2013-14 Undergraduate Index A-Z
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Field Studies [clear]
| Title | Offering | Standing | Credits | Credits | When | F | W | S | Su | Description | Preparatory | Faculty | Days of Week | Multiple Standings | Start Quarters |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
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Abir Biswas
Signature Required:
Fall Winter Spring
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Research | JR–SRJunior - Senior | V | V | Day | F 13 Fall | W 14Winter | S 14Spring | Abir Biswas | Junior JR Senior SR | Fall | ||||
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Alison Styring
Signature Required:
Fall Winter Spring
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Research | JR–SRJunior - Senior | V | V | Day | F 13 Fall | W 14Winter | S 14Spring | Alison Styring | Junior JR Senior SR | Fall | ||||
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Dylan Fischer
Signature Required:
Fall Winter Spring
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Research | JR–SRJunior - Senior | V | V | Day | F 13 Fall | W 14Winter | S 14Spring | plant ecology and physiology, field ecology, restoration ecology | Dylan Fischer | Junior JR Senior SR | Fall | |||
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Alison Styring
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Program | JR–SRJunior - Senior | 16 | 16 | Day | W 14Winter | Birds are considered important indicators of habitat quality and are often the focus of conservation-oriented research, restoration, and monitoring. A variety of field and analytical methods commonly used in bird monitoring and avian research will be covered. Theory will be applied to practice in the field and lab where students will develop skills in fieldwork, data management, and statistical analysis. Students will demonstrate their learning through active participation in all class activities; a detailed field journal; in-class, take-home, and field assignments; and a final project. An understanding of avian natural history is important to any successful project, and students without a working knowledge of the common birds in the South Puget Sound region are expected to improve their identification skills to a level that will allow them to effectively contribute to class efforts both in the field and in class. | Alison Styring | Junior JR Senior SR | Winter | |||||
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Frederica Bowcutt
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Program | SO–SRSophomore - Senior | 16 | 16 | Day | F 13 Fall | W 14Winter | This two-quarter program allows students to learn introductory and advanced plant science material in an interdisciplinary format. The program is suitable for both advanced and first year students who are looking for an opportunity to expand their understanding of plants and challenge themselves. Students will learn about plant anatomy, morphology and systematics. Lectures based on textbook readings will be supplemented with laboratory work. The learning community will explore how present form and function informs us about the evolution of major groups of plants such as mosses, ferns, conifers and flowering plants. Students will get hands-on experience studying plants under microscopes and in the field. To support their work in the field and lab, students will learn how to maintain a detailed and illustrated nature journal. Instruction will be given in the history and practice of botanical illustration.A central focus of the program is people's relationships with plants for food, fiber, medicine and aesthetics. Economic botany will be studied through seminar texts, films, and lectures that examine agriculture, forestry, herbology and horticulture. Students will examine political economic factors that shape our relations with plants. Through economic and historical lenses, the learning community will inquire about why people have favored some plants and not others or radically changed their preferences, for example considering a former cash crop to be a weed. Readings will examine the significant roles botany has played in colonialism, imperialism and globalization. Students will also investigate the gender politics of botany. For example, botany was used to inculcate "appropriate" middle and upper class values among American women in the 19th century. Initiatives to foster more socially just and environmentally sustainable relations with plants will be investigated.In winter, students will write a major research paper on a plant of their choosing. Through a series of workshops, they will learn to search the scientific literature, manage bibliographic data and interpret and synthesize information, including primary sources. Through their research paper, students will synthesize scientific and cultural information about their plant. | Frederica Bowcutt | Mon Tue Wed Fri | Sophomore SO Junior JR Senior SR | Fall | |||
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Andrew Buchman, Doreen Swetkis and Zoe Van Schyndel
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Program | SO–SRSophomore - Senior | 16 | 16 | Day | F 13 Fall | W 14Winter | This program is a tour of social forces that shape our arts communities, including cultural, organizational, managerial, financial and historical. By examining art, music and theatre worlds, we will discover structures that help foster vibrant artistic communities. We will meet business and nonprofit leaders (often artists themselves) who bring artists and art lovers together. Artistic entrepreneurs with business savvy, as we will see, often make the art world go 'round.The program is designed for students with a strong interest in making a living as an artist, musician or performer, operating in the nonprofit art world, or making a career in creative industries, and bridging the conventional gaps between creativity, business sense and social engagement. Each quarter's work will include an optional week of travel and study an art center in the United States: to New York City during the fall and Los Angeles during the winter. Students unable to travel to these cities can pursue related studies in Seattle and Portland.The program will combine studies of the arts, business and nonprofit administration and management through a rich mix of critical and creative projects, such as analyzing a local arts business or nonprofit organization. An artist who understands the principles of a well-run business and can deal effectively with contracts, grants and negotiations, we'll find, is likely to gain more artistic and professional freedom. Business people who understand and care about the arts, we'll discover, can build careers that include doing good as well as doing well. Organizations built around art forms can help support local cultures and create sustainable manufacturing ventures, too.The nonprofit arts community encompasses a broad range of artistic endeavors such as summer arts camps and festivals, art and music therapy, community theaters, arts foundations and after-school arts programs. For-profit and nonprofit organizations are different, and we want to make sure students gain knowledge of the vast range of ways they can make a living in and around the arts.By the end of the program we expect you to be able to think creatively about ways to connect your own artistic and wage earning work, have an impact on organizations in communities you care about, acquire first-hand knowledge of a diversity of successful arts initiatives, and communicate effectively in the language of business and nonprofit administration. | Andrew Buchman Doreen Swetkis Zoe Van Schyndel | Sophomore SO Junior JR Senior SR | Fall | ||||
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Clyde Barlow
Signature Required:
Winter Spring
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Program | FR–SOFreshmen - Sophomore | 16 | 16 | Day | F 13 Fall | W 14Winter | S 14Spring | This is a field and laboratory intensive program integrating chemistry and geology. The landscape and habitation of the Northwest are defined by major geologic events that have shaped and reshaped the landscape. Volcanoes, lava flows, ash flows, glaciers, floods, earthquakes, landslides, tsunamis and tectonic movements form some of these events. Major events such as glaciation may proceed slowly on a human time scale. Carbon dioxide dependent global warming may, in fact, be a cataclysm in progress. We will examine chemical effects of historic and current geologic processes. This program will study literature about specific events and travel to affected sites. The program will serve as an introduction to physical science with development of skills in chemistry and problem solving. A full year of general chemistry will be offered with a laboratory linked with geology themes. Communication skills will be developed by maintaining laboratory and field journals, writing technical reports, interviewing staff, faculty and administrators, web page development to present information, and oral presentations of laboratory results. Extended (4-5 day) and short (1 day) field trips in Washington and Oregon will be incorporated into the program each quarter.We will study a year of general chemistry with laboratory, differential and integral calculus, geology readings with field trips, interview practices, web-page development and management, technical writing and presentation. This program is intended to be an introduction to Evergreen and quantitative studies for students new to the college. Significant time will be spent meeting and interviewing staff and administrative personnel on campus to become familiar with the functioning and management of the college.Having a program with 12 students and one faculty member provides a unique opportunity to delve into a subject area with a small cadre of fellow students. Students are expected to enhance the learning of their peers. Work in the program will be team focused. Spring quarter will include a major student designed team research component based upon skills and background garnered from two quarters' academic work. | Clyde Barlow | Freshmen FR Sophomore SO | Fall | |||
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Dharshi Bopegedera and Abir Biswas
Signature Required:
Winter
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Program | FR–SRFreshmen - Senior | 16 | 16 | Day | F 13 Fall | W 14Winter | This interdisciplinary, introductory-level program will explore topics in physical geology and general chemistry. It is designed for students with a desire to have a broader and deeper understanding of the Earth, the structure of matter that makes up the Earth, and their interconnectedness. The study of lab and field sciences through rigorous, quantitative, and interdisciplinary investigations will be emphasized throughout the program. We expect students to finish the program with a strong understanding of the scientific and mathematical concepts that help us investigate the world around us. In the fall quarter we will study fundamental concepts in Earth science such as geologic time, plate tectonics, and earth materials supported by explorations into the atomic structure and bonding. We will focus on skill building in the laboratory with the goal of doing meaningful field and lab work later in the year. Winter quarter will focus on Earth processes such as nutrient cycling and climate change supported by the study of stoichiometry, chemical equilibria, acid-base chemistry, and kinetics. Quantitative reasoning and statistical analysis of data will be emphasized throughout the program. Opportunities will be available for field work and to explore topics of interest through individual and group projects. | Dharshi Bopegedera Abir Biswas | Freshmen FR Sophomore SO Junior JR Senior SR | Fall | ||||
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Grace Huerta and Leslie Flemmer
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Program | SO–SRSophomore - Senior | 16 | 16 | Day | F 13 Fall | W 14Winter | Are educators challenged to meet the needs of diverse learners in the public schools? While scholars generate research to illuminate the lived experiences of marginalized students, why are such findings missing from educational policy, curriculum development and teacher practice today? As we strive to make connections between critical race theory and schooling, we argue that the voices of diverse populations are necessary for a thorough analysis of the educational system.In order to pursue these essential questions, our program will interrogate how dominant theories of learning and knowledge are often legitimized without regard for race, class, culture and gender. Critical race theory (CRT) provides a framework to consider multiple perspectives specific to history, diaspora, language and power. Through these perspectives, we will analyze diverse ways of knowing that inform new systems of educational policy and teacher praxis. This work will be useful for those students considering graduate school in educational policy, qualitative research and teacher preparation.Through the fall and winter, we will practice qualitative methods to describe and analyze diverse perspectives through our community service in the schools and field research. Student teams will conduct their own project and learn how to: 1) identify a research problem and question; 2) select qualitative research methods (i.e. participant observation, counter-narratives and oral history) to answer their question and prepare a human subjects application; 3) complete a literature review; 4) collect, code and analyze data; and, lastly; 5) write and present their research findings to targeted audiences.Over the course of this program, students will develop analytical skills to identify how CRT frameworks inform institutional practices. Program participants will meet with educators, advocates and students to analyze the various theories at play in various sites of study, as well as in the classroom. In order to demonstrate their understanding of CRT and qualitative research, students will complete a formal paper for possible conference submission, a policy brief or grant proposal, and recommendations to present to community stakeholders. | Grace Huerta Leslie Flemmer | Mon Tue Thu | Sophomore SO Junior JR Senior SR | Fall | |||
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Dylan Fischer and Alison Styring
Signature Required:
Spring
|
Program | JR–SRJunior - Senior | 16 | 16 | Day | S 14Spring | This program is designed to provide a premier hands-on experience on learning how to conduct field science in ecology at the advanced undergraduate level. We will focus on group and individual field research to address patterns in ecological composition, structure and function in natural environments. Students will participate in field trips to local and remote field sites and they will be expected to develop multiple independent and group research projects. A small group of 16 students will also participate in a 16-day boat trip through the Grand Canyon of the Colorado River where they will conduct individual and group research. Students will be selected for the Grand Canyon experience based on an application available in winter quarter.We will work as a community to develop and implement field projects based on: 1) workshops that will train students in rapid observation and field data collection; 2) participation in large multi-year studies based in Washington and more distant field sites; and 3) student originated short- and long-term studies. Students will focus on field sampling, natural history and library research to develop workable field data collection protocols. Students will implement observation- and hypothesis-driven field projects. We will then learn to analyze ecological data using laboratory and statistical analytical approaches. Students will demonstrate their research and analytical skills via writing and presentation of group and individual research projects. Student manuscripts will be "crystallized" through a series of intensive, multi-day paper-writing workshops. Students will also give public presentations of their research work.Specific topics of study will include community and ecosystem ecology, plant physiology, forest structure, ecological restoration, riparian ecology, fire disturbance effects, bird abundance and monitoring, insect-plant interactions, disturbance ecology and the broad fields of bio-complexity and ecological interactions. We will emphasize identification of original field research problems in diverse habitats, experimentation, data analysis, oral presentation of findings and writing in journal format. | Dylan Fischer Alison Styring | Junior JR Senior SR | Spring | |||||
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Frederica Bowcutt
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Program | FR–SRFreshmen - Senior | 16 | 16 | Day | S 14Spring | This program fosters the skills needed for field work in the fields of floristics and plant ecology particularly vegetation studies. Students will learn how to use Hitchcock and Cronquist's , a technical key for identifying unknown plants. We will spend time in the field and laboratory discussing diagnostic characters of plant families. Seminar readings will be focused on floristics, biogeography and vegetation ecology. Students will learn how to collect and prepare herbarium specimens and apply this knowledge to a collaborative research project. Students will also learn about herbarium curation.A multi-day field trip to the Columbia River Gorge will give students an opportunity to learn about Pacific Northwest plant communities in the field, including prairies, oak woodlands and coniferous forests. Students will be expected to maintain a detailed field journal and will be taught basic botanical illustration skills to support this work. Through the field trip, students will learn qualitative vegetation sampling methods and how to analyze their observations. The field trip is required.Students who successfully complete the course will earn 16 units of upper-division science credit in field plant taxonomy, vegetation ecology of the Pacific Northwest, and floristic research. | Frederica Bowcutt | Freshmen FR Sophomore SO Junior JR Senior SR | Spring | |||||
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Donald Morisato and Heather Heying
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Program | JR–SRJunior - Senior | 16 | 16 | Day | F 13 Fall | The theory of evolution is the cornerstone of modern biology, unifying disciplines as diverse as molecular genetics and behavioral ecology. Evolution provides an explanation for the extraordinary biological diversity on this planet. What is the best way to study this process—by focusing on the mechanisms producing genetic variation, by looking at modern organisms for evidence of past evolutionary forces or by generating theory that fits with what we already know? At what level does natural selection act—on genes, on organisms, or on groups of organisms? This program will present and discuss some of the big ideas in evolution and at the same time, examine how we, as scientists, with distinct processes and cultures, approach these questions. We will study several aspects of microevolution—the change that occurs within populations, over time spans that are directly observable by humans—and spend time in the field early in the quarter as a class. Our microevolutionary focus will be animal behavior and students will work in pairs on field-based projects throughout the quarter, while regular workshops in statistics will allow students to conduct their own analyses on their data. On a parallel track, we will consider some of the genetic processes underlying this evolutionary change. We will begin with classical Mendelian genetics and move on to a formal treatment of population genetics and analysis of complex traits. We will be undertaking a laboratory project using . This upper-division science program will have an intensive workload, including reading the primary literature and carrying out experimental work in the laboratory and in the field. Student learning will be assessed by problems sets, writing assignments, statistics workshops and exams. | Donald Morisato Heather Heying | Junior JR Senior SR | Fall | |||||
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Gerardo Chin-Leo and Trisha Towanda
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Program | JR–SRJunior - Senior | 16 | 16 | Day | W 14Winter | S 14Spring | This program focuses on marine life, the sea as a habitat, relationships between the organisms and the physical/chemical properties of their environments, and their adaptations to those environments. Students will study marine organisms, elements of biological, chemical and physical oceanography, field sampling methods with associated statistics and laboratory techniques. Throughout the program, students will focus on the identification of marine organisms and aspects of the ecology of selected species. Physiological adaptations to diverse marine environments will be also be emphasized. We will study physical features of marine waters, nutrients, biological productivity and regional topics in marine science. Concepts will be applied via faculty-designed labs/fieldwork and student-designed research projects. Data analysis will be facilitated through the use of Excel spreadsheets and elementary statistics. Seminars will analyze appropriate primary literature on topics from lectures and research projects.The faculty will facilitate identification of student research projects, which may range from studies of trace metals in local organisms and sediments to ecological investigations of local estuarine animals. Students will design their research projects during winter quarter and write a research proposal that will undergo class-wide peer review. The research projects will then be carried out during spring quarter. The culmination of this research will take the form of written papers and oral presentations of the studen't work during the last week of spring quarter. | marine science, environmental science and other life sciences. | Gerardo Chin-Leo Trisha Towanda | Junior JR Senior SR | Winter | |||
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Abir Biswas, Michelle Aguilar-Wells and Jeff Antonelis-Lapp
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Program | FR–SOFreshmen - Sophomore | 16 | 16 | Day | F 13 Fall | W 14Winter | S 14Spring | Through studies of Olympic National Park and the Salish Sea (formerly known as the Puget Sound) lowlands, this program will consider connections among natural places, their respective natural histories and their people. What forces have shaped the geology, natural history and culture of the Olympics and Salish Sea areas? What are the connections between a place and the species that follow?This program will investigate the role that geology plays in influencing biota and cultures that take up residence in these geographically close but ecologically and culturally distinct locations. This approach will allow us to consider questions including: What do we know about the natural and human history in these regions and how might this predict the future? What are the interrelationships of people, place, flora and fauna in these regions?In fall quarter, we will focus on place, studying parts of the region that are geographically close but ecologically distinct as we consider the long-term geologic processes that have shaped and continue to influence the area, as well as the region’s flora and fauna, with an emphasis on bird life. Students will keep detailed natural history journals and engage in a quarter-long writing project on geologic processes and/or a species of interest.During winter quarter, we will narrow our focus to recent millennia (centuries) to consider the people of the region and shorter-term geologic processes important on human time scales including soil formation, nutrient cycling, climate change and human impacts. Students will continue to develop skills as natural historians, learning to effectively communicate with and teach others as we examine environmental education as a way to build an understanding of the connections between a place, its natural history and its people.Spring quarter will be dedicated primarily to student-driven individual or small group 12-credit projects that build on program themes from previous quarters. For the remaining 4 credits of this full-time 16-credit program, class will meet one full day a week for seminar and workshops, engaging students in Coastal Salish art, the canoe culture and other features of western Washington indigenous cultures. Field trips during each quarter to Olympic National Park and locally around Salish Sea will provide multiple opportunities to consider differences in the geology and natural history of these areas.Field trips during each quarter to the Olympic Peninsula, Olympic National Park or locally around Salish Sea will provide multiple opportunities to consider differences in the geology, natural history and human cultures of these areas. | Abir Biswas Michelle Aguilar-Wells Jeff Antonelis-Lapp | Freshmen FR Sophomore SO | Fall | |||
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Eric Stein and Toska Olson
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Program | FR–SRFreshmen - Senior | 16 | 16 | Day | F 13 Fall | W 14Winter | S 14Spring | “My soul would be an outlaw.”—Harlan Ellison, 1965Play incites the experience of aliveness, drawing us out of the routinized patterns of the everyday into realms of spontaneity, risk and imagination. Through play, the ordinary becomes temporarily disrupted: rules of propriety are suspended, social roles are inverted and everyday objects transform into the monstrous or fantastic. The vibrant, potentially transgressive nature of play raises questions about how it stands in relation to the forms of power that order society and shape us as individuals. How we play, when we play, and who we play with may unsettle these forms of power or become a part of how they operate. In this interdisciplinary program we will explore play as a creative pathway for the development of an authentic self, and also as a bold challenge to social mechanisms that limit autonomy and create borders between people. When we play, is there something we are playing against? What can the study of play teach us about the nature of power?In fall, we will explore how play has been shaped culturally and historically, with a focus on childhood in the United States and around the world. We will consider how the emergence of modern school discipline, the commodification of toys, the patterning of gender in childhood and the persistence of bullying has both constrained possibilities for play and allowed new forms to emerge. We will use ethnographic field studies of playgrounds, toy stores, children’s museums and primary school classrooms as the basis for creative work designing play structures, games, exhibits and school workshops. By exploring childhood play, we will gain an understanding of power dynamics between children and teachers, parents and children and among children themselves. Winter quarter will emphasize the strategic, symbolic forms of play that arise through adolescence and adulthood. We will consider how subcultures play with fashion, food, collections, fetishes and other social “tastes” to both mark and subvert hierarchies of class, gender and race. We will investigate the construction of “high” and “low” culture and the controlling notions of disgust, purity and danger through studies of tastings, sports tournaments, carnival and mass entertainment. We will also study humorous forms of verbal play and body play that have the capacity to construct or violate normalized social practices.Spring quarter turns to explorations of utopia and transgression in play. We will consider how particular forms of pleasure and desire are normalized and resisted, and how leisure and fantasy can reverse or co-opt power. Our inquiry will encompass topics such as science fiction, sexuality, space and architecture. Library research and ethnographic fieldwork will form the basis of a creative culminating project.Our studies will be grounded in sociology, anthropology and history, but will turn to other fields, including philosophy, education, literature and visual studies, to enrich our understandings of play. Readings may include works by Marx, Nietzsche, Freud, Foucault, Douglas, Barthes, Bourdieu, Stewart and Butler. Throughout the year, students will engage in seminars, films, workshops, fieldwork exercises, writing and research projects designed to deepen their knowledge and apply theory to real-world situations. | Eric Stein Toska Olson | Freshmen FR Sophomore SO Junior JR Senior SR | Fall | |||
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Kenneth Tabbutt and Alison Styring
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Program | JR–SRJunior - Senior | 16 | 16 | Day | F 13 Fall | , Latin for , is the root of riparian. Riparian zones are the interface between land and stream and are some of the most dynamic and fascinating geological and ecological systems on the planet. They are the boundary between biomes and an area of biological and hydrological diversity. This upper-division science program will focus on aspects of this unique environment. Students will learn about the hydrology of river systems and fluvial geomorphology and the animals that populate these corridors. Field studies and applied project work will be emphasized. Students will learn how to use Geographic Information Systems (GIS) as a tool for analyzing and displaying spatial data. The program will include a week-long field trip around the Olympic Peninsula. | Kenneth Tabbutt Alison Styring | Junior JR Senior SR | Fall | |||||
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Lucia Harrison
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Program | FR–SRFreshmen - Senior | 16 | 16 | Day | F 13 Fall | This is an art-based program that combines the study of stream ecology and visual art to provide a framework and tools to examine, observe, record, and know a place. We will explore the role of art and science in helping people develop a deep and reciprocal relationship with a watershed. Designed for beginning students in art and ecology, we will study the characteristics of local streams and make drawings that are inspired by a connection to a specific stream. The Nisqually River Watershed will be the focus for our collective work while the numerous local streams will serve as individual focal points for student projects throughout the quarter.Through reading, lectures and field study, students will learn the history of the watershed, study concepts in stream ecology, learn to identify native plants in the watershed and learn about current conservation efforts. They will develop beginning drawing skills and practice techniques for keeping an illustrated field journal. Students will work in charcoal, chalk pastel, watercolor, and colored pencil. Students will explore strategies for using notes and sketches to inspire more finished artworks. Students will study artists whose work is inspired by their deep connection to a place. Each student will visit a local stream regularly, keep a field journal, and in the second half of the quarter, students will create a series of artworks or an environmental education project that gives something back to their watershed. | Lucia Harrison | Freshmen FR Sophomore SO Junior JR Senior SR | Fall | |||||
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Paula Schofield and Andrew Brabban
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Program | FR ONLYFreshmen Only | 16 | 16 | Day | F 13 Fall | W 14Winter | Are you curious about the world around you? Would you like to really understand "buzz terms" the media uses such as sustainability, green materials, climate change, the water crisis, the energy debate, genetic engineering, DNA fingerprinting and cloning? How can we believe what we are being told? What is the evidence? How is scientific data actually collected, and what analytical methods are being used? Are the correct conclusions being drawn? As responsible citizens we should know the answers to these questions.In this two-quarter program we will demystify the hype surrounding popular myths, critically examine the data, and use scientific reasoning and experimental design to come to our own conclusions. In fall, we will study "water" and "energy" as themes to examine our environment, considering local and global water issues. We will also examine current energy use and demand, critically assessing various sources of energy: fossil fuels, nuclear, hydropower, etc.We will begin the program on September 23 (Orientation Week), one week BEFORE the regularly scheduled fall quarter start, so that we are prepared for our field trip by beginning our study of energy, and establishing our learning community. The Eastern Washington field trip will be a unique opportunity for personalized tours of Hanford Reactor B (the world's first full-scale nuclear reactor which produced the plutonium for the "Fat Man" bomb dropped over Nagasaki in 1945), Grand Coulee Dam (the largest hydropower producer in the U.S.), and the Wild Horse Wind and Solar Energy facility (150 turbines across 10,000 acres serving more than 80,000 homes). On this trip, we will also learn key field science techniques: how to take measurements in the field, collect samples for laboratory analysis and precisely determine concentrations of nutrients and pollutants.In winter quarter, we will use "natural and synthetic materials" as a theme to study petrochemical plastics, biodegradable plastics and other sustainable materials, as well as key biological materials such as proteins and DNA. We will carefully examine the properties of these materials in the laboratory and study their role in the real world. "Forensics" will be our final theme, learning techniques such as DNA fingerprinting, blood spatter analysis, ballistics and other modern forensic procedures.In this field- and lab-based program, scientific analysis—rather than conjecture or gut-feeling—will be the foundation of our work. Other class activities will include small group problem-solving workshops, seminars, student researched presentations and lectures. | Paula Schofield Andrew Brabban | Freshmen FR | Fall | ||||
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Doreen Swetkis
Signature Required:
Spring
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SOS | FR–SRFreshmen - Senior | 16 | 16 | Day | S 14Spring | This program is intended for students who have completed work in community learning programs (such as ) and are prepared to complete an internship in a public or nonprofit agency. Prior to the beginning of spring quarter, interested students must consult with the faculty about their proposed internship and/or course of study. Contracts that are completed before the beginning of spring quarter will be given priority. All contracts must follow the college procedures for internships. While students are encouraged to seek out their own internship possibilities, we will work with campus resources and the faculty member's contacts to identify internship possibilities in public and nonprofit agencies.Students will hold 25 hour/week internships and will come together as a class one day a week (on Fridays) to study more about doing public and nonprofit work through seminars, lectures, guest speakers and films. The faculty member will work with the agencies sponsoring the internships, making at least one site-visit to each agency during the quarter and meeting regularly with students outside of scheduled class times as needed. Internships must be located in the Seattle/Portland I/5 corridor or on the Olympic Peninsula and within a reasonable distance. Participation in the weekly class meeting is required – no internships located nationally or internationally will be sponsored. | Doreen Swetkis | Fri | Freshmen FR Sophomore SO Junior JR Senior SR | Spring | ||||
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Sarah Williams
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SOS | SO–SRSophomore - Senior | 16 | 16 | Day | F 13 Fall | W 14Winter | S 14Spring | J.W. Goethe Like the role of bees and seeds in the evolution of agriculture, beads—which often are seeds, shells, wax or bone—have an inside and an outside that commute. Seeds, beads and bees are interpenetrating, reciprocal creations. They form assemblages with centers and their use over time can be a measure of the fertility of mind, spirit and body. This SOS will support students in bead-like studies of biodynamic processes in conjunction with an internship, creative practice or field research project. Whether defined in relationship to agricultural, artistic or somatic practices, biodynamic processes are characterized by interconnected, recursive and iterative movements that form holistic patterns. Thus, students will be guided to reflect on their learning itself as a biodynamic process. To what extent is the subject and object of a liberal arts eduction mutually causative? In what ways might thinking be enlivened if informed by a consciousness of temporal rhythms (e.g., respiration) and cosmic forces such as tides and sunlight?This program is ideal for responsible, enthusiastic and self-motivated students with an interest in developing and reflecting on a substantial project over a substantial period of time. In addition to classroom work, each student will create an individual course of academic learning including an internship (e.g., at a local organic farm), creative practice (e.g., nature writing), or field research project (e.g., discovering the differences—and why they matter—between commercial and biodynamic beekeeping). Collaboration, including shared field-trip opportunities, with the Ecological Agriculture and Practice of Sustainable Agriculture programs will be available. Academic work for each quarter will include weekly group meetings, an annotated bibliography and maintenance of a field journal to document independent project learning. In addition to this independent project component, students will engage in weekly readings and written responses, seminar discussions and a final presentation. Unless designed into students projects and agreed upon in advance, all students will be required to attend and actively participate in this one day of weekly class activities, as well as individual self-assessment meetings with the faculty at mid-quarter and the end of the quarter. Interested students should browse the following authors and texts to explore their ability to think and act biodynamically within an intentional learning community. , edited by David Seamon and Arthur Zajonc; by Wolf Storl; by Charles Ridley; by Catherine Cole; by Gary Snyder; by Robert Bringhurst; by Ruth Ozeki; and : by Rudolf Steiner | Sarah Williams | Tue | Sophomore SO Junior JR Senior SR | Fall |