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31 - 40 of 333 results for: all courses

BIO 30: Ecology for Everyone

Ecology is the science of interactions and the changes they generate. This project-based course links individual behavior, population growth, species interactions, and ecosystem function. Introduction to measurement, observation, experimental design and hypothesis testing in field projects. The goal is to learn to think analytically about everyday ecological processes, including those that you participate in, which involve bacteria, fungi, plants, animals and humans. The course uses basic statistics to analyze data; there are no math prerequisites except arithmetic. Open to everyone, including those who may be headed for more advanced courses in ecology and environmental science. The online version will meet synchronously and involve preparation outside of class for interactive discussions during class time. We will organize field projects that you can do wherever you are. Projects begin in the first week of the quarter. For questions please contact Prof. Gordon at dmgordon@stanford.edu.
Last offered: Winter 2021 | UG Reqs: GER: DB-NatSci, WAY-SMA

BIO 35N: Catching up with Traditional Ecological Knowledge

Traditional ecological knowledge--the knowledge developed and maintained by local communities over many generations about their natural environment--is increasingly recognized as fundamental to solving environmental problems. In this seminar, we will explore some of the cutting-edge research on traditional ecological knowledge and its conceptual and practical role in ensuring environmental sustainability. We will address some key questions. For example, what makes traditional ecological knowledge different from Western science? What led to the recent increase in Western scientists' appreciation of traditional ecological knowledge? How can traditional ecological knowledge inform environmental sustainability in a world that is undergoing rapid climate change, land use change, and biological invasion? And how can Western science complement traditional ecological knowledge to achieve sustainability? The core of this seminar will be discussion based on reading of primary articles. We will also have field trips and learn from guest speakers.
Terms: Spr | Units: 3 | UG Reqs: WAY-SMA
Instructors: Fukami, T. (PI)

BIO 46: Introduction to Research in Ecology and Evolutionary Biology (EARTHSYS 46)

The goal of this course is to develop an understanding of how to conduct biological research, using topics in Ecology as practical examples. This includes the complete scientific process: assessing background literature, generating testable hypotheses, learning techniques for data collection, analyzing data using appropriate statistical methods and writing and sharing results. Students, working in teams, develop novel research hypotheses and execute the necessary experiments and measurements to test these hypotheses. In addition, students will learn how to manipulate, visualize, and analyze data in the statistical programming language R. The capstone of the course is a research paper in the style of a peer-reviewed journal article, as well as a group presentation designed for a general audience that communicates research findings. The Tuesday lecture session will generally meet for only about 60-70 minutes. IMPORTANT NOTE: Students who require BIO 46 to satisfy the WIM requirement for the Biology major MUST take this course for a letter grade. Please contact Elisa Mora (elisahm@stanford.edu) for logistical and enrollment questions.
Terms: Win | Units: 4 | UG Reqs: WAY-SMA

BIO 63: Science of Covid-19

This course is designed to help you solidify fundamental biology concepts and to appreciate their relevance to solving real world problems using Covid-19 as a case study. From the time we learned about the outbreak of a "pneumonia of unknown cause," we have learned so much. We will examine the origin of SARS-CoV-2, how it attacks cells, how the immune system responds, how viral variants emerge and how we can leverage all this information to design treatments and to address larger questions such as how this pandemic might end. Emphasis will be placed on critical thinking and scientific experimentation. You will use open-source online tools, read scientific papers on vaccine development and virus evolution, and use the skills you have developed to investigate a new area of research on Covid-19 that is of interest to you. This course is suitable for students who have taken a Foundations level course and/or AP biology, and have a basic understanding of DNA and how information in DNA is transcribed and translated to make proteins.
Last offered: Spring 2022 | UG Reqs: WAY-SMA

BIO 71: Planet Ocean (ESS 71, OCEANS 71)

Oceans make up the majority of our planet's area and living spaces and are fundamental to biodiversity, climate, food and commerce.This course covers integration of the oceanography and marine biology of diverse ocean habitats such as the deep sea, coral reefs, open ocean, temperate coasts, estuaries and polar seas. Lectures include state of the art knowledge as well as emerging technologies for future exploration. The second section focuses on how the oceans link to the global environment, and how ocean capacity helps determine human sustainability.
Terms: Win | Units: 4 | UG Reqs: WAY-SMA

BIO 81: Introduction to Ecology

This course will introduce you to the first principles of the science of ecology, the study of interactions between organisms and their environment. If you are on the waitlist, we will contact you during the first week of the quarter when we will have more information about your prospects for joining the course. Contact Lydia Villa (lydiav@stanford.edu) for logistical questions. Prerequisites: None.
Terms: Aut | Units: 4 | UG Reqs: WAY-SMA

BIO 82: Genetics

The focus of the course is on the basic mechanisms underlying the transmission of genetic information and on the use of genetic analysis to study biological and medical questions. Major topics will include: (1) the use of existing genetic variation in humans and other species to identify genes that play an important role in determining traits and disease-susceptibility, (2) the analysis of mutations in model organisms and their use in the investigation of biological processes and questions and (3) using genetic information for diagnosis and the potential for genetic manipulations to treat disease. Prerequisites: None, but BIO 83 is recommended. Lecture attendance as well as discussion section attendance is mandatory. Please only enroll in the lecture section (section 01) on Axess. Discussion section enrollment will be handled on Canvas. As long as you sign up for the lecture section on Axess, you will receive an e-mail a week before classes begin to guide you on how to sign up for a section on Canvas. For logistical questions about the course, please contact Waheeda Khalfan (wkhalfan@stanford.edu).
Terms: Win | Units: 4 | UG Reqs: WAY-SMA

BIO 83: Biochemistry & Molecular Biology

Introduction to the molecular and biochemical basis of life. Lecture topics include the structure and function of proteins, nucleic acids, lipids and carbohydrates, energy metabolism, signal transduction, epigenetics and DNA repair. The course will also consider how defects in these processes cause disease. Preliminary syllabus will be posted by Sep 1st on Stanford Syllabus. If you are on the waitlist, we will contact you during the first week of the quarter when we will have more information about your prospects for joining the course. Contact Waheeda Khalfan (wkhalfan@stanford.edu) for logistical questions. Prerequisites: None.Please only enroll in the lecture section (section 01) on Axess. Discussion section enrollment will be handled on Canvas. As long as you sign up for the lecture section on Axess, you will receive an e-mail a week before classes begin to guide you on how to sign up for a section on Canvas.
Terms: Aut | Units: 4 | UG Reqs: WAY-SMA

BIO 84: Physiology

The focus of Physiology is on understanding how organisms tackle the physical challenges of life on Earth. This course will provide an overview of animal and plant physiology and teach an understanding of how organisms maintain homeostasis, respond to environmental cues and coordinate behaviors across multiples tissues and organ systems. We will examine the structure and function of organs and organ systems and how those systems are controlled and regulated to maintain homeostasis. Control and regulation requires information as does the ability to respond to environmental stimuli, so we will give special consideration to hormonal and neural information systems. We will also be concerned with the interactions and integration of the activities of the different organ systems we study. Prerequisites: none. The course will have in person exams. Lecture attendance as well as discussion section attendance is mandatory. Please only enroll in the lecture section (section 01) on Axess. Discussio more »
The focus of Physiology is on understanding how organisms tackle the physical challenges of life on Earth. This course will provide an overview of animal and plant physiology and teach an understanding of how organisms maintain homeostasis, respond to environmental cues and coordinate behaviors across multiples tissues and organ systems. We will examine the structure and function of organs and organ systems and how those systems are controlled and regulated to maintain homeostasis. Control and regulation requires information as does the ability to respond to environmental stimuli, so we will give special consideration to hormonal and neural information systems. We will also be concerned with the interactions and integration of the activities of the different organ systems we study. Prerequisites: none. The course will have in person exams. Lecture attendance as well as discussion section attendance is mandatory. Please only enroll in the lecture section (section 01) on Axess. Discussion section enrollment will be handled on Canvas. As long as you sign up for the lecture section on Axess, you will receive an e-mail a week before classes begin to guide you on how to sign up for a section on Canvas. For logistical questions about the course, please contact Waheeda Khalfan at wkhalfan@stanford.edu.
Terms: Win | Units: 4 | UG Reqs: WAY-SMA

BIO 85: Evolution

Understanding evolution is key to understanding the diversity of life on earth. We will be focusing on the fundamental principles of evolutionary biology from natural and sexual selection to the formation of new species. To understand these concepts we will delve into the mechanisms that underlie them. The course will also link these fundamental processes to important contemporary evolutionary topics such as the evolution of behavior, life history evolution, and human evolution. Prerequisites: BIO 60 or 61 or 62 or equivalent; recommended: BIO 82, or permission of instructor.
Terms: Win | Units: 4 | UG Reqs: WAY-SMA
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