80 / FIELDS OF INSTRUCTION NEM 6723-Phytonematology (3) Prereq: NEM 5707 or equivalent. Behavior, biology, population dynamics, host- parasite interaction, and control of plant parasitic nematodes. NEM 6708C-Marine Nematology (4) Prereq: consent of in- structor. Taxonomy, morphology, physiology, ecology, and life cycles of free living marine nematodes. NEM 6931-Seminar (1; max: 4) Presentation and discussion of research, research proposals and other timely subjects. ENVIRONMENTAL ENGINEERING SCIENCES College of Engineering GRADUATE FACULTY 1982-83 Acting Chairman & Graduate Coordinator: W. E. Bolch. Graduate Research Professor: H. T. Odum. Professors: E. R. Allen; H. A. Bevis; G. Bitton; W. E. Bolch; J. J. Delfino; J. P. Heaney; W. C. Huber; D. A. Lundgren; C. E. Roessler; J. E., Singley; J. Zoltek. Associate Pro- fessors: T. L. Crisman; G. S. Roessler. Assistant Professors: B. L. Koopman; J. J. McCreary; C. L. Montague. Assistant Research Scientist: G. R. Best. Graduate study is offered leading to the degrees of Master of Engineering, Master of Science, Engineer, and Doctor of Philosophy in the field of environmental engineering sciences. Areas in which the student may specialize include air pollution, water supply and water pollution control, environmental resources management, environmental biology, water chemistry, radiological health, and systems ecology and energy analysis. Direct admission into the Master of Science program requires a bachelor's degree in engineering or in a basic science such as chemistry, physics, biology, or mathe- matics. Persons with a degree in a nontechnical field may also be admitted into this program upon the completion of specified articulation. Direct admission into the Master of Engineering pro- gram requires a bachelor's degree in engineering. Other persons wishing to enter this program will be required to take articulation work sufficient to bring their backgrounds into substantial agreement with those with undergraduate engineering training. The specific program of study must be approved by the student's supervisory committee. It normally requires sixteen months to complete the requirements for a master's degree. If articulation work is required, it may take longer, depending upon the extent of the student's deficiency. The following courses in related areas will be accepta- ble for graduate credit as part of the candidate's major: Water Chemistry: CHM 5157, 5235, 5514, 6154, 6154L, 6155, 6155L, 6158C, 6430, 6440, ECI 5625, 6616, GLY 5241, 5820, 6829, FOS 6355C, 6371C, SOS 6414 and 6444. Radiological Health: ENU 5005, 5615, 5625, 5626, 5629, 6627, 6646, 6656L and 6657. Systems Ecology and Energy Analysis: FNR 5563, ECI 6636, GLY 5820, FOR 5625C, ECI 4214, PCB 6307C, 6496C, BOT 6646C, PCB 5317C, ZOO 4404, 4405, GLY 6575, OCE 4005, BOT 5695, 6356C, WIS 4443, PCB 6447C, URP 6231, 6821, and AEB 6453. ECI 6636-Surface Hydrology (3) Prereq: MAP 3302 or EGM 3311, ECI 3213 or EGN 3353. Occurrence and distribution of water by' natural processes including atmospheric thermo- dynamics, precipitation, runoff, infiltration, water losses, flood routing and catchment characteristics. Hydrograph analysis and methods for runoff prediction. Current hydrologic computer models. ECI 6637-Operational Hydrology (4) Prereq: ECI 6630, STA 4321. Stochastic hydrology. Probability and statistics applied to hydrologic problems. Synthesis of data. Correlation and spec- tral analysis. Linear systems theory applications to hydrologic cycle components and rainfall-runoff processes. Hydrologic instruments and networks. EES 5007C-Ecological and General Systems (4) Prereq: MAP 3302 or consent of instructor. Systems ecology, including examples, languages, theoretical formulations and models for design, synthesis and prediction of systems of man and nature. EES 5105-Environmental Biology (3) Prereq: consent of in- structor. The role of microorganisms and other biota in major environmental problems, wastewater processes and natural bodies of water. EES 5245-Water and Wastewater Analysis (3) Prereq: one year of general chemistry. Principles of analytical chemistry and their applications to the determination of chemical composition of natural waters and wastewater. Emphasis on methods used in routine determinations of water and wastewater quality. EES 5306-Energy Analysis and Ecological Engineering (3) Prin- ciples for guiding the self design of systems of nature and humanity including regional patterns and technological inter- faces; use of energy to evaluate alternatives of environment and public policy. EES 6006-Environmental Toxicology (3) Prereq: basic biology. Effects of toxic chemicals on human health. EES 6036-Environmental Instrumentation (2) Basic instrumen- tation and instrumental techniques for the measurement of environmental parameters and pollutants. EES 6106-Environmental Microbiology (3) Interaction be- tween microbial populations. Behavior of microorganisms in freshwater, marine and soil environments. Stress of pollution on microbial communities. Adsorption of microorganisms to surfaces. EES 6136-Aquatic Autotrophs (3) The function of algae and macrophytes in lake systems. Environmental problems associated with excessive growth of algae and macrophytes, and methods for their control. EES 6166-Aquatic Heterotrophs (3) The role of zooplankton, benthic invertebrates and fish in freshwater systems. Emphasis is placed on trophic-level interactions, nutrient cycling and the potential of each group for predicting water quality. EES 6207-Environmental Chemistry (3) Prereq: one year of general college chemistry or consent of instructor. A survey course in the application of chemical principles to environmental processes and problems. Chemical aspects of air, land and water quality. EES 6208-Principles of Water Chemistry I (2) Prereq: EES 6207. Application of chemical principles to reactions and composi- tion of natural waters; emphasis on thermodynamic and kinetic concepts. EES 6209-Principles of Water Chemistry II (2) Prereq: EES 6208. Continuation of EES 6208. EES 6246-Advanced Water Analysis (3) Advanced chemical procedures used in water chemistry research. Application of instrumental methods for determination of trace inorganic and organic natural water constituents. EES 6308C-Wetland Ecology (3) Prereq: basic ecology or con- sent of instructor. Defining and classifying major wetland ecosystems, formation of wetlands, wetland functions and values; utilizing wetlands.for man's needs. Emphasis on several field trips to natural and altered wetlands. EES 6356-Estuarine Systems (3) Coastal systems, their com- ponents, processes, systems, models and management including tropical, arctic and man-affected types, field trip and literature review. EES 6506-Occupational Health (3) Effects, assessment and control of physical and chemical factors in man's working en- vironment, including chemical agents, electromagnetic radia- tion, temperature, humidity, pressures, illumination, noise and vibration. EES 6936-Water Science Seminar (1-4; max: 6) Chemical, physical and biological aspects of natural waters presented by area specialists and/or participating students. ENV 5005-Environmental Health (3) Effects of environmental pollution upon health. Methods of evaluation, treatment and prevention of pollutants of health significance. ENV 5126-Introduction to Air Pollution (3) Principal types,