About the Program
Bachelor of Arts (BA)
The environmental earth science major is designed to provide students with a broad background in the earth sciences with an emphasis on environmental sciences. Interrelationships between physical, biological, and chemical processes at the Earth's surface will be emphasized. The major focuses more broadly on the natural sciences by using earth science mainly as a base for expanding outward depending upon students' interests by incorporating courses in biology, hydrology, hazardous waste management, ecology and natural resources. The program is designed to provide background for graduate study in environmental science, preparation for work within governmental agencies such as the Environmental Protection Agency, Bureau of Land Management, United States Geological Survey or consulting firms, or broader involvement in land use planning, business, policy, law or management.
Declaring the Major
The department strongly encourages students to come see the student services adviser as early as possible. Students are accepted into the major with a C average or better. There are a number of scholarships and research opportunities as well as other benefits available to declared majors.
Honors Program
Students in the honors program must fulfill the following additional requirements: (1) maintain a GPA of at least 3.3 in all courses in the major, and an overall GPA of at least 3.3 in the University; and (2) carry out an individual research or study project, involving at least 3 units of EPS H195. The project is chosen in consultation with a departmental adviser, and written report is judged by the student's research supervisor and a departmental adviser. Application for the honors program should be made through the student's adviser no later than the end of the student's junior year.
Minor Program
For information regarding the requirements, please see the Minor Requirements tab. Program planning and confirmation should be done with the undergraduate student services adviser and the environmental earth science faculty adviser.
Other Majors and Minors Offered by the Department of Earth and Planetary Science
Atmospheric Science
(Major and Minor)
Geology
(Major and Minor)
Geophysics
(Major and Minor)
Marine Science
(Major and Minor)
Planetary Science
(Major and Minor)
Major Requirements
In addition to the University, campus, and college requirements, listed on the College Requirements tab, students must fulfill the below requirements specific to their major program.
General Guidelines
- All courses taken to fulfill the major requirements below must be taken for graded credit, other than courses listed which are offered on a Pass/No Pass basis only. Other exceptions to this requirement are noted as applicable.
- No more than one upper division course may be used to simultaneously fulfill requirements for a student's major and minor programs, with the exception of minors offered outside of the College of Letters & Science.
- A minimum grade point average (GPA) of 2.0 must be maintained in both upper and lower division courses used to fulfill the major requirements.
For information regarding residence requirements and unit requirements, please see the College Requirements tab.
Lower Division Requirements
| EPS 50 | The Planet Earth | 4 |
| Select one of the following math sequences: | ||
| Analytic Geometry and Calculus and Analytic Geometry and Calculus | ||
| Calculus and Calculus | ||
| Methods of Mathematics: Calculus, Statistics, and Combinatorics and Methods of Mathematics: Calculus, Statistics, and Combinatorics | ||
| Select one of the following physics sequences: | ||
| Introductory Physics and Introductory Physics | ||
| Physics for Scientists and Engineers and Physics for Scientists and Engineers | ||
| CHEM 1A | General Chemistry | 3 |
| BIOLOGY 1B | General Biology Lecture and Laboratory | 4 |
| CHEM 1AL | General Chemistry Laboratory | 1 |
Upper Division Requirements
| EPS 102 | History and Evolution of Planet Earth | 4 |
| EPS 117 | Geomorphology | 4 |
| EPS 150 | Case Studies in Earth Systems 1 | 2 |
| ENE,RES 102 | Quantitative Aspects of Global Environmental Problems | 4 |
| Electives, select 12 upper division from the following list of suggested courses: 2 | 12 | |
| Minerals: Their Constitution and Origin | ||
| Genesis and Interpretation of Rocks | ||
| Communicating Ocean Science | ||
| Introduction to Aquatic and Marine Geochemistry | ||
| Computer Simulations in Earth and Planetary Sciences | ||
| Stratigraphy and Earth History | ||
| Physics of the Earth and Planetary Interiors | ||
| Geochemistry | ||
| Geological Oceanography | ||
| Applied Geophysics | ||
EPS 170AC | Course Not Available | |
| Air Pollution | ||
| Atmospheric Physics and Dynamics | ||
EPS 185 | Course Not Available | |
| Soil Characteristics | ||
| Chemistry of Soils | ||
| Terrestrial Hydrology | ||
| Water Chemistry | ||
| Physical Landscapes: Process and Form | ||
| Climate Dynamics | ||
| Global Change Biogeochemistry | ||
| Principles of Meteorology | ||
| Environmental Toxicology | ||
| Ecology | ||
| Holocene Paleoecology: How Humans Changed the Earth | ||
| Evolution | ||
| 1 | This course can only be taken during the student's senior year. |
| 2 | All elective courses used to fulfill the major requirements must be approved by the faculty adviser. This list is intended as a guide; the suggested courses are not limited to only courses included in this list. |
Minor Requirements
Students who have a strong interest in an area of study outside their major often decide to complete a minor program. These programs have set requirements and are noted officially on the transcript in the memoranda section, but they are not noted on diplomas.
General Guidelines
- All courses taken to fulfill the minor requirements below must be taken for graded credit.
- A minimum of three of the upper division courses taken to fulfill the minor requirements must be completed at UC Berkeley.
- A minimum grade point average (GPA) of 2.0 is required for courses used to fulfill the minor requirements.
- Courses used to fulfill the minor requirements may be applied toward the Seven-Course Breadth requirement, for Letters & Science students.
- No more than one upper division course may be used to simultaneously fulfill requirements for a student's major and minor programs.
- All minor requirements must be completed prior to the last day of finals during the semester in which you plan to graduate. If you cannot finish all courses required for the minor by that time, please see a College of Letters & Science adviser.
- All minor requirements must be completed within the unit ceiling. (For further information regarding the unit ceiling, please see the College Requirements tab.)
Requirements
| Lower Division | ||
| EPS 50 | The Planet Earth (or equivalent) | 4 |
| Upper Division | ||
| Select a minimum of five of the following: | ||
| Minerals: Their Constitution and Origin | ||
| Genesis and Interpretation of Rocks | ||
| Communicating Ocean Science | ||
| History and Evolution of Planet Earth | ||
| Introduction to Aquatic and Marine Geochemistry | ||
| Computer Simulations in Earth and Planetary Sciences | ||
| Stratigraphy and Earth History | ||
| Geomorphology | ||
| Geochemistry | ||
| Geological Oceanography | ||
EPS 170AC | Course Not Available | |
| Applied Geophysics | ||
| Air Pollution | ||
| Atmospheric Physics and Dynamics | ||
College Requirements
Undergraduate students in the College of Letters & Science must fulfill the following requirements in addition to those required by their major program.
For detailed lists of courses that fulfill college requirements, please see the College of Letters & Sciences page in this Guide.
Entry Level Writing
All students who will enter the University of California as freshmen must demonstrate their command of the English language by fulfilling the Entry Level Writing requirement. Fulfillment of this requirement is also a prerequisite to enrollment in all reading and composition courses at UC Berkeley.
American History and American Institutions
The American History and Institutions requirements are based on the principle that a US resident graduated from an American university should have an understanding of the history and governmental institutions of the United States.
American Cultures
American Cultures is the one requirement that all undergraduate students at Cal need to take and pass in order to graduate. The requirement offers an exciting intellectual environment centered on the study of race, ethnicity and culture of the United States. AC courses offer students opportunities to be part of research-led, highly accomplished teaching environments, grappling with the complexity of American Culture.
Quantitative Reasoning
The Quantitative Reasoning requirement is designed to ensure that students graduate with basic understanding and competency in math, statistics, or computer science. The requirement may be satisfied by exam or by taking an approved course.
Foreign Language
The Foreign Language requirement may be satisfied by demonstrating proficiency in reading comprehension, writing, and conversation in a foreign language equivalent to the second semester college level, either by passing an exam or by completing approved course work.
Reading and Composition
In order to provide a solid foundation in reading, writing and critical thinking the College requires two semesters of lower division work in composition. Students must complete a first-level reading and composition course by the end of their second semester and a second-level course by the end of their fourth semester.
Breadth Requirements
The undergraduate breadth requirements provide Berkeley students with a rich and varied educational experience outside of their major program. As the foundation of a liberal arts education, breadth courses give students a view into the intellectual life of the University while introducing them to a multitude of perspectives and approaches to research and scholarship. Engaging students in new disciplines and with peers from other majors, the breadth experience strengthens interdisciplinary connections and context that prepares Berkeley graduates to understand and solve the complex issues of their day.
Unit Requirements
-
120 total units, including at least 60 L&S units
-
Of the 120 units, 36 must be upper division units
- Of the 36 upper division units, 6 must be taken in courses offered outside your major department
Residence Requirements
For units to be considered in "residence," you must be registered in courses on the Berkeley campus as a student in the College of Letters & Science. Most students automatically fulfill the residence requirement by attending classes here for four years. In general, there is no need to be concerned about this requirement, unless you go abroad for a semester or year or want to take courses at another institution or through University Extension during your senior year. In these cases, you should make an appointment to see an adviser to determine how you can meet the Senior Residence Requirement.
Note: Courses taken through UC Extension do not count toward residence.
Senior Residence Requirement
After you become a senior (with 90 semester units earned toward your BA degree), you must complete at least 24 of the remaining 30 units in residence in at least two semesters. To count as residence, a semester must consist of at least 6 passed units. Intercampus Visitor, EAP, and UC Berkeley-Washington Program (UCDC) units are excluded.
You may use a Berkeley summer session to satisfy one semester of the Senior Residence requirement, provided that you successfully complete 6 units of course work in the Summer Session and that you have been enrolled previously in the college.
Modified Senior Residence Requirement
Participants in the UC Education Abroad Program (EAP) or the UC Berkeley Washington Program (UCDC) may meet a Modified Senior Residence requirement by completing 24 (excluding EAP) of their final 60 semester units in residence. At least 12 of these 24 units must be completed after you have completed 90 units.
Upper Division Residence Requirement
You must complete in residence a minimum of 18 units of upper division courses (excluding EAP units), 12 of which must satisfy the requirements for your major.
Student Learning Goals
Mission
The goal of the earth and planetary sciences (EPS) BA degree is to provide students with a broad and sound education that provides general and specialized knowledge and is intellectually challenging and stimulating. Upon completion of the degree students are ready to enter graduate school at top-ranking institutions (about half of them choose this path), find employment in the profession (geological and environmental engineering and consulting are major opportunities), continue in public education as teachers, or use their background as a sound basis for a new career such as in public policy, law or medical sciences.
Learning Goals for the Major
EPS majors acquire knowledge through course work, laboratory training (expertise in experimental techniques), primary field research, library research, and computer applications, with oral presentations and written reports required in many of our classes.
The undergraduate program provides strong technical training for those who wish to pursue professional careers in the earth, environmental and planetary sciences, as well as training in analytical, creative and critical thinking and communication that serves well those who choose paths in new fields.
The environmental earth science track focuses broadly on the natural sciences, using earth science as a base to expand outward. This track can accommodate the student's interest by incorporating classes in biology, hydrology, hazardous waste management, ecology, and natural resources. Interrelationships are key to this course of study, with an emphasis on how the physical, biological, and chemical processes at the earth's surface affect each other.
This track is excellent preparation for graduate study in environmental science, but it also provides a strong foundation for work within governmental agencies such as the Environmental Protection Agency, Bureau of Land Management, United States Geological Survey or consulting firms, or broader involvement in land use planning, business, policy, law or management. This is a great way to obtain a good science foundation for students who are interested in teaching science in elementary or secondary education.
Advising
Undergraduate Student Services Adviser
Nadine Spingola-Hutton
nspingola@berkeley.edu
510-643-4068
Faculty Adviser
Professor Lynn Ingram
ingram@eps.berkeley.edu
EPS Undergraduate Advising Calendar
For advising hours and other advising deadlines, please see the department's advising calendar .
Courses
Environmental Earth Science
ENV SCI 8X Climate Change: The Interface of Science and Public Policy 2 Units
Terms offered: Prior to 2007
The possible impacts of climate changes enhanced by or following from human activities create challenges for planners, policy-makers, industrialists, and all citizens of the globe. This course seeks to examine the science of climate change and the policy issues that follow from that change.
Hours & Format
Summer: 6 weeks - 5 hours of lecture per week
Additional Details
Subject/Course Level: Environmental Sciences/Undergraduate
Grading/Final exam status: Letter grade. Final exam required.
Instructor: Berry
ENV SCI 10 Introduction to Environmental Sciences 3 Units
Terms offered: Fall 2013, Spring 2013, Fall 2012
A survey of biological and physical environmental problems, focusing on geologic hazards, water and air quality, water supply, solid waste, introduced and endangered species, preservation of wetland ecosystems. Interaction of technical, social, and political approaches to environmental management.
Hours & Format
Fall and/or spring: 15 weeks - 3 hours of lecture and 1 hour of discussion per week
Additional Details
Subject/Course Level: Environmental Sciences/Undergraduate
Grading/Final exam status: Letter grade. Final exam required.
ENV SCI 10L Field Study in Environmental Sciences 1 Unit
Terms offered: Fall 2010, Fall 2009, Fall 2008
Field and laboratory studies of Strawberry Creek throughout its course from the hills to the Bay are used to exemplify integration of the physical, biological, and social components of science-based approaches to environmental management.
Rules & Requirements
Prerequisites: 10 (must be taken concurrently)
Hours & Format
Fall and/or spring: 15 weeks - 2 hours of fieldwork per week
Additional Details
Subject/Course Level: Environmental Sciences/Undergraduate
Grading/Final exam status: Letter grade. Final exam not required.
Instructors: Berry, Kondolf
ENV SCI 24 Freshman Seminar 1 Unit
Terms offered: Fall 2011, Fall 2010, Fall 2009
The Freshman Seminar Program has been designed to provide new students with the opportunity to explore an intellectual topic with a faculty member in a small-seminar setting. Freshman Seminars are offered in all campus departments, and topics vary from department to department and semester to semester. Enrollment limited to fifteen freshmen.
Rules & Requirements
Repeat rules: Course may be repeated for credit as topic varies. Course may be repeated for credit when topic changes.
Hours & Format
Fall and/or spring: 15 weeks - 1 hour of seminar per week
Additional Details
Subject/Course Level: Environmental Sciences/Undergraduate
Grading/Final exam status: The grading option will be decided by the instructor when the class is offered. Final exam required.
ENV SCI 84 Sophomore Seminar 1 or 2 Units
Terms offered: Fall 2011, Spring 2011, Fall 2010
Sophomore seminars are small interactive courses offered by faculty members in departments all across the campus. Sophomore seminars offer opportunity for close, regular intellectual contact between faculty members and students in the crucial second year. The topics vary from department to department and semester to semester. Enrollment limited to 15 sophomores.
Rules & Requirements
Prerequisites: At discretion of instructor
Repeat rules: Course may be repeated for credit as topic varies. Course may be repeated for credit when topic changes.
Hours & Format
Fall and/or spring:
5 weeks - 3-6 hours of seminar per week
10 weeks - 1.5-3 hours of seminar per week
15 weeks - 1-2 hours of seminar per week
Summer:
6 weeks - 2.5-5 hours of seminar per week
8 weeks - 1.5-3.5 hours of seminar and 2-4 hours of seminar per week
Additional Details
Subject/Course Level: Environmental Sciences/Undergraduate
Grading/Final exam status: The grading option will be decided by the instructor when the class is offered. Final exam required.
ENV SCI 100 Introduction to the Methods of Environmental Science 4 Units
Terms offered: Spring 2013, Spring 2012, Spring 2011
Introduction to basic methods used in environmental research by biological, physical, and social scientists. The course is designed to teach skills necessary for majors to conduct independent thesis research in the required senior seminar, 196A-196B/196L. Topics include development of research questions, sampling methods, experimental design, statistical analysis, scientific writing and graphics, and introductions to special techniques for characterizing environmental conditions and features. This course is the prerequisite to 196A, from which the senior thesis topic statement is determined.
Rules & Requirements
Prerequisites: Environmental science statistics requirement. Open only to declared environmental sciences majors
Hours & Format
Fall and/or spring: 15 weeks - 3 hours of lecture, 1 hour of discussion, and 1.5 hours of fieldwork per week
Additional Details
Subject/Course Level: Environmental Sciences/Undergraduate
Grading/Final exam status: Letter grade. Final exam not required.
ENV SCI 125 Environments of the San Francisco Bay Area 3 Units
Terms offered: Spring 2011, Spring 2010, Spring 2009
The weather and climate, plants and animals, geology, landforms, and soils of the Bay Area, with an emphasis on the interaction of these physical elements, their modification by humans, and problems deriving from human use.
Hours & Format
Fall and/or spring: 15 weeks - 3 hours of lecture per week
Additional Details
Subject/Course Level: Environmental Sciences/Undergraduate
Grading/Final exam status: Letter grade. Final exam not required.
Instructor: Berry
Faculty and Instructors
Faculty
Richard Allen, Professor. Seismology earthquakes earthquake hazard mitigation earth structure tomography natural hazards.
Research Profile
Jillian Banfield, Professor. Nanoscience, Bioremediation, genomics, biogeochemistry, carbon cycling, geomicrobiology, MARS, minerology.
Research Profile
Jim Bishop, Professor. Ocean carbon cycle dynamics, remote sensing, aquatic chemistry, marine biogeochemistry, land - ocean biogeochemistry, chemical oceanography, ocean sensors and autonomous observing systems, Carbon Explorer, Carbon Flux Explorer.
Research Profile
Kristie A. Boering, Professor. Physical chemistry, climate change, atmospheric chemistry, environmental chemistry, ozone, earth and planetary science, isotopic compositions of atmospheric trace gases, stratospheric ozone, carbon dioxide, nitrous oxide, molecular hydrogen, methane.
Research Profile
Bruce Buffett, Professor.
Roland Burgmann, Professor. Geophysics, geology, earth and planetary science, geomechanics, tectonics, structural geology, active tectonics, fault zone processes, crustal deformation, space geodesy.
Research Profile
Eugene Chiang, Professor. Planetary science, theoretical astrophysics, dynamics, planet formation, circumstellar disks.
Research Profile
Ronald C. Cohen, Professor. Physical chemistry, water, climate, air pollution, atmospheric chemistry, environmental chemistry, analytical chemistry, ozone, nitrogen oxides, CO2, clouds.
Research Profile
William D. Collins, Professor in Residence.
Kurt Cuffey, Professor. Continuum mechanics, climate, geomorphology, glaciers, glaciology, climate history, stable isotopes, geographical thought.
Research Profile
Imke De Pater, Professor. Radio, planetary science, infrared, observations.
Research Profile
William E. Dietrich, Professor. Morphology, earth and planetary sciences, geomorphology, evolution of landscapes, geomorphic transport laws, landscape evolution modeling, high resolution laser altimetry, cosmogenic nuclide analysis.
Research Profile
Douglas S. Dreger, Professor. Wave propagation, geophysics, earth and planetary sciences, waveform data, geophysical inverse problems, seismic radiation, regional distance methodology, crustal structure affects on ground motions in the greater San Francisco Bay area.
Research Profile
Inez Fung, Professor. Global change, environmental policy, ecosystem scienes.
Research Profile
Lynn Ingram, Professor. Geophysics, geology, earth and planetary science, geography, stratigraphy with strontium isotopes, paleontological, paleoclimate, California climate change, paleosalinity, shellmounds, geochemical data, paleoclimatic and paleo-environmental reconstruction in aquatic environments using sedimentological.
Research Profile
Raymond Jeanloz, Professor. Planetary geophysics, high-pressure physics, national and international security, science-based policy.
Research Profile
Michael Manga, Professor. Hydrogeology, fluid mechanics, geomorphology, earth & planetary science, geological processes involving fluids, including problems in physical volcanology, geodynamics, dynamics of suspensions, flow & transport in porous materials, percolation theory.
Research Profile
Charles Marshall, Professor.
Burkhard Militzer, Associate Professor. Saturn, structure and evolution of Jupiter, and extrasolar giant planets.
Research Profile
Steven R. Pride, Adjunct Professor.
James W. Rector, Professor. Geophysics, Oil and Gas, Unconventional Shale Gas Reservoirs, Horizontal Drilling, Fracking, Near Surface Seismology, Tunnel Detection, Treasure Hunting, and Geophysical Archaeology, Borehole Seismology.
Research Profile
Paul Renne, Professor in Residence. Geochemistry, geochronology, paleomagnetism.
Research Profile
Mark A. Richards, Professor. Crustal deformation, earth & planetary sciences, mantle convection, large-scale mantle structure, rotational dynamics & gravity fields of terrestrial planets, history & dynamics of global plate motions, igneous processes in the mantle and deep crust.
Research Profile
Barbara A. Romanowicz, Professor. Earth & planetary science, deep earth structure & dynamics, earthquake processes & scaling laws, real time estimation of earthquake parameters, development of modern broadband seismic and geophysical observatories, planetary seismology.
Research Profile
David Romps, Assistant Professor. Climate, atmosphere, atmospheric science, weather, clouds, fluid dynamics.
Research Profile
Stephen Self, Adjunct Professor.
David Shuster, Associate Professor.
Nicholas Swanson-Hysell, Assistant Professor. Geology, stratigraphy, paleomagnetism, paleogeography.
Research Profile
Lecturers
Horst Rademacher, Lecturer.
Visiting Faculty
Paul C. Henshaw, Visiting Professor.
Emeritus Faculty
Walter Alvarez, Professor Emeritus.
George H. Brimhall, Professor Emeritus. Earth and planetary sciences, geology, ore-forming processes, mineral exploration science, non-renewable resource issues, photo-voltaic semi-conductor resources.
Research Profile
Mark S. T. Bukowinski, Professor Emeritus. Geophysics, earth and planetary sciences, planetary interiors, theoretical mineral physics, deep earth minerals, geochemical processes, thermal and chemical evolution.
Research Profile
Richard L. Hay, Professor Emeritus.
Lane Johnson, Professor Emeritus. Earth & planetary science, geophysical methods of studying structure & processes within the earth, seismic sources, monitoring of nuclear test ban treaties, theoretical & computational methods of treating wave propagation in realistic earth models.
Research Profile
James Kirchner, Professor Emeritus. Evolutionary ecology, biogeochemistry, earth and planetary sciences, geomorphology, watershed hydrology & geochemistry.
Research Profile
Chi-Yuen Wang, Professor Emeritus. Earth & planetary science.
Research Profile
Lionel E. Weiss, Professor Emeritus.
Hans-Rudolf Wenk, Professor Emeritus. Crystallography, earth & planetary science, structural geology & rock deformation, seismic anisotropy, investigating development of preferred orientation under expreme conditions using neutron diffraction, synchrotron x-rays, & electron microscopy.
Research Profile
Contact Information
Department of Earth and Planetary Science
307 McCone Hall
Phone: 510-642-3993
Fax: 510-643-9980
Department Chair & Director of Berkeley Seismological Laboratory
Richard Allen, PhD
279 McCone Hall
Undergraduate Student Services Adviser
Nadine Spingola-Hutton
305 McCone Hall
Phone: 510-643-4068