IGERT Courses
First Year Course Framework
Communication across disciplines requires a common language and appreciation for the other fields. Graduate students
will be recruited from core disciplines and thus need preparation to effectively communicate across disciplinary
boundaries. For instance, incoming graduate students in the life sciences often have a good understanding of biological
processes but lack quantitative skills and knowledge in physical processes; whereas the reverse is often true for
engineering students. To equip students with the skills to contribute new knowledge within our research themes and to
bridge intellectual differences, a one-year, comprehensive, team-taught course will immerse all first year students to the
participating scientific core disciplines. The course will integrate physical, chemical, geomorphological, and biological
processes in a common theoretical framework. It will lead students through data collection at different spatial scales to
analysis and model building. Data collection will be supported through instrumentation that will allow studies ranging
from the microscopic examination of trace elements and microorganisms to the field scale examination of chemical
transport processes and vegetation patterns across the landscape. Case studies will complement the conceptual framework.
An integral part will be collaborative projects that will culminate in a one-week, working group retreat.
2006-07 First Year Course Topics
| Week |
Dates |
Topic |
People |
Where |
| 1 |
9/8 |
Intro to the IGERT |
C.Neuhauser |
Ecology |
| 2 |
9/11, 9/15 |
Intro to Case Studies |
C. Neuhauser & others |
Pillsbury |
| 3 |
9/18, 9/22 |
Civil Engineering |
M. Hondzo |
Ecology |
| 4 |
9/25, 9/29 |
Civil Engineering |
M. Hondzo |
Pillsbury |
| 5 |
10/2, 10/6 |
Computer Science |
S. Shekhar |
Ecology |
| 6 |
10/9, 10/13 |
Computer Science |
S. Shekhar |
Pillsbury |
| 7 |
10/16, 10/20 |
Ecology |
S. Sugita |
Ecology |
| 8 |
10/23, 10/27 |
Ecology |
S. Sugita |
Pillsbury |
| 9 |
10/30, 11/3 |
Geology |
C. Paola |
Ecology |
| 10 |
11/6, 11/10 |
Geology |
C. Paola |
Pillsbury |
| 11 |
11/13, 11/17 |
Global Change |
C. Neuhauser |
Ecology |
| 12 |
11/20 |
Gulf coast |
C. Paola |
Pillsbury |
| 13 |
11/27, 12/1 |
Urban Water |
R. Hozalski |
Ecology |
| 14 |
12/4, 12/8 |
Mercury |
J. Cotner |
Pillsbury |
Monday and Friday from 1:00pm – 3:00pm in Pillsbury 121 or Ecology 150.
Journal Club Articles
Sept. 15
(1) Szalay, A and Gray, J. 2006. Science in an exponential world. – Nature. 2006 Vol. 440 pg 413–414.
(2) Butler, D. 2006. Everything, Everywhere. – Nature. 2006 Published online: March 22, 2006.
(3) Schmitz, O.J., Post, E., Burns, C.E. and Johnston, K.M. 2003. Ecosystem Responses to Global Climate Change: Moving Beyond Color Mapping. – BioScience. December 2003 Vol. 53 No. 12 pg. 1199-1205.
(4) Shaver, G.R., Canadell, J., Chapin III, F.S., Gurevitch, J., Harte, J., Henry, G., Ineson, P., Jonasson, S., Melillo, J., Pitelka, L. and Rustad, L. 2000. Global Warming and Terrestrial Ecosystems: A Conceptual Framework for Analysis. – BioScience. October 2000 Vol. 50 No. 10 pg. 871-882.
Sept. 22
(1) U.S. National Committee on Theoretical and Applied Mechanics. 2006. Research in Fluid Dynamics: Meeting National Needs. – Published online: www.usnctam.org Winter 2006.
Sept. 29
(1) Walsh, C.J., Roy, A.H., Feminella, J.W., Cottingham, P.D., Groffman, P.M., Morgan II, R.P. 2005. The urban stream syndrome: current knowledge and the search for a cure. - J.N. Am. Benthol. Soc. 2005, 24(3):706-723.
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