Biology: Ecology and Evolution Immersion
- RIT /
- Rochester Institute of Technology /
- Academics /
- Biology: Ecology and Evolution Immersion
Overview for Biology: Ecology and Evolution Immersion
The biology: ecology and evolution immersion provides students with the opportunity to experience courses in ecology and evolutionary biology. Students complete a foundational course in ecology or evolution and then have a choice of electives.
Notes about this minor:
- Immersions are a series of three related general education courses and are intended to provide opportunities for learning outside of a student’s major area. Immersions may be in areas that will complement a student’s program but may not overlap with program requirements.
- The immersion is closed to students majoring in biochemistry, bioinformatics and computational biology, biology, biomedical engineering, biomedical sciences, biotechnology and molecular bioscience, environmental science, and physician assistant.
- Students are required to complete at least one course at the 300-level or above as part of the immersion.
The plan code for Biology: Ecology and Evolution Immersion is BIOLEE-IM.
Curriculum for 2024-2025 for Biology: Ecology and Evolution Immersion
Current Students: See Curriculum Requirements
Course | |
---|---|
Required Course | |
Choose one of the following: | |
BIOL-240 | General Ecology This course is an introduction to population, community and ecosystem ecology, stressing the dynamic interrelationships of plant and animal communities with their environments. The course includes such ecological concepts as energy flow and trophic levels in natural communities, population and community dynamics, biogeography and ecosystem ecology. (Prerequisites: (BIOL-101 and BIOL-102 and BIOL-103 and BIOL-104) or (BIOL-121 and BIOL-122) or (BIOL-123 and BIOL-124 and BIOL-125 and BIOL-126) or equivalent courses.) Lab 3, Lecture 3 (Fall). |
BIOL-265 | Evolutionary Biology This course investigates the historical framework of evolutionary biology and the meaning/nature of evidence pertinent to biological evolution. Topics will include: earth history, the evolution of proteins and the genetic code, molecular evolution, neutral theory vs. selection, genetic variation, natural selection, migration, mutation, genetic drift, fitness, population dynamics and genetics, speciation, systematics and classification systems, molecular phylogenetics, the evolution of eukaryotic organisms, behavioral evolution, historical biogeography, and human evolution and variation. (Prerequisites: (BIOL-101 and BIOL-102 and BIOL-103 and BIOL-104) or (BIOL-121 and BIOL-122) or (BIOL-123 and BIOL-124 and BIOL-125 and BIOL-126) or equivalent courses.) Lecture 3 (Fall). |
Electives | |
Choose two of the following: | |
BIOL-211 | Invertebrate Zoology A study of the biology of invertebrate animals with emphasis on phylogeny and functional morphology. (Prerequisites: (BIOL-101 and BIOL-102 and BIOL-103 and BIOL-104) or (BIOL-121 and BIOL-122) or (BIOL-123 and BIOL-124 and BIOL-125 and BIOL-126) or equivalent courses.) Lab 3, Lecture 3 (Spring). |
BIOL-212 | Vertebrate Zoology This course provides a synthesis of the ecological, behavioral, anatomical, and physiological characteristics of vertebrates in an evolutionary context. (Prerequisites: (BIOL-101 and BIOL-102 and BIOL-103 and BIOL-104) or (BIOL-121 and BIOL-122) or (BIOL-123 and BIOL-124 and BIOL-125 and BIOL-126) or equivalent courses.) Lecture 3 (Fall). |
BIOL-220 | Biology of Fungi and Insects This course provides a foundational understanding of fungal and insect biology. The first half of the semester will explore fugal cell biology, diversity, and reproduction, the role of fungi as pathogens and beneficial symbiotes, and fungal interactions with humans. The second half of the semester will explore insect morphology, physiology, reproduction, and the interaction of insects with other organisms (e.g., plants, fungi, humans, and other animals). (Prerequisites: BIOL-102 or BIOL-122 or BIOL-123 or equivalent course.) Lecture 3 (Fall). |
BIOL-240 | General Ecology This course is an introduction to population, community and ecosystem ecology, stressing the dynamic interrelationships of plant and animal communities with their environments. The course includes such ecological concepts as energy flow and trophic levels in natural communities, population and community dynamics, biogeography and ecosystem ecology. (Prerequisites: (BIOL-101 and BIOL-102 and BIOL-103 and BIOL-104) or (BIOL-121 and BIOL-122) or (BIOL-123 and BIOL-124 and BIOL-125 and BIOL-126) or equivalent courses.) Lab 3, Lecture 3 (Fall). |
BIOL-265 | Evolutionary Biology This course investigates the historical framework of evolutionary biology and the meaning/nature of evidence pertinent to biological evolution. Topics will include: earth history, the evolution of proteins and the genetic code, molecular evolution, neutral theory vs. selection, genetic variation, natural selection, migration, mutation, genetic drift, fitness, population dynamics and genetics, speciation, systematics and classification systems, molecular phylogenetics, the evolution of eukaryotic organisms, behavioral evolution, historical biogeography, and human evolution and variation. (Prerequisites: (BIOL-101 and BIOL-102 and BIOL-103 and BIOL-104) or (BIOL-121 and BIOL-122) or (BIOL-123 and BIOL-124 and BIOL-125 and BIOL-126) or equivalent courses.) Lecture 3 (Fall). |
BIOL-313 | Comparative Animal Physiology This course is a comparative study of fundamental physiological mechanisms. It covers a broad range of organisms studied from the standpoint of evolution of functional systems, the mechanisms and morphological variations that exist to deal with functional problems posed by the environment, and the special mechanisms used to cope with extreme environments. (Prerequisites: BIOL-240 or BIOL-265 or BIOL-202 or BIOL-206 or BIOG-240 or equivalent course.) Lab 3, Lecture 3 (Spring). |
BIOL-365 | Introduction to Population Genetics This course consists of a study of DNA, genes, inheritance, genetic variation, genetic architecture, and change within and among populations. Fundamental genetics topics include DNA, gene, and chromosomal structure and function along with, transmission genetics, Mendelian inheritance patterns, sex-linked inheritance, genetic linkage, and the Hardy-Weinberg Principle. Population based topics will include genetic variation, its importance, how it originates and is maintained as well as inbreeding, random mating, mutation, migration, selection, genetic drift, the effects of small population size, fitness, population subdivision, the shifting balance theory, inter-deme selection, kin selection, neutral theory, molecular evolution, molecular clocks, multi-gene families, gene conversion, artificial selection, the genetic basis of quantitative traits and the fundamental theorem of natural selection. (Prerequisites: BIOL-265 or equivalent course.) Lecture 3 (Spring). |
BIOL-575 | Conservation Biology This course focuses on the application of ecological principles to conservation issues. Human impact on species diversity is emphasized as it relates to agricultural, forest, coastal and wetland ecosystems. Case studies of management practices used to manage and restore disturbed ecosystems are included. (Prerequisites: BIOL-240 or equivalent course.) Lecture 3 (Spring). |
ENVS-305 | Urban Ecology Urban Ecology focuses first on the natural systems of urban areas and how those systems function in an undisturbed setting, with an emphasis on the types of ecosystem functions and services natural systems provide. Second, the course focuses on how humans have impacted those natural systems through urban development, and how those impacts can be mitigated or avoided by using the examples provided by nature to influence more sustainable development and maintain (or even enhance) ecological functions and services in urban landscapes. The course will examine and compare examples of several urban settings from around the world, paying particular attention to the connections between the physical, social and cultural aspects of sustainability. The course will meet during spring semester, with a required 2.5-week study tour to Malmö, Sweden after graduation in May. Students must apply through the Office of Study Abroad and an additional fee applies to the course. (Prerequisites: This class is restricted to students with at least 2nd year standing.) Lecture 2 (Spring). |
ENVS-531 | Climate Change: Science Technology & Policy This multidisciplinary course will provide students with diverse perspectives on global climate change issues, providing a survey of important aspects of the problem. Topics include atmospheric chemistry, climate modeling, ecological impacts and feedbacks, economics of climate change, international climate policies, and social and environmental justice. The course will include a variety of instructors and guest lecturers, providing an overview of the complex and inter-related nature of global climate change. (This class is restricted to undergraduate students with at least 3rd year standing.) Lecture 3 (Spring). |
MEDS-250 | Human Anatomy and Physiology I This course is an integrated approach to the structure and function of the nervous, endocrine, integumentary, muscular and skeletal systems. Laboratory exercises include histological examination, actual and simulated anatomical dissections, and physiology experiments with human subjects. (Pre-requisite: (BIOL-123 and BIOL-124 and BIOL-125 and BIOL-126) or (BIOL-123 and BIOL-124) or (BIOL-101 and BIOL-102) or (BIOL-121 and BIOL-122) or MEDG-102 or equivalent course or NUTR-BS or NUTRSC-BS students.) Lab 3, Lecture 3 (Fall). |
MEDS-251 | Human Anatomy and Physiology II This course is an integrated approach to the structure and function of the gastrointestinal, cardiovascular, immunological, respiratory, excretory, and reproductive systems with an emphasis on the maintenance of homeostasis. Laboratory exercises include histological examinations, anatomical dissections and physiological experiments using human subjects. (Pre-requisite: (BIOL-123 and BIOL-124 and BIOL-125 and BIOL-126) or (BIOL-123 and BIOL-124) or (BIOL-101 and BIOL-102) or (BIOL-121 and BIOL-122) or MEDG-102 or equivalent course or NUTR-BS or NUTRSC-BS students.) Lab 3, Lecture 3 (Spring). |