Experimental Design in Agriculture

CSS 590

Additional links will be activated as the term progresses.

Announcements will be posted on the Blackboard as needed.

Time and Place:
Lectures: MWF 8:00 CRPS 122
Recitation: Thurs 8:00 - 9:20 CRPS 150

Instructor:  Jennifer Kling
Telephone: 737-8277
E-mail: jennifer.kling@oregonstate.edu
Office: CRPS 249
Office Hours: MWF 9:30-10:30 - others by appointment

Teaching Assistants:

Martin Quincke
Telephone: 737-5876
E-mail: Martin.Quincke@oregonstate.edu
Office: CRPS 221
Office Hours: W 9:00-10:00 - others by appointment

Vidyasagar Sathuvalli
Telephone: 737-5464
E-mail: vidyasas@hort.oregonstate.edu
Office: ALS 4148
Office Hours: T 11:00-12:00 - others by appointment

Required Text

There is no required text for this class.

Recommended References

Kuehl, Robert O. (2000) Design of Experiments: Statistical Principles of Research Design and Analysis, 2nd edition. Duxbury Press. (an excellent general reference, but uses slightly different notation than we do in class)

Clewer, A.G. and D. H. Scarisbrick (2001) Practical Statistics and Experimental Design for Plant and Crop Science. John Wiley & Sons. (A good reference for those who are not too familiar with statistics; the emphasis on agricultural research is also very relevant for the course. A copy is on reserve in the library. QK51.C58 2001)

Cody, Ronald P. and Jeffrey K. Smith (1997) Applied Statistics and the SAS Programming Language, 4th edition. Prentice Hall, New Jersey. (on reserve in the library. QA276.4 .C53 1997)

Petersen, Roger G. (1994) Agricultural Field Experiments: Design and Analysis. Marcel Dekker, New York. (Much of the lecture material was adapted from this text, but it contains some errors. Two copies of the text are on reserve in the library, should you need any clarification on lecture material. S540.F5 P47 1994)

Other Suggested References:
Cochran, W. G., and G. M. Cox (1957). Experimental Designs, 2nd ed., Wiley, New York.
Cox, D. R. (1958). Planning Experiments, Wiley, New York.
Gomez, K. A. and A. A. Gomez (1984). Statistical Procedures for Agricultural Research, 2nd ed. Wiley, New York.
Little, T. M., and F. J. Hills (1978). Agricultural Experimentation, Wiley, New York.
Montgomery, Douglas C. (1991). Design and Analysis of Experiments, 3rd ed., Wiley, New York.
Petersen, R. G. (1985). Design and Analysis of Experiments, Marcel Dekker, New York.
Snedecor, G. W., and W. G. Cochran (1980). Statistical Methods, 7th ed., Iowa State University Press, Ames, IA.
Steel, R. G. D., J. H. Torrie and D.A. Dickey (1997). Principles and Procedures of Statistics, 3rd ed., McGraw-Hill, New York.

Other SAS References:
Der, G. and B.S. Everitt (2002). A Handbook of Statistical Analyses using SAS, 2nd ed., Chapman & Hall/CRC.
Littell, R. C., W. W. Stroup, and R. J. Freund. SAS for Linear Models, 4th ed. SAS Series in Statistical Applications.

Online Resources

For information on how to access and use the Blackboard, go to the OSU Extended Campus website login page at http://my.oregonstate.edu/

Grades for homework and exams will be posted on the Blackboard under CSS_590_001_W2008.

You can access the course website through the Blackboard (click on the course information button) or directly at this url:
http://cropandsoil.oregonstate.edu/classes/CSS590/

General Course Description

This course addresses the needs of the student preparing for a career in agricultural research or consultation and is intended to assist the scientist in the design, plot layout, analysis and interpretation of field and greenhouse experiments. Emphasis is placed on experimental designs used in agronomy and plant breeding research with more emphasis toward applied statistics rather than statistical theory. Many numerical examples and problems will be presented and the recitation will allow students to explore analysis using SAS and Excel.

Prerequisites

Students should have an introductory understanding of statistical methods including the ideas of interval estimation, significance testing, simple linear regression and correlation.  Familiarity with such common statistical tables as Student’s t, F, and chi-square is expected.  The necessary mathematical background is minimal.  At most, a knowledge of college algebra is required. 

Assessment/Evaluation of Student Performance

Grades will be assigned according to the following point system:

Assignments
There will be eight graded assignments in this class, which will be due one week after they are assigned. It is highly recommended that you use Excel to complete the assignments, and that you submit them electronically via the Assignment function in Blackboard. Use of Excel and Blackboard will be demonstrated in your recitation section during the first week of class.

You will not be expected to turn in work from your recitation sections. However, you will need to be able to write simple SAS programs in order to do your take-home design problem, and you may be asked to interpret SAS output on exams.

Instructional Objectives and Student Learning Outcomes:

Upon completion of the course, students should be able to:

• Define experimental error
• Enumerate and explain at least five ways that experimental error can be reduced
• Discuss the relationship of plot size, shape, and placement to experimental error
• Identify objectives of a field experiment
• Summarize and give examples of the assumptions of the ANOVA. Use statistical tools to detect violations of ANOVA assumptions and apply appropriate transformations
• Discuss the difference between sampling, replication and blocking
• Explain and compute the components of an analysis of variance for the following experimental designs and list the advantages and disadvantages of each:
  • Complete randomized
  • Randomized complete block
  • Latin square
  • Split plot
  • Strip plot
  • Augmented
• Define and explain the applications of some Incomplete Block Designs
• Select and justify a particular experimental design to meet the experimental objectives
• Use Excel to generate random numbers, organize and summarize data, display data graphically and perform simple statistical analysis
• Explain the difference between main effects and interactions and how these affect the interpretation of results
• Form appropriate orthogonal contrasts to answer specific questions raised by an experiment
• Demonstrate the appropriate use of mean separation techniques
• Set up an ANOVA table for multilocational or multiyear trials and explain how the F tests would be computed
• Use SAS to generate an analysis of variance for all of the experimental designs discussed

Outline of Topics Covered

• Week 1 Basic Principles
  • Kinds of field experiments
  • Site selection
  • Experimental error
  • Field uniformity
  • Steps in experimentation
  • Types of data to collect
  • Hypothesis testing
  • Review of t tests
• Week 2 The Field Plot
  • Control of experimental error
• Assumptions of the ANOVA
• Plot size
• Soil variability index
• Optimum and convenient plot size
• Plot shape and orientation
• Border effects
• Week 3 Basic Experimental Designs
  • The importance of randomization
  • Completely randomized design
  • Fixed, random, and mixed models
  • Concepts of replication and blocking
  • Randomized block design
  • Subsampling
• Week 4 Variations on the Basic Designs
  • First test
  • Checking ANOVA assumptions and transformations
  • Analysis of counts
  • Nonparametric methods
  • Latin square design
• Week 5 Factorial Experiments
  • Main effects and interactions
  • Orthogonal contrasts
• Week 6 Factorial Experiments Continued
  • More on contrasts
  • Regression in the ANOVA
• Week 7 Different Plot Sizes within an Experiment
  • Split-plot designs
  • Strip-plot designs
  • Repeated measures
  • Second test
• Week 8 Comparison of Means with Unstructured Treatments
  • Breeding Trials
  • Structured versus unstructured experiments
  • Mean separation techniques
  • Take-home design problem and SAS analysis
• Week 9 Large Numbers of Treatments
  • Augmented designs
  • Incomplete block designs
  • Lattice designs
• Week 10 Experimental Design in the Real World
  • Multilocational trials
  • Student proposals - poster session, Wed., March 12, 2008
  • Review
• Exam Week
  • Final - Thursday, March 20, 2008 at 9:30 in CRPS 122

Tentative Recitation Schedule

Week 1 Introduction to Excel; review of basic statistics
Week 2 Introduction to SAS
Week 3 One-Way ANOVA (CRD); Two-way ANOVA (RBD)
Week 4 Subsampling; Transformations
Week 5 Latin Square ANOVA; Factorials
Week 6 Regression and Contrasts
Week 7 Split Plot, Strip Plot, Repeated Measures
Week 8 Multiple Comparison Tests, Augmented Designs
Week 9 Incomplete Block Designs
Week 10 Across Site Analyses, Mixed Models