Synopses & Reviews
This independent lab manual can be used for a one or two-semester majors level general biology lab and can be used with any majors-level general biology textbook. The labs are investigative and ask students to use more critical thinking and hands-on learning. The author emphasizes investigative, quantitative, and comparative approaches to studying the life sciences.
About the Author
Warren Dolphin is Emeritus Professor of Genetics, Development and Cell Biology at Iowa State University. He earned his B.S. at West Chester State University and Ph.D. at the Ohio State University in Zoology (Cell Biology). He served as Coordinator of the Biology Program for 30 years and the Program in Biological Illustration for 10 years. For his service to undergraduate education at the Iowa State, he was awarded the honorary title University Professor. He has taught introductory biology for 37 years, including supervising the offering of labs to thousands of students each year. This lab manual, first published in 1980, is a result of his desire to have students do biological science, distilling the principles that provide the foundation for further studies and productive careers. For this edition, he asked former colleagues at Iowa State to help him achieve that goal.
Table of Contents
1 Science: A Way of Gathering Knowledge 2 Techniques in Microscopy 3 Cellular Structure Reflects Function 4 Determining How Materials Enter Cells 5 Using Quantitative Techniques and Statistics 6 Modeling Biological Molecules 7 Determining the Properties of an Enzyme 8 Measuring Cellular Respiration 9 Determining Chromosome Number in Mitotic Cells 10 Observing Meiosis and Determining Cross-Over Frequency 11 Determining Genotypes of Fruit Flies 12 Isolating DNA and Working with Plasmids 13 Testing Assumptions in Microevolution and Inducing Mutations 14 Working with Diverse Bacteria 15 Diversity Among Protists 16 Investigating Plant Phylogeny: Seedless Plants 17 Investigating Plant Phylogeny: Seed Plants 18 Observing Fungal Diversity and Symbiotic Relationships 19 Investigating Early Events in Animal Development 20 Animal Phylogeny: Investigating Animal Body Plans 21 Protostomes I: Lophotrochozoans and Development of Complexity 22 Protostomes II: Ecdysozoa and Great Diversity 23 Deuterostomes and the Origins of Vertebrates 24 Investigating Plant Tissues and Primary Root Structure 25 Investigating Primary Roots, Stems and Secondary Growth 26 Investigating Leaf Structure and Photosynthesis 27 Angiosperm Reproduction, Germination, and Development Interchapter Investigating Animal Form and Function 28 Investigating Digestive and Gas Exchange Systems 29 Investigating Circulatory Systems 30 Investigating the Mammalian Urogenital System 31 Investigating the Properties of Muscle and Skeletal Systems 32 Investigating Nervous and Sensory Systems 33 Statistically Analyzing Simple Behaviors 34 Estimating Population Size and Growth Appendix A Significant Figures and Rounding Appendix B Making Graphs Appendix C Simple Statistics Appendix D Writing Lab Reports and Scientific Papers