Students in this course investigate the structure, function and physiology of cells; the properties of biological molecules; information transfer from the level of DNA to cell-cell communication; and cellular energy generation and transfer. The development of multicellular organisms and the physiology of selected organ systems is also explored. In addition to attending lectures, each student participates in discussion sections that focus on data analysis and interpretation while integrating mechanisms across scales. Concurrent registration in BIO 133 recommended but not required.

Students in this course investigate the structure, function and physiology of cells; the properties of biological molecules; information transfer from the level of DNA to cell-cell communication; and cellular energy generation and transfer. The development of multicellular organisms and the physiology of selected organ systems is also explored. In addition to attending lectures, each student participates in discussion sections that focus on data analysis and interpretation while integrating mechanisms across scales. Concurrent registration in BIO 133 recommended but not required.

Students in this course investigate the structure, function and physiology of cells; the properties of biological molecules; information transfer from the level of DNA to cell-cell communication; and cellular energy generation and transfer. The development of multicellular organisms and the physiology of selected organ systems is also explored. In addition to attending lectures, each student participates in discussion sections that focus on data analysis and interpretation while integrating mechanisms across scales. Concurrent registration in BIO 133 recommended but not required.

Students in this course investigate the structure, function and physiology of cells; the properties of biological molecules; information transfer from the level of DNA to cell-cell communication; and cellular energy generation and transfer. The development of multicellular organisms and the physiology of selected organ systems is also explored. In addition to attending lectures, each student participates in discussion sections that focus on data analysis and interpretation while integrating mechanisms across scales. Concurrent registration in BIO 133 recommended but not required.

Students in this course investigate the structure, function and physiology of cells; the properties of biological molecules; information transfer from the level of DNA to cell-cell communication; and cellular energy generation and transfer. The development of multicellular organisms and the physiology of selected organ systems is also explored. In addition to attending lectures, each student participates in discussion sections that focus on data analysis and interpretation while integrating mechanisms across scales. Concurrent registration in BIO 133 recommended but not required.

Students pull on their boots and explore local habitats that may include the Mill River, MacLeish Field Station, Smith campus Botanic Gardens and local hemlock forests. Students gain experience with a diversity of organisms by conducting research projects that can enhance their understanding of ecology and conservation. Students practice the scientific process and document their work in a lab notebook. Research skills developed include hypothesis development, data collection, statistical analysis and presentation of results.

Students pull on their boots and explore local habitats that may include the Mill River, MacLeish Field Station, Smith campus Botanic Gardens and local hemlock forests. Students gain experience with a diversity of organisms by conducting research projects that can enhance their understanding of ecology and conservation. Students practice the scientific process and document their work in a lab notebook. Research skills developed include hypothesis development, data collection, statistical analysis and presentation of results.

Students pull on their boots and explore local habitats that may include the Mill River, MacLeish Field Station, Smith campus Botanic Gardens and local hemlock forests. Students gain experience with a diversity of organisms by conducting research projects that can enhance their understanding of ecology and conservation. Students practice the scientific process and document their work in a lab notebook. Research skills developed include hypothesis development, data collection, statistical analysis and presentation of results.

Students pull on their boots and explore local habitats that may include the Mill River, MacLeish Field Station, Smith campus Botanic Gardens and local hemlock forests. Students gain experience with a diversity of organisms by conducting research projects that can enhance their understanding of ecology and conservation. Students practice the scientific process and document their work in a lab notebook. Research skills developed include hypothesis development, data collection, statistical analysis and presentation of results.

Students in this course investigate the origin, nature, and importance of the diversity of life on Earth, key ecological processes, and interactions that create and maintain communities and ecosystems, principal threats to biodiversity, and emerging conservation strategies to protect the elements and processes upon which humans depend. Throughout the semester, the course emphasizes the relevance of diversity and ecological studies in conservation. Concurrent registration in BIO 131 is recommended but not required. Enrollment limited to 20.