Oliver Yves Martin: Catalogue data in Autumn Semester 2018 |
| Name | Dr. Oliver Yves Martin |
| Address | Institut für Integrative Biologie ETH Zürich, CHN G 26.2 Universitätstrasse 16 8092 Zürich SWITZERLAND |
| Telephone | +41 44 632 36 60 |
| oliver.martin@env.ethz.ch | |
| Department | Environmental Systems Science |
| Relationship | Lecturer |
| Number | Title | ECTS | Hours | Lecturers | |
|---|---|---|---|---|---|
| 551-0001-AAL | General Biology I Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement. Any other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit. | 3 credits | 6R | U. Sauer, O. Y. Martin, A. Widmer | |
| Abstract | Organismic biology to teach the basic principles of classical and molecular genetics, evolutionary biology and phylogeny. | ||||
| Objective | The understanding of basic principles of biology (inheritance, evolution and phylogeny) and an overview of the diversity of life. | ||||
| Content | The first semester focuses on the organismal biology aspects of genetics, evolution and diversity of life in the Campbell chapters 12-34. Week 1-7 by Alex Widmer, Chapters 12-25 12 Cell biology Mitosis 13 Genetics Sexual life cycles and meiosis 14 Genetics Mendelian genetics 15 Genetics Linkage and chromosomes 20 Genetics Evolution of genomes 21 Evolution How evolution works 22 Evolution Phylogentic reconstructions 23 Evolution Microevolution 24 Evolution Species and speciation 25 Evolution Macroevolution Week 8-14 by Oliver Martin, Chapters 26-34 26 Diversity of Life Introdution to viruses 27 Diversity of Life Prokaryotes 28 Diversity of Life Origin & evolution of eukaryotes 29 Diversity of Life Nonvascular&seedless vascular plants 30 Diversity of Life Seed plants 31 Diversity of Life Introduction to fungi 32 Diversity of Life Overview of animal diversity 33 Diversity of Life Introduction to invertebrates 34 Diversity of Life Origin & evolution of vertebrates | ||||
| Lecture notes | No script | ||||
| Literature | Campbell et al. (2015) Biology - A Global Approach. 10th Edition (Global Edition) | ||||
| Prerequisites / Notice | This is a virtual self-study lecture for non-german speakers of the "Allgemeine Biology I (551-0001-00L) lecture. The exam will be written jointly with the participants of this lecture. Example exam questions will be discussed during the lectures, and old exam questions are kept by the various student organisations. If necessary, please contact Prof. Uwe Sauer (sauer@ethz.ch) for details regarding the exam. | ||||
| 551-0001-00L | General Biology I  | 3 credits | 3V | U. Sauer, O. Y. Martin, A. Widmer | |
| Abstract | Organismic biology to teach the basic principles of classical and molecular genetics, evolutionary biology and phylogeny. First in a series of two lectures given over two semesters for students of agricultural and food sciences, as well as of environmental sciences. | ||||
| Objective | The understanding of some basic principles of biology (inheritance, evolution and phylogeny) and an overview of the diversity of life. | ||||
| Content | The first semester focuses on the organismal biology aspects of genetics, evolution and diversity of life in the Campbell chapters 12-34. Week 1-7 by Alex Widmer, Chapters 12-25 12 Cell biology Mitosis 13 Genetics Sexual life cycles and meiosis 14 Genetics Mendelian genetics 15 Genetics Linkage and chromosomes 20 Genetics Evolution of genomes 21 Evolution How evolution works 22 Evolution Phylogentic reconstructions 23 Evolution Microevolution 24 Evolution Species and speciation 25 Evolution Macroevolution Week 8-14 by Oliver Martin, Chapters 26-34 26 Diversity of Life Introdution to viruses 27 Diversity of Life Prokaryotes 28 Diversity of Life Origin & evolution of eukaryotes 29 Diversity of Life Nonvascular&seedless vascular plants 30 Diversity of Life Seed plants 31 Diversity of Life Introduction to fungi 32 Diversity of Life Overview of animal diversity 33 Diversity of Life Introduction to invertebrates 34 Diversity of Life Origin & evolution of vertebrates | ||||
| Lecture notes | no script | ||||
| Literature | Campbell et al. (2015) Biology - A Global Approach. 10th Edition (Global Edition | ||||
| Prerequisites / Notice | The lecture is the first in a series of two lectures given over two semesters for students with biology as as a basic subject. | ||||
| 551-0003-AAL | General Biology I+II Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement. Any other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit. | 7 credits | 13R | U. Sauer, R. Aebersold, W. Gruissem, O. Y. Martin, A. Widmer | |
| Abstract | General Biology I: Organismic biology to teach the basic principles of classical and molecular genetics, evolutionary biology and phylogeny. General Biology II: Molecular biology approach to teach the basic principles of biochemistry, cell biology, cgenetics, evolutionary biology and form and function of vacular plants. | ||||
| Objective | General Biology I: The understanding of basic principles of biology (inheritance, evolution and phylogeny) and an overview of the diversity of life. General Biology II: The understanding basic concepts of biology: the hierarchy of the structural levels of biological organisation, with particular emphasis on the cell and its molecular functions, the fundamentals of metabolism and molecular genetics, as well as form and function of vascular plants. | ||||
| Content | General Biology I: General Biology I focuses on the organismal biology aspects of genetics, evolution and diversity of life in the Campbell chapters 12-34. Week 1-7 by Alex Widmer, Chapters 12-25 12 Cell biology Mitosis 13 Genetics Sexual life cycles and meiosis 14 Genetics Mendelian genetics 15 Genetics Linkage and chromosomes 20 Genetics Evolution of genomes 21 Evolution How evolution works 22 Evolution Phylogentic reconstructions 23 Evolution Microevolution 24 Evolution Species and speciation 25 Evolution Macroevolution Week 8-14 by Oliver Martin, Chapters 26-34 26 Diversity of Life Introdution to viruses 27 Diversity of Life Prokaryotes 28 Diversity of Life Origin & evolution of eukaryotes 29 Diversity of Life Nonvascular&seedless vascular plants 30 Diversity of Life Seed plants 31 Diversity of Life Introduction to fungi 32 Diversity of Life Overview of animal diversity 33 Diversity of Life Introduction to invertebrates 34 Diversity of Life Origin & evolution of vertebrates General Biology II: The structure and function of biomacromolecules; basics of metabolism; tour of the cell; membrane structure and function; basic energetics of cellular processes; respiration, photosynthesis; cell cycle, from gene to protein; structure and growth of vascular plants, resource acquisition and transport, soil and plant nutrition. Specifically the following Campbell chapters will be covered: 3 Biochemistry Chemistry of water 4 Biochemistry Carbon: the basis of molecular diversity 5 Biochemistry Biological macromolecules and lipids 7 Cell biology Cell structure and function 8 Cell biology Cell membranes 10 Cell biology Respiration: introduction to metabolism 10 Cell biology Cell respiration 11 Cell biology Photosynthetic processes 16 Genetics Nucleic acids and inheritance 17 Genetics Expression of genes 18 Genetics Control of gene expression 19 Genetics DNA Technology 35 Plant structure&function Plant Structure and Growth 36 Plant structure&function Transport in vascular plants 37 Plant structure&function Plant nutrition 38 Plant structure&function Reproduction of flowering plants 39 Plant structure&function Plants signal and behavior | ||||
| Lecture notes | No script | ||||
| Literature | Campbell et al. (2015) Biology - A Global Approach. 10th Edition (Global Edition) | ||||
| Prerequisites / Notice | Basic general and organic chemistry This is a virtual self-study lecture for non-German speakers of the "Allgemeine Biology I (551-0001-00L) and "Allgemeine Biology II (551-0002-00L) lectures. The exam will be written jointly with the participants of this lecture. | ||||
| 551-0435-00L | Systematic Biology: Zoology | 3 credits | 2V + 2P | O. Y. Martin, M. Greeff | |
| Abstract | Lecture: The lecture provides an overview of animal diversity. Using key selected groups, phylogenetic, morphological and ecological aspects are addressed. Two priority topics are the arthropods and the vertebrates (including vertebrate fauna of Switzerland). Practical: Knowledge of selected animal groups and their characteristics (supplementing the lecture) and of the basic methods. | ||||
| Objective | Lecture: The systematic classification of animals and the characteristics of the most important animal groups, basic animal body plans. Practical: Examples of selected animal groups and their characteristics; acquire the relevant skills: simple preparations, dissection, microscopy, drawing, protocols. | ||||
| Content | Lecture: Body plans, characteristics, diversity and phylogenetic position of the main groups of Protozoa, Invertebrates, and Vertebrates, with a special focus on Arthropods and Vertebrates (including vertebrate fauna of Switzerland). Practical: Macroscopic and microscopic study of selected Protozoa, Invertebrates (especially insects) and Vertebrates: morphology and anatomy; behaviour, mainly locomotion, feeding, and reproduction. | ||||
| Lecture notes | Scripts can be downloaded from Moodle, and additional material will be handed out (particularly in the practical). | ||||
| Literature | No further literature required, the script contains suggestions for further reading. | ||||