Lucas Moyer-Horner's research focuses on human impacts on wildlife populations and how to support resilient wildlife communities. In particular, he studies mammals' responses to climate change, including behavior, distribution, metapopulation dynamics, thermoregulation, and community interactions. Much of his field research has been conducted in Glacier National Park, Montana, focusing on the American pika.
Areas of Expertise
Wildlife ecology; conservation biology; landscape ecology
Courses Recently Taught
This is the first laboratory course a student takes and is a prerequisite for all upper-division laboratory courses- required for the major. Students are introduced to the processes of investigative biology and scientific writing. Laboratories cover topics presented in the core lecture courses, BIOL 115 and 116, and introduce a variety of techniques and topics, including field sampling, microscopy, PCR, gel electrophoresis, enzyme biochemistry, physiology, evolution and population biology. The course emphasizes the development of inquiry skills through active involvement in experimental design, data collection and management, statistical analysis, integration of results with information reported in the literature, and writing in a format appropriate for publication. The year culminates in six-week student-designed investigations that reinforce the research skills developed during the year. Evaluation is based on laboratory notebooks, lab performance and scientific papers, as well as oral and written presentations summarizing the independent project. Prerequisite: completion or concurrent enrollment in BIOL 115 or equivalent.
This is the first laboratory course a student takes and is a prerequisite for all upper-division laboratory courses- required for the major. Students are introduced to the processes of investigative biology and scientific writing. Laboratories cover topics presented in the core lecture courses, BIOL 115 and 116, and introduce a variety of techniques and topics, including field sampling, microscopy, PCR, gel electrophoresis, enzyme biochemistry, physiology, evolution and population biology. The course emphasizes the development of inquiry skills through active involvement in experimental design, data collection, statistical analysis, integration of results with information reported in the literature and writing in a format appropriate for publication. The year culminates in six-week student-designed investigations that reinforce the research skills developed during the year. Evaluation is based on short reports, quizzes, lab performance and scientific papers, as well as oral and written presentations based on the independent project. Prerequisite: BIOL 109Y and 115 or equivalent.
This course is required for the major, therefore, biology majors should take this class prior to the junior year. How is information generated, transmitted, stored and maintained in biological systems? The endeavor to understand the flow of biological information represents a fundamental undertaking of the life sciences. This course examines the mechanisms of heredity, the replication and expression of genetic information and the function of genes in the process of evolution, with an emphasis on the tools of genetics and molecular biology to address research questions in these areas. Prerequisite: BIOL 115 or equivalent. Offered every year.