Cynthia Beall


Cynthia Beall is an American physical anthropologist at the Case Western Reserve University, Cleveland, Ohio. Four decades of her research on people living in extremely high mountains became the frontier in understanding human evolution and high-altitude adaptation. Her groundbreaking works among the Andean, Tibetan and East African highlanders are the basis of our knowledge on adaptation to hypoxic condition and how it influences the evolutionary selection in modern humans. She is currently the Distinguished University Professor, and member of the U.S. National Academy of Sciences and the American Philosophical Society.

Education

Cynthia M. Beall completed a BA in biology from the University of Pennsylvania in 1970. She entered Pennsylvania State University to obtain MA in anthropology in 1972, and PhD in anthropology in 1976.

Career

She joined the faculty of the Department of Anthropology at the Case Western Reserve University as Assistant Professor in 1976. She became an Associate Professor in 1982 and a full Professor in 1987. She was designated the S. Idell Pyle Professor of Anthropology 1994, and the Distinguished University Professor in 2010.
She had served as President-elect, President, and Past-President of the Human Biology Council from 1991 to 1995. She was the Chair-elect of the Section on Anthropology of the American Association for the Advancement of Science in 1995 and 2010. She was the Chair of Section 51 Anthropology, Councilor, and Chair of Nominating Committee of the US National Academy of Sciences. She hold the Chair of the US National Committee for the International Union of Biological Sciences.

Research

Cynthia Beall is the leading scientist in the study of high-altitude adaptation in humans, particularly in places where there is little air to breathe. Among the Tibetans the first thing that she discovered was that they could live at high levels without having high hemoglobin concentrations or large chests, they had high birth-weighted babies, and no complications of mountain sickness. Unlike most humans who migrate to high altitude, the Tibetans do not exhibit the elevated haemoglobin concentrations to cope up with oxygen deficiency, but they inhale more air with each breath and breathe more rapidly, and retain this unusual breathing and elevated lung-capacity throughout their lifetime. Their high levels of nitric oxide in the blood increase their blood vessels to dilate for enhanced blood circulation. An astonishing discovery of Beall is the convergent evolution in humans from her studies on other highlanders such as the Amhara in the high-plateau regions of northwest Ethiopia, the Omro people in the southwest Ethiopia, and the Aymara of the American Andes. She found that these groups had adapted to low oxygen environment very differently from the Tibetans. Physiological conditions such as resting ventilation, hypoxic ventilatory response, oxygen saturation, and haemoglobin concentration are significantly different between the Tibetans and the Aymaras. The Amharans exhibit elevated haemoglobin levels, like Andeans and lowlander peoples at high altitudes, while the Andeans have increased haemoglobin level like normal people in the highlands. All these observations show that different people adapted to high altitude in different genetic and physiological responses.

Awards and honors