2015–16 Undergraduate Index A–Z
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Marine Science [clear]
Title | Offering | Standing | Credits | Credits | When | F | W | S | Su | Description | Preparatory | Faculty | Days | Multiple Standings | Start Quarters | Open Quarters |
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Dylan Fischer, Pauline Yu, Carri LeRoy, Abir Biswas, Erik Thuesen and Alison Styring
Signature Required:
Fall Winter Spring
|
Program | JR–SRJunior–Senior | V | V | Day | F 15 Fall | W 16Winter | S 16Spring | Rigorous quantitative and qualitative research is an important component of academic learning in Environmental Studies. This independent learning opportunity is designed to allow advanced students to delve into real-world research with faculty who are currently engaged in specific projects. The program will help students develop vital skills in research design, data acquisition and interpretation, written and oral communication, collaboration, and critical thinking skills—all of which are of particular value for students who are pursuing a graduate degree, as well as for graduates who are already in the job market. studies nutrient and toxic trace metal cycles in terrestrial and coastal ecosystems. Potential projects could include studies of mineral weathering, wildfires, and mercury cycling in ecosystems. Students could pursue these interests at the laboratory scale or through field-scale biogeochemistry studies, taking advantage of the Evergreen Ecological Observation Network (EEON), a long-term ecological study area. Students with backgrounds in a combination of geology, biology, or chemistry could gain skills in soil, vegetation, and water collection and learn methods of sample preparation and analysis for major and trace elements. studies plant ecosystem ecology, carbon dynamics, and nutrient cycling in forests of the Southwest and western Washington. This work includes image analysis of tree roots, molecular genetics, plant physiology, carbon balance, nitrogen cycling, species interactions, community analysis, and restoration ecology. He also manages the EEON project ( ). See more about his lab's work at: . Students participating in this program work closely with ongoing research in the lab, participate in weekly lab meetings, and develop their own research projects. conducts research on linkages between terrestrial and aquatic environments. She is trained as a freshwater ecologist and primarily studies in-stream ecosystem processes and aquatic communities. She and her students study leaf litter decomposition in streams as a major input of organic material to aquatic systems. In addition, she conducts research on aquatic macroinvertebrate community structure, aquatic fungal biomass and standard water quality and hydrology measurements in stream and river environments. studies birds. Current activity in her lab includes avian bioacoustics and avian monitoring and research in Evergreen’s campus forest and other nearby locations. Bioacoustic research includes field monitoring of local birds using audio recordings and microphone arrays, and editing and identifying avian songs and calls from an extensive collection of sounds from the campus forest as well as tropical forest sites in Borneo. Local research projects in the campus forest and nearby locations include Pacific wren mating and life-history strategy, cavity formation and use by cavity-nesting birds (and other cavity-dependent species), and monitoring long-term trends in bird populations and communities using a variety of standard approaches. conducts research on the ecological physiology of marine animals. He and his students are currently investigating the physiological, behavioral, and biochemical adaptations of gelatinous zooplankton to environmental stress and climate change. Other research is focused on the biodiversity of marine zooplankton. Students working in his lab typically have backgrounds in different aspects of marine science, ecology, physiology, and biochemistry. studies the developmental physiology and ecology of marine invertebrates. She is interested in the biochemistry of the seawater-organism interface, developmental nutritional biochemistry and metabolic depression, invasive species, carbonate chemistry (ocean acidification), and cultural relationships with foods from the sea. Students have the opportunity to collaboratively develop lines of inquiry for lab and/or field studies in ecology, developmental biology, physiology, marine carbonate chemistry and mariculture. | Dylan Fischer Pauline Yu Carri LeRoy Abir Biswas Erik Thuesen Alison Styring | Junior JR Senior SR | Fall | Fall Winter Spring | |||
Erik Thuesen
Signature Required:
Fall Winter Spring
|
Research | JR–SRJunior–Senior | V | V | Day | F 15 Fall | W 16Winter | S 16Spring | Erik Thuesen | Junior JR Senior SR | Fall | Fall Winter Spring | ||||
Pauline Yu
Signature Required:
Fall Winter Spring
|
Research | JR–SRJunior–Senior | V | V | Day | F 15 Fall | W 16Winter | S 16Spring | Rigorous quantitative and qualitative research is an important component of academic learning in Environmental Studies. This independent learning opportunity is designed to allow advanced students to delve into real-world research with faculty who are currently engaged in specific projects. The program will help students develop vital skills in research design, data acquisition and interpretation, written and oral communication, collaboration, and critical thinking skills—all of which are of particular value for students who are pursuing a graduate degree, as well as for graduates who are already in the job market. studies the developmental physiology and ecology of marine invertebrates. She is interested in the biochemistry of the seawater-organism interface, developmental nutritional biochemistry and metabolic depression, invasive species, carbonate chemistry (ocean acidification), and cultural relationships with foods from the sea. Students have the opportunity to collaboratively develop lines of inquiry for lab and/or field studies in ecology, developmental biology, physiology, marine carbonate chemistry and mariculture. | Pauline Yu | Junior JR Senior SR | Fall | Fall Winter Spring | |||
Erik Thuesen
Signature Required:
Fall
|
Program | SO–SRSophomore–Senior | 16 | 16 | Day | F 15 Fall | W 16Winter | In the 19th century, well-known European scientists such as Darwin, d'Orbigny, and Bonpland traveled in Argentina and brought their knowledge of the flora and fauna back to Europe. The marine, desert, and alpine environments of the Southern Cone harbor flora and fauna are very different from similar environments in North America. In this two-quarter program, we will carry out intensive natural history studies of the unique organisms and ecosystems of Argentina, focusing on those of Patagonia. After an introductory week in Olympia at the start of fall quarter, the study-abroad portion of the program will commence with a four-week intensive study of Spanish language in Buenos Aires, which will prepare us for our travels and studies in Argentina during fall and winter quarters.We will read primary literature articles related to the biodiversity of Argentina, and each student will be responsible for presenting different topics during weekly seminars. We will begin to study the flora and fauna of the Southern Cone through preliminary readings, lectures, and classwork in Buenos Aires. We will take a short trip to the subtropical province of Misiones, then move to the coastal and mountain regions of Patagonia where we will study the area's natural history, beginning with field studies on the Atlantic coast, and then moving to the Andean Lakes District, taking advantage of the progressively warmer weather of the austral spring. Students will conduct formal field exercises and keep field notebooks detailing their work and observations.During winter quarter (summer in the Southern Hemisphere), students will reinforce their language skills with two weeks of intensive Spanish studies in Patagonia, examine montane habitats, and then work in small groups on focused projects examining topics of biodiversity. It will be possible to conduct more focused studies on specific ecosystems or organisms, including those of southern parts of Patagonia. Clear project goals, reading lists, timelines, etc., will be developed during fall quarter in order to ensure successful projects in winter quarter. Examples of individual/small group projects include comparisons of plant/animal biodiversity between coastal, desert, and alpine zones; comparative studies on the impacts of ecotourism activities on biodiversity; and examining community composition of intertidal habitats along a gradient from north to south, among others. | Erik Thuesen | Sophomore SO Junior JR Senior SR | Fall | Fall | ||||
Dylan Fischer and Erik Thuesen
|
Program | JR–SRJunior–Senior | 16 | 16 | Day | S 16Spring | This program is designed to provide a premier hands-on experience in 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 will develop multiple independent and group research projects in unique marine and terrestrial ecosystems from the Puget Sound to the east side of the Cascades (in Washington).We will work as a community to develop and implement field projects based on: 1) workshops in rapid observation and field data collection; 2) participation in large multiyear studies in collaboration with other universities and agencies; 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 learn to analyze ecological data through a series of intensive workshops on understanding and using statistics in ecology. Students will demonstrate their research and analytical skills through scientific writing and presentation of all group and individual research projects.Specific topics of study will include community and ecosystem ecology, plant physiology, forest ecology, marine ecology, ecological restoration, riparian ecology, fire disturbance effects, bird abundance and monitoring, soundscape ecology, insect-plant interactions, disturbance ecology, and statistics in biology. We will emphasize identification of original field research problems in diverse habitats, experimentation, statistical analysis, and writing in journal format. All students will be expected to gain competency in advanced statistics and scientific writing. | Dylan Fischer Erik Thuesen | Tue Wed Thu Fri | Junior JR Senior SR | Spring | Spring | ||||
Joseph Tougas, Pauline Yu and Sean Williams
|
Program | FR ONLYFreshmen Only | 16 | 16 | Day | F 15 Fall | W 16Winter | This first-year program focuses attention on the idea that each of us has a unique way of understanding the world because of the contexts to which we have been exposed. What is your context? How has it shaped the ways you interact with humans, institutions, and the natural world? Considering these questions opens the idea of having not just one, but several lenses through which we have built our understanding: we use all of our senses in addition to larger societal, linguistic, and biological structures to inform and guide us. The languages we use and the social structures in which we live can be thought of as systems of representation—tools that living organisms can use to get a grip on reality. In the case of language, we might say that is the material we have to work with, ( ) is the order in which we can combine those materials, and is the place where language becomes meaningful or useful. Other systems of representation—in music, visual art, and science, for example—have similar structures. How do you make sense of the world when your “lived vocabulary” includes rhythms and notes, shapes and lines, molecules and ecosystems, or color and light? How does your picture of the world change when your epistemology—your way of knowing—includes multiple systems of representation and is not limited to just words and syntax? In learning by doing, we will explore how artists use geometry and math, how musicians use physics, and how scientists engage the mystery of their environment. We will examine these systems of representation and develop new ones through creative play to explore the range of human experiences.Weekly activities will include lectures, films, and seminars. There will also be field trips in each quarter, workshops, collaborative presentations, and guest lectures. Students are expected to focus on enhancing their college-level writing skills throughout the program; each quarter's major writing assignments will require students to master the process of revision. In fall quarter, students will be introduced to important skills in approaching this material through multiple modes; issues of perspective, critical analysis, and context are important factors in deepening our understanding. As we move into winter quarter, students will have more chances to develop individual and collaborative projects focusing on particular areas of interest. | Joseph Tougas Pauline Yu Sean Williams | Mon Mon Tue Tue Wed Wed Thu Thu | Freshmen FR | Fall | Fall Winter | |||
Gerardo Chin-Leo
|
Program | FR–SRFreshmen–Senior | 8 | 08 | Day | Su 16 Session I Summer | This program introduces principles of marine biology focusing on the marine life and marine habitats of the Pacific Northwest coast. We will study the environment, taxonomy, adaptations, and ecology of marine organisms as well as the major oceanographic features of the northwest coast. There will be various field trips including a survey of a local estuary and a camping trip to study the rocky intertidal habitats of the Olympic Peninsula. | Gerardo Chin-Leo | Tue Wed Thu | Freshmen FR Sophomore SO Junior JR Senior SR | Summer | Summer | ||||
Amy Cook and Pauline Yu
|
Program | JR–SRJunior–Senior | 16 | 16 | Day | W 16Winter | S 16Spring | This program focuses on marine organisms, the sea as a habitat, the relationships between the organisms, and the physical/chemical properties of their environments and their adaptations to those environments. Students will study the biology and ecology of marine organisms and physical and chemical oceanographic concepts as they apply to those organisms. The program will offer students the opportunity to refine their field sampling skills and associated statistics and laboratory techniques. Throughout the program, students will focus on the identification of marine organisms and key aspects of the ecology of selected species and marine habitats and develop their understanding of impacts on the marine habitat as a result of the Anthropocene, the era of human influence. Physiological adaptations to diverse marine environments and the evolutionary history of the sea 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 in faculty-designed experiments and student-designed research projects both in the lab and in the field. 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 and, at the end of spring quarter, students will document their work in written research papers and oral presentations. | Amy Cook Pauline Yu | Junior JR Senior SR | Winter | Winter | ||||
Ruth Hayes and Gerardo Chin-Leo
Signature Required:
Winter
|
Program | FR–SOFreshmen–Sophomore | 16 | 16 | Day | F 15 Fall | W 16Winter | This program will examine marine environments and life from the perspectives of science and the visual and media arts, emphasizing animation. Marine life constitutes a majority of the biomass and diversity of life, and marine microorganisms play major, complex roles in global ecological processes. We will focus on these relationships and how human activity affects them. In the past century, humans have severely impacted Earth’s ecosystems, degrading habitats and over-exploiting natural resources. Some scientists have termed this period of human influence the Anthropocene. We will explore ways that science and art can increase understanding of natural phenomena and human impacts on them, contributing effectively to solving environmental problems. We will learn how artists and marine scientists use close observation, analysis, and integrative thinking to communicate important concepts and values. We will experiment with ways to represent the movements, behaviors, and functions of microorganisms, as well as the larger structures of marine environments. Artists routinely base their works on scientific findings; students will practice such research-based creative strategies to respond to and represent marine phenomena in their drawings and animation.Students will explore how marine sciences and visual arts inform each other. Lectures will present concepts and terms unique to each discipline and include creative works about and inspired by the natural world. Labs, workshops, and field trips will offer experience in marine environments and conceptual and technical skills with which to represent them in drawing and animation. Through readings, writing assignments, and seminar discussions, students will learn how scientists and artists can contribute to understanding complex natural phenomena, raising awareness of and mitigating environmental problems. Students will integrate their learning in polished thematic creative works.In fall quarter, we examine ecosystems such as estuaries, intertidal zones, and the deep sea, taking an ecological perspective and emphasizing the role of microorganisms in these habitats. Students will learn drawing and animation skills as they explore how to represent microorganisms and their activities in small- and large-scale environments. In winter, we shift focus to the diversity of marine life and how organisms have adapted to environmental changes. Students will pursue more ambitious approaches to creative representations of marine life, environments, and the challenges they face. A multi-day field trip to the Friday Harbor Marine Labs will provide hands-on experience and inspiration for students' creative projects. Both quarters, we will join with other programs in common activities focused on issues related to the Anthropocene. | Ruth Hayes Gerardo Chin-Leo | Freshmen FR Sophomore SO | Fall | Fall Winter | ||||
Gerardo Chin-Leo and Ruth Hayes
|
Program | FR–SRFreshmen–Senior | 16 | 16 | Day | S 16Spring | In order to provide another entry point for students at all levels interested in animation and marine biology, Visualizing Microbial Seascapes (VMS) will explore the same themes as the fall/winter program did. This is a continuation of the fall/winter VMS program. This program examines marine environments and life from the perspectives of science and the visual and media arts, emphasizing animation. Marine life constitutes a majority of the biomass and diversity of life, and marine microorganisms play major, complex roles in global ecological processes. We will focus on these relationships and how human activity affects them. In the past century, humans have severely impacted Earth’s ecosystems, degrading habitats and over-exploiting natural resources. Some have termed this period of human influence the Anthropocene. We will explore ways that science and art can increase understanding of natural phenomena and human impacts on them, contributing effectively to solving environmental problems. We will learn how artists and marine scientists use close observation, analysis, and integrative thinking to communicate important concepts and values. We will experiment with ways to represent the movements, behaviors, and functions of microorganisms, as well as marine environments' larger structures. Artists routinely find inspiration in scientific findings; students will practice such research-based creative strategies to respond to and represent marine phenomena in drawing and animation.Lectures will present concepts and terms unique to animation and marine biology and include creative works about and inspired by the natural world. Labs, workshops, and field trips will offer experience in marine environments and conceptual and technical skills with which to represent them visually. Through readings, writing assignments and seminar discussions, students will learn how scientists and artists can contribute to understanding complex natural phenomena, raising awareness of and mitigating environmental problems. Students will integrate their learning in polished thematic creative works. | Gerardo Chin-Leo Ruth Hayes | Freshmen FR Sophomore SO Junior JR Senior SR | Spring | Spring |