Dr. Sudeep Chandra is an Associate Professor, Biology at the University of Nevada, Reno. His laboratory conducts limnological studies related to the restoration or conservation of aquatic ecosystems. His projects include recovering native species, managing nonnative species, understanding the affects of land use change (mining, urbanization, etc) on water quality, and developing natural resource management & conservation plans for the world’s largest, freshwater fishes. We recognize that science is critical in developing longer-term, sustainable public policy.
Franco Biondi
Prof. Franco Biondi received a Laurea (Italian Doctorate) in forestry from the Università di Firenze in 1985, and a Ph.D. in watershed management and geosciences from the University of Arizona, Tucson in 1994. He is now a Professor in the Department of Geography at the University of Nevada, Reno, where he is also the DendroLab Director, and a member of three interdisciplinary graduate programs: Environmental Sciences, Hydrologic Sciences, and Ecology, Evolution, and Conservation Biology.
Together with his students and colleagues, he has conducted research projects in North America and Italy. He has received funding from the National Science Foundation (including a CAREER award in 2002-2008 and an EAGER award in 2012-2014), the National Oceanic and Atmospheric Administration, the Bureau of Land Management, and the National Geographic Society.
John “Jay” Arnone
My research focuses primarily on understanding the effects of global environmental change (a.k.a. “climate change”) on the functioning and structure of terrestrial ecosystems, and deciphering the underlying ecological mechanisms driving the responses. This includes the study of how rising atmospheric CO2, changes in ambient temperature, interannual climate variability (e.g. anomalously warm years or heat waves), reductions in biological diversity, and large periodic disturbances (e.g. wildfire) affect plant physiological processes, plant growth and survival, plant populations and plant communities, as well as ecosystem processes and feedbacks. Although my interests in ecology are broad, I am particularly keen on understanding how belowground processes are impacted by changing ambient environmental conditions (e.g. fine root dynamics, activity of soil fauna, soil hydrology and root biology). I attempt to bridge traditional ecological disciplines and seek out collaboration with scientists from other disciplines to address these wider-ranging ecological questions.
My research group and I also apply our expertise to directly address real-world environmental questions and challenges for clients such as the U.S. Department of the Interior, Southern Nevada Water Authority, Sempra Energy, American Vanadium, Washoe County Air Quality Management, U.S. Bureau of Reclamation, and the Gas Technology Institute.
Marjorie Matocq
Projects in her lab focus on studying patterns of geographic population genetic structure and the processes underlying such patterns. Because the current geographic distribution of genetic diversity is determined by a complex interplay of ecology, demography, and population history, the studies are performed at various spatial and temporal scales. To study the processes underlying patterns of genetic diversity and subdivision, we combine modern molecular genetic techniques with morphological and field studies.
Dr. Matocq’s research program is focused on a number of ecological and evolutionary questions at the interface of intra- and interspecific processes. Her research program is heavily collections-based and integrates traditional field and morphological data with molecular and genomic methods to elucidate pattern and process at several spatial and temporal scales. The majority of her work continues to focus on members of the Neotoma fuscipes species complex.
Mark Walker
Dr. Walker’s research supports exposure assessment as a part of risk assessment associated with human health protection. I have conducted studies of exposure and potential for exposure to: Arsenic in private water supplies; E. coli, as an indicator of fecal contamination in water; Leptospira, as a result of changes in land use in Hawaii; and Cryptosporidium. His extension work provides technical support and information through: Water supply operators throughout Nevada; using an innovative partnership and distance learning technologies; Web sites that help interpret water quality and have served as models for at least two national efforts; Peer-reviewed fact sheets and special publications and newsletters; and small grants programs for Extension Educators.
Thomas Albright
Thomas Albright employs landscape ecological and biogeographic perspectives to understand the causes and consequences of environmental change at local to global scales. His work has examined the role of climate and human dispersal in the spread of invasive plants in the US and China, the effects of extreme weather and disturbance on avian communities across the US, and the rate and patterns of land cover change and desertification in the West African Sahel. In his research and teaching, Dr. Albright employs a variety of remote sensing platforms, field data, GIS, spatial analysis, and hierarchical modeling. His remote sensing work has included inventories of glacier cover in the Himalaya using synthetic aperture radar, documenting the rise and fall of the world’s largest water hyacinth infestation in East Africa, and characterizing heat waves using thermal remote sensing. Dr. Albright has a long history of international research, applications, and teaching from over 15 countries and speaks French and Spanish proficiently.