92 / FIELDS OF INSTRUCTION


ENY 6666C-Advanced Medical and Veterinary Entomology II
(4) Prereq: ENY 6665C. Host parasite interactions, epidemiol-
ogy, and methods of vector control. The course will include
several overnight field trips. An original research project based
on the proposal from ENY 6665C will be required.
ENY 6821-Insect Pathology (4) Prereq:MCB 3013 or consentof
instructor. Interrelationship of insects and pathogenic micro-
organisms; history, classification, morphology, mode-of-action,
and epidemiology of entomogenous bacteria, viruses, protozoa,
and fungi.
ENY 6905-Problems in Entomology and Nematology (1-4; max:
12) Individual study under faculty guidance. Student and instruc-
tor to agree on problem and credits prior to registration. H. 
ENY 6910-Supervised Research (1-5; max: 5) S/U.
ENY 6932-Special Topics in Entomology and Nematology (1-2;
max: 4) Reports and discussions pertaining to selected topics
announced in advance. S/U.
ENY 6934-Selected Studies in Entomology and Nematology (1 -
4; max: 8) Current issues. Subject matter variable, may be
repeated with different subject each time.
ENY 6940-Supervised Teaching (1-5; max: 5) S/U.
ENY 6971-Research for Master's Thesis (1-15) S/U.
ENY 7979-Advanced Research (1-9) Research for doctoral stu-
dents before admission to candidacy. Designed for students with
a master's degree in the field of study or for students who have
been accepted for a doctoral program. Not open to students who
have been admitted to candidacy. S/U.
ENY 7980-Research for Doctoral Dissertation (1-15) S/U.
NEM 5707-Plant Nematology (3) Includes identification of plant
parasitic nematodes, diseases they cause, interactions with other
plant parasites, and management schemes to control population
densities.
 NEM 6101-Nematode Morphology and Anatomy (2) Prereq:
NEM 3701 or equivalent. Morphology, anatomy, and function of
structures, organs, and systems.
NEM 6102-Nematode Taxonomy and Systematics (3) Prereq or
coreq:NEM 6101. Collection, preparation, and identification of
plant and soil nematodes; review of pertinent literature; drawing
techniques and preparation of keys.
NEM 6201-Nematode Ecology (3) Population and community
ecology of plant-parasitic and other soil-inhabiting nematodes.
Mathematical descriptions and relationships will be emphasized
where appropriate.
NEM 6708-Field Plant Nematology (2; max: 4) Prereq: NEM
5707 or 6723 or equivalent. Field trips to various agricultural
research stations and production areas in Florida to learn plant
symptoms and current research methods.
NEM 6808C-Marine Nematology (2) Prereq: consent of instruc-
tor. Taxonomy, morphology, physiology, ecology, and life cycles
of free-living marine nematodes.
NEM 6931-Nematology Seminar (1; max: 6) Presentation and
discussion of current research, research topics. S/U option.
PMA 5205-Citrus Pest Management 1 (4) Prereq: ENY 3005 or
 equivalent and CHM 2040, 2041 or equivalents. Ecological
 principles describing host and pest community relationships in
 citrus. Design and implementation of programs within the frame-
 work of natural pest control. Comprehensive overview of chemi- *
 cal pesticide use in citrus.
 PMA 5206-Citrus Pest Management II (4) Prereq: PMA 5215.
 Arthropod and nematode pests of citrus. Pest identification,
 biology, and interactions with citrus. Pest monitoring, diagnosis
 and management.


 ENVIRONMENTAL ENGINEERING
 SCIENCES
 College of Engineering

 GRADUATE FACULTY 1989-90
 Chairman & Graduate Coordinator: W. Viessman, Jr.
 Graduate Research Professor: H. T. Odum. Professors: E.
 R. Allen; H. A. Bevis; G. Bitton; W. E. Bolch;T. L. Crisman;
 J. J. Delfino; J. P. Heaney; W. C. Huber; B. Koopman; D.
 A. Lundgren; W. L. Miller; C. E. Roessler; J. E. Singley; W.
 Viessman, Jr.; J. Zoltek. Associate Professors: C. L. Mon-
 tague; W. S. Properzio. Associate Research Scientist:G. R.
 Best. Assistant Professor: P. A. Chadik.


 Graduate study is offered leading to the degrees 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, potable water supply systems, water
pollution control, hazardous waste, environmental re-
sources management, environmental biology, water
chemistry, systems ecology and energy analysis, and
health physics. The health physics speciality is offered
through an interdepartmental program in cooperation
with the Department of Nuclear Engineering Sciences
(see the Health Physics description under Interdiscipli-
nary Graduate Studies Program).
 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 mathemat-
ics. 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 back-
grounds into substantial agreement with those with un-
dergraduate engineering training. The specific program of
study must be approved by the student's supervisory
committee.
 It normally requires 16 to 24 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 accept-
able for graduate credit as part of the candidate's major:

Water Chemistry:CHM 5235,5514,6154,6155,6158C,
6165, 6430, 6440, 6449, 6710, 6720, CWR 5125, 5127,
6525, GLY 5241 C, 5820, 6829, FOS 6355C, SOS 6414,
6448, 6622. Health Physics: ENU 5005, 5143, 5615L,
5625, 5626, 5629, 6617, 6627, 6646, 6656L and 6657.
Systems Ecology and Energy Analysis: FNR 5563, ECI
6636, GLY 5820, FOR 5625C, PCB 6307C, 6496C, BOT
6646C, PCB 5317C, GLY 6575, BOT 5695, 6356C, PCB
6447C, URP 6231, 6821, and AEB 6453.

CWR 6115-Surface Hydrology (3) Prereq: MAP 3302 or EGM
3311, CWR 3201 or EGN 3353. Occurrence and distribution of
water by natural processes including atmospheric thermody-
namics, precipitation, runoff, infiltration, water losses, flood
routing and catchment characteristics, hydrograph analysis, and
methods of runoff prediction. Current hydrologic computer
models.
CWR 6117-Operational Hydrology (4) Prereq: CWR 6115, STA
4321. Stochastic hydrology. Probability and statistics applied to
hydrologic problems. Synthesis of data. Correlation and spectral
analysis. Box-Jenkins Modeling. Linear systems theory applica-
tions to hydrologic cycle components and rainfall-runoff proc-
esses: Hydrologic instruments and networks.
EES 51 05-Environmental Biology (3) Prereq: consent of instruc-
tor. The role of microorganisms and other biota in major environ-
mental 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 applied
to the determination of chemical composition of natural waters
and wastewaters. Emphasis on methods used in routine determi-
nations of water and wastewater quality and interpretation of
data.
EES 5305C-Ecological and General Systems (3) Prereq: MAP
3302 or consent of instructor. Systems ecology, including ex-
amples, languages, theoretical formulations and models for
design, synthesis and prediction of systems of man and nature.
EES 5306-Energy Analysis (2) Energetics of systems of environ-
ment and economics; energy analysis of environmental systems,
agroecosystems, regional and national economies; energy evalu-
ation of public policy.