May 04, 2024

2023-2024 Undergraduate Catalog

Earth and Environmental Sciences, B.S.

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Earth and environmental sciences (EES) are critical disciplines for environmental stewardship and resource management. Students in this program engage in diverse field and laboratory investigations in order to develop their understanding of the past, present, and future behavior of the whole earth system. They become members of a scientific community, learning techniques of field observation, measurement, sampling, and analysis as part of their coursework. EES majors work side-by-side with their professors in classes and laboratories, and in the field conducting research in nearby forests, lakes, rivers, mountains, and coastal settings.

EES majors also have opportunities for hands-on internship experiences. They become proficient in doing and communicating science, often making presentations in public and scientific arenas. EES majors will graduate with a solid foundation for careers in the earth and environmental sciences, K-12 science education, or graduate school, ready to tackle resource, energy, and environmental challenges of the 21st century. They will be environmentally literate citizens capable of using scientific approaches to effect constructive change.

With distinct roots, geology having first blossomed in the 19th century and environmental science more recently as the response to widespread awareness of humanity’s impact on the planet, today the two share much in common. Such a broad field necessitates concentrations in either Earth or Environmental Science; students will select a B. S. in either the Geology or the Environmental Science track. Both tracks place a strong emphasis on field and hands-on experiences.

Track A: Geology Concentration - Total Credits 39 - 40

Students in the UMF Earth and Environmental Sciences: Geology track focus on understanding the past and present processes that shape our planet and its resources. The program especially values field experiences both at nearby field sites and, during travel courses, other geologically rich locations, such as Newfoundland, Ireland and Scotland, and central Canada. Graduates go on to careers in mineral exploration, water resource management, education, and GIS analysis.

EES-Geology Degree REQUIREMENTS

Track B: Environmental Science Concentration - Total Credits 60

The UMF Earth and Environmental Sciences: Environmental Science track offers an interdisciplinary preparation that is flexible and quantitative, and offers the opportunity for greater specialization. Students gain a strong core in the natural sciences and mathematics and, with the guidance of an advisor, may select electives that allow for in-depth specialization in a specific discipline. Graduates pursue careers in lake conservation, environmental impact and assessment, endangered species conservation, state park and marine resource protection, sustainable agriculture, air quality, and energy resources or enroll in graduate studies.

EES-Environmental Degree Requirements

A. Eight Foundation courses in the Natural Sciences

B. Seven Elective courses in environmental science

C. One Social Science course in environmental studies

D. One Statistics course

E. One Capstone course that also counts as one of the seven electives.

A. Required FOUNDATION courses in the Natural Sciences 32 Credits

BIO 141 - The Living Earth: Ecology, Evolution, and Biodiversity Credits: 4
BIO 142 - The Living Earth: The Cellular and Molecular World Credits: 4
BIO 212 - Principles of Ecology Credits: 4
CHY 141 - General Chemistry I Credits: 4
CHY 142 - General Chemistry II Credits: 4
GEY 141 - Dynamic Earth: Environment and Economy Credits: 4
GEY 203 - Surficial Processes Credits: 4
PHY 132 - Physics II Credits: 4

B. Twenty-two or more ELECTIVE credits in environmental science, including at least three courses at the 300-level or above 22 Credits

BIO 232 - Landscape Ecology Credits: 4
BIO 265 - Ecological Restoration Credits: 4
BIO 294 - Forest Ecology and Conservation Credits: 4
BIO 355 - Mammalogy Credits: 4
BIO 363 - Evolutionary Biology Credits: 4
BIO 383 - Aquatic Biology Credits: 4
BIO 391 - Entomology Credits: 4
BIO 396 - Behavioral Ecology and Sociobiology Credits: 4
BIO 482 - Theory and Methods of Scientific Inquiry Credits: 4
CHY 241 - Organic Chemistry I Credits: 4
CHY 242 - Organic Chemistry II Credits: 4
CHY 291 - Analytical Chemistry Credits: 4
ENV 257 - Soil Science Credits: 4
ENV 390 - Environmental Science Internship Credits: 4-16 ** 4-6 credits
ENV 497 - Independent Study in Environmental Science Credits: 2-4
EPP 304 - Environmental GIS Credits: 4
GEY 142 - Dynamic Earth: The Mineral Kingdom Credits: 4
GEY 252 - Hierarchy of Earth Materials Credits: 4
GEY 277 - Special Topics Credits: 3
GEY 305 - Sediment Transport and Earth Archives Credits: 3
GEY 306 - Earth’s Tectonic Engine Credits: 3
GEY 311 - Earth History Credits: 3
GEY 401 - Climate Change Past and Present Credits: 3
GEY 404 - Biogeochemical Cycles Credits: 3
PHY 112 - Introductory Meteorology Credits: 4
PHY 131 - Physics I Credits: 4
** A maximum of 6 credits of the ENV 390 internship may be applied to this major requirement area, although any additional credits will still count towards the total credits needed for graduation.

Some electives are cross-listed with an ENV prefix. Either prefix will satisfy major requirements.

C. One course in SOCIAL SCIENCE in environmental studies from the following list 3 Credits

EPP 131 - Conservation and Environment Credits: 3 *
EPP 231 - Environmental Issues Credits: 3 *
ECO 228 - Environmental and Natural Resource Economics Credits: 3
Prereq: ECO 101 * or ECO 102 * or permission of instructor

*would also count as an Social Science distribution courses.
Students are encouraged to take additional courses in disciplines other than Natural Sciences related to environmental science. Examples: HEA 210 Environmental Health, EPP 340 Sustainable Land Use, and ENG 220 Nature Writing.

D. One of the following two courses in STATISTICS 3 Credits

MAT 120 - Introductory Statistics Credits: 3
MAT 220 - Data Analysis Credits: 3

E. Students must select one of the following courses designated as capstones 3-4 Credits

(which will also count in the Elective requirements listed above)

BIO 482 - Theory and Methods of Scientific Inquiry Credits: 4
GEY 401 - Climate Change Past and Present Credits: 3
GEY 404 - Biogeochemical Cycles Credits: 3

NOTES:

1. A grade of C- or above must be earned in all science courses and their prerequisites.

2. Geology courses from the Geology track may not be used to fulfill the General Education requirement in Natural Sciences.

3. Geology track majors who also wish to complete the Environmental Science track must complete at least 20 credits of Environmental Science track requirements beyond the courses used to fulfill the Geology track’s requirements.

4. For Environmental Science track majors declaring a science minor in a science discipline, only eight credits of required coursework in the major can be counted toward the science minor.

5. Chemistry courses from the Environmental Science track may not be used to fulfill the General Education requirement in Natural Sciences.

6. Environmental Science track majors who also wish to complete the Geology track must complete at least 20 credits of Geology track requirements beyond the courses used to fulfill the Environmental Science track’s requirements.

Other Requirements

General Education Requirements

For specific information about general education requirements and expectations, see the General Education Requirements in the Academic Programs section of this catalog.

Graduation Requirements

Completion of at least 120 credits and all requirements of this specific program, with a cumulative grade point average of at least 2.750.

Minimum Total Credits for The Degree: 120

Learning Goals and Assessment

Learning Goals

Students will be able to:

Demonstrate, in common with the other natural sciences, an understanding of the nature of science, especially the interactions between imaginative hypothesis generation and rigorous observation and data collection. Students will design and conduct original scientific research. They will acquire practice in recognizing problems in the earth and environmental sciences, develop testable hypotheses, make systematic observations to detect patterns and to quantify relationships, employ state-of-the-art technology in data collection, critically evaluate their results, draw statistically significant conclusions and communicate them in writing and orally to a variety of audiences, including the public.
Appreciate how most EES problems require an integrative approach, and apply tools from chemistry, physics, biology, and mathematics to solve them. Students will demonstrate basic knowledge of the history of science, including the major scientific revolutions. They will be able to critically evaluate the work of others, in part acquired through computer-based literature searching, on which their efforts are built
Demonstrate an understanding of the interdependent components (solid Earth, hydrosphere, atmosphere, biosphere) and fundamental processes that control earth system behaviors (steady-state, secular trends, cyclical, chaotic), including factors that tend to maintain or drive a system from equilibrium.
Monitor the impact of humans on these natural systems, and evaluate scenarios intended to optimize interactions between humanity and its environment;
Work collaboratively in teams and interact effectively with the public, business, government and non-profit sectors of society. Exhibit professional behavior and become aware of their ethical responsibility to portray the results of investigations in an unbiased nature.
Gain a deeper appreciation of their planet through exploration of the landscape, motivating them to embrace an ethic of environmental stewardship.

Additional EES-Geology Learning Goals:

Students will be able to demonstrate knowledge of the major geologic processes including:
- formation of minerals, rocks, and other earth materials;
- geochemical cycling (especially the rock, water, and carbon cycles);
- circulation of the solid earth, oceans, and atmosphere;
- deformation (plate tectonic to micro-scale);
- energy flows (internal heat and solar);
- processes pertinent to stratigraphy and the geologic record; and
- the origin/evolution of the earth system (tectonic, climatic, and biologic events).
Students will be able to document and decipher geologic records through:
- geologic field methods (e.g., pacing, GPS, hand specimen description, Brunton compass) and
- laboratory procedures (e.g., petrography; grain size analysis); and
- techniques for data documentation, manipulation, and display (e.g., GIS, spreadsheets, graphing).

Assessment Criteria:

Assessments include preliminary and final course examinations; abundant written and illustrated summaries of field and laboratory investigations, including modeling studies; review papers; and oral and poster presentations of original research.