Jeffery R. Stone

Assistant Professor of Geology

Ph.D., University of Nebraska-Lincoln

Phone: 812-237-2249

E-mail: Jeffery.Stone@indstate.edu

Office: Science Building 159Q

 

 

 

   

 

Course Instruction: Introduction to Environmental Science (ENVI 110), Earth Science (170/170L), Water and Environmental Health (ENVI 356), Introduction to Field Geology (ENVI 389), Introduction to Hydrology (ENVI 454/554), Lakes and Wetlands (ENVI 456/556), Stratigraphy & Sedimentation (ENVI 475/575), Large Lake Systems (GEOL 661), Advanced Limnology (GEOL 661), Data Analysis in Earth and Environmental Sciences (GEOL 661) Holocene Paleoecology of the Rocky Mountains (GEOL 664) Advanced Topics in Earth and Quaternary Science (GEOL 690)

Course Instruction: Limnology & Paleolimnology, Freshwater Diatom Ecology and Paleoecology, Diatom Taxonomy, Pleistocene Paleoclimatology, East African Rift Lakes, Rocky Mountains, Drought History Reconstruction, Pollution of Indiana Lakes and Streams

 Research Profile:

My research addresses questions about long-term environmental variation. I am particularly interested in the response of ecosystems and aquatic organisms to climate change. I explore this by integrating stratigraphic lake core studies, modeling, and coupling my research with modern ecological experiments to understand pattern of lake response to climate in space and time. I research topics that cover a range of time scales, from millennial to seasonal, in modern environments and throughout the Quaternary.

I specialize in the analysis of fossil diatom assemblages, using paleoecological relationships to reconstruct past lake environments. This research is naturally interdisciplinary and requires a curiosity about climate processes, ranging from large-scale ocean-atmospheric interactions to regional anomalies that impact lakes. I often complement my stratigraphic investigations with studies of modern lake and river systems as an analog for patterns observed in fossil assemblages and conversely reconstruct changes in the natural variability over intermediate time scales to provide a baseline context for changes in modern lake communities that may be impacted by human development or recent climate change.

SELECTED PUBLICATIONS

Stone JR, Fritz SC, 2013, Chapter 11.6 - Lake level studies: North America, Encyclopedia of Quaternary Sciences (2nd Edition).

Johnson BG, Jiménez-Moreno G, Eppes MC, Diemer J, Stone JR, 2013, Evidence of increasing Holocene climate variability related to ENSO strength from a post-glacial sub-alpine bog core in the southeastern San Juan Mountains of Colorado, The Holocene doi: 10.1177/0959683613479682.

Saros JE, Stone JR, Pederson GT, Slemmons KEH, Spanbauer TL, Schliep A, Cahl D, Williamson CE, Engstrom DR, 2012, Climate-induced changes in lake ecosystem structure inferred from coupled neo- and paleo-ecological approaches, Ecology 93: 2155–2164.

Whitlock C, Dean WE, Fritz SC, Stevens LR, Stone JR, Power MJ, Rosenbaum JR, Pierce KL, Bracht-Flyr BB, 2012, Holocene seasonal variability inferred from multiple proxy records from Crevice Lake, Yellowstone National Park, USA. Palaeogeography, Palaeoclimatology, Palaeoecology. 331-332: 90–103.

Fischer J, Olson M, Williamson CE, Everhart J, Hogan P, Mack J, Rose K, Saros JE, Stone JR, Vinebrooke R, 2011, Implications of climate change for Daphnia in alpine lakes: predictions from long-term dynamics, spatial distribution, and a short-term experiment, Hydrobiologia, Volume 676, p. 263–277.

Hobbs WO, Fritz SC, Stone JR, Donovan JJ, Grimm EC, Almendinger JE, 2011, Environmental history of a closed-basin lake in the US Great Plains: diatom response to variations in groundwater flow regimes over the last 8500 cal yrs BP, The Holocene, Volume 21, p. 1203–1216.

Stone JR, Westover KS, Cohen AS, 2011, Late Pleistocene diatom paleoecology of central Lake Malawi, Africa, Palaeogeography, Palaeoclimatology, Palaeoecology, Volume 303, p. 51–70.

Wolin JA, Stone JR, 2010, Diatoms as indicators of water-level change in freshwater lakes, in E. F. Stoermer and J. P. Smol (Eds.), The Diatoms: Applications for the Environmental and Earth Sciences (2nd edition). Cambridge University Press, p. 174–185.

Saros JE, Rose KC, Clow DW, Stephens VC, Nurse AB, Arnett HA, Stone JR, Williamson CE, Wolfe AP, 2010, Melting alpine glaciers enrich high-elevation lakes with reactive nitrogen, Environmental Science & Technology, Volume 44, 4891–4896.

Shuman B, Henderson A, Colman SM, Stone JR, Fritz SC, Stevens LR, Power MJ, Whitlock C, 2009, Holocene lake-Level trends in the Rocky Mountains, U.S.A., Quaternary Science Reviews, Volume 28, p. 1861–1879.

Bracht BB, Stone JR, Fritz SC, 2008, A diatom record of late Holocene climate variation in the Northern Range of Yellowstone National Park, USA, Quaternary International, Volume 188, p. 149–155.

Cohen AS, Stone JR, Beuning KRM, Park LE, Reinthal PN, Dettman D, Scholz CA, Johnson TC, King JW, Talbot MR, Brown ET, Ivory SJ, 2007, Ecological consequences of early Late-Pleistocene megadroughts in tropical Africa, Proceedings of the National Academy of Sciences, Volume 104, p. 16422–16427.

Stone JR, 2007, Using diatoms as ecological and paleoecological indicators in riverine environments, in S. Starratt (Ed.), Pond Scum to Carbon Sink: Geological and Environmental Applications of the Diatoms, Paleontological Society Short Course, October 27, 2007. Paleontological Society Papers, Volume 13, p. 24–33.

Stone, J.R., & Fritz, S.C., 2006, Multi-decadal drought and Holocene climate instability in the Rocky Mountains, Geology, Volume 34, p. 409–412.

Stevens LR, Stone JR, Campbell J, Fritz SC, 2006, A 2200-yr record of hydrologic variability from Foy Lake, MT inferred from diatom and geochemical data, Quaternary Research, Volume 65, p. 264–274.

Stone JR, Fritz SC, 2004, Three-dimensional modeling of lacustrine diatom habitat areas: improving paleolimnological interpretation of planktic:benthic ratios, Limnology & Oceanography, Volume 49, p. 1540–1548.