Lakota professor to tackle wastewater pollution, mentor minority populations

January 21, 2016

After five years at the University of Utah, Otakuye Conroy-Ben has returned to the state where she became the first Lakota to earn a doctorate in engineering.

As an assistant professor of civil, environmental and sustainable engineering at Arizona State University, her research interests surround water and wastewater treatment and reuse — ranging from understanding what pollutants exist in wastewater to what adverse effects they have and why they sometimes survive treatment efforts. Otakuye Conroy-Ben Otakuye Conroy-Ben Download Full Image

This is the first year at ASU for Conroy-Ben (whose first name is pronounced "Oh-TOCK-oo-yay"). She earned two master’s degrees and a PhD from the University of Arizona, where her doctoral research focused on studying endocrine changes caused by human hormones in wastewater. She also earned a bachelor’s degree in chemistry from the University of Notre Dame.

After her doctoral studies, she worked as a project engineer at the Sanitation Districts of Los Angeles County, where she studied odor control in wastewater treatment systems.

She returned to academia with a postdoctoral co-appointment at the University of Arizona, where she studied metal and drug-resistant bacteria.

In 2009, she was a research fellow at the National Congress of American Indians, where she evaluated climate and renewable-energy policy and adaptation affecting tribal nations.

Advancing research in wastewater pollutants

Conroy-Ben's research quantifying organic pollutants found in sewage and wastewater-impacted water that have been proven to have adverse effects on animals, including the feminization of male fish. Disturbingly, sometimes these pollutants (a new class of androgens that her team discovered) have been detected at low levels in drinking water, Conroy-Ben said.

Another project looked at understanding a specific community’s drug usage or abuse trends by using sewage as a dilute urine sample.

Focused on Salt Lake County, she was able to identify that prescription pain medications were more prevalent in affluent suburbs, while methamphetamine abuse was inversely proportional to neighborhoods where the population lacks educational training.

As a faculty member in the Ira A. Fulton Schools of Engineering at ASU, Conroy-Ben aims to build on these efforts by starting a research lab that allows certified work with bacteria and controlled substances.

Mentoring minority populations

Conroy-Ben has a passion for working with Native American and female students to build their presence in engineering.

She was born on the Pine Ridge Indian Reservation in South Dakota, annually one of the most impoverished places in the United States.

In high school, a physics teacher exposed her to the American Indian Science and Engineering Society (AISES), which helped her to channel her prowess in mathematics toward engineering. Decades later she became an officer on AISES’ Board of Directors.

While an undergraduate at the University of Notre Dame, Conroy-Ben did not encounter a single female or minority faculty member in her science curriculum and had no female faculty members in her environmental engineering doctoral program. 

“Female faculty and faculty of color in STEM are severely lacking at institutions of higher education across the country,” Conroy-Ben said. “In addition to an excellent environmental engineering program and faculty, I came to ASU because of the opportunities to work with under-represented students in STEM." 

Conroy-Ben found her way to academic success regardless, but she says working with a female or minority mentor would have made the path to success easier.

“I want to continue to mentor students who want an excellent research experience and are willing to work hard,” Conroy-Ben said.

She is married to Colin Ben, a researcher in ASU’s Center for Indian Education and a doctoral student in Educational Leadership and Policy at the University of Utah.

Rose Gochnour Serago

Communications Program Coordinator, Ira A. Fulton Schools of Engineering

ASU Insight: Hot or not? A Huddler's Dilemma

Hot or not? A Huddler's Dilemma

January 21, 2016

David Haig - Professor of Biology
Harvard University
Hot or not? The huddler’s dilemma
Huddling for warmth is a simple cooperative behavior. Heat generation within a huddle is a public good with a private cost. Therefore, cooperators are potentially vulnerable to exploitation by free-riders. Behavioral studies in penguins, marmots, rats, and mice illustrate the benefits of huddling and the temptation to defect. Effects of imprinted genes in brown adipose tissue suggest that non-shivering thermogenesis has been an arena for intragenomic conflict.
Dr. David Haig is a George Putnam Professor of Organismic and Evolutionary Biology at Harvard University. His research is focused on maternal-fetal conflict in human pregnancy, plant  life-cycles, genetic conflicts within individual organisms, and genomic imprinting. Haig received his Ph.D. from Macquarie University in 1989. He is the author of many works including  Genomic imprinting and kinship (2002), The huddler’s dilemma: a cold shoulder or a warm inner glow (2010), and a contributing author of Evolution in health and disease (2007). David Haig, Harvard biology, Arizona State University, Biodesign Institute David Haig, Professor of Biology at Harvard University presents "Hot or not? A Huddler's Dilemma" at Arizona State University's Biodesign Institute Download Full Image

Ken Fagan

Videographer, ASU Now