Classroom: 107 Mulford
Office Hours: By Appointment
This course examines contemporary biometeorological and micrometeorological theories, models, and data that relate to the quantification of mass and energy between the biosphere and atmosphere. Each class meeting will consist of a two-hour lecture/discussion. This course will cover five Broad Topics:
1.Micrometeorological Methods for Measuring Mass and Energy Flux Densities
2. Biosphere/Atmosphere Interactions: Models for Integrating Leaf Scale Fluxes to the Canopy Scale
3. Biosphere/Atmosphere Interactions: Integrating and Scaling from Canopy to Landscape Scales
3. Plant-Canopy Micrometeorology
4. Planetary Boundary Layer Turbulence and Characteristics
5. Plant-Atmosphere Interactions: Trace Gas Deposition and Emissions
Upon completion of this course the student should be able to apply this knowledge in a critical manner to review journal articles, write and critique research proposals and to conduct research.
Students will be assigned weekly reading assignment of key reviews associated with each topic. Students will be expected to participate in lively discussion during the lectures and lead a discussion of the reading during the last half-hour of Class.
External exercises will involve the use of data, computation exercises and application of system model calculations to illustrate points made in the lectures. I encourage the students to buy and learn MATLAB. A growing number of exercises will use MATLAB to plot and visualize data.
This year we will use b-space as a Web interface, in addition to this web site, to exchange data and modeling, email one another, etc.
Each student will produce a term paper on a topic of their choice, that fall within the domain of Biometeorology/Micrometeorology. Students are encouraged to develop and analyze simple models and/or analyze data available on the net through such projects as Fluxnet.
At the end of the semester, each student will be responsible for presenting a 30 minute discussion on
Grade will be determined on the basis:
a. Participation in and Leadership of Class Discussions, 10%
b. External Class Assignments, 30%
c. Class Term Paper, 50%.
d. Paper Presentation, 10%
Class Lecture Material and Figures
Pdf copies of lecture overheads and material that augments the lectures is available for downloading on a lecture by lecture basis from the following table.
Last Updated: 2013-07-15
|This material is based upon work supported by the National Science Foundation and US Department of Energy. Any opinions, findings, conclusions, or recommendations expressed in the material are those of the author(s) and do not necessarily reflect the views of the supporters.|