Dickson D. Despommier, Ph.D.,
Professor of Public Health in Environmental Health Sciences
(and Microbiology)

I am a microbiologist/ecologist by training, and for 27 years I conducted laboratory-based research on molecular aspects of intracellular parasitism funded by NIH. I also teach courses in the medical school and in our school of public health (e.g., Parasitic Diseases; Medical Ecology; Ecology 101). Many of them deal with parasitism and its effects on large segments of the poor that live in the tropics. Controlling soil-based transmission cycles of helminthes that cause significant health problems throughout the world is of prime importance to me. I so left the lab in favor of working on more globally relevant projects that address some these important problems. Since it is generally agreed agriculture is solely responsible for so much environmental disturbance and serves as the interface for the transmission of geohelminths, one area of focus of mine has been on how to raise food without further encroachment into natural ecosystems. I have established The Vertical Farm (see:www.verticalfarm.com) as a theoretical construct to look at the possibility of agricultural sustainability within cities. The idea grew out of a class project to measure the effects of rooftop gardening in New York City on reducing the dome of heat that develops over us each year. From that original idea, I expanded the concept to include urban agriculture and finally to multi-story indoor farming. I have given this project to my students in my course, "Medical Ecology" (see: www.medicalecology.org), and each year they have added more and more detail to the original framework. In 2003, I participated in a studio in the School of Architecture with Dr. Richard Plunz and his students, in which the vertical farm figured as a main feature of urban planning and design schemes to rehabilitate the Gowanus Canal district of Brooklyn. It was quite successful and continues to be one of the more popular studios. Sustainable urban life is now a major interest of mine. Inventing new approaches to the raising of food within the confines of a large urban center is bound to be fraught with hidden pitfalls and caveats when starting out, particularly those of a technical and economic nature. However, I firmly believe that with enough input from multiple disciplines (e.g., industrial and soil microbiology, engineering, public health, policy making, urban planning, architecture, agronomy, plant genetics, economics), vertical farming could become a reality and thus replace most of what now passes for agriculture in many parts of the developed and under-developed world. If this were to come about, large tracts of land could then be returned to nature to do what it was supposed to do for us before we eliminated the hardwood forests of the eastern states. Restoring ecosystem services and functions is what I envision as the charge to the next generation of public health professionals.

For more information also visit these sites:

www.trichinella.org, www.cffcm.org

Publications:

Capo, V, and DD Despommier, 1996. Clinical aspects of infection with Trichinella spp. Clinical Microbiol. Reviews 9: 47-54.

Vassilatis, DK, Despommier, DD, Polvere, RI, Gold, AM, and Van der Ploeg, LHT. Trichinella Pseudospiralis secretes a protein related to the Trichinella spiralis 43-kDa glycoprotein. Mol. Biochem. Parasitol. 78 (1-2) :25-31, 1996.

Vassilatis, DK, Polvere, RI, Despommier, DD, Gold, AM, and Van der Ploeg, LHT. 1996. Developmental expression of a 43-KDa secreted glycoprotein from Trichinella spiralis. Mol. Biochem. Parasitol. 78 (1-2): 13-23, 1996.

Polvere, RI, Kabbash, CA, Capo, VA, Kadan, I. and Despommier, DD. Trichinella spiralis: synthesis of type IV and type VI collagen during nurse cell formation. Exp. Parasitol. 86:191-199, 1997.

Capo, V, Despommier, DD, and Polvere, RI. Trichinella spiralis: vascular endothelial growth factor is induced within the Nurse cell during its early phase of development. J. Parasitol. 1998 in press.