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Entomology Issues During the Korean War

 
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Introduction

The following document is an unclassified document from the Defense Technical Information Center.  It is part of the report of the Proceedings of the DOD Symposium on Evolution of Military Medical Entomology.


Entomological Issues During the Korean War, 1950-1953

W. J. Sames 1, H. C. Kim 2, T. A. Klein3, 1 LTC, Medical Service Corps, U.S. Army; 2 Entomologist, Yongsan, Korea: 3 COL, Medical Service Corps, U.S. Army (Retired)

To understand entomological issues during the Korean War, one must first know something about Korea and the cultural and political situation during that period. Korea is a peninsular country that over the centuries has periodically been occupied by China or Japan. These occupations had a detrimental effect on the country because human and material resources were routinely stripped from the peninsula. The occupations and subsequent national freedom led to a strong sense of national pride in the Korean people and a not inconsequential xenophobia.

The Japanese occupation from 1910-1945 differed only in its magnitude. Koreans were enslaved and forced to work in war factories or other menial positions. The country experienced widespread deforestation at the hands of the occupiers, and the little wood that remained was gathered for cooking and heating. The widespread loss of forest cover led to landslides and flooding during the summer monsoons.

On September 2, 1945, the Japanese surrendered to the Allied Forces onboard the USS Missouri in Tokyo Bay. This signified the end of World War II and the beginning of the Allied occupation of
northeast Asia. By prior agreement with the Union of Soviet Socialist Republics (USSR), Korea was split into two halves along the 38th parallel; the northern half became the Democratic People’s Republic of Korea (North Korea) with USSR oversight, and the southern half became the Republic of Korea (South
Korea) with United States (US) oversight. North Korea and South Korea are about the size of the states of Pennsylvania and Illinois, respectively, are 70-80% mountainous, and have less than 20% arable land; in 1950, their respective populations were estimated to be 23 and 48 million people.

In 1949, the US considered South Korea an independent country that no longer needed the presence of US occupation forces, so US forces withdrew from Korea to established bases in Japan. North Korea, still backed by the USSR, took the US withdrawal as indifference to the region and decided it was time to forcibly reunite the country.

On June 25, 1950, North Korean artillery began firing south and North Korean troops began their invasion of South Korea. President Truman protested this action and ordered US military intervention; the United Nations (UN) considered North Korea’s action an act of aggression, and sixteen nations
under the auspices of the UN joined the ROK in expelling the aggressors. US troops stationed in Japan sprung into action but were too few to stop the North Korean military surge. Within months, the North Koreans occupied almost all of South Korea except for an area in the southeast around the city of Pusan, with the outer boundary referred to as the Pusan perimeter. The stalling action by UN forces allowed sufficient troops and equipment to enter the Pusan perimeter, and a UN offensive action was
imminent.  

North Korea - Area: 120,540 km; 14% arable land; 80% mountains; 23 million people
South Korea - Area: 98,477 km; 19% arable land; 73% mountains; 48 million peopleHighest peak in North Korea: Mt. Paektu (2744m)

After breaking out of the Pusan perimeter, General Douglas MacArthur implemented a surprise attack on
September 15, 1950 at Inchon, a port city to the west of Seoul, effectively entrapping the North Korean Army and cutting off their supplies. Many North Koreans surrendered; the rest began an
immediate and rapid retreat. By December 1950, UN forces had pushed the North Korean Army to within a few miles of the Chinese border. China then entered the war on the side of North Korea, and millions of Chinese soldiers marched into North Korea, pushing the UN forces south. Eventually, the war settled around the 38th parallel, and on July 27, 1953, an armistice was signed and a demilitarized zone established to create a buffer between the opposing forces. Numerous hostile actions have since been documented, underscoring the reality that South Korea and its allies are still not at peace with North Korea.

Korea was an agrarian society and infrastructure throughout the country was minimal in 1950. There were no highways until 1966, and much of the population still lived in traditional Korean housing. The aftereffects of WWII left the people impoverished and struggling to reestablish their lives with few resources and threats of catastrophic disease. The Korean War severely aggravated the problems for Koreans, many of whom were rendered homeless or displaced by combat actions.  Disease was rampant during this period, with high morbidity and mortality due to smallpox, typhoid, typhus, other diseases, and harsh environmental conditions.

  • In 1950, 50,000 civilian smallpox cases {12,000 died), S. Korea

  • In 1951, 90,000 civilian typhoid cases (20,000 died), S. Korea

  • In 1950-1, 38,000 civilian typhus cases (5,000 died), S. Korea

Living conditions for military personnel were generally open and makeshift. Soldiers were exposed to
environmental extremes, and arthropod and rodent interactions were common.  For example, during the
winter of 1950-1951, intense cold led to over 5,000 frostbite injuries in US forces (Shaver 1962). Arthropod-borne diseases (louse-borne relapsing fever and typhus, Japanese encephalitis, vivax
malaria, and epidemic hemorrhagic fever) threatened all civilian and military populations.

Louse-borne diseases were holdovers from WWII and rapidly expanded as displaced Koreans relocated to crowded areas with inadequate hygiene and sanitation opportunities. Louse-borne typhus is estimated to have caused 32,000 cases and 6,000 deaths in South Korean soldiers and civilians. No US
cases were reported in Korea; one occurred in Japan (Long 1954, Pruitt 1954).

Lice also affected prisoner of war (POW) camps and were of great concern at the Koje Island POW camp along the southern coast of South Korea. North Korean POWs were kept at this location, and a 10% DDT dust was used as the louse control agent. Over time, the DDT treatments did not appear to have an effect on the lice, and an investigation of the problem was initiated (Military Entomology Information Service 1965). Military entomologists suggested that the lice had become resistant to DDT
and requested a new insecticide (Hurlbut I960). However, authorities in the US felt that DDT was adequate and that the problem lay in its application or in a bad batch of the chemical (Dews 1960).

Fleet Epidemic Disease Control Unit No. 1 planned and conducted tests to evaluate DDT efficacy and louse Army and Navy entomologists from the 37th Preventive Medicine (PM) Company, the 297th PM Survey Detachment, and the resistance. DDT was tested for its efficacy against Cal ex pipiens larvae (mosquito species), killing them at one part per 2 million. The DDT met expectations of efficacy, and a mass delousing ensued (Curtin 1953, Dews 1960).

For the resistance test, South Korean soldiers were employed and an arm band was placed on each arm of the shirtless volunteers  (Lt. Nibley, USA, and CDR Hurlbut, USN, were among those that checked Korean subject’s DDT armband as part of the test for louse resistance to DDT.) One arm band
was treated with 10% DDT while the other was left untreated. Lice were placed under each arm band and counted at 24 and 48 hours. No difference was observed between the treated and untreated arm bands, which strongly suggested louse resistance to DDT. The US authorities approved the use of a new insecticide, lindane, which provided effective louse control.

Implementing the use of lindane at the Koje Island POW camp was a challenge. POWs, who were
accustomed to standing in long lines to be treated with ineffective DDT, had no faith that the new product would be any better and many refused to go for treatment. On the first day, some POWs
submitted to treatment; once they saw how well lindane worked, word quickly spread, and the rest of the camp complied (Dews 1960). In a short time, the louse infestation on Koje was brought under control.

Japanese encephalitis, a viral mosquito-borne disease, was also of concern because 300 cases had occurred in US military personnel between August and October 1950. Little was known about this disease, so blood sera from 2 1 0 of these cases were sent to the 406th Medical Laboratory at Camp
Zama, Japan, to determine its etiology.

Vivax malaria, a parasitic mosquito-borne disease, was of great concern, with infection rates of 8.3, 3.2, and 1.9/1 000/year for 1951, 1952, and 1953, respectively (Cowdrey 1990). Acute and latent forms of the disease were expressed. Soldiers affected with the acute form showed disease symptoms
within two weeks of exposure and became medical liabilities in Korea. Those affected with the latent form showed disease symptoms months to a year later. Because deployments to Korea were 19 months or less, many soldiers returned home with inactive latent malaria parasites in their liver. Later, when the disease appeared in these soldiers, health authorities became concerned that malaria would reestablish itself in the US. Chloroquine was the chemoprophylaxis of choice, but it only suppressed blood parasites and did not affect the parasitic liver stage. Primaquine, which killed the liver parasite, was approved for use during this period, thus reducing latent cases and relieving concerns about reintroducing malaria into the US (Coatney et al. 1953, Hunter 1953, Archambeault 1954, Marshall 1954, Pruitt 1954, Brundage 2003).

Epidemiological studies were conducted in South Korea to determine the malaria infection rate of Korean civilians (Murdoch and Lueders 1953, Marshall 1954), and military entomologists (Army, Air Force, Navy) were instrumental in preventing the disease through the application of pesticides by ground and air, and through advocating the use of uniforms treated with repellents (M-1960
contained 30% 2-butyl-2-ethyl-l,3-propanediol for protection against mosquitoes and biting flies, 30% N- butylacetanilide for ticks, 30% benzyl benzoate for chiggers and fleas, and 10% of an emulsifier, Tween 80 [polyoxyethylene ether of sorbitan monooleate]) (Gupta et al. 2003).

Epidemic hemorrhagic fever (now known as hantavirus) was a viral disease of great importance. Over 3,000 UN soldiers were affected, with an initial mortality rate of 14.6% that was reduced to 2.7% as medical providers learned more about the management of this infection (Pruitt 1954). However, very
little was known about this disease, so studies began in earnest to understand its etiology and how to control and/or prevent it. Studies of Japanese literature suggested this was the same disease
encountered by Japanese military forces in Manchuria during their 1938-1940 campaign, and notes from the Japanese experience were useful (Katz 1954, Traub et al. 1954). Studies of the agent were confounded because it had been observed that applica vector was involved in the
transmission cycle (Traub 1 954).

Initially thought to be a vector-bome disease with a rodent reservoir, all potential vectors (mites, mosquitoes, black flies, and fleas) were studied (Traub et al. 1954). In 1976, the virus was isolated from the black-striped mouse, Apodemns agrarius (Lee et al. 1978), and named Hantaan virus after
the Hantaan River where it was first isolated.

During the war, many rodents were live-captured to study hantaviral and other diseases, but live traps were in short supply and those that were available were quickly acquired by others for personal use (Applewhite 1953). Therefore, soldiers of the preventive medicine detachments improvised and built traps from beer cans and mouse snap-traps, both of which were abundant (Bevier 1953). These “Beer Can Traps” were made by cutting off the top of the can and affixing the mouse trap to the open end, with the trigger extending into the can. A flat piece of metal was placed over the wire “snap” loop so that once the trap was triggered, the loop covered the open end of the can and trapped the rodent.
ation of the repellent M-1960 appeared to reduce epidemic hemorrhagic fever rates, suggesting that because the supposed vectors were not known to transmit disease to humans, and research on how to prevent, treat, and control a disease is not the same as biological warfare studies. The Communists also claimed that the US protection given to Japanese scientists (who practiced biological warfare during WWII) in exchange for their secrets was further evidence that the US was engaged in biowarfare. A team of “experts” sympathetic to the Communist cause was sent to investigate. Their
report condemned the US, but upon questioning, the team admitted that they never saw the evidence; their report was based exclusively on what they had been told or shown by the North Koreans and
Chinese. The report caused more controversy but was considered biased.

During WWII, scrub typhus was feared more than malaria in parts of Southeast Asia, but only 8 UN soldiers acquired the disease during the Korean War even though thousands of cases were diagnosed in the civilian population (Ley and Markelz 1961). Similarly, tick-borne disease was not a factor, as ticks were uncommon and very few soldiers complained of tick attachment (Traub 1954). The lack of
trees and leaf litter may have limited the habitats capable of supporting ticks that parasitize humans.

A history of entomology during the Korean War would not be complete without discussing the contributions of the 406 th Medical Laboratory, Camp Zama, Japan. The 406th served as the
primary laboratory supporting entomological studies throughout the war, and entomologists in Japan worked closely with entomologists stationed in Korea. The laboratory conducted epidemiological, virological and entomological studies on arthropod- and rodent-borne diseases, and provided mounted specimens to US and regional museums (US Army 1953). Arthropods studied and mounted included
mosquitoes, black flies, filth flies, mites, lice, and fleas. In addition, birds and small mammals were studied and mounted. The laboratory expanded to meet its research demands, and many Japanese joined the staff. Some of the new employees were sympathetic to Communism, a situation that caused
friction subsequently (Lockwood 2009).

During the winter of 1950-1951, reports of massive disease outbreaks in the North Korean military and among civilian and Chinese military populations were received. These reports also stated that the North Korean authorities were doing nothing to mitigate the problem. Several reports claimed that the “Black
Death” was spreading throughout North Korea. Black Death to US medical personnel meant flea-borne plague, Yersinia pestis. If UN forces were to move north in the spring, they would encounter this disease and needed to be prepared. To validate the reports, the US sent Col. Crawford F. Sams into
North Korea to investigate. Colonel Sams infiltrated North Korea near Wonsan and determined the disease to be hemorrhagic smallpox, not plague. US military personnel were vaccinated against smallpox, with the result that only 4 soldiers developed the disease during the war (Waldo 1955). However, the North Korean civilian population suffered tremendously and its population dropped from 1 1 to 3 million people (Sams 1998).

In the spring of 1951, North Korea and China accused the US of engaging in biological warfare and cited multiple examples of attacks with a variety of arthropods (Collembola, crickets, Plecopterans, etc.) and small rodents (moles) harboring disease (Lockwood 2009). The Communist sympathizers within the 406 th Medical Laboratory claimed that the US was conducting biological warfare studies using arthropods and rodents. To most people, these accusations seemed ludicrous The US denied all allegations
concerning the use of biological weapons, pointing out that disease was already rampant in both Koreas and without medical intervention many people would fall ill and die. Two recent books (Lockwood 2009, Endicott and Hagerman 1998) provide insights on this issue, as well as references to other books, literature, and documentation.

Entomologists from the Army, Air Force, and Navy served during the Korean War. Army entomologists
served on the 8 th Army Surgeon’s Staff and in the Preventive Medicine Company and Survey Detachments.

LTC Samuel O. Hill of the 8th Army Surgeon’s Staff, was the first entomologist to enter the combat zone (Bunn and Webb 1961). He was later replaced by LTC Samuel C. Dews who served in this position
for the remainder of the war. In a 1953 report, LTC Dews reported that 38 entomologists served in Korea during the war, but Bunn and Webb (1961) reported 65 entomologists; the difference may lie in the numbers who served in units only (38) versus those who served in units plus those who were conducting research (65). Traub et al. (1954) is an example of those involved in research. Further studies are needed to determine exact numbers. Lieutenant Carlyle Nibley Jr. and Captain Robert Altman served in Korea, and many of authors listed in the reference section of this paper also
served. In 1954, Col/ (ret.) Harold D. Newson and LTC (ret.) Alexander A. Hubert served in Korea (Newson and Hubert, personal communication).

The 37th Preventive Medicine (PM) Company and 10 different PM Detachments saw service during the
Korean War. In 1950, two types of detachments existed and were in the middle of a name change. Malaria Control Detachments were redesignated as PM Control Detachments and Malaria Survey Detachments were redesignated as PM Survey Detachments. Two sanitary engineers typically served in the PM Control Detachments, whereas an entomologist and a parasitologist served in the PM Survey Detachments. Nine enlisted personnel were assigned to each of these detachments (Curtin and Spitzer
1953).

In September 1950, the 38th and 207th PM Survey Detachments were moved from Japan to Korea and were the first two detachments deployed to the war zone. Seven PM Control Detachments served in Korea and one served in Japan for the duration of the war. Similarly, three PM Survey detachments served in Korea and one served for the duration in Japan. Table 2 provides a summary of the entomological work performed by the PM Survey Detachments.

Members of the Preventive Medicine Division, Medical Section, HQs, Eighth
US Army Korea (January 1952):

  • LTC Edward C. Mulliniks, Asst Chief, PM

  • 1LT David L. Griffith, Public Health Education Officer

  • MAJ Morris Krasnoff, Sanitary Engineer

  • CDR Leonard M. Schuman, Cold Injury Team and Consultant

  • LTC Irvine B. Marshall, Chief, PM Division

  • LTC Samuel C. Dews, Entomologist

  • CPT Ralph Takami, Medical Intelligence Consultant

.Preventive Medicine units that served in Korea or Japan, 1950-1954:*

Unit Date Served in War Country Activation/ineactivation
6th PM Survey March 1950-Dec 1954 Japan
Activated Feb 1952, inactivated Oct 1954
 
10th PM Control Jul 1951-Dec 1954 Korea
Activated Feb 1952
 
17th Malaria Survey Jan 1950-Jul 1950 Japan Inactivated Jul 1950
37th PM Company Fall 1950 Korea  
38th PM Survey Jan 1950-Aug 1950 Japan  
38th PM Survey

Sep 1950-Dec 1954

Korea Inactivated Sep 2007
78th PM Control Apr 1953-Dec 1954 Korea Inactivated after Dec 1954
118th PM Control Jan 1950-Dec 1954 Japan  
151st PM Control Feb 1952-Oct 1954 Korea Activated Feb 1952, inactivated Oct 1954
 
152nd PM Control Nov 1951 -Dec 1954 Korea Activated Feb 1952
153rd PM Control Feb 1952-Dec 1954 Korea Activated Jan 1952, inactivated Jan 1955
154th PM Control Jan 1952-Oct 1954 Korea  
155th PM Control Jan 1952-Oct 1954 Korea Inactivated Nov 1954?
207th PM Survey Jan 1950-Aug 1950 Japan  
207th PM Survey Sep 1950-Dec 1954 Korea  
219th PM Survey Jan 1952-Dec 1954 Korea Activated Jan 1952, inactivated after Dec 1954
406th General Lab Jan 1950-Dec 1954 Japan  

*Data derived from US Army Directory and Station Lists for the Korean War period.  Except for the 37th PM Company and 406* General Laboratory, all units are detachments with the 17th Malaria Survey Detachment being inactivated before the name was changed to PM Survey Detachments.

Identifications and miles travelled by the 219th Preventive Medicine Survey Detachment, 1 Mar-15 Sep 1952:*

ToMosquito Larvae 35,152
Mosquito adults 30,195
Mites 4,212
Lice 2,206
Fleas 91
Rats 779
Other mammals 337
Travel Miles Logged 36,718
Total Identifications Made 73,152

*Data from Curtin and Spitzer (1953)

Army Aerial Spray Mission

The Army used L-13 and OH1/L-19 aircraft for aerial spraying, because these smaller aircraft could go into small valleys where the larger USAF aircraft could not go.

While most Army vector control missions were ground based, it became necessary for the Army to engage in
aerial spray missions in the narrow, small valleys where the larger US Air Force aircraft could not go. The Army
modified the L-13 and 0H1/L-19 aircraft for aerial spraying and sprayed DDT for the control of mosquitoes and filth flies (Harder 1953 a, b).

Navy entomologists primarily served in the port cities that were feeding Korea with essential supplies, equipment, and troops. They were also essential to vector control at the Koje Island POW camp and during malaria epidemiological studies around port cities. At present, we believe six Navy entomologists served during the Korean
War, with CDR H. S. Hurlbut confirmed as being present because he wrote about his experiences and appears in photographs. Many of Hurlbut’s photos include CWO R. S. MacDonough, but we have not determined the latter’s association with entomology.

The Korean War was the Air Force’s first war as a separate service. To meet the needs for aerial spray missions, the Air Force activated the 1st Epidemiological Flight in May 1951. The mission was flown on 17 June (Muchmore and Read 1953) and the first season was completed on October 8, 1951 (Nowell 1954, Lumpkin and
Konopnicki 1960). The Air Force used a variety of aircraft for the aerial spray mission: C-40, C-46, C-47, L-20, L-5, and the T-6. Aerial spray missions commonly targeted mosquitoes and filth flies to reduce disease affecting military and civilian populations. A DDT oil solution of 20% was commonly sprayed.

At the time of this writing, we are unable to determine which Air Force entomologists served in Korea, even
though we have an extensive list of those who served in that capacity.

During the Korean War, the word “Mosquito” with a capital “M” referred not to an insect but to an airplane
(Futrell 1983). The T-6 “Texan” was used as a Forward Air Controller, and it was commonly called the “Mosquito” by its pilots and ground crew.. Two theories have been advanced for this moniker. The first postulates the use of the call sign “Mosquito” as in “Mosquito 1, this is “Mosquito 2, over.” Pilots and ground crews apparently liked this call sign and began calling the T-6 the “Mosquito” (Futrell 1983). An alternative explanation is that North Korean and Chinese prisoners called this aircraft a mosquito (Mogi in Korean) because they associated its buzzing around with the “bites” (bombs) that followed shortly thereafter (Morris 1997).

Much work remains to be done before we have a clear picture of military entomology during the Korean War.
References for this presentation came from the US Army Center of Military History, Fort McNair, DC; the US Army Institute of Military History, Carlyle, PA; entomological, scientific and tropical medicine journals of the period
(e.g.. Mosquito News, Am J Hyg); collections of unpublished documents on file at the Armed Forces Pest
Management Board ( www.afpmb.oru ); books written about the Korean War; and Internet searches on subjects or people who may have served during that era.

References:

Applewhite R. 1953. Rodent surveys. Proceedings of The Military Preventive Medicine Association in
Korea, Insect and rodent control in Korea, Chosun Hotel, Seoul, April 8, 1953.

Archambeault CP. 1954. Mass antimalarial therapy in veterans returning from Korea. J Am Med Assoc 154:1411-1415.

Bevier G. 1953. Rodent control in a division area. Proceedings of The Military Preventive Medicine
Association in Korea, Insect and rodent control in Korea, Chosun Hotel, Seoul, April 8, 1953.

Brundage JF. 2003. Conserving the fighting strength: milestones of operational military preventive medicine research. Chapter 5, Military Preventive Medicine: Mobilization and Deployment, Volume 1. Department of Defense, Office of The Surgeon General, US Army, Borden Institute. 704p; ill.

Bunn RW, Webb JE, Jr. 1961. History of the US Army Medical Service Corps, chapter VIII, laboratory
specialties, section 7, entomology.

Coatney GR et al. 1953. Korean vivax malaria. V. Cure of infection by primaquine administered during the
long-term latency. Am J Trop Med Hyg 2:985-988.

Cowdrey AE. The medics’ war. (Washington, DC: US Army Center of Military History, 1987).

Curtin T. 1953. History of the 37th Preventive Medicine Company. Proceedings of The Military Preventive Medicine Association in Korea, Insect and rodent control in Korea, Chosun Hotel, Seoul, April 8, 1953.

Curtin T, Spitzer CH. 1953. Preventive medicine survey unit activity in KComZ. Proceedings of The Military Preventive Medicine Association in Korea, Insect and rodent control in Korea, Chosun Hotel, Seoul, April 8, 1953.

Dews SC. 1953. Mass Delousing Operation. Proceedings of The Military Preventive Medicine Association in Korea, Insect and rodent control in Korea, Chosun Hotel, Seoul, April 8, 1953.

Dews SC. 1960. Military entomology in Korea. In Dews SC, Knight KL, Blakeslee TE, Hurlbut HS. 1960.
Military entomology history. Armed Forces Pest Management Board, report.

Endicott S, Hagerman E. 1998. The United States and biological warfare: secrets from the early cold war and
Korea. (Bloomington, Indiana University Press, 1998).

Futrell RF. 1983. The United States Air Force in Korea, 1950-1953. Office of Air Force History, Washington, DC.

Gupta RK, Gambel JM, Schiefer BA. 2003. Personal protective measures against arthropods. Chapter 22,
Military Preventive Medicine: Mobilization and Deployment, Volume 1. Department of Defense, Office of The Surgeon General, US Army, Borden Institute. 704p; ill.

Harder FK. 1953a. Use of detachable air spray tanks on the L-19 aircraft. Proceedings of The Military
Preventive Medicine Association in Korea, Insect and rodent control in Korea, Chosun Hotel, Seoul, April 8,
1953.

Harder FK. 1953b. Use of F- 19 insecticide spray kit in division areas. Proceedings of The Military Preventive Medicine Association in Korea, Insect and rodent control in Korea, Chosun Hotel, Seoul, April 8, 1953

Hunter GW. 1953. Focal health hazards among US Army troops returning from Korea. Am .J Pub Health 43:1408-1417.

Hurlbut HS. 1960. Military entomology history: the Korean War. In Dews SC, Knight KF, Blakeslee TE,

Hurlbut HS. 1960. Military entomology history. Armed Forces Pest Management Board, report.

Katz S. 1954. Hemorrhagic fever of the Far Eastern type. Presented 29 April 1954, to the Course on Recent
Advances in Medicine and Surgery, Army Medical Service Graduate School, Walter Reed Army Medical
Center, Washington, D. C. Available from http://historv.amedd.army.mil/books docs/korea/recad2/ ch3-2 .htm .

Fee, H.W., Lee, P.W., & Johnson, K.M. 1978. Isolation of the etiologic agent of Korean Hemorrhagic Fever. J
Infect Dis 137:3.

Ley HL, Markelz RA. 1961. Scrub typhus: occurrence in United Nations personnel in Korea. Mil Med 126:834-837.

Lockwood JA. 2009. Six-legged soldiers: using insects as weapons of war. (New York, Oxford University
Press, 2009).

Long AP. 1954. General aspects of preventive medicine in the Far East Command. Presented 29 April 1954,
to the Course on Recent Advances in Medicine and Surgery, Army Medical Service Graduate School,
Walter Reed Army Medical Center, Washington, D. C. Available from http://historv.amedd.army.mil/books
docs/korea/recad2/ch6- 1 ,htm .

Lumpkin JI, Konopnicki MJ. 1960 Military aerial spray operations, 1946-1960. Tactical Air Command
US Air Force.

Marshall IH: Malaria in Korea. 1954. In: Recent advances in medicine and surgery based on professional
medical experiences in Japan and Korea 1950-1953. Presented 29 April 1954, to the Course on Recent
Advances in Medicine and Surgery, Army Medical Service Graduate School, Walter Reed Army Medical
Center, Washington, D.C. Available from http://history.amedd.armv.mil/books docs/korea/recad2/ch6-2.htm .

Military Entomology Information Service. 1965. DDT and lindane resistance in the body louse. Armed
Forces Pest Control Board, Walter Reed Army Medical Center, Washington DC.

Morris C. 1997. Mosquito control in Korea. Wing Beats Spring 1997 : 15-17.

Muchmore HG, Read RE. 1953. Air spray program in Korea. Proceedings of The Military
Preventive Medicine Association in Korea, Insect and rodent control in Korea, Chosun Flotel, Seoul, April 8,
1953.

Murdoch W, Lueders HW. 1953. Wonju malaria survey. Proceedings of The Military Preventive Medicine
Association in Korea, Insect and rodent control in Korea, Chosun Hotel, Seoul, April 8, 1953.

Nowell WR. 1954. The entomological program in the United States Air Force. Proceedings of the 1954 New
Jersey Mosquito Extermination Association Annual Meeting, Atlantic City, NJ.

Pruitt, FW. 1954. General aspects of medicine in Korea and Japan 1950- 53. At: http://history.amedd.army.mil/books docs/korea/recad2/ch3-l .htm.

Sams, CF. 1998. Medic: the mission of an American military doctor in
occupied Japan and wartorn Korea. Zakarian Z (ed.), M. E. Sharpe Inc.,
Armonk, New York.

Shaver WD. 1962. The impact of disease on military operations: selected incidences from World War II, Korea, and Lebanon. General Reference and Research Branch Historical Unit, USAMEDS, Forest Glen Section, Walter Reed Army Medical Center, Washington 12, DC.

Traub R. 1954. Advances in our knowledge of military medical importance of mites and fleas due to
postwar experiences in the Pacific area. Presented 29 April 1954, to the Course on Recent Advances in
Medicine and Surgery, Army Medical Service Graduate School, Walter Reed Army Medical Center,
Washington, D.C. Available from http://historv.amedd.army.mil/books docs korea/recad2/ch6-3, htm .

Traub R, Hertig M, Lawrence WH, Harriss TT. 1954. Potential vectors and reservoirs of hemorrhagic fever in Korea. Am J Hyg 59:291-305.

US Army. 1953. Clinical laboratory and research report, 1953. US Anny 406 th Medical General Laboratory
and Far East Medical Research Unit, Camp Zama, Japan.

Waldo HH. 1955. Smallpox among “vaccinated” troops. US Armed Forces Med J 6: 799-806.

 


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