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Agronomy

This is an archived copy of the 2011-12 Catalog. To access the most recent version of the catalog, please visit http://catalog.iastate.edu.

Undergraduate Study

For undergraduate curriculum in Agronomy, see College of Agriculture, Curricula.

The Department of Agronomy has a curriculum noted for its scientific rigor and breadth in crop science, soil science, agricultural meteorology, and plant breeding. It prepares students for science-based professional positions, graduate study, or research careers across the spectrum of Agronomy.

The curriculum provides both flexibility and direction for students by offering four in-depth options: crop management and business, agroecology, soil and environmental science, quality and plant breeding and biotechnology. A minimum of 15 credits of Agronomy courses must be earned at Iowa State for students transferring from other institutions. The program also has many opportunities for undergraduate students to be involved in cutting edge research and international agriculture.

Graduates have the theoretical and practical knowledge needed for efficient and sustainable production of food, feed, fuel, and fiber. Graduates are skilled in communications, critical thinking, problem solving, and working effectively with others.

They understand the ethical, cultural, and environmental dimensions of issues facing professionals in agriculture and natural resources.

An Agronomy major prepares students for employment in agricultural business and industry, agricultural service organizations, crop production and soil management, environmental and natural resource management, and farm management. Graduates pursue careers in the seed, fertilizer, and agricultural chemical industries as field Agronomists, crop and soil management specialists, research technicians, sales and marketing specialists, and production managers. State and federal agencies employ Agronomists as extension specialists, county extension directors, environmental and natural resource specialists, research associates, soil surveyors, soil conservationists, and in regulatory agencies as plant, food, and grain inspectors. Additional areas of work open to Agronomists include integrated pest management, land appraisal, agricultural finance, turfgrass management, and the home lawn care industry.

The department offers an international scholar program leading to a credentialed title of "Agronomy International Scholar" for agronomy majors who have distinguished themselves in global understanding and international experience. Contact the department for requirements.

Minor

The department offers work for a minor in Agronomy. Students are required to complete an approved minor program that includes:

AGRON 114Principles of Agronomy3
AGRON 154Fundamentals of Soil Science3
AGRON 212Crop Growth, Productivity and Management3
AGRON 354Soils and Plant Growth3
6 additional credits (3 credits must be at the 300+ level)6
9 credits for the Agronomy minor must be earned at Iowa State.9

Curriculum in Agronomy

Students majoring in agronomy study crop, soil, and environmental sciences under one of five options: agroecology; agronomy management and business; plant breeding; or soil and environmental science. A minimum of 15 credits in agronomy courses must be earned at Iowa State University.

Total Degree Requirement: 128 cr.

Only 65 cr. from a two-year institution may apply which may include up to 16 technical cr.; 9 P-NP cr. of free electives; 2.00 minimum GPA.

International Perspective: 3 cr.

U.S. Diversity: 3 cr.

Communications Proficiency: 6 cr.

6 cr. of English composition with a C or better and 3 cr. of speech fundamentals with a C or better.

Communication/Library:

ENGL 150Critical Thinking and Communication3
ENGL 250Written, Oral, Visual, and Electronic Composition3
SP CM 212Fundamentals of Public Speaking3
or AGEDS 311 Presentation and Sales Strategies for Agricultural Audiences
ENGL 302Business Communication3
ENGL 309Report and Proposal Writing3
or ENGL 314 Technical Communication
LIB 160Library Instruction0.5

Humanities and Social Sciences: 6 cr.

3 cr. from approved humanities list; 3 cr. from approved social science list.

Ethics: 3 cr.

3 cr. from approved list.

Life Sciences: 6 cr.

BIOL 211Principles of Biology I3
3 cr. from approved list3

Mathematical Sciences: 6 cr.

MATH 140College Algebra3
MATH 150Discrete Mathematics for Business and Social Sciences3
MATH 160Survey of Calculus4
MATH 165Calculus I4
or MATH 181 Calculus and Mathematical Modeling for the Life Sciences I
STAT 104Introduction to Statistics3

Physical Sciences: 15 cr.

CHEM 163
  &  163L
College Chemistry
   and Laboratory in College Chemistry
5
or
CHEM 177General Chemistry I4
or CHEM 177L Laboratory in General Chemistry I
CHEM 231Elementary Organic Chemistry3
CHEM 231LLaboratory in Elementary Organic Chemistry1
or BBMB 221 Structure and Reactions in Biochemical Processes
PHYS 106The Physics of Common Experience4
or PHYS 111 General Physics
GEOL 100The Earth3

Life and Biological Sciences: 11.0 cr.

BIOL 211Principles of Biology I3
BIOL 211LPrinciples of Biology Laboratory I1
AGRON 320Genetics, Agriculture and Biotechnology3
or BIOL 313 Principles of Genetics
BIOL 313LGenetics Laboratory1

Agronomy Core:

AGRON 105Leadership ExperienceR
AGRON 110Professional Development in Agronomy: Orientation0.5
AGRON 114Principles of Agronomy3
AGRON 154Fundamentals of Soil Science3
AGRON 206Introduction to Weather and Climate3
AGRON 210Professional Development in Agronomy: Career Planning1
AGRON 316Crop Structure-Function Relationships3
AGRON 310Professional Development in Agronomy: Work ExperienceR
or AGRON 311 Professional Internship in Agronomy
AGRON 354Soils and Plant Growth3
AGRON 354LSoils and Plant Growth Laboratory1
AGRON 410Professional Development in Agronomy: Senior Forum1
1 course from agriculture issues choise list
ECON 101Principles of Microeconomics3

Electives:

No more than 4 cr. of ECON 297 may count toward graduation.Advising Option Choice

Complete 24 cr. including 16 cr. from 300 level courses or above; 16 cr. from 300 level courses or above from approved list; 8 cr. additional cr. from approved list.

Options

Agroecology

The Agroecology option provides the scientific foundation for understanding and managing agricultural systems with ecological and environmental perspectives. Students may pursue graduate study or careers in sustainable agriculture. More information is available from an agronomy adviser or www.agron.iastate.edu/.

Agronomy Management and Business

The Agronomy Management and Business option is designed for those individuals who seek employment as agronomists working in agribusinesses such as cooperatives, seed companies, herbicide and fertilizer dealers, or crop consulting firms. More information is available from an agronomy adviser or www.agron.iastate.edu/.

Plant Breeding and Biotechnology

The Plant Breeding and Biotechnology option is a science-oriented option recommended for those who would like to work in plant breeding or plant biotechnology. More information is available from an agronomy adviser or www.agron.iastate.edu/.

Soil and Environmental Quality

The Soil and Environmental Quality option is designed for those individuals interested in careers in environmental science, soil science, or natural resource management. More information is available from an agronomy adviser or www.agron.iastate.edu/.

Graduate Study

The department offers programs that lead to the degrees master of science and doctor of philosophy, with majors in agricultural meteorology; crop production and physiology with optional specializations in seed science and weed science; plant breeding; and soil science with specialization in soil chemistry, soil fertility, soil management, soil Microbiology and biochemistry, soil morphology and genesis, or soil physics. Minor work is offered for students with majors in other departments. An M.S. nonthesis option is available for students desiring a general degree program with additional coursework and a written creative component substituting for thesis research.

Graduates have a broad knowledge base germane to their area of study. They are trained to integrate and apply knowledge to different situations. Students develop skills in scientific reasoning, organization, and logical presentation of ideas.

The department offers a Master of Science degree in Agronomy designed for the continuing education of professional Agronomists. The Program is taught at a distance using computer- based instructional media. It is a nonthesis degree requiring completion of a written creative component.

The department cooperates in the interdepartmental program in professional agriculture; interdepartmental majors in ecology and evolutionary biology; genetics; MCDB (molecular, cellular, and developmental biology); plant physiology; sustainable agriculture; and environmental science.

Prerequisite to major work in this department is completion of an undergraduate degree program with emphasis on Agronomic, biological, and physical sciences.

Curriculum in Agronomy

Students majoring in agronomy study crop, soil, and environmental sciences under one of five options: agroecology; agronomy management and business; plant breeding; or soil and environmental science. A minimum of 15 credits in agronomy courses must be earned at Iowa State University.

Total Degree Requirement: 128 cr.

Only 65 cr. from a two-year institution may apply which may include up to 16 technical cr.; 9 P-NP cr. of free electives; 2.00 minimum GPA.

International Perspective: 3 cr.
U.S. Diversity: 3 cr.
Communications Proficiency (with C or better):
English composition3
Speech Fundamentals3
Communication/Library:
ENGL 150Critical Thinking and Communication3
ENGL 250Written, Oral, Visual, and Electronic Composition3
SP CM 212Fundamentals of Public Speaking3
or AGEDS 311 Presentation and Sales Strategies for Agricultural Audiences
ENGL 302Business Communication3
ENGL 309Report and Proposal Writing3
ENGL 314Technical Communication3
LIB 160Library Instruction0.5
Humanities and Social Sciences: 6 cr.
Approved Humanities course3
Approved Social Science course3
Ethics: 3 cr.

3 cr. from approved list.

Life Sciences: 6 cr.
BIOL 211Principles of Biology I3
Three credit from approved list3
Mathematical Sciences: 6 cr.
Two of the following:6
College Algebra
Discrete Mathematics for Business and Social Sciences
Survey of Calculus
Calculus I
Calculus and Mathematical Modeling for the Life Sciences I
Introduction to Statistics
Total Credits6
Physical Sciences: 15 cr.
One of the following:5
College Chemistry
   and Laboratory in College Chemistry
General Chemistry I
   and Laboratory in General Chemistry I
General Chemistry II
   and Laboratory in College Chemistry II
One of the following:5
Elementary Organic Chemistry
   and Laboratory in Elementary Organic Chemistry
Structure and Reactions in Biochemical Processes
Organic Chemistry I
   and Laboratory in Organic Chemistry I
Organic Chemistry II
   and Laboratory in Organic Chemistry II
One of the following:5
The Physics of Common Experience
General Physics
The Earth
Total Credits15
Life and Biological Sciences: 11.0 cr.
BIOL 211Principles of Biology I3
BIOL 211LPrinciples of Biology Laboratory I1
AGRON 320Genetics, Agriculture and Biotechnology3
BIOL 313Principles of Genetics3
BIOL 313LGenetics Laboratory1
Total Credits11
Agronomy Core:
AGRON 105Leadership ExperienceR
AGRON 110Professional Development in Agronomy: Orientation0.5
AGRON 114Principles of Agronomy3
AGRON 154Fundamentals of Soil Science3
AGRON 206Introduction to Weather and Climate3
AGRON 210Professional Development in Agronomy: Career Planning1
AGRON 316Crop Structure-Function Relationships3
AGRON 310Professional Development in Agronomy: Work ExperienceR
or AGRON 311 Professional Internship in Agronomy
AGRON 354Soils and Plant Growth3
AGRON 354LSoils and Plant Growth Laboratory1
AGRON 410Professional Development in Agronomy: Senior Forum1
ECON 101Principles of Microeconomics3
Plus one course from agriculture issues choice list3
Electives:

No more than 4 cr. of ECON 297 Internship may count toward graduation.Advising Option Choice

Complete 24 cr. including 16 cr. from 300 level courses or above; 16 cr. from 300 level courses or above from approved list; 8 cr. additional cr. from approved list.

Options

Agroecology

The Agroecology option provides the scientific foundation for understanding and managing agricultural systems with ecological and environmental perspectives. Students may pursue graduate study or careers in sustainable agriculture. More information is available from an agronomy adviser or www.agron.iastate.edu/.

Agronomy Management and Business

The Agronomy Management and Business option is designed for those individuals who seek employment as agronomists working in agribusinesses such as cooperatives, seed companies, herbicide and fertilizer dealers, or crop consulting firms. More information is available from an agronomy adviser or www.agron.iastate.edu/.

Plant Breeding and Biotechnology

The Plant Breeding and Biotechnology option is a science-oriented option recommended for those who would like to work in plant breeding or plant biotechnology. More information is available from an agronomy adviser or www.agron.iastate.edu/.

Soil and Environmental Quality

The Soil and Environmental Quality option is designed for those individuals interested in careers in environmental science, soil science, or natural resource managment. More information is available from an agronomy adviser or www.agron.iastate.edu/.

 

Courses primarily for undergraduate students

AGRON 105. Leadership Experience.

Cr. R. F.S.SS.
A participatory experience in activities or completion of a course that enhances the development of leadership and group-dynamic skills. See adviser for departmental requirements.

AGRON 110. Professional Development in Agronomy: Orientation.

(0.5-0) Cr. 0.5. F.
Orientation to college life, the profession of agronomy, and the agronomy curriculum.

AGRON 114. Principles of Agronomy.

(2-3) Cr. 3. F.S.
Mullen. A foundation course in agronomy applying crop, soil, and environmental sciences in understanding agricultural systems in the world. Includes introductory concepts of plant, soil, tillage, pest, environmental, and sustainable aspects of crop production. Off-campus version offered through internet by interactive computer courseware.

AGRON 120. Introduction to Renewable Resources.

(Cross-listed with ENV S, NREM). (3-0) Cr. 3. F.S.
Overview of soil, water, plants, and animals as renewable natural resources in an ecosystem context. History and organization of resource management. Concepts of integrated resource management.

AGRON 154. Fundamentals of Soil Science.

(2-2) Cr. 3. F.S. Prereq: CHEM 163
Manu. Introduction to physical, chemical, and biological properties of soils, their formation, classification, and distribution. Use of soil survey and computer databank information in balancing agronomic, economic, and environmental concerns in soil management. Credit for only one of Agron 154, 155, or 156 may be applied toward graduation.

AGRON 155. Soils for Horticultural Scientists.

(2-2) Cr. 3. F.S. Prereq: CHEM 163
Restricted to students in Horticulture. Manu. Physical, chemical and biological properties of natural and manufactured soils. Use of soil information when producing plants on natural and manufactured soils. Credit for only one of Agron 154, 155, or 156 may be applied toward graduation.

AGRON 156. Soils for Urban Use.

(2-2) Cr. 3. F.S.
Restricted to students outside the College of Agriculture. Manu. Fundamental properties of soils and their application to urban settings. Development of a site plan for area of land using data from soil survey and computerized data bank information. Field trip. Credit for only one of Agron 154, 155 or 156 may be applied toward graduation.

AGRON 160. Water Resources of the World.

(Cross-listed with GEOL, MTEOR, ENV S). (3-0) Cr. 3. S.
Study of the occurrence, history, development, and management of world water resources. Basic hydrologic principles including climate, surface water, groundwater, and water quality. Historical and current perspectives on water policy, use, and the role of water in society and the environment.

AGRON 206. Introduction to Weather and Climate.

(Cross-listed with MTEOR). (3-0) Cr. 3. F.S.
Arritt, Cervato, Hornbuckle. Basic concepts in weather and climate, including atmospheric measurements, radiation, stability, precipitation, winds, fronts, forecasting, and severe weather. Applied topics include global warming, ozone depletion, world climates and weather safety.

AGRON 210. Professional Development in Agronomy: Career Planning.

(1-0) Cr. 1. F. Prereq: Sophomore classification
Career planning, résumé and cover letter preparation, and interviewing techniques. Career orientation through invited speakers.

AGRON 212. Crop Growth, Productivity and Management.

(3-0) Cr. 3. F.S. Prereq: 114
Production and management practices for corn, soybean, small grain, and forage crops common to Midwestern U.S. agriculture. Emphasis on growth and development, plant characteristics, management practices, crop use, quality, and problem-solving.

AGRON 212L. Field Application and Problem Solving in Crop Production.

(0-2) Cr. 1. F.S. Prereq: 154, credit or enrollment in AGRON 212
Problem solving in crop production. Integration and application of concepts introduced in AGRON 212. Agronomic field skills such as crop and pest identification, integrated management strategies, staging crop growth, agricultural math and site specific management related to crop production will be emphasized.

AGRON 260. Soils and Environmental Quality.

(Cross-listed with ENV S). (3-0) Cr. 3. F.S.
Burras. Role of soils in environmental quality and natural resources management. Emphasis on soil erosion and conservation, water quality, and environmental planning. Saturday field trip.

AGRON 283. Pesticide Application Certification.

(Cross-listed with ENT, FOR, HORT). (2-0) Cr. 2. S.
Holscher. Core background and specialty topics in agricultural, and horticultural pesticide applicator certification. Students can select certification categories and have the opportunity to obtain pesticide applicator certification at the completion of the course. Commercial pesticide applicator certification is emphasized.

AGRON 298. Cooperative Education.

Cr. R. F.S.SS. Prereq: Permission of department cooperative education coordinator, sophomore classification
Required of all cooperative education students. Students must register for this course prior to commencing each work period.

AGRON 310. Professional Development in Agronomy: Work Experience.

Cr. R. F.S.SS.
Professional work experience in agronomy. See adviser for departmental requirements. Offered on a satisfactory-fail basis only.

AGRON 311. Professional Internship in Agronomy.

(1-0) Cr. 1. Repeatable. F.S. Prereq: 110, agronomy majors only, permission of instructor before internship begins
Wiedenhoeft. A supervised learning experience in a professional setting related to crop production, plant breeding, soil science or environmental science.

AGRON 316. Crop Structure-Function Relationships.

(3-0) Cr. 3. F.S. Prereq: BIOL 212 Recommended
Knapp. Basic principles concerning the growth, development, and production of crop communities in relation to their environment.

AGRON 317. Principles of Weed Science.

(2-2) Cr. 3. F. Prereq: BIOL 211
Hartzler. Biology and ecology of weeds. Interactions between weeds and crops. Principles and practices of integrated weed management systems. Herbicide mechanisms, classification, and fate in plants and soils.

AGRON 320. Genetics, Agriculture and Biotechnology.

(Cross-listed with GEN). (3-0) Cr. 3. F.S. Prereq: BIOL 212
Lee and Salas Transmission genetics with an emphasis on applications in agriculture, the structure and expression of the gene, how genes behave in populations and how recombinant DNA technology can be used to improve agriculture. Credit for graduation will not be allowed for more than one of the following: Gen 260, 313, 320 and Biol 313 and 313L.

AGRON 325. Biorenewable Systems.

(Cross-listed with A E, AN S, BSE, BUSAD, ECON, TSM). (3-0) Cr. 3. F. Prereq: ECON 101, CHEM 163 or higher, MATH 140 or higher
Converting biorenewable resources into bioenergy and biobased products. Biorenewable concepts as they relate to drivers of change, feedstock production, processes, products, co-products, economics, and transportation/logistics.

AGRON 330. Crop and Seed Identification Laboratory.

(0-4) Cr. 2. S. Prereq: 114
Identification, agronomic and binomial classification of crops, weeds, and diseases. Analysis of crop seed samples for contaminants of weed and other crop seeds.

AGRON 331. Intercollegiate Crops Team.

(0-6) Cr. 2. Repeatable. F.S. Prereq: Permission of instructor
Intensive training in preparation for intercollegiate competition in national crops contests.

AGRON 334. Forage Crop Management.

(3-0) Cr. 3. F.S. Prereq: 114
Barnhart. Production and management of forage crops; concepts applied to yield, quality, and stand persistence; systems of forage utilization including grazing, hay, and silage. Students enrolling for graduate credit will be expected to complete an additional class project. Nonmajor graduate credit.

AGRON 338. Seed Science and Technology.

(Cross-listed with HORT). (2-3) Cr. 3. F. Prereq: 114 or HORT 221, BIOL 211
Goggi. Seed production, maturation, dormancy, vigor, deterioration, and related aspects of enhancement, conditioning, storage, and quality evaluation. Aspects of the seed industry and regulation of seed marketing.

AGRON 342. World Food Issues: Past and Present.

(Cross-listed with ENV S, FS HN, T SC). (3-0) Cr. 3. F.S. Prereq: Junior classification
Zdorkowski, Ford. Issues in the agricultural and food systems of the developed and developing world. Emphasis on economic, social, historical, ethical and environmental contexts. Causes and consequences of overnutrition/undernutrition, poverty, hunger and access/distribution. Explorations of current issues and ideas for the future. Team projects. Nonmajor graduate credit.

Meets International Perspectives Requirement.

H. Honors Section. (Honors Program students only.)

AGRON 351. Turfgrass Establishment and Management.

(Cross-listed with HORT). (3-0) Cr. 3. F. Prereq: HORT 221 or AGRON 114 or BIOL 211
Principles and practices of turfgrass propagation, establishment, and management. Specialized practices relative to professional lawn care, golf courses, athletic fields, highway roadsides, and seed and sod production. The biology and control of turfgrass pests. Nonmajor graduate credit.

AGRON 351L. Turfgrass Establishment and Management Laboratory.

(Cross-listed with HORT). (0-3) Cr. 1. F. Prereq: Credit or enrollment in 351
Those enrolled in the horticulture curriculum are required to take 351L in conjunction with 351 except by permission of the instructor. Nonmajor graduate credit.

AGRON 354. Soils and Plant Growth.

(Cross-listed with HORT). (3-0) Cr. 3. F.S. Prereq: AGRON 154 and BIOL 101 or 211
Killorn or Loynachan. Effects of chemical, physical, and biological properties of soils on plant growth, with emphasis on nutritive elements, pH, organic matter maintenance, and rooting development. Nonmajor graduate credit.

AGRON 354L. Soils and Plant Growth Laboratory.

(Cross-listed with HORT). (0-3) Cr. 1. F.S. Prereq: Credit or enrollment in 354
Henning. Laboratory exercises in soil testing that assess a soil's ability to support nutritive requirements for plant growth.

AGRON 356. Site-Specific Crop and Soil Management.

(3-3) Cr. 4. F. Prereq: 114 and 354
Polito. Development of solutions to crop and soil management problems in consultation with a producer-client. Identification of client needs, gathering technical information, and use of geographic information systems as a tool for making crop and soil management decisions. Development and presentation of solutions for crop and soil management issues confronting the client. Emphasis will be placed on identifying and solving complex problems that require integration of biological, physical, chemical, and economic components within a crop and soil management system. Nonmajor graduate credit.

AGRON 360. Environmental Soil Science.

(Cross-listed with ENSCI). (2-3) Cr. 3. S. Prereq: AGRON 260 or GEOL 100 or 201
Burras and Killorn. Application of soil science to contemporary environmental problems; comparison of the impacts that different management strategies have on short- and long-term environmental quality and land development. Emphasis on participatory learning activities.

AGRON 370. Field Experience in Soil Description and Interpretation.

(0-3) Cr. 1. Repeatable, maximum of 4 times. F.S. Prereq: 154 and permission of instructor
Description and interpretation of soils in the field and laboratory, emphasizing hands-on experience. Evaluation of soil information for land use. Students may participate in intercollegiate judging contests.

AGRON 392. Systems Analysis in Crop and Soil Management.

(2-3) Cr. 3. F.S. Prereq: 316, 354
Wiedenhoeft. Management strategies at the level of the farm field. Emphasis will be on participatory learning activities.

AGRON 398. Cooperative Education.

Cr. R. F.S.SS. Prereq: Permission of department cooperative education coordinator; junior classification
Required of all cooperative education students. Students must register for this course prior to commencing each work period.

AGRON 402. Watershed Hydrology.

(Cross-listed with ENSCI, GEOL, MTEOR, NREM). (3-3) Cr. 4. F. Prereq: Four courses in physical or biological sciences or engineering; junior standing
Examination of watersheds as systems, emphasizing the surface components of the hydrologic cycle. Combines qualitative understanding of hydrological processes and uncertainty with quantitative representation. Laboratory emphasizes field investigation and measurement of watershed processes. Nonmajor graduate credit.

I. Watershed Hydrology and Surficial Processes

AGRON 402I. Watershed Hydrology and Surficial Processes.

(Cross-listed with IA LL, ENSCI). Cr. 4. SS. Prereq: Four courses in physical or biological sciences or engineering
Effects of geomorphology, soils, and land use on transport of water and materials (nutrients, contaminates) in watersheds. Fieldwork will emphasize investigations of the Iowa Great Lakes watershed. Nonmajor graduate credit.

AGRON 404. Global Change.

(Dual-listed with 504). (Cross-listed with ENSCI, ENV S, MTEOR). (3-0) Cr. 3. S. Prereq: Four courses in physical or biological sciences or engineering; junior standing
Recent changes in global biogeochemical cycles and climate; models of future changes in the climate system; impacts of global change on agriculture, water resources and human health; ethical issues of global environmental change. Nonmajor graduate credit.

AGRON 405. Environmental Biophysics.

(Dual-listed with 505). (Cross-listed with MTEOR, ENSCI). (3-0) Cr. 3. Alt. S., offered 2013. Prereq: MATH 165 or 182 or equivalent and some computer programming experience (any language)
Hornbuckle. A description of the physical microenvironment in which organisms live. Emphasis on the movement of energy (heat and radiation) and mass (water and carbon) among organisms, the soil, and atmosphere. Applications to humans, other animals, plants, and plant communities. Nonmajor graduate credit.

AGRON 406. World Climates.

(Cross-listed with MTEOR, ENSCI). (3-0) Cr. 3. F. Prereq: Agron/MTEOR 206
Arritt. Distribution and causes of different climates around the world. Effects of climate and climate variations on human activities including society, economy and agriculture. Current issues such as climate change and international efforts to assess and mitigate the consequences of a changing climate. Semester project and in-class presentation required. Nonmajor graduate credit.

Meets International Perspectives Requirement.

AGRON 407. Mesoscale Meteorology.

(Dual-listed with 507). (Cross-listed with MTEOR). (3-0) Cr. 3. Alt. S., offered 2012. Prereq: MATH 166 and MTEOR 443
Arritt, Gallus. Physical nature and practical consequences of mesoscale atmospheric phenomena. Mesoscale convective systems, fronts, terrain-forced circulations. Observation, analysis, and prediction of mesoscale atmospheric structure.

AGRON 410. Professional Development in Agronomy: Senior Forum.

(1-0) Cr. 1. F.S. Prereq: Senior classification
Development of an appropriate content for professionalism. Topics include professional certification, ethics, and maintaining an active network of information sources and professional contacts in support of lifelong learning. Student interpretation, writings, presentations, and discussions.

AGRON 417. Evolutionary Ecology of Weeds.

(Dual-listed with 517). (3-0) Cr. 3. Prereq: 317
Dekker. Ecology and evolution of invasive plants and weeds in habitats disturbed by humans. Life history trait evolution and adaptation to agricultural opportunities and the consequent processes of invasion, colonization, enduring occupation and population shifts. Roles played by mating systems and biodiversity, soil seed pools and community assembly, competitive interactions with neighbors and fitness.

AGRON 421. Introduction to Plant Breeding.

(Cross-listed with HORT). (3-0) Cr. 3. F. Prereq: GEN 320 or BIOL 313
Breeding methods used in the genetic improvement of self-pollinated, cross-pollinated and asexually reproducing agronomic and horticultural crops. Applications of biotechnology techniques in the development of improved cultivars. Nonmajor graduate credit.

AGRON 446. International Issues and Challenges in Sustainable Development.

(Cross-listed with GLOBE, INTST). Cr. 4. S. Prereq: 3-credit biology course, Sophomore or higher classification, permission of Instructor
Mullen. Interdisciplinary study and analysis of agricultural, biophysical, environmental, sociological, economical, political, and historical factors affecting sustainable development of communities and countries from art and science perspectives. International field experience with foreign language training required. A program fee is charged to students for international study abroad.

Meets International Perspectives Requirement.

AGRON 450. Issues in Sustainable Agriculture.

(Cross-listed with ENV S). (3-0) Cr. 3. F.
Zdorkowski. Agricultural science as a human activity; contemporary agricultural issues from agroecological perspective. Comparative analysis of intended and actual consequences of development of industrial agricultural practices.

Meets International Perspectives Requirement.

AGRON 452. GIS for Geoscientists.

(Dual-listed with 552). (Cross-listed with GEOL, ENSCI). (2-2) Cr. 3. F. Prereq: GEOL 100, GEOL 201 or equivalent
Introduction to geographic information systems (GIS) with particular emphasis on geoscientific data. Uses ESRI's ArcGIS Desktop Software and extension modules. Emphasizes typical GIS operations and analyses in the geosciences to prepare students for advanced GIS courses. Nonmajor graduate credit.

AGRON 459. Environmental Soil and Water Chemistry.

(Dual-listed with 559). (Cross-listed with ENSCI). (3-3) Cr. 4. F. Prereq: AGRON 354 or ENSCI 360; Chem 164 or 178; MATH 140. CHEM 211 or 231 recommended
Thompson. An introduction to the chemical properties of soils, chemical reactions and transformations in soils and surface waters, and their impact on the environment. Topics include solution chemistry in soils and surface waters, solid-phase composition of soils, reactions at the solid-solution interface, and applications to contemporary environmental issues. Nonmajor graduate credit.

AGRON 463. Soil Formation and Landscape Relationships.

(Dual-listed with 563). (Cross-listed with ENSCI). (2-4) Cr. 4. S. Prereq: AGRON 154 or 260
Relationships between soil formation, geomorphology, and environment. Soil description, classification, geography, mapping, and interpretation for land use. Two weekend field trips. Nonmajor graduate credit. Credit for one of Agron 463 or 463I may be applied for graduation.

I. Soil Formation and Landscape Relationships

AGRON 463I. Soil Formation and Landscape Relationships.

(Dual-listed with 563I). (Cross-listed with ENSCI, IA LL). Cr. 4. Alt. SS., offered 2012. Prereq: 154 or 260
Burras. Relationships between soil formation, geomorphology, and environment. Soil description, classification, geography, mapping, and interpretation for land use. Nonmajor graduate credit. Credit for one of Agron 463 or 463I may be applied for graduation.

AGRON 477. Soil Physics.

(Dual-listed with 577). (3-0) Cr. 3. S. Prereq: Recommended: AGRON 354 MATH 166
Horton. The physical soil system: the soil components and their physical interactions; transport processes involving water, air, and heat.

AGRON 484. Organic Agricultural Theory and Practice.

(Dual-listed with 584). (Cross-listed with HORT). (3-0) Cr. 3. Alt. S., offered 2012. Prereq: 9 cr. in biological or physical sciences
Delate DeWitt. Understanding of the historical origins and ecological theories underpinning the practices involved in organic agriculture. Interdisciplinary examination of crop and livestock production and socio-economic processes and policies in organic agriculture from researcher and producer perspectives. Nonmajor graduate credit.

AGRON 485. Soil and Environmental Microbiology.

(Dual-listed with 585). (Cross-listed with ENSCI, MICRO). (2-3) Cr. 3. F. Prereq: 154 or 402, MICRO 201 (MICRO 201L recommended)
Loynachan. The living organisms in the soil and what they do. Emphasis on soil biota composition, the carbon cycle and bioremediation, soil-plant-microbial relationships, and environmental issues. Nonmajor graduate credit.

AGRON 490. Independent Study.

Cr. 1-3. Repeatable, maximum of 4 credits. F.S.SS. Prereq: Junior or senior classification with at least 8 credits in agronomy; permission of instructor in specialty area after consultation
Selected studies in crops, soils, or agricultural meteorology according to the needs and interests of the student.

E. Entrepreneurship
G. General
H. Honors
Z. Service Learning

AGRON 491. Seed Science Internship Experience.

(Cross-listed with TSM, HORT). Cr. 1-2. Repeatable, maximum of 1 times. F.S.SS. Prereq: AGRON 338, advanced approval and participation of employer and instructor
A professional work experience and creative project for seed science secondary majors. The project requires the prior approval and participation of the employer and instructor. The student must submit a written report.

AGRON 493. Workshop in Agronomy.

Cr. arr. Repeatable, maximum of 4 times. Prereq: Permission of instructor
Staff. Workshop experience in crops, soils, or agricultural meteorology. Nonmajor graduate credit.

AGRON 495. Agricultural Travel Course Preparation.

Cr. R. Repeatable. F.S. Prereq: Permission of instructor
Limited enrollment. Students enrolled in this course intend to register for AGRON 496 the following term. Topics will include the agricultural industries, climate, crops, culture, economics, geography, history, livestock, marketing, soils, and preparation for travel to locations to be visited.

AGRON 496. Agricultural Travel Course.

Cr. arr. Repeatable. Prereq: Permission of instructor
Limited enrollment. Tour and study of production methods in major crop and livestock regions of the world. Influence of climate, economics, geography, soils, landscapes, markets, and other factors on crop and livestock production. Location and duration of tours will vary. Tour expenses paid by students. Check with department for current offerings.

A. International Tour
B. Domestic Tour

AGRON 497. Agroecology Field Course.

(3-0) Cr. 3. F. Prereq: Jr. or Sr. classification with at least 8 credits in Agronomy
A one-week intensive class, offered off-campus. Student will visit farms within the Midwest and analyze the sustainability of each farm.

AGRON 498. Cooperative Education.

Cr. R. F.S.SS. Prereq: Permission of department cooperative education coordinator; senior classification
Required of all cooperative education students. Students must register for this course prior to commencing each work period.

Courses primarily for graduate students, open to qualified undergraduate students

AGRON 500. Orientation Seminar.

(2-0) Cr. 1. F. Prereq: International agronomy graduate students only
Loynachan. An introduction to Iowa and U.S. agriculture for international scholars in agronomic majors. Field trips when possible. Departmental role in the functioning of research, teaching, and extension in fulfilling the charge given the land-grant university.

AGRON 501. Crop Growth and Development.

(3-0) Cr. 3. F. Prereq: 114, MATH 140, CHEM 163, BIOL 101
Physiological processes in crop growth, development and yield: photosynthesis, respiration, water relations, mineral nutrition, assimilate partitioning, seedling vigor, light interception and canopy growth, root growth, reproduction and yield. Required course for the Master of Science in Agronomy degree program.

AGRON 502. Chemistry, Physics, and Biology of Soils.

(3-0) Cr. 3. F. Prereq: 114, 154, BIOL 101, CHEM 163, and MATH 140
Soil chemical, physical, and biological properties that control processes within the soil, their influence on plant/soil interactions, and soil classification. Basic concepts in soil science and their applications. Required course for the Master of Science in Agronomy degree program.

AGRON 503. Climate and Crop Growth.

(3-0) Cr. 3. F. Prereq: 114 and MATH 140
Applied concepts in climate and agricultural meteorology with emphasis on the climate-agriculture relationship and the microclimate-agriculture interaction. Basic meteorological principles are also presented to support these applied concepts. Required course for the Master of Science in Agronomy degree program.

AGRON 504. Global Change.

(Dual-listed with 404). (Cross-listed with MTEOR, ENSCI). (3-0) Cr. 3. S. Prereq: Four courses in physical or biological sciences or engineering; junior, senior, or graduate standing
Recent changes in global biogeochemical cycles and climate; models of future changes in the climate system; impacts of global change on agriculture, water resources and human health; ethical issues of global environmental change.

AGRON 505. Environmental Biophysics.

(Dual-listed with 405). (Cross-listed with MTEOR, ENSCI). (3-0) Cr. 3. Alt. S., offered 2013. Prereq: MATH 165 or 182 or equivalent and some computer programming experience (any language)
Hornbuckle. A description of the physical microenvironment in which organisms live. Emphasis on the movement of energy (heat and radiation) and mass (water and carbon) among organisms, the soil, and atmosphere. Applications to humans, other animals, plants, and plant communities. Semester project required.

AGRON 507. Mesoscale Meteorology.

(Dual-listed with 407). (Cross-listed with MTEOR). (3-0) Cr. 3. Alt. S., offered 2012. Prereq: MATH 166 and MTEOR 454
Arritt, Gallus. The physical nature and practical consequences of mesoscale atmospheric phenomena. Mesoscale convective systems, fronts, terrain-forced circulations. Observation, analysis, and prediction of mesoscale atmospheric structure. Semester project and in-class presentation required.

AGRON 508. Biophysical Crop Ecology.

(3-0) Cr. 3. F. Prereq: 505
Taylor. Physical modeling of bio-response and crop adaptation to climate. Principles of resource capture (light and water) applied to growth and development. Ecological implications of radiation, temperature, moisture, and the biological properties of size, shape, resistance to water vapor loss, and absorptivity to solar and thermal radiation. Physiological stress in the soil, plant, atmosphere continuum.

AGRON 509. Agroecosystem Analysis.

(Cross-listed with ANTHR, SOC, SUSAG). (3-4) Cr. 3. F. Prereq: Senior or above classification
Experiential, interdisciplinary examination of Midwestern agricultural and food systems, emphasizing field visits, with some classroom activities. Focus on understanding multiple elements, perspectives (agronomic, economic, ecological, social, etc), and scales of operation.

AGRON 510. Crop Improvement.

(Cross-listed with STB). (3-0) Cr. 3. F. Prereq: Admission to the Seed Technology and Business Master's Degree Program or approval of the instructor
A study of the basic principles and methods in the genetic improvement of crop plants. Methods used in manipulating genomes through the use of biotechnology. Methods of cultivar development. Quantitative procedures for describing response to selection. Analysis of the relationship of reproductive characters and growth characteristics to response to selection.

AGRON 511. Crop Improvement.

(3-0) Cr. 3. S. Prereq: 114, MATH 140, CHEM 163, BIOL 101
Basic principles in the genetic improvement of crop plants. Methods of cultivar development in self-pollinated and cross-pollinated crop species. Required course for the Master of Science in Agronomy degree program.

AGRON 512. Soil-Plant Environment.

(3-0) Cr. 3. S. Prereq: 502. Recommended 501
Loynachan. Soil properties and their impact on soil/plant relationships. Soil structure, aeration, moisture, and nutrients will be discussed in the context of soil fertility and environmental quality management. Required course for the Master of Science in Agronomy degree program.

AGRON 513. Quantitative Methods for Agronomy.

(3-0) Cr. 3. S. Prereq: 114, MATH 140, STAT 104
Quantitative methods for analyzing and interpreting agronomic information. Principles of experimental design, hypothesis testing, analysis of variance, regression, correlation, and graphical representation of data. Use of JMP for organization, analyzing, and presenting data. Required course for the Master of Science in Agronomy degree program.

AGRON 514. Integrated Pest Management.

(3-0) Cr. 3. SS. Prereq: 114, 501, MATH 140, CHEM 163, BIOL 101. Recommended: 502, 503
Principles and practices of weed science, entomology, and plant pathology applied to crop production systems. Biology, ecology and principles of integrated crop pest management. Required course for the Master of Science in Agronomy degree program.

AGRON 515. Integrated Crop and Livestock Production Systems.

(Cross-listed with A E, SUSAG, AN S). (3-0) Cr. 3. F. Prereq: 509
Methods to maintain productivity and minimize the negative ecological effects of agricultural systems by understanding nutrient cycles, managing manure and crop residue, and utilizing multispecies interactions. Crop and livestock production within landscapes and watersheds is also considered. Course includes a significant field component, with student teams analyzing Iowa farms.

AGRON 516. Crop Physiology.

(3-0) Cr. 3. S.
Westgate. Investigation of Molecular, whole plant, and plant community processes essential to biomass production and seed formation, and analysis of molecular approaches to overcome the limitations imposed on these processes by the environment.

AGRON 517. Evolutionary Ecology of Weeds.

(Dual-listed with 417). (3-0) Cr. 3. S. Prereq: 317
Dekker. Ecology and evolution of invasive plants and weeds in habitats disturbed by humans. Life history trait evolution and adaptation to agricultural opportunities and the consequent processes of invasion, colonization, enduring occupation and population shifts. Roles played by mating systems and biodiversity, soil seed pools and community assembly, competitive interactions with neighbors and fitness.

AGRON 518. Microwave Remote Sensing.

(Cross-listed with E E, MTEOR). (3-0) Cr. 3. Alt. S., offered 2012. Prereq: MATH 265 or equivalent
Hornbuckle. Microwave remote sensing of Earth's surface and atmosphere using satellite- or ground-based instruments. Specific examples include remote sensing of atmospheric temperature and water vapor, precipitation, ocean salinity, and soil moisture.

AGRON 519. Herbicide Physiology and Biochemistry.

(2-0) Cr. 2. Alt. S., offered 2012. Prereq: 317; BIOL 330
Owen. Herbicide mechanisms of action, selectivity, uptake, and translocation. Specific sites of herbicide action as they affect plant physiology. Herbicide resistance in weeds and crops. Implications of herbicides on weed management.

AGRON 521. Principles of Cultivar Development.

(3-0) Cr. 3. F. Prereq: 421; STAT 401
Theoretical and practical analysis of alternative breeding methods to improve crop plants. Strategies to incorporate germplasm resources, develop populations, maximize genetic gain, and use marker-assisted selection. Relationship of breeding methods to commercial seed production.

AGRON 522. Field Methods in Plant Breeding.

(0-6) Cr. 1-2. Alt. SS., offered 2012. Prereq: 521
Field experience in planning and conducting plant breeding research for germplasm and cultivar development. Offered on a satisfactory-fail basis only.

AGRON 523. Molecular Plant Breeding.

(2-2) Cr. 3. S. Prereq: AGRON 421 or 521, GDCB 542A
Plant breeding in the era of sequenced genomes and transformation. High throughout genomic technologies will be presented in relation to various applications in plant breeding.

AGRON 526. Field Plot Technique.

(3-0) Cr. 3. Alt. S., offered 2013. Prereq: STAT 401
Moore. Planning experiments for agricultural research, analysis of data, and concepts in data interpretation.

AGRON 527. Plant Genetics.

(3-0) Cr. 3. S. Prereq: GEN 410
Bhattacharyya. Fundamental genetic and cytogenetic concepts from plant perspective including recombination, linkage analysis, genetic and molecular mapping, male sterility, self incompatibility, apomixis, and polyploid evolution.

AGRON 529. Publishing in Plant Science Journals.

(Cross-listed with HORT, NREM). (2-0) Cr. 2. S. Prereq: Permission of instructor; evidence of a publishable unit of the student's research data
Process of preparing a manuscript for submission to a refereed journal in the biological sciences. Emphasis on publishing self-generated data from thesis or dissertation research.

AGRON 530. Ecologically Based Pest Management Strategies.

(Cross-listed with SUSAG, ENT, PL P). (3-0) Cr. 3. Alt. F., offered 2012. Prereq: SUSAG 509
Durable, least-toxic strategies for managing weeds, pathogens, and insect pests, with emphasis on underlying ecological processes.

AGRON 531. Crop Ecology and Management.

(3-0) Cr. 3. F. Prereq: 501, 502, 503. Recommended: 512, 514
Ecological principles underlying crop production systems. Crop production in the context of management approaches, system resources and constraints, and interactions. Emphasis on the ecology of row and forage crops common to the Midwest. Required course for the Master of Science in Agronomy degree program.

AGRON 532. Soil Management.

(3-0) Cr. 3. F. Prereq: 501, 503, 512. Recommended 513
Evaluates the impact of various soil management practices on soil and water resources. Combines and applies basic information gained in AGRON 502 and AGRON 512. Emphasizes the agronomic, economic, and environmental effects of soil management strategies. Required course for the Master of Science in Agronomy degree program.

AGRON 533. Crop Protection.

(3-0) Cr. 3. F. Prereq: 514
Integrated management systems for important crop pests. Cultural, biological and chemical management strategies applicable to major crops grown in the Midwest. Required course for the Master of Science in Agronomy degree program.

AGRON 534. Seed and Variety, Testing and Technology.

(Cross-listed with STB). (2-0) Cr. 2. Prereq: Admission to the Seed Technology and Business Master's Degree Program or approval of the instructor
The components of seed quality and how they are assessed in the laboratory, including traits derived from modern biotechnology. The impact of new technologies on seed quality testing. Variety maintenance procedures and breeder seed. Variety identification: phenotype and grow-out trials, isozyme testing, and DNA marker testing. Procedures for evaluating varieties. The variance tests appropriate for fixed effects analysis of variance. Statistical inference and stratification for yield trials. Use of strip plot testing.

AGRON 535. Introduction to the Seed Industry.

(Cross-listed with STB). Cr. 1. Prereq: Curriculum requires undergraduate specialization in a business or biological science
An analysis of the defining characteristics of the seed industry and introduction to the Master in Seed Technology and Business curriculum. The tasks of crop improvement and seed production will be analytically related to basic management functions and classifications of management activities that are used in the study of business administration. Management tasks and roles will be analyzed in related to the public policy issues that shape the seed industry, including ethical and economical approaches to biotechnology, intellectual property, and corporate responsibility.

AGRON 536. Quantitative Methods for Seed.

(Cross-listed with STB). (1-0) Cr. 1. F. Prereq: Admission to the Seed Technology and Business Master's Degree Program or approval of the instructor
Quantitative Methods for analyzing and interpreting agronomic and business information for the seed industry. Principles of experimental design and hypothesis testing, regression, correlation and graphical representation of data. Use of spreadsheets for manipulating, analyzing and presenting data.

AGRON 537. Plant Stress Biology.

(Cross-listed with HORT, EEOB). (3-0) Cr. 3. Alt. S., offered 2013. Prereq: Biol 330A or equivalent and BBMB 404-405
Physiology and molecular biology of plant responses to environmental stress. Emphasis on the role of hormones and hormone interactions in governing stress responses. Lectures are prepared from journal papers that elucidate key mechanisms controlling responses to drought, flooding, salt, nutrient deficiencies, freezing, pathogens and herbivores. Plants studied include genetic model systems and crops of horticultural and agronomic value.

AGRON 538. Seed Physiology.

(2-0) Cr. 2. Alt. F., offered 2012. Prereq: 338; CHEM 231 or CHEM 331
Goggi. Physiological aspects of seed development, maturation, longevity, dormancy, and germination. Emphasis on current literature and advanced methodology.

AGRON 539. Seed Conditioning and Storage.

(Cross-listed with STB). (2-0) Cr. 2. F. Prereq: Admission to the Seed Technology and Business Master's Degree Program or approval of the instructor
The technical operations which may be carried out on a seed lot from harvest until it is ready for marketing and use. The opportunities for quality improvement and the risks of deterioration which are present during that time. Analysis of the costs of and benefits of operations. Evaluation of equipment based on benefits to the customer and producer. Interpretation of the role of the conditioning plant and store as focal points within the overall operations of a seed company.

AGRON 541. Applied Agricultural Meteorology.

Cr. 2-3. F.S.SS. Prereq: 206 or upper division Biological Science
Taylor. Applied concepts in agricultural meteorology. Basic concepts of weather and of crop/climate relationships influencing production, protection, yield and associated production risk factors. Self study sections are available to resident and to distant education students all semesters. Credit for only one of Agron 503 or 541 may be applied toward graduation.

AGRON 546. Strategies for Diversified Farming Systems.

(Cross-listed with HORT, SUSAG). (3-0) Cr. 3. Alt. S., offered 2013. Prereq: SUSAG 509
Project-focused engagement in food and farming systems using tools and perspectives drawn from multiple disciplines. Includes a field component.

AGRON 547. Seed Production.

(Cross-listed with STB). (2-0) Cr. 2. Alt. F., offered 2012. Prereq: Admission to the Seed Technology and Business Master's Degree Program or approval of instructor
Survey of crop production; including management of soil fertility, planting dates, populations, weed control, and insect control. Analysis of the principles of seed multiplication and the key practices which are used to ensure high quality in the products. Field inspection procedures and production aspects that differ from other crop production. Foundation seed production. Analysis of the typical organization of field production tasks. Resources and capabilities required. Survey of differences in seed production strategies between crops and impact of differences on management of seed production.

AGRON 551. Growth and Development of Perennial Grasses.

(Cross-listed with HORT). (2-0) Cr. 2. Alt. S., offered 2012. Prereq: Junior or senior or graduate classification or permission of instructor
The grass plant. Selected topics on anatomy, morphology, and physiology relative to growth and development of perennial grasses. Emphasis on growth and development characteristics peculiar to grasses and variations of such characteristics under natural and managed conditions.

AGRON 552. GIS for Geoscientists.

(Dual-listed with 452). (Cross-listed with GEOL, ENSCI). (2-2) Cr. 3. F. Prereq: GEOL 100, GEOL 201 or equivalent
Introduction to geographic information systems (GIS) with particular emphasis on geoscience data. Uses ESRI's ArcGIS Desktop Software and extension modules. Emphasizes typical GIS operations and analyses in the geosciences to prepare students for advanced GIS courses.

AGRON 553. Soil-Plant Relationships.

(Cross-listed with ENSCI). (3-0) Cr. 3. F. Prereq: AGRON 354
Killorn. Composition and properties of soils in relation to the nutrition and growth of plants.

AGRON 554. Advanced Soil Management.

(2-0) Cr. 2. Alt. F., offered 2011. Prereq: 354; MATH 165
Cruse. Implications of soil management on the soil environment and root activity. Effect of soil physical properties on soil erosion.

AGRON 555. Environmental Soil Mineralogy.

(Cross-listed with GEOL). (3-0) Cr. 3. Alt. S., offered 2013. Prereq: Agron 473, CHEM 178. Recommend: Geol 311
Structure and behavior of clay minerals, humic substances and biochar in soil environments, with emphasis on reactions and environmental implications.

AGRON 555L. Soil Clay Mineralogy Laboratory.

(Cross-listed with GEOL). (0-3) Cr. 1. Alt. S., offered 2012. Prereq: Credit or enrollment in 555
Thompson. Application of X-ray diffraction, thermal analysis, infrared spectroscopy, and chemical analyses to identification and behavior of clay minerals in soils.

AGRON 558. Laboratory Methods in Soil Chemistry.

(Cross-listed with ENSCI). (2-3) Cr. 3. Alt. F., offered 2012. Prereq: AGRON 354 and CHEM 178 or 211
Tabatabai. Experimental and descriptive inorganic and organic analyses. Operational theory and principles of applicable instruments, including spectrophotometry, atomic and molecular absorption and emission spectroscopy, mass spectrometry, X-ray diffraction and fluorescence, gas and ion chromatography, and ion-selective electrodes.

AGRON 559. Environmental Soil and Water Chemistry.

(Dual-listed with 459). (Cross-listed with ENSCI). (3-3) Cr. 4. F. Prereq: AGRON 354 or ENSCI 360; Chem 164 or 178; MATH 140. CHEM 211 or 231 recommended
Thompson. An introduction to the chemical properties of soils, chemical reactions and transformations in soils and surface waters, and their impact on the environment. Topics include solution chemistry in soils and surface waters, solid-phase composition of soils, reactions at the solid-solution interface, chemical-equilibrium speciation programs, and applications to contemporary environmental issues.

AGRON 561. Population and Quantitative Genetics for Breeding.

(Cross-listed with AN S). (4-0) Cr. 4. F. Prereq: STAT 401
Population and quantitative genetics for plant and animal genetics. Study of the genetic basis and analysis of variation in quantitative traits in domestic or experimental populations using phenotypic and molecular marker data, including estimation of heritability and other genetic parameters, linkage analysis and mapping of quantitative trait loci, and the impact of inbreeding, heterosis, and genotype-by-environment interaction.

AGRON 563. Soil Formation and Landscape Relationships.

(Dual-listed with 463). (Cross-listed with ENSCI). (2-4) Cr. 4. S. Prereq: 154 or 260
Sandor. Relationships between soil formation, geomorphology, and environment. Soil description, classification, geography, mapping, and interpretation for land use. Two weekend field trips. Credit for one of Agron 563 or 563I may be applied for graduation.

I. Soil Formation and Landscape Relationships

AGRON 563I. Soil Formation and Landscape Relationships.

(Dual-listed with 463I). (Cross-listed with ENSCI, IA LL). Cr. 4. Alt. SS., offered 2012. Prereq: 154 or 260
Burras. Relationships between soil formation, geomorphology, and environment. Soil description, classification, geography, mapping, and interpretation for land use. Credit for only Agron 563 or 563I may be applied for graduation.

AGRON 565. Professional Practices in Science and Engineering.

(Cross-listed with AN S, BCB, CH E, CPR E, EEB, HORT, M E, MICRO, PL P, V MPM). Cr. arr. S. Prereq: Graduate classification
Professional, ethical and legal issues facing scientists and engineers in academia. Offered in modular format.

A. Responsible Conduct of Research. (Cr. 1.0). F,
B. Working with Industry. (Cr. 0.5).
C. Communications in Science. (Cr. 0.5). Alt S., offered 2011. Reading and reviewing manuscripts; publishing papers; oral and poster presentations.
D. Time Management and Mentoring. (Cr. 0.5). Alt F., offered 2012. Balancing life and career; mentoring; lab management.
E. The Interview Process. (Cr. 0.5). Alt S., offered 2012. Applying and interviewing for academia, industry and government.
F. Grant Writing. (Cr. 1.0). Alt F., offered 2011. Writing a winning proposal.
G. Teaching. (Cr. 0.5). Preparation of a teaching portfolio and course materials; lecturing, technology.
S. Ethical and legal issues in research.
S. Establishing productive collaborations with industry.

AGRON 570. Risk Assessment for Food, Agriculture and Veterinary Medicine.

(Cross-listed with VDPAM, TOX). (3-0) Cr. 3. Alt. F., offered 2011. Prereq: STAT 104 or consent of instructor: Wolt, Hurd
Risk assessment principles as applied to biological systems. Exposure and effects characterization in human and animal health and ecological risk assessment. Risk analysis frameworks and regulatory decision-making. Introduction to quantitative methods for risk assessment using epidemiological and distributional analyses. Uncertainty analysis.

AGRON 575. Soil Formation and Transformation.

(Cross-listed with ENSCI). (3-0) Cr. 3. Alt. F., offered 2012. Prereq: 463 or equivalent
Advanced study of soil formation, emphasizing relationships among soils, landscapes, environment, humans, and land use.

AGRON 577. Soil Physics.

(Dual-listed with 477). (Cross-listed with ENSCI). (3-0) Cr. 3. S. Prereq: Recommended: AGRON 354 and MATH 166
Horton. The physical soil system: the soil components and their physical interactions; transport processes involving water, air, and heat.

AGRON 578. Laboratory Methods in Soil Physics.

(Cross-listed with ENSCI). (0-3) Cr. 1. S. Prereq: 577 concurrent
Horton. Methods of measuring soil physical properties such as texture, density, and water content, and transport of heat, water, and gases.

AGRON 584. Organic Agricultural Theory and Practice.

(Dual-listed with 484). (Cross-listed with HORT, SUSAG). (3-0) Cr. 3. Alt. S., offered 2012. Prereq: 9 cr. in biological or physical sciences
Delate DeWitt. Understanding of the historical origins and ecological theories underpinning the practices involved in organic agriculture. Interdisciplinary examination of crop and livestock production and socio-economic processes and policies in organic agriculture from researcher and producer perspectives.

AGRON 585. Soil and Environmental Microbiology.

(Dual-listed with 485). (Cross-listed with ENSCI, MICRO). (2-3) Cr. 3. F. Prereq: 154 or 402, MICRO 201 (MICRO 201L recommended)
Loynachan. The living organisms in the soil and what they do. Emphasis on soil biota composition, the carbon cycle and bioremediation, soil-plant-microbial relationships, and environmental issues.

AGRON 590. Special Topics.

Cr. arr. Repeatable. Prereq: 15 credits in agronomy
Literature reviews and conferences on selected topics in crops, soils, or agricultural meteorology according to needs and interest of student.

AGRON 591. Agronomic Systems Analysis.

(3-0) Cr. 3. S. Prereq: 511, 513, 531, 532, 533
Analysis of cropping systems from a problem-solving perspective. Case studies will be used to develop the students' ability to solve agronomic problems. Required course for the Master of Science in Agronomy degree program.

AGRON 592. Current Issues in Agronomy.

(3-0) Cr. 3. S. Prereq: 501, 503, 511, 512, 513, 514
Study and discussion of topics of current interest to the field of agronomy. While AGRON 591 deals with agronomics at the farm and landscape level, AGRON 592 seeks to address issues on a broader scale including off-farm agricultural impacts. Required course for the Master of Science in Agronomy degree program.

AGRON 593. Workshop in Agronomy.

Cr. arr. Repeatable. Prereq: Graduate classification

A. Crops
B. Soils
C. Agricultural Meteorology
D. Seed Science
E. Weed Science

AGRON 594. Agronomy MS Practicum.

(1-0) Cr. 1. SS. Prereq: 501, 502, 503, 514 (or current enrollment. Recommended: 511, 512, 513
Practical field and laboratory experiences integrating coursework in climatology, crops, and soils. Includes lectures, labs and local agri-business tours.

AGRON 595. Seed Quality, Production, and Research Management.

(Cross-listed with STB). (3-0) Cr. 3. Prereq: Admission to the Seed Technology and Business Master's Degree Program or approval of the instructor
Advanced survey of the organization, staff capabilities and management characteristics typical in seed production and crop improvement in seed enterprises. Analysis of the use of quality information in the management of seed operations and sales. Process management applications for seed. Production planning for existing capacity. Analysis of the manager's tasks in the annual cycle and how the tasks of these managers relate to the general categories of business management roles. Difference in management strategies used with different situations and groups of employees.

AGRON 599. Creative Component.

Cr. arr. Prereq: Nonthesis M.S. option only
A written report based on research, library readings, or topics related to the student's area of specialization and approved by the student's advisory committee.

A. Agricultural Meteorology
B. Crop Production and Physiology
C. Plant Breeding
D. Soil Chemistry
E. Soil Fertility
F. Soil Management
G. Soil Microbiology and Biochemistry
H. Soil Morphology and Genesis
I. Soil Physics
K. Seed Science
M. Agronomy

Courses primarily for graduate students

AGRON 600. Seminar.

(1-0) Cr. 1. Repeatable, maximum of 6 times. F.S.
Reports and discussion of recent literature and research.

A. Plant Breeding.
B. Soils. F.S.
C. Crop Production and Physiology. F.S.

AGRON 609. Agricultural Meteorology Conference.

(1-0) Cr. 1. Repeatable. F.S.SS. Prereq: Permission of instructor
Literature reviews and conferences with instructor on special problems relating to agricultural meteorology, beyond the scope of current courses offered.

AGRON 610. Foundations of Sustainable Agriculture.

(Cross-listed with SUSAG, A E, ANTHR, SOC). (3-0) Cr. 3. F. Prereq: Graduate classification, permission of instructor
Historical, biophysical, socioeconomic, and ethical dimensions of agricultural sustainability. Strategies for evaluating existing and emerging agricultural systems in terms of the core concepts of sustainability and their theoretical contexts.

AGRON 616. Advanced Topics in Plant Physiology and Biochemistry.

(4-0) Cr. 4. Alt. S., offered 2012. Prereq: Graduate classification; permission of instructor
Westgate. An in-depth treatment of physiological, biochemical and molecular processes regulating plant growth and development. Emphasis on individual study followed by in-class presentations and discussion.

AGRON 621. Advanced Plant Breeding.

(3-0) Cr. 3. F. Prereq: 521, 526, 561; GEN 410
Beavis. Estimation and interpretation of genetic effects and variances of plant breeding populations, analysis of mating designs, estimation of combining ability and heritability, best linear unbiased prediction, selection indices with and without molecular information, inbreeding and heterosis.

AGRON 625. Genetic Strategies in Plant Breeding.

(3-0) Cr. 3. Alt. S., offered 2013. Prereq: 521, GEN 410
Lee. Evaluation of genetic, molecular, and cellular approaches to crop improvement; gene transfer methods. Application and role of basic plant biology in breeding programs and processes; genome structure and function, gene isolation, expression, regulation, and modification. Integration of molecular and cellular methods in breeding strategies; analysis of alternative breeding methods, regulatory and ethical issues.

AGRON 655. Advanced Soil Fertility.

(2-0) Cr. 2. Alt. S., offered 2013. Prereq: 553
Evaluation of soil fertility and fertilizers; theory and applications.

AGRON 677. Advanced Soil Physics.

(2-0) Cr. 2. Alt. F., offered 2012. Prereq: 577; MATH 266, 267. Recommended: COM S 207
Horton. The flow and distribution of water, chemicals, and heat in soils. Physical principles and applications.

AGRON 685. Advanced Soil Biochemistry.

(Cross-listed with MICRO, ENSCI). (2-0) Cr. 2. Alt. S., offered 2012. Prereq: AGRON 585
Tabatabai. Chemistry of soil organic matter and biochemical transformations brought about by microorganisms and enzymes in soils.

AGRON 696. Research Seminar.

(Cross-listed with BBMB, GDCB, PLBIO, HORT, FOR). Cr. 1. Repeatable.
Research seminars by faculty and graduate students. Offered on a satisfactory-fail basis only.

AGRON 698. Agronomy Teaching Practicum.

Cr. 1-2. Repeatable. F.S.SS. Prereq: Graduate classification in agronomy and permission of instructor
Graduate student experience in the agronomy teaching program. Offered on a satisfactory-fail basis only.

AGRON 699. Research.

Cr. arr. Repeatable.

A. Agricultural Meteorology
B. Crop Production and Physiology
C. Plant Breeding
D. Soil Chemistry
E. Soil Fertility
F. Soil Management
G. Soil Microbiology and Biochemistry
H. Soil Morphology and Genesis
I. Soil Physics
J. Plant Physiology
K. Seed Science