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You are in the official 1995-96 General Catalog for California State University, Fresno.

Note: Active immunization against tetanus (available through Student Health Services) is a prerequisite for registration in any laboratory course in agriculture and for any student employment on the University Farm.

Note: Cost to the student of extended field trips varies each semester depending upon itinerary. The student should ask the course instructor.



Plant Science (Plant)

1. Introduction to Plant Science (3)
Principles of plant structure, heredity, physiology and climate in relation to growth, adaptation and management of crops. Emphasis is placed on food and fiber crops.

12. Microcomputers in Plant Science (3)
Prerequisite: intermediate algebra. An introduction to plant science problems and exercises involving the microcomputer. Crop production, soils, irrigation, and pest management data will be handled with spreadsheet and word processing programs. (2 lecture, 3 lab hours) (Formerly Plant 112)

80. Undergraduate Research (1-4; max total 4)
Open to freshmen and sophomores with permission of instructor. Exploratory work on a suitable agricultural problem in plant science. Approved for SP grading.

99. Applied Agricultural Statistics (3)
Prerequisite: Students must take the ELM exam; students who do not pass the exam must record a grade of C or better in Math 4R on our campus or another college-taught intermediate algebra course. Introduction to experimental methods and statistical procedures used in agricultural research. Design of experiments; statistical analysis and interpretation. General Education CORE, Quantitative Reasoning. (2 lecture, 3 lab hours)

102. Micropropagation (3)
Prerequisites: Bot 10 or Biol 10; and Bot 130 or Chem 150 or permission of instructor. Principles of plant propagation by aseptic cell and organ culture as a means of rapid cloning, elimination of systemic plant diseases, production of somatic hybrids, ploidy change, and other genetic variants for use in plant breeding. (2 lecture, 3 lab hours)

105. Food, Society, and Environment (3)
Prerequisites: General Education BREADTH Divisions 1, 2, and 8 completed (or concurrent enrollment). Linkages among food production systems, human social behavior, and environmental quality. Basic principles of environmental and agricultural sciences as applied to interrelationships among social value systems, agricultural activities and environmental resources. General Education BREADTH, Division 3.

107. Plant Propagation (3)
Prerequisite: Bot 10 or Biol 10. Principles and practices of propagating plants, sexual and asexual. Seeds, cuttings, layering, grafting, budding, and tissue culture. Propagation media and rooting aids. (2 lecture, 3 lab hours) (Formerly Plant 2)

110W. Dimensions in Agriculture (3)
Prerequisites: satisfactory completion (C or better) of the Engl 1 graduation requirement; completion of 56 units. Current agricultural problems and developments; nature of agricultural industries in a changing world. Interrelationships among agriculture, government, labor, and the public. Meets the upper-division writing skills requirement for graduation.

134. Microclimatology (3)
(See Geog 114.)

150. Crop Improvement (3)
Prerequisite: Bot 10 or Biol 10. Application of genetic, cytological and environmental principles to improvement of plants; heredity and variation in plants, effects of environmental factors, biotechnology, self- and cross-fertilization, principles and results of selection and hybridization in plant improvement.

170T. Topics in Plant Science
(1-4; max total 6 per discipline if no topic repeated)
Prerequisite: junior standing. Selected topics in plant science, agronomy, horticulture, and other associated areas. Topics may require lab hours.

180. Undergraduate Research (1-4; max total 4)
Open to juniors and seniors. Exploratory work on a suitable agricultural problem in plant science. Approved for SP grading.

190. Independent Study
(1-3; max see reference)
See Academic Placement --Independent Study. Approved for SP grading.

194. Agricultural Internship (1-8; max total 8)
Prerequisite: junior standing; approval of faculty adviser and department chair. Field experience in your career specialty that integrates with classroom instruction. Written reports of knowledge and experience gained are required. CR/NC grading only.

196. Crop Projects (1; max total 4)
Prerequisite: Me Ag 3 or equivalent, appropriate production course and permission of instructor. Knowledge gained from classroom instruction applied to field conditions. Students will participate in cultural practices using the University Farm Laboratory in growing and marketing a crop.



Crop Science Agronomy and Vegetable Crops (Cr Sc)

1. Introduction to Crop Science (3)
Cr Sc 1L required for majors. Principles of production for cereal, row, forage and vegetable crops. Culture, insect and disease control, harvesting, storage, and marketing.

1L. Introduction to Crop Science Lab (1)
Prerequisite: Cr Sc 1 or concurrently. Systematic examination of structure, classification, crop culture, handling, storage and marketing of selected agronomic crops grown in the San Joaquin Valley. (3 lab hours) (2-day field trip fee, $35-65)

101. Row Crops (3)
Prerequisites: Bot 10 or Biol 10, Cr Sc 1. The culture of beans, cotton, sugar beets, and other fiber and oil crops; varieties, nutrition, insect, disease, and weed control; harvest, storage, uses, and marketing. (2 lecture, 3 lab hours)

102. Cereal Crops (3)
Prerequisites: Bot 10 or Biol 10, Cr Sc 1. The culture of barley, corn, grain sorghum, oats, rice, rye and wheat; varieties, nutrition, insect disease, and weed control; harvest, storage, uses, and marketing. (2 lecture, 3 lab hours) (Two 1-day field trips)

103. Forage Crops (3)
Prerequisites: Bot 10 or Biol 10, Cr Sc 1. The culture of alfalfa, silage, irrigated pasture and range related to livestock feed enterprises; varieties, nutrition, insect, disease and weed control; harvesting, uses, and marketing. (2 lecture, 3 lab hours)

104. Seed Production and Technology (3)
Prerequisites: Bot 10 or Biol 10, Cr Sc 1. The principles of specialized agronomic seed production; harvesting, mechanical conditioning, storage, treatment and viability testing. (2 lecture, 3 lab hours) (2-3 day field trip fee, $35-65)

105. Range Management (3)
Prerequisites: Bot 10 or Biol 10, Cr Sc 1. Identification of range plants; carrying capacity; methods of range improvement, grazing management, water development, rodents, fertilization, reseeding, brush removal; mountain range resources. (2 lecture, 3 lab hours)

111. Warm Season Vegetables (3)
Prerequisites: Bot 10 or Biol 10, Cr Sc 1, 1L. Cultural practices, harvesting, processing, and marketing of warm season vegetables of economic importance to California and the San Joaquin Valley. (2 lecture, 3 lab hours) (2-3 day field trip fee, $35-65)

112. Cool Season Vegetables (3)
Prerequisites: Bot 10 or Biol 10, Cr Sc 1, 1L. Cultural practices, harvesting, processing, and marketing of cool season vegetables of economic importance to California and the San Joaquin Valley. (2 lecture, 3 lab hours) (2-3 day field trip fee, $35-65)

113. Small Farms and Gardens (3)
Prerequisites: Bot 10 or Biol 10, Cr Sc 1. Intensive production of vegetables and small fruits for the small-scale grower and home gardener. Application of organic and synthetic methods of growing food. Principles of composting, mulching, crop rotation, interplanting, natural and synthetic fertilizers, biological and chemical control of insects and diseases. (2 lecture, 3 lab hours)

120. Advanced Crop Science (3)
Prerequisites: Bot 130, 6 units crop science. Interrelationships between varietal development, pest resistance, modification of crop physiology in agronomic and vegetable crops; the resultant changes in production techniques and productivity; their impact on industry, management, and the environment.



Ornamental Horticulture (OH)

1. Introduction to Ornamental Horticulture (3)
Planting and maintenance of the home landscape; selection, planting, fertilization, and pruning of plants; lawn planting and care. (2 lecture, 3 lab hours)

2. Introduction to Landscape Design (3)
History and development of landscape design. A study of the need for landscaping in modern man's environment. Consideration of landscaping practices for the modern home and their effect on the home microenvironment.

3. Plant Identification (3)
Identification, growth habits, culture and landscape use of shrubs, vines, ground covers, herbaceous perennials and annual bedding plants. Use of identification keys. (2 lecture, 3 lab hours)

4. Floral Design (3)
Principles and rules of design and color using plants as a media; European and Japanese influences; emphasis on American line-mass and contemporary designs. An assortment of arrangements are made in lab. (2 lecture, 3 lab hours) (Course fee, $25)

101. Floriculture (3)
Prerequisites: Bot 10 or Biol 10, OH 1. The construction, operation and management of greenhouses; cultural and environmental techniques used in the production of florist crops. Foliage plant identification. (2 lecture, 3 lab hours; field trips)

105. Nursery Management (4)
Prerequisite: OH 1. Practices and principles in planning and managing a retail nursery, flower shop, or garden center; includes some aspects of production and construction of occasional floral designs. (3 lecture, 3 lab hours; field trips)

107. Advanced Landscape Design (4)
Prerequisites: OH 2, 3; OH 108 recommended. Study of graphic techniques used in developing landscape plans. Analysis and solution of design problems related to the site development of residential and commercial structures. (2 lecture, 6 lab hours)

108. Ornamental Trees (3)
Prerequisites: Bot 10 or Biol 10, OH 1. Trees grown in California for landscaping, shade and ornamentation; identification, habits of growth, cultural requirements, landscape use. (2 lecture, 3 lab hours; field trip)

109. Arboretum and Botanical Gardens (3)
Prerequisites: Bot 10 or Biol 10, OH 1. Origin and development of botanical gardens. Emphasis on U.S. and California gardens, their history, design, and influence on city and regional park systems. (2 lecture, 3 lab hours; 3 Saturday field trips)

110. Turfgrass Production and Management (3)
Prerequisites: Bot 10 or Biol 10, OH 1. Production and maintenance of grass for lawns, public parks, public institutions, playgrounds, playing fields, golf courses, bowling greens; identification of turfgrasses and turfgrass seed. (2 lecture, 3 lab hours; field trip)



Plant Protection (Pl Pr)

1. Introduction to Plant Protection (3)
Origin, history, and evaluation of protective measures (chemical, biological, and cultural) for control of insects, diseases, weeds, and rodents in the field and around the home.

102. Properties of Pesticides (3)
Prerequisite: Chem 3B or 8. Typical uses, modes of action, mechanisms of selectivity, environmental interactions, and user safety of insecticides, herbicides, fungicides, nematocides, rodenticides, and plant growth regulators. Effective and safe use of chemicals and equipment calibration to ensure proper rate of application. (2 lecture, 3 lab hours)

103. Economic Entomology (3)
(Same as Zool 122). Prerequisite: Bot 10 or Zool 10. Biology, ecology, management and taxonomy of economically important arthropods, with special emphasis on agricultural ecosystems in California. (2 lecture, 3 lab hours) (Formerly Ent 106)

104. Nematology (3)
Prerequisites: Pl Pr 1 and either Zool 10 or Biol 10. Biology, taxonomy, host-parasite relationships, soil ecology, conventional and innovative controls, plant diagnosis and laboratory techniques with emphasis on plant-parasitic species. (2 lecture, 3 lab hours)

105. Weeds (3)
Prerequisites: Bot 10 or Biol 10, Chem 3A. Weed control in California. Identification of common weeds. Fundamentals of preventive, cultural, biological, physical, and chemical weed control methods. (2 lecture, 3 lab hours)

106. Plant Pathology (3)
Prerequisite: Bot 10 or Biol 10. Study of the causal agents, disease cycles, and control of plant diseases. (2 lecture, 3 lab hours)

107. Biological Control (3)
Prerequisite: Pl Pr 103. A study of the action of parasites, predators, and pathogens on the population dynamics of their host/prey organisms, with special emphasis on insects and mites. (2 lecture, 3 lab hours)

108. Integrated Pest Management (3)
Prerequisite: Pl Pr 103. Concepts and principles of integrated pest management. Insect and mite pest problems; sampling techniques; biology and ecology of major agricultural crop pests; integration of control measures for management of economic pests. (2 lecture, 3 lab hours)

109. Diagnosis of Plant Diseases (3)
Prerequisite: Pl Pr 106 or concurrently. Techniques for the diagnosis of specific diseases in field, greenhouse, and laboratory settings. Students will practice diagnostic techniques for the major plant diseases occurring in California. (2 lecture, 3 lab hours)



Soils/Irrigation (SI)

1. Introduction to Irrigated Soils (3)
Prerequisites: introductory chemistry and/or physics. Interpretation of physical and chemical properties of biological and mineral matter for the management of soils in irrigated agriculture. Emphasis on soil/plant and plant/water relationships. (2 lecture, 3 lab hours)

2. Agricultural Water (3)
Water resources and problems in California; water requirements for agricultural and ornamental crops; irrigation scheduling and application methods. (2 lecture, 3 lab hours)

100. Soils (3)
Prerequisites: Chem 3A, intermediate algebra. Physical, chemical, and biologic properties of soils as a medium for plant growth and as a natural body, factors that influence soil formation; food and fiber production; fertilizer and soil amendment use and environmental impact; soil's role in the biosphere. (Saturday field trip)

100L. Soils Lab (1)
Prerequisite: SI 100 or concurrently. Physical, chemical, and biological analysis. Interpretation of field and laboratory data. (3 lab hours)

101. Soil Fertility and Fertilizers (4)
Prerequisite: SI 100. Evaluation of nutrient elements in soils; application of fertilizers and organic waste to meet nutrient requirements; soil and plant tissue analysis and interpretation; fertilizer recommendations for different crops. (3 lecture, 3 lab hours)

102. Soil Classification and Survey (3)
Prerequisite: SI 100. Influence of environmental factors on soil development; description and identification of soil profiles; mapping, and interpretation of soil maps. (2 lecture, 3 lab hours)

103. Soil Conservation (3)
Prerequisite: SI 100. Fundamental considerations of soil conservation; prediction and controlling of soil erosion; universal soil loss equation and its applications; conservation practices; irrigation and drainage; farm and watershed planning.

104. Soil and Water Management (4)
Prerequisite: SI 2, SI 100 (may be taken concurrently). Management of irrigated soils with particular emphasis on crop water requirements, irrigation scheduling, salinity, and other physical and chemical soil problems of field crops, permanent crops and landscapes. (3 lecture, 3 lab hours)

105. Soil Chemistry (3)
Prerequisites: Chem 3B, 8; SI 100. The chemistry of soils, agricultural chemical use, and waste disposal impacts. Student research project and report required. (2 lecture, 3 lab hours)

111. Irrigation Design (3)
Prerequisite: SI 2. Principles of planning, installation and evaluation of irrigation systems for field crops, permanent crops and ornamental horticulture. Pressurized systems (sprinkler and drip irrigation) emphasized. This course may be supplemented with optional labs in agricultural systems (SI 111AG) or landscape systems (SI 111OH).

111AG. Agricultural Irrigation Lab (1)
Prerequisite: SI 111 or concurrently. Field experience in planning, installing, and evaluating irrigation systems for agricultural applications. (3 lab hours)

111OH. Ornamental Horticulture Irrigation Lab (1)
Prerequisite: SI 111 or concurrently. Field experience in planning, installing, and evaluating irrigation systems for landscape and other ornamental horticultural applications. (3 lab hours)

114. Pumps and Motors (3)
Operation and study of centrifugal and deep well turbines; testing of pumps and motors under operating conditions to determine efficiency; installation, protective devices, maintenance, and proper selection of single- and three-phase motors used on the farm. (2 lecture, 3 lab hours)



Viticulture/Tree Fruit (VTF)

1. Introduction to Grape and Tree Crops (3)
Origin and history of the grape and the tree fruit industries, as well as their culture in California; current trends in fresh, dried and processed segments of the industry. (Formerly FS 1)

101. Grape Production I (3)
Prerequisites: Bot 10 or Biol 10, VTF 1. Current status and future of the grape industry; commercial classes of grapes; climatic and soil requirements for grape growing. Principles and practices of vineyard fertilization, cultivation, and pruning. (2 lecture, 3 lab hours) (Formerly FS 101)

102. Grape Production II (3)
Prerequisites: Bot 10 or Biol 10, VTF 1. Planning of new vineyards. Principles and practices of propagation, planting, and training grapes. Morphology and physiology of the grapevine and response of the vine to growth regulators and other means of improving grape quality. (2 lecture, 3 lab hours) (Formerly FS 102)

103. Raisin Production and Processing (3)
Prerequisite: Bot 10 or Biol 10 or VTF 1. Principles and practices of raisin production; sun drying, mechanical dehydration, on-the-vine drying; new raisin processes to produce new products. (2 lecture, 3 lab hours) (Formerly FS 103)

104. Grape Varieties (3)
Prerequisite: Bot 10 or Biol 10 or VTF 1. Grape varieties common to California; rootstocks and species; identification, adaptability, use and acreage; taste test ing fresh grapes. (2 lecture, 3 lab hours) (Formerly FS 104)

110. Fruit Species of California (3)
Prerequisite: Bot 10 or Biol 10 or VTF 1. Fruit and nut species common to California, their adaptation and uses. (Formerly FS 110)

111. Fruit Production I (3)
Prerequisite: Bot 10 or Biol 10 or VTF 1. Adaptation of fruits to their environment; training, pruning; propagation; varieties and rootstocks; fundamentals of fall cultural practices. (2 lecture, 3 lab hours) (Formerly FS 111)

112. Fruit Production II (3)
Prerequisite: Bot 10 or Biol 10 or VTF 1. Fruit and vegetative development; pollination; nutrition; product utilization; fundamentals of spring cultural practices. (2 lecture, 3 lab hours) (Formerly FS 112)

113. Subtropical and Tropical Fruits (3)
Prerequisite: Bot 10 or Biol 10 or VTF 1. Geographic distribution, climatic and soil adaptation of subtropical and tropical fruit crops. Fruit and vegetative development and cultural practices for globally important fruit crops. Emphasis on citrus, avocado, banana, mango, olive, and pineapple. (2 lecture, 3 lab hours) (Formerly FS 113)

114. Postharvest Handling of Perishable Crops (3)
Prerequisite: Bot 10 or Biol 10. Physiological aspects of fruit maturation and ripening. Principles of postharvest handling of fruit and vegetables for the fresh market as they apply to harvesting, packaging, storage, and transportation. (2 lecture, 3 lab hours) (2-day field trip fee, $50-75) (Formerly Plant 101)

120. Orchard-Vineyard Management (3)
Prerequisites: 6 units viticulture/tree fruit courses. Relating the various cultural tech niques to the physiology of trees and vines, survey of scientific literature, new development analysis, and management of orchards and vineyards. (2 lecture, 3 lab hours) (Formerly FS 120)



Mechanized Agriculture (Me Ag)

Note: Suitable eye protection is required in many Me Ag laboratory classes.

1. Introduction to Agricultural Mechanics (3)
Selection, care, and use of common farm tools, projects of wood and metal; mechanical skills in the field of agriculture. (2 lecture, 3 lab hours) (Course fee variable, not less than $8) (Formerly AET 1)
3. Farm Tractors and Equipment (3)
Operation and maintenance of farm tractors; operation of farm tractors and equipment under field conditions; service, maintenance and minor repair of engines of wheel and crawler type. (2 lecture, 3 lab hours; 5 hours field operation) (Formerly AET 3)

20. Farm Machinery and Equipment (3)
The study of basic functions and applications of farm machinery and equipment. Operation, adjustment and maintenance of farm machinery common to the San Joaquin Valley under field conditions will be emphasized. Equipment will be evaluated for efficiency and effective performance. (2 lecture, 3 lab hours)

50. Metallurgical Processes (3)
(See I T 71.)

53. Basic Electricity (3)
(See I T 52.)

103. Hydraulic Systems (3)
Prerequisites: Me Ag 1, 3. Theory and practice in the operation, service, adjustment, and function of the component parts of fluid power systems. Design application of systems to farm machines. (2 lecture, 3 lab hours) (Formerly AET 103)

112. Farm Power (3)
Prerequisite: Me Ag 3. Principles of the internal combustion engine; overhauling, repairing, and adjusting of gasoline, diesel, and LPG farm engines. (2 lecture, 3 lab hours) (Formerly AET 112)

113. Diesel Engines and Power Transmissions (3)
Prerequisite: Me Ag 3. Theory and operation of diesel injection systems and turbochargers; clutches; transmissions; brakes; and tractive devices. (2 lecture, 3 lab hours) (Formerly AET 113)

114. Small Gasoline and Diesel Engines (3)
Prerequisite: Me Ag 1. Theory of operation, maintenance, and repair of small gasoline and diesel internal combustion engines. (2 lecture, 3 lab hours) (Formerly AET 114)

120. Advanced Farm Machinery (3)
Prerequisite: Me Ag 3. Theory, operation, and management economics of planters, tillage tools, harvesting and spraying equipment. Managerial responsibilities under State and Federal mandates will be emphasized. (2 lecture, 3 lab hours)

GRADUATE COURSES

The following graduate courses are open to students who have been accepted in to the graduate program. Final semester senior undergraduate students may petition the Division of Graduate Studies to enroll in graduate courses. The petition form, which is available in the department office, must be accompanied by GRE scores to be considered.



Agriculture (Agri)

200. Biometrics in Agriculture (3)
Prerequisites: Plant 99, Ag Ec 71, or Math 101, or permission of instructor. Advanced concepts in the design of agricultural experiments. Emphasis is placed on the selection of appropriate designs to meet the objectives of well-planned experiments. Relative merits of various designs and topics in analysis, interpretation, and regression are covered.

201. Agricultural Laboratory Techniques (3)
Prerequisite: One of the following courses: Bot 130; Chem 105, 109, 151; Enol 115 or FSc 115. Agricultural problem solving through the application of advances in laboratory technology, crop management, foods, nutrition, soil and water quality. Theory and practice operation of scientific instruments and techniques are taught. Student defined project and report required. (2 lecture, 3 lab hours)

220. Research Methodology and Communications (3)
Prerequisite: completion of university graduate writing skills requirement. Critical literature review, quantitative and qualitative research design, scientific writing, questionnaire design and use, and presentation of research results. Ethical research issues examined. Approved for SP grading.



Plant Science (Plant)

250T. Topics in Plant Science (3; max total 12)
Prerequisites: upper-division plant science appropriate to study topic; permission of instructor. Advanced studies in a given area: crop physiology, plant breeding, plant pathology, plant nutrition, or economics. Topics may require lab hours.

251. Pesticides (3)
Prerequisites: Bot 10, Chem 8. Modes of action of pesticides. Absorption and translocation of pesticides. Mechanisms of pesticide specificity. Interaction with soil and soil microbes. Biotechnology developments, pesticide use in integrated pest management systems.

252. Plant Nutrition (3)
Prerequisite: Bot 130. Mineral requirements of plants; the acquisition and translocation of nutrients by higher plants and the role of nutrient elements in plant development. (2 lecture, 3 lab hours)

253. Irrigation Water Quality (3)
Prerequisite: SI 2. Effect of irrigation water quality on soil properties and plant growth. Management alternatives for salinity and toxicity problems. Suitability of using waste waters for irrigation. (2 lecture, 3 lab hours)

254. Plant Hormones and Regulators (3)
Prerequisites: Bot 130, Chem 8. History of discovery, chemical nature, extraction, and identification of naturally occurring hormones. Physiological and biochemical effects of plant growth substances and hormones. Mechanism of action of auxins, gibberellins, cytokinins, inhibitors (A.B.A.), ethylene, and other hormones. Agricultural impacts of growth regulators. (2 lecture, 3 lab hours)

255. Advanced Plant Breeding (3)
Prerequisites: BioSc 140A-B; Genet 120. Principles and techniques of plant improvement, breeding methods, combining ability, sterility systems, quantitative genetic analysis, heritability estimates, experimental designs for plant breeding.

256. Plant-Water Relationships (3)
Prerequisite: Bot 130. Physicochemical properties of water and solutions; movement of water, solutes, and growth regulators in plants; study of moisture-sensitive periods of various crops; factors affecting water absorption and retention.

257. Physiology of Cultivated Plants (3)
Prerequisite: Bot 130. Plant cell structure and function. Response of cultivated plants to the environment. Physiology and hormonal control of flower induction, fruit set, and development. Review of pertinent current publications.

258. Plant Disease Control (3)
Prerequisite: Pl Pr 106. Principles of plant disease control. Methods and theory used in application of chemicals, biological control and breeding for resistance. Insight into industrial research and development of control measures. (2 lecture, 3 lab hours)

259. Physical Properties of Soil (3)
Prerequisites: SI 100; Math 70 recommended. Study of physical properties of soil and water as they relate to plant growth nature and behavior of clays. Energy relationships of soil-water and its movement in soil. Soil structure, air, soil temperature and soil color as they relate to soil productivity. (2 lecture, 3 lab hours)

261. Advanced Pest Management (3)
Prerequisite: Pl Pr 108 or permission of instructor. Comprehensive study of insect, disease, and weed pest problems in important California cropping systems. Examination of complex relationships among pests, crops, and other components of these agro-ecosystems leads to design of economically viable and ecologically sound management programs.

270. Seminar in Plant Science (1; max total 4)
Prerequisite: permission of instructor. Reviews of published and/or original research in the areas of crop development, soils and irrigation, and crop protection.

290. Independent Study (1-3; max see reference)
See Academic Placement -- Independent Study. Approved for SP grading.

299. Thesis (3)
Prerequisite: prior advancement to candidacy. See Criteria for Thesis and Project. Preparation, completion, and submission of an acceptable thesis for the master's degree. Oral defense of thesis required. Approved for SP grading.

IN-SERVICE COURSE

(See Course Numbering System.)

Agriculture (Agri)

300. Topics in Agriculture (1-3)
Topics may require lab hours. In-service professional training in selected areas of agriculture.

Plant Science and Mechanized Agriculture - Degrees

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