearby islands, especially for leukemia and thyroid cancers.

Health impacts

The inhabitants of the Marshall Islands, particularly those closest to Bikini Atoll, were exposed to high levels of radiation. The highest levels of radiation exposure were found in the areas of local fallout. The fallout produced from nuclear tests can affect the human populations internally or externally. External irradiation is from penetrating gamma rays that come from particles on the ground. The levels of external radiation exposure can be reduced if one was indoors because buildings act as a shield. Inhalation of radioactive fallout and epidermal absorption are the primary means of irradiation. However most exposure is from consumption of food that has been contaminated through fallout. The people of the islands would consume meat or products from animals that had been irradiated, therefore irradiating the consumer. Food shipped into the islands was also affected by contamination through contaminated cooking utensils. Many dairy products, such as milk and yogurt, were contaminated as a result of radionuclides landing on pastures. Iodine-131, a highly radioactive isotope, was ingested or inhaled by many through various forms. The iodine-131 consumed would become concentrated in one's thyroid.
On the Marshall Islands, the detonation of Castle Bravo was the cause of most of the radiation exposure to the surrounding populations. The fallout levels attributed to the Castle Bravo test are the highest in history. The exposure to fallout has been linked to increase the likelihood of several types of cancer such as leukemia and thyroid cancer. The relationship between I-131 levels and thyroid cancer is continuing to be researched. There are also correlations between fallout exposure levels and diseases such as thyroid disease like hypothyroidism. Populations of the Marshall Islands that received significant exposure to radionuclides have a much greater risk of developing cancer. The Castle Bravo test detonation produced an explosion of approximately 15 megatons and populations neighboring the test site were exposed to high levels of radiation resulting in mild radiation sickness of many. Several weeks later, many people began suffering from alopecia and skin lesions as well. The female population of the Marshall Islands have a sixty times greater cervical cancer mortality than a comparable mainland United States population. The Islands populations also have a five time greater likelihood of breast or gastrointestinal mortality, and lung cancer mortality is three times higher than the mainland population. The male population on the Marshall Islands lung cancer mortality is four times greater than the overall United States rates, and the oral cancer rates are ten times greater.
There is a presumed association between radiation levels and female reproductive system functioning.