Volume 5, Number 4—August 1999
Plant Pathology and Public Health
The day will come when the sign of the plant pathologist will stand forth in the street alongside that of the physician and surgeon. . . . For what will it profit us if all the ills and diseases of the human race be banished and we then face starvation because of diseases and pests in our food (1).
To the Editor: Every year plant diseases affect human society, resulting in inadequate nutrition and economic loss. The potato famine in the mid-1800s is the best-known example of a fungal plant pathogen's effect on history (2–4); Phytopthora infestans has recently reemerged in the Americas (5). Among the silent problems that have enormous effects on human society each year are crop infections by geminiviruses and tomato spotted wilt virus (6). These plant viruses are transmitted by whiteflies, leafhoppers, or thrips to hundreds of species of plants. They cause diseases of crops and ornamental plants around the world.
More obvious problems include ergotism, caused by the alkaloids produced by the fungus Claviceps purpurea. Ergotism was associated with the growth of rye, particularly in cool climates that cannot support wheat, and was implicated in the aberrant human behavior responsible at least in part for the Salem witch trials and St. Anthony's fire (2,7). In the last 5 years, a new plant disease, sorghum ergot (Claviceps africana), has spread north from Brazil into the United States. This fungus also causes disease in Australia, a sudden change from its known occurrence in Africa (8). Sorghum is the fifth most important cereal crop in the world, with approximately 45 million hectares under cultivation for food, beverages, feed, and fodder (8). Ergot alkaloid toxicity has not yet been demonstrated, but potential nutritional and economic losses could have substantial impact on public health.
With our increased awareness of the fragility of the environment, including the quality of our drinking water, opportunities may exist for physicians to interact with plant pathologists. Concern is growing about the use of Burkholderia cepacia, a bacterial phytopathogen, for the biologic control of seedling diseases (9). Although B. cepacia is effective for the biologic control of fungal diseases in the agricultural environment (10), this bacterium could contaminate the public water supply and subsequently influence the health of the immunosuppressed or persons with cystic fibrosis (9–11). This risk exemplifies the need to integrate plant health measures with human and veterinary health guidelines.
Plant pathology and public health also intersect with post-harvest fungal infections of seed and grain, particularly Aspergillus flavus and Fusarium moniliforme (2), which produce aflatoxin and fumonisin, respectively. During the past 2 drought years in Texas, aflatoxin in contaminated corn and peanuts has become a public health problem. In 1998, more than 50 pet dogs died of aflatoxicosis, perhaps by eating aflatoxin B1-contaminated corn used in dog food (12).
Although the veterinary and medical communities are well aware of the risks associated with plant pathogens when they enter the animal or human food supply, more routine interactions with plant pathologists could benefit public health. For example, plant pathologists can often predict impending plant disease outbreaks. This information can be used by epidemiologists to sound a warning about impending food shortages or poor food quality, particularly in developing countries. Plant pathologists are also developing new types of resistance in host plants and alternative strategies for managing plant diseases. These measures should improve food quality and reduce the negative public health impact associated with plant diseases.
- Whetzel HH. The relation of plant pathology to human affairs. Mayo Foundation Lectures 1926-1927. Philadelphia: W.B. Saunders Co.; 1928. p. 151-78.
- Hudler GW. Magical mushrooms, mischievous molds. Princeton: Princeton University Press; 1998.
- Woodham-Smith C. The great hunger: Ireland 1845-1849. New York: Old Town Books; 1962.
- Schumann GL. Plant diseases: their biology and social impact. St. Paul: American Phytopathological Society Press; 1993.
- Goodwin SB, Smart CD, Sandrock RW, Deahl KL, Punja ZK, Fry WE. Genetic change within populations of Phytopthora infestans in the United States and Canada during 1994 to 1996—role of migration and recombination. Phytopathology. 1998;88:939–49.
- Prins M, Goldbach R. The emerging problem of tospovirus infection and nonconventional methods of control. Trends Microbiol. 1998;6:31–5.
- Matossian MK. Poisons of the past: molds, epidemics, and history. New Haven: Yale University Press; 1989.
- Bandyopadhyay R, Frederickson DE, McLaren NW, Odvody GN, Ryley MJ. Ergot: a new disease threat to sorghum in the Americas and Australia. Plant Dis. 1998;82:356–67.
- Holmes A, Govan J, Goldstein R. Agricultural use of Burkholderia (Pseudomonas) cepacia: a threat to human health? Emerg Infect Dis. 1998;4:221–7.
- Park JL. Burkholderia cepacia: friend or foe? 1998. Available from: URL: http://www.scisoc.org/feature/BurkholderiaCepacia/
- King EB, Parke JL. Population density of the biocontrol agent Burkholderia cepacia AMMDR1 on four pea cultivars. Soil Biol Biochem. 1996;28:307–12.
- Texas Veterinary Diagnostic Medical Laboratory. Epidemiol Bull 1998. Available from: URL: http://www.tvmdl.tamu.edu/.
Suggested citation; Scholthof K-BG. Plant Pathology and Public Health [letter]. Emerg Infect Dis [serial on the Internet]. 1999, Aug [date cited]. Available from http://wwwnc.cdc.gov/eid/article/5/4/99-0432.htm