Department of Geosciences

School of Natural Sciences and Mathematics

Faculty and Research

Nathan R. Miller

Research Scientist

Education

B.A., Geology, The College of Wooster, 1982
M.S., Geology, Bowling Green State University, 1985
Ph.D., Geochemistry, The University of Texas at Dallas, 1995
Certificate in GIS, The University of Texas at Dallas, 2002

Overview

My principal research interests lie in the fields of global change and sedimentary geochemistry as applied to modern and ancient depositional settings.  I am particularly interested in the organic-rich sequences in space and time, and the impact of life processes (including anthropogenic effects) on the stratigraphic record.

Research Interests

Related research areas include chronostratigraphy, diagenesis, paleoceanography, and evolution of petroleum source rock systems. I utilize geochemical, isotopic, and GIS techniques in addition to good old-fashioned field geology and petrography. Three projects of current research are: (1) regional study of Neoproterozoic climate change in Northern Ethiopia and its relationship to the Snowball Earth Hypothesis, (2) use of isotopic tracers in defining natural solute contaminants in the Red River system, and (3) origin of microbial dolomite in organic rich depositional settings. Global climate change in coming decades and its implications (environmental and economic) for Earth inhabitants is a topic of growing importance. I believe Earthıs history of natural climatic transitions and lifeıs responses provide important perspectives for what the future might hold. Rational scientific reasoning, featuring geoscientific knowledge of Earthıs interconnected natural systems, must inevitably play a more integral role in domestic and economic policy. Articulation of scientifically valid viewpoints is an overarching goal of my classes.

Publications:

Stern, R.J., Avigad, D., Miller, N.R., and Beyth, M. Geological Society of Africa Presidential Review: Evidence for the Snowball Earth hypothesis in the Arabian-Nubian Shield and the East African orogen. Journal of African Earth Sciences. 44 (2006) 1-20.

Avigad, D., Sandler, A., Kolodner, K., Stern, RJ, McWilliams, MO, Miller, N., Beyth, M., (2005). Mass-production of Cambrian quartz-rich sandstone as a consequence of chemical weathering of Pan-African orogens: implications for global environment. Earth and Planetary Science Letters 240, 818-826.

Katz, O., Beyth, M., Miller, N., Stern, R., Avigad, D., Basu, A. and Anbar, A., 2004, A Late Neoproterozoic (~630Ma) high-magnesium andesite suite from southern Israel: implications for the consolidation of Gondwanaland. Earth and Planetary Science Letters, v. 6921, p. 1-16.

Miller, N.R., Alene, M., Sacchi, R. Stern, R.J., Conti, A., Kröner, A., and Zuppi, G., 2003, Significance of the Tambien Group (Tigrai, N. Ethiopia) for Snowball Earth Events in the Arabian-Nubian Shield: Precambrian Research, v. 121, p. 263-283.

Denison, R.E., Miller, N.R., Scott, R., and Reaser, D., 2003, Strontium isotope stratigraphy of the Comanchean Series in North Texas: Geological Society of America Bulletin, v. 115, p. 669-682.

Leybourne, MI., Cameron, E.M., and Miller, N., 2001, Camiro Deep-Penetrating Geochemistry, Phase II: Composition of groundwaters at the Spence deposit: Part C – Results of 2000 sampling and Sr isotope analyses.

  • Updated: July 11, 2006