Biology as a Second Teaching Field Minor

NSM PEAK

This minor is designed for students intending to pursue a teaching license. Students may qualify for licensure if they complete all of the following: a major in Interdisciplinary Studies in Elementary Precertification or an approved content area major, the Biology as a Second Teaching Field minor, and the fifth-year student teaching experience. Students interested in becoming licensed educators should contact the Education Department about all requirements related to certification, including admission to the Teacher Education program.

Minor Requirements

20 semester credit hours including coursework in each of the following areas: molecular and organismal biology, heredity, ecology and biological adaptation.

Mathematics

MAT-125Data Analysis and Statistics

3 credits

Biology (21–23 credits)

Students must complete all of the following required courses (15 credits):

BIO-201Molecules to Cells

3 credits

BIO-201LMolecules to Cells Lab

1 credit

-
or

BIO-210LMolecules to Cells Research-Based Lab

1 credit

-
 

BIO-202Organismal Biology

3 credits

BIO-202LOrganismal Biology Lab

1 credit

BIO-203Ecology, Evolution and Diversity

3 credits

BIO-203LEcology Evolution and Diversity Lab

1 credit

BIO-316Genetics

3 credits

Biology Electives

Complete 6–8 credits of additional coursework in upper-division Biology courses.

Total Credit Hours: 21-23

Outcomes

Upon successful completion of this minor, students will be able to:

1) Understand the major underlying theories and principles of molecular and organismal biology, including: structure and function, growth and development, and organization for matter and energy flow;

2) Understand the major underlying theories and principles of ecosystems including: interdependent relationships; cycles of energy and matter transfer; the relationship among dynamics, function, and resilience; and social interactions and group behavior;

3) Understand the major underlying theories and principles of heredity, including structure and function of DNA, and inheritance and variation of traits; and

4) Understand the major underlying theories and principles of biological adaptation; including evidence of common ancestry and diversity, natural selection, adaptation, and biodiversity and humans.