Blood Money: Hookworm Economics in the Postbellum South

By Rebecca Kreston | April 25, 2011 2:28 am

In the early 20th century, the Rockefeller Foundation embarked upon a massive public-health campaign that radically changed the economic landscape of the Southeastern United States. A parasite, the hookworm Necator americanus, not only had been leeching Southerners of their blood and good health but also of their agricultural productivity and wealth.

There are two types of hookworm, Ancylostoma duodenale, known as the Old World hookworm, and Necator americanus, the New World hookworm. While both species may be found in Africa, Asia and the Americas, N. americanus is predominantly located in the Americas and Australia, while only A. duodenale is found in the Middle East, North Africa and southern Europe (a). The origin of the New World species in North America has been attributed to the Atlantic slave trade beginning in the 17th century, where infected African slaves brought the parasite to the Americas (b). The hookworm quickly adapted to the loamy soil, humid climate and rainfall patterns of the Southeast that mimicked that of the African continent (d). The socioeconomic conditions of the South and the treatment of slaves also facilitated the spread of the hookworm due to an absence of sanitary outhouses, widespread use of feces as fertilizer in fields (known as night-soil), and lack of footwear for children.

Geographic distribution of Necator americanus. Image: Palmer & Reeder. Click for source.

Infection begins when the soil-residing larval form penetrates human skin, typically a bare foot. It then embarks upon a multi-organ journey through the body, traveling through the blood vessels, the heart and the lungs to reach the trachea. The larva are then swallowed and reach their journey’s end in the small intestine. Upon maturation, the adult hookworm latches onto the mucosa of the small intestine and begin to blood-suck. An individual may harbor up to several hundreds of adult hookworms, which typically live for 1 to 2 years but in rare cases can live up to a jaw-dropping 20 years (i). Highly fertile females may churn out as many as five to twenty-five thousand eggs a day (e). Eggs exit the body with the feces and, upon finding themselves in environmentally friendly circumstances such as warm, moist soil, will mature into larva. And so the cycle continues.

The hookworm exacts a heavy toll on those infected but especially on those that are “poorly nourished, badly housed and equipped, and barefoot” (e). Symptoms include anemia, weight loss, fatigue, and impaired mental function; the heavier the worm burden, the greater the severity of symptoms. In fact, the weight loss, lethargy and reduced mental capacity brought about by severe hookworm infection earned the New World hookworm the title “the germ of laziness” (h). The popular image during the American Civil War of the lazy Southern redneck with “sallow skin, bare feet, scrawny neck, protuberant abdomen, retarded intelligence, and shiftless habits” undoubtedly derived from endemic hookworm infection and its debilitating symptoms (h).

Harvey Laforce of Woodbine, Whitley County, Kentucky revealing the characteristic symptoms of hookworm infection. Image: Rockefeller Archives Center 220H 220L1. Click for source.

As you can imagine, endemic disease amongst rural Southerners had a profound effect upon agricultural productivity and economic development in the region. The loamy soil found in the Southern coastal regions was ideal for farming but was also exceptionally well-suited to rearing hookworm larvae; what should have been the most successful agricultural region in the South was hampered by the hookworm’s presence in the guts of farmers (c). Hookworms had their heyday during the Civil War, when levels of infection exploded due to substandard living conditions, poor health and lack of sanitary infrastructure (j). Several studies have found negative correlations between agricultural income per capita and hookworm infection amongst rural families involved in subsistence farming prior immediately following the end of the Civil War and prior to the onset of the Rockefeller Commission (g)(j).

In 1910, the Rockefeller Sanitation Commission for the Eradication of Hookworm Disease set about investigating the state of the disease in the South and discovered that a staggering 40% of schoolchildren were infected, with an estimated roughly 7.5 million Southerners harboring the parasite (g). They immediately set about initiating a multi-pronged approach to tackling the disease. One million dollars was invested in a five-year program in eleven states that focused on the education of physicians, school children and the public on hookworm symptoms and transmission, along with construction of sanitary infrastructure and the creation of traveling medical dispensaries for diagnosing and treating hookworm infection (d). A pretty neat educational video by the campaign titled “Unhooking the Hookworm” can be found below,

Studies have found strong negative correlations between agricultural income per capita and hookworm infection amongst rural families involved in subsistence farming prior to the initiation of the Rockefeller Commission (g)(j). Following the campaign, those regions with the highest infection rates, particularly in Louisiana, Florida, Mississippi and Alabama, saw significant income expansion. The graph below shows the change in log earnings for exposed and unexposed cohorts depending on year of birth. This analysis of state-of-birth and average income suggests that those individuals that were young enough to benefit from the Rockefeller Commission, and thus experienced lower rates of hookworm infection post-treatment, subsequently enjoyed higher average incomes in adulthood (f). Zero or less exposure to the campaign’s activities during childhood effectively correlates with lower income (f).

Cohort-Specific Relationship Between Income & Pre-Eradication Hookworm. Image: Bleakley H. (2007) Disease and Development: Evidence from Hookworm Eradication in the American South. The Quarterly Journal of Economics 122 (1): 73-117.

Highly infected states saw greater increases in income. Image: Bleakley H. (2007) Disease and Development: Evidence from Hookworm Eradication in the American South. The Quarterly Journal of Economics 122 (1): 73-117.

At the time, the Rockefeller Commission constituted a major investment in human capital in its improvement of school-age children health. Studies of the intervention indicate that the campaign resulted in a general increase in enrollment, attendance, and literacy (f). Those regions with infection rates greater than 40% showed especially swift increases in these levels compared to regions with average or lower infection rates (f).

From a purely bureaucratic and economic perspective, poor health and high rates of disease retard productivity and limit capacity for growth. In this case, hookworm infection deleteriously affected the agricultural output and economic development of the postbellum South. Similar trends may be seen with influenza, malaria, dengue and a host of other infectious diseases that affect the global workforce and economic productivity; a Report of the Commission on Macroeconomics and Health chaired by Jeffrey Sachs in 2001 found that “poor health has particularly pernicious effects on economic development in sub-Saharan Africa, South Asia, and pockets of high disease and intense poverty elsewhere” (k).

Though hookworm has been eradicated from North America, it remains a serious burden in Africa and is responsible for significant morbidity, disability and premature mortality. It is the one of the most common chronic infections on the continent, affecting a third of its population, mostly children aged 5 to 14 years (l). Looking at the history of the postbellum South and the economic implications of hookworm treatment from a selection of data gives an idea of the gravity of endemic infection. Providing shoes, treatment and sanitation options could revolutionize the quality of life for those infected. For those who live in the South, myself included, this research serves as a reminder to cover those feet while putzing around in the backyard. Keep ‘em covered!

Resources

An exploration of the effect of poor health hookworm infected soldiers on the Civil War can be found here.

The supremely excellent online resource Imaging of Tropical Diseases has a more in-depth look at hookworm, its life cycle and pathologies here.

References

(a) Centers for Disease Control and Prevention (2009). Laboratory Identification of Parasites of Public Health Concern: Hookworm. Retrieved from http://www.dpd.cdc.gov/dpdx/html/hookworm.htm on April 18, 2011.
(b) Palmer PES & Reeder MM. The Imaging of Tropical Diseases: With Epidemiological, Pathological and Clinical Correla Correlation: Ancylostomiasis (Hookworm Disease). Birkhäuser, 2001. Accessed from http://tmcr.usuhs.mil/tmcr/chapter12/intro.htm on April 11, 2011
(c) Wilcox LS. (2008) Worms and Germs, Drink and Dementia: US Health, Society, and Policy in the Early 20th Century. Prev Chronic Dis. 5(4): A135.
(d) Nuwer DS. (2002) “The Importance of Wearing Shoes: Hookworm Disease in Mississippi”. Mississippi History Now. Accessed from http://mshistory.k12.ms.us/articles/241/hookworm-disease-in-mississippi:-the-importance-of-wearing-shoes on April 11, 2011.
(e) Palmer S. (2009) Migrant Clinics and Hookworm Science: Peripheral Origins of International Health, 1840–1920. Bulletin of the History of Medicine. 83(4): 676-709
(f) Bleakley H. (2007) Disease and Development: Evidence from Hookworm Eradication in the American South. The Quarterly Journal of Economics. 122 (1): 73-117.
(g) Brinkley, GL. The Economic Impact of Disease in the American South, 1860-1940 (PhD dissertation). University of California, Davis, 1994.
(h) Ettling J. The germ of laziness: Rockefeller philanthropy and public health in the New South. Cambridge (MA): Harvard University Press; 1981
(i) Despommier, D, Gwadz RW, Hotez PJ and Knirsch CA. Parasitic Diseases. 5th ed. New York: Apple Trees Production, LLC. 2006
(j)  Brinkley, GL. (1997) The Decline in Southern Agricultural Output, 1860-1880. The Journal of Economic History. 57(1): 116-138
(k) JD Sachs & the World Health Organization (2001) Macroeconomics and Health: Investing in Health for Economic Development. World Health Organization. Accessed whqlibdoc.who.int/publications/2001/924154550x.pdf
(l) Brooker S, Clements AC, Hotez PJ, Hay SI, Tatem AJ, Bundy DA &Snow RW (2006). The co-distribution of Plasmodium falciparum and hookworm among African schoolchildren. Malar J. 5:99

ResearchBlogging.org

Bleakley, H. (2007). Disease and Development: Evidence from Hookworm Eradication in the American South* Quarterly Journal of Economics, 122 (1), 73-117 DOI: 10.1162/qjec.121.1.73
Brooker S, Clements AC, Hotez PJ, Hay SI, Tatem AJ, Bundy DA, & Snow RW (2006). The co-distribution of Plasmodium falciparum and hookworm among African schoolchildren. Malaria journal, 5 PMID: 17083720

CATEGORIZED UNDER: History, Military, Parasitic Helminths
  • Pingback: Rum and Reason » I’ve got your missing links right here (30 April 2011) | Not Exactly Rocket Science

  • lostintravise

    Hi Rebecca, great post. Thanks for sharing with us.

    -Travis

    • http://blogs.discovermagazine.com/bodyhorrors/ bodyhorrors

      Hey thanks for letting me know Travis! I really dig this kind of stuff and love it when I hear that other people do too.

  • lostintravise

    I take you have read Parasite Rex? Carl’s book really got me interested in this stuff. It is amazing how influential parasites are on ecology (and economics, as you’ve wonderfully explained). It’s going to be a fun to see how much of the picture we have missed.

    • http://blogs.discovermagazine.com/bodyhorrors/ bodyhorrors

      I actually haven’t read Parasite Rex! I really like Despmmier – he wrote the definitive textbook on Parasitic Diseases and has written a few other pop-science oriented books about parasites as well as hosts a podcast with the “Virology Blog” guy here: here. Send up the nerd alert! Anyway, he’s the man. And, yes! – parasites do some crazy interactions with geography, economics and behavior. Love it.

  • Pingback: Hookworms! | The Grumpy German

  • http://www.facebook.com/profile.php?id=2900095 Dan Bryan

    I love this post.

    This is exactly the kind of social development that goes criminally unnoticed in most history books, even though it is more important to daily life than many things you do read.

    I’ve heard that Rockefeller was quite deliberative and scientific in his selection of charities — are there other success stories such as this one in the field of public health?

    • http://blogs.discovermagazine.com/bodyhorrors/ bodyhorrors

      Hey Dan! Thanks for the kind comments! The first public health initiative success that comes to mind is former President Jimmy Carter’s great work with the Guinea Worm in Eastern Africa. Their Guinea Worm Eradication Project are well on their way to removing this multicellular, gruesome parasite from the planet. This is the best example I can think of in terms of private charities devoting themselves to solving serious public health problems and I doubt I could find another one.

  • Stephen

    Great article. Reading it reminded me of Henry Hobhouse’s book – Seeds of Change – where he talks about the economic impact of quinine.

    • http://blogs.discovermagazine.com/bodyhorrors/ bodyhorrors

      Hey Stephen, thanks for your kind comment! The Hobhouse book looks excellent, I immediately put it on my book wishlist! Thanks for reading!

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Body Horrors

Body Horrors looks at the history, anthropology and geography of infectious diseases and parasites.

About Rebecca Kreston

Rebecca Kreston is an infectious disease scholar trained in microbiology and epidemiology. She obtained her Biology degree from Reed College and her Masters of Science in Tropical Medicine from Tulane University. She's lived in tropical jungles, beaches and deserts around the world and has been exposed to several of the diseases that she studies. She currently lives in New Orleans, is a first year medical student and regularly battles insects of the Diptera, Siphonaptera and Hymenoptera orders.

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