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Heads of Laboratories

Head shot of Joel Cohen
Joel E. Cohen, Ph.D., Dr.P.H.
Abby Rockefeller Mauzé Professor
Laboratory of Populations
Joel.Cohen@rockefeller.edu

Living populations have “ensemble properties,” such as birth rates, death rates, and growth rates, that are not characteristics of any individual. Cohen develops concepts helpful for understanding ensemble properties of human and non-human populations, and tests these concepts in applications to human fertility, mortality, and migration; farms, fisheries, forests, weather patterns, and wildlife; infectious diseases; and food webs.

The human species is a node in a network of feeding relationships, known as a “food web,” with thousands of other species. Species that humans eat are conventionally studied as part of agriculture. Species that eat humans, which are mainly the agents or vectors of infectious diseases, are studied in epidemiology. Humans, the species humans eat, and the species that eat humans are nodes in a global food web, studied in ecology. The global food web includes many species not directly linked to humans by feeding and strongly interacts with the physical and chemical environment.

Cohen and his colleagues aim to offer insights that can help manage the global food web for the well-being of humans and other species. They combine the perspectives of demography, agriculture, epidemiology, ecology, and environmental sciences. Their work uses concrete problems to motivate the development of new concepts for understanding populations and aims to crystallize these concepts into mathematical, statistical, and computational tools applicable to scientific and practical problems.

For example, Cohen and colleagues study Chagas disease (also called American trypanosomiasis), an insect-borne chronic infectious disease that affects children in Latin America and eventually kills many young adults in their prime years of work and family rearing. No vaccine is currently available to prevent infection because the affected people are poor and commercial incentives to develop a vaccine are weak. Also, the drugs available for treatment are toxic. Cohen collaborates with Argentine colleagues who conduct field studies of Chagas disease to understand the ecology of disease transmission within and among households in poor rural villages in northwest Argentina. Based on data from these field studies, they develop mathematical models of the relations among humans; domestic animals like dogs, cats, chickens, and goats; the insects that transmit infection; and the trypanosome that causes disease. Their findings lead to specific recommendations of low-technology, low-cost interventions to prevent infection of people at risk.

Cohen’s lab also views weather patterns as a population. Cohen and colleagues showed recently that severe tornado outbreaks have become more common over time, not necessarily because of a changing climate. Both the average and variance of tornadoes per outbreak increased during the last half century, suggesting that outbreaks with an extreme number of tornadoes are more likely in the future. The relationship between the average and variance in this case follows a power law known in population ecology as Taylor’s law.

This same power-law relation of variance to mean occurs not only in ecology, but also under other names in other fields of science, and has provided insights into many systems. Cohen and colleagues are studying Taylor’s law theoretically and empirically in bacteria, trees, fish, voles, humans, and other species, including the insects that transmit Chagas disease, and are exploring its practical applications to sampling, projection, and management.


EDUCATION

A.B. in applied mathematics, 1965
A.M. in applied mathematics, 1967
Ph.D. in applied mathematics, 1970
M.P.H., 1970
Dr.P.H., 1973 
Harvard University

POSITIONS

Assistant Professor, 1971–1972
Associate Professor, 1972–1975
Harvard University

Professor, 1975–
The Rockefeller University

Professor, 1995–
Columbia University

AWARDS

MacArthur Fellow, 1981

Fred L. Soper Award, Pan American Health and Education Foundation, 1997

Tyler Prize, University of Southern California, 1999

MEMBERSHIPS

National Academy of Sciences
American Academy of Arts and Sciences
American Philosophical Society
Fellow, American Association for the Advancement of Science

SELECTED PUBLICATIONS

Cohen, J.E. et al. Linking parasite populations in hosts to parasite populations in space through Taylor's law and the negative binomial distribution. Proc. Natl. Acad. Sci. U.S.A. 114, E47–E56 (2017).

Xu, M. et al. Evaluating multi-regional population projections with Taylor's law of mean–variance scaling and its generalisation. J Popul Res 34, 79–99 (2017).

Tippett, M.K., and Cohen, J.E. Tornado outbreak variability follows Taylor’s power law of fluctuation scaling and increases dramatically with severity. Nat Commun 7, 10668 (2016).

Cohen, J.E. Statistics of primes (and probably twin primes) satisfy Taylor's law from ecology. Am Stat 70, 399–404 (2016).

Tippett, M.K. et al. More tornadoes in the most extreme U.S. tornado outbreaks. Science 354, 1419–1423 (2016).


Dr. Cohen is a faculty member in the David Rockefeller Graduate Program and the Tri-Institutional M.D.-Ph.D. Program.