Scott has served as WNC’s Accreditation Liaison Officer with NWCCU since 2017 and as an NWCCU evaluator since 2015. Scott’s recent accomplishments include partnering with colleagues and communities on dual credit to build WNC’s Jump Start College Program, expanding cohorts to support underserved populations, revising WNC’s learning outcomes and assessment practices to align with institutional goals, and helping to lead a full revision of the Western’s strategic plan.
M. Rashed Khan
Khan Lab@UNR aims to study, design, and develop soft materials, unconventional processes, and reconfigurable micro/nanodevices that can be harnessed and optimized further for advanced biochemical, biomedical, and physicochemical applications. The lab is also keen to establish a multidisciplinary smart-manufacturing research group, including researchers from various backgrounds. Through short and long-term active collaboration, Khan Lab@UNR would like to address fundamental challenges associated with soft micro-device fabrication, 3D/4D (bio)printing, and patterning, advanced hybrid sensor manufacturing, biomedical device development – which are still unnoticed and under-explored, and need further investigation.
Additionally, our group also focuses on computational neuroscience and neurobioengineering. Under this research direction, we study human brain, brain functions, brain structure so that the established knowledge can be broadly applicable to general biomecical science and knowledge of the brain and brain-diseases.
Jenny Ouyang
How do some individuals in the same population raise ten offspring while others only have one? How do some individuals survive cold winters and breed again while others do not live past their first winter? Our lab is interested in the ecology and evolution of physiological systems. To answer the questions above, we empirically test, in natural and laboratory populations, how, and at what rate, physiologically-regulated traits can evolve and enable organismal adaptation to changing environmental conditions.
Lance Hellman
My research focuses primarily at probing the affects of amino acid perturbation on the overall tertiary structure. We use O6-alkylguanine-DNA alkyltranferase (AGT) as our model protein. AGT is a small DNA repair protein that remove alkylations on guanine and thymine residues. My lab uses structure guided design to alter the tertiary structure of AGT and measure the biothermodynamic affects of these mutations. We are interested in how these mutations affect the global stability of AGT by differential scanning fluorimetry. We also probe how these mutations affect AGT’s ability to bind in a cooperative manner by gel shift assays and fluorescence anisotropy techniques.
El Hachemi Bouali
I am an applied geologist by training and an opportunistic scientist in practice, meaning I love geology but am interested in many areas of the natural sciences. I can abbreviate my research focus with the acronym GASP: geophysical and surface processes.
Geophysical Processes. I use geophysical and remote sensing instruments to study changes on the Earth’s surface and within the shallow subsurface. I will be starting a research project (early 2023) on utilizing passive seismic methods to map bedrock depth (or sediment thickness) as an indirect approach to identify buried faults and to study extensional tectonics of the Las Vegas valley.
Surface Processes. I use an interdisciplinary approach to study our dynamic Earth. A major research project I am currently working on (2021-future) is titled Analyses of spring water chemistry and microbiology in the Spring Mountains, Nevada. I use field and laboratory methods across multiple disciplines (geology, biology, and chemistry) to quantify physical properties of high-elevation springs and analyze microbial communities found in these springs.
I teach courses that are required or electives for the BS in Environmental & Resource Science and BS in Biology. I teach the following courses at Nevada State:
–GEOL 101A/L Exploring Planet Earth Lecture and Lab
–GEOL 333 Principles of Geomorphology
–GEOL 405 Geology of the National Parks
–NRES 322 Soils
–NRES 467 Regional and Global Issues in Environmental Science
–BIOL/ENV 494 Biology and Environmental Science Colloquium
I received a Ph.D. in Geology from Michigan Technological University, an MS in Geosciences and BS in Geophysics from Western Michigan University, and an AS from Kalamazoo Valley Community College. I was the Postdoctoral Fellow in Environmental Science at Trinity College (Hartford, CT) and a NASA Earth and Space Science Fellow while earning my Ph.D. I have also worked as a Geological Mapping Technician for two summers at Pictured Rocks National Lakeshore in the Upper Peninsula of Michigan where I assisted with the creation of ten surficial geology quadrangle maps by acquiring near-surface geophysical data and auger samples.
Douglas Sims
Douglas Sims is Dean, School of Science, Engineering, and Mathematics at the College of Southern Nevada. He leads a school of more than 280 staff (FT and PT) serving 18000+ students. His focus is in sediments, geochemistry, environmental chemistry, and paleohydrology in the Southern Great Basin and Mojave Desert. Current projects are paleohydrology of desert playas, trace metals scavenging by rock varnish, surface water quality, and sediment migration and transport of trace metals in agricultural soils.
Andrew Zuza
I am a field-based structural geologist that studies how the Earth’s continental crust deforms. My research primarily involves detailed field mapping coupled with quantitative analyses, such as mineral/rock dating, examination of rocks in microscopes, and geochemical analyses.
Donald Price
A major theme in my research is to understand how species adapt to diverse environmental and biological factors and diverge into new species. The evolutionary changes that permit species to survive and reproduce across a wide range of environments has resulted in a remarkable range of biological complexity.
My research group studies the interplay of behavior, ecology, genetics, and physiology to determine how species adapt to environmental changes and how diversification of populations leads eventually to the formation of new species. One focus of my group is the amazing Hawaiian Drosophila, which boasts up to 1,000 species in several taxonomic groups. Using genome sequencing and gene expression analyses coupled with detailed behavioral and physiological measurements we have identified genes that are involved in temperature adaptation between two species and between two populations within one species along an environmental gradient. We have also identified genes and epicuticular hydrocarbons that are involved in behavioral reproductive isolation and hybrid sterility between species. Initial studies have begun on the interaction with microbes, (bacteria and yeasts) that are important for food, internal parasites/symbionts, and possibly host-plant associations. In collaboration with others, we are also investigating the genetics of Hawaiian bats and birds, Drosophila melanogaster, the invasive Drosophila suzukii, and Hawaiian Metrosideros trees.
Ehsan Vahidi
Dr. Ehsan Vahidi is an interdisciplinary researcher who has crossed traditional boundaries between metallurgical engineering and sustainability sciences. His research takes fundamental environmental engineering and translates this into applied settings, primarily in the mining and metallurgical industries. Dr. Vahidi received his B.Sc. and M.Sc. degrees in Materials and Metallurgical Engineering from Sharif University of Technology and the University of Tehran, respectively. After earning his second master’s degree in Environmental Engineering from the University of South Florida, he obtained his Ph.D. from Purdue University in Environmental & Ecological Engineering. Prior to joining UNR as an Assistant Professor in 2020, Dr. Vahidi was a Postdoctoral Associate at Massachusetts Institute of Technology.
Bernhard Bach
I am involved in the support and development of various research programs. At the Nevada Terawatt Facility I am involved in the development of optical and x-ray diagnostics for two research programs. As a Co-Pi for the American Climber Science program I am involved with the development of optical instrumentation for field measurements of snow and ice.
Prior to my employment as Undergraduate Lab Director at the University of Nevada, I was owner and/or founder of two optical manufacturing firms. As a business owner I worked closely with various university research programs as well as foreign (ESA, DESY) and national laboratories (NASA, NIST, LBL, etc.). Optics that I have had a hand in designing and or fabricating have seen use in space flight programs –– Scimachy, Venus Express Missions and the James Webb Telescope, for example ––and in synchrotron beamlines, SRC, ALS, NSLS and DESY. . I still maintain close ties with industry, consulting with aerospace firms developing optical elements for space flight and aiding high-tech firms in developing novel optical instrumentation. From 2004-2005 I sat on the industrial advisory board for NSF’s Engineering Research Center For Extreme Ultraviolet Science and Technology’s