BIOL-6C: Ecology & Evolution - Summer Session
COURSE DESCRIPTION
Biology-6C is the concluding component of the three major courses for serious enthusiasts of the biological sciences to present the foundations of life's processes and the methods for scientific investigation.
We will relate the principles of organismal biology and diversity of form and function explored in BIOL-6A to discover how organisms interact with others of its species, with other species, and with their physical environment. In turn, we will investigate how these interactions determine the distribution and diversity of organisms on different spatial and temporal scales. Further, we will examine human impacts on these interactions, distributions and diversity. We will also implement the concepts of biological inheritance studied in BIOL-6B to examine how the result of these environmental interactions can result in evolution of populations and speciation.
We will explore some methodologies for environmental sampling, surveying, and monitoring, and the integration of such field studies with laboratory experimentation. You will also be introduced to most of the specific ecosystems in our region. And last, but certainly not least, you will develop your aptitude in research and scientific methodology by conducting an independent study project.
|
How to Succeed in this Course!
Catalog Information
BIOL 6C: Ecology and Evolution
6 Units
Hours: Four hours lecture, six hours laboratory [in the 12-week spring quarter. That
translates to eight hours lectures, twelve hours laboratory in the 6-week summer session.]
(120 hours total per quarter).
Degree Status: Credit course - Degree applicable
Transfer Status: CSU & UC
General Education Status: De Anza areas B & ESGC; CSU area B2; UC [IGETC] area 5-B
Grading Method: Letter Grade only
Prerequisite: Biology 6A and 6B, with a grade of C or better.
Advisory: English Writing 1A or English as a Second Language 5; Mathematics 114 or equivalent.
Description
Principles of ecology and evolution. Includes ecology of populations, communities,
ecosystems and biomes as well as evolution of populations, and the origin of species
and higher taxa. The laboratory portion of the course includes a research project
designed, researched and presented by students.
Course Justification
This course is the final course of a three-course series that is a major preparation
requirement in the discipline of Biological Sciences for CSUs and UCs. It meets the
general education requirement for CSUGE and IGETC, and it is required for completion
of De Anza's Biological Sciences AS degree. This course provides students in the biological
sciences with essential foundations in ecology and evolution.
Student Learning Outcome
Design and complete an independent ecological research project.
Course Objectives
A. Explore science as a process using ecological studies as examples.
B. Discuss the characteristics of a population and examine the interactions of members of a population.
C. Discuss the characteristics of a biological community and examine the interactions of community members.
D. Discuss the characteristics of an ecosystem and examine the interactions of living and abiotic components of an ecosystem.
E. Describe the biomes of the world and compare their characteristics.
F. Explore Conservation Biology and Restoration Ecology as fields of study dedicated to mediating some of the negative impacts humans have had on the planet.
G. Explore animal behavior and illustrate the relationship between behavior and ecology and evolution.
H. Explore the concepts of Darwinian evolution.
I. Investigate populations as the smallest units of evolution.
J. Discuss mechanisms of speciation.
K. Investigate field skills, laboratory techniques and statistical analysis as necessary components of ecological studies.
Lab Topics
A. Scientific investigation: Display of data: tables and graphs
B. The steps involved in scientific process: observation, research, formulating a hypothesis, experimental design, interpreting results and discussion and conclusions
C. Analysis of data: mean, standard deviation, variance, standard error, chi-square, t-test, correlation analysis
D. Measuring biodiversity
E. Focal animal observation
F. Estimating population size and dispersion
G. Behavioral ecology
PREREQUISITES AND ADVISORIES
BIOL-6C brings together and builds upon many of the concepts and vocabulary in general biology. Therefore you must have completed BIOL-6A and -6B or their equivalent to enroll in this class.
Ecology employs many algebraic and statistical computations and requires above average math skills. Intermediate algebra equivalent to Math-114 is strongly recommended.
Students will be expected to interpret and accurately follow written exercises and compose written reports with an expected eloquence appropriate for scientific professionals. Coherent composition, accurate vocabulary, proper grammar, and correct spelling DO count! English skills equivalent to EWRT-1A or ESL-5 are highly recommended.
Biology-6A/B/C is the three-quarter introduction to biology for college students majoring in biology or a related science. This series is acceptable for transfer to the University of California and California State University systems and most other colleges. This course is equivalent or exceeds the rigor and depth of the corresponding introductory biology courses at these universities. Since the precise sequence of presented topics differs among institutions, it is strongly recommended that you complete the whole series at one college.
Return to Top of Page
TIPS TO HELP YOU DO WELL IN THIS COURSEThis is a six unit science-major laboratory course! You must be prepared to invest a substantial allotment of time and effort to this endeavor. College standards state that a student should expect to spend two hours of preparation and homework time for each hour of lecture time. Since the course outline is for two units of lab and four units of lecture, you should be prepared to devote ten hours of synchronous lab time plus two hour of asynchronous lab time; eight hours of asynchronous lecture time plus sixteen hours of non-class time each week to succeed in this course! As a hybrid course, you must accept responsibility to arrange your time so as to keep up with all assignments with strict regard to all stated due dates! Some keys to success and satisfaction are:
|
|
Participation in this class is expected to proceed with professionalism and mutual respect. Questions and experiences you have to clarify or enlarge on the topics being discussed are welcome. Please do not be distracting to your colleagues (including me) in class. Students are expected to be familiar with the Student Conduct Code and College Policies on academic integrity and academic freedom stated in the De Anza College Catalogue. Individuals found engaging in cheating, plagiarism, or disruptive behavior will be expelled from the class, awarding a failing grade, and reported to the administration for further disciplinary sanctions. During exams, any action that even appears to possibly be cheating - exposed papers or writing, speaking or glances or gestures at another student, etc. - is sufficient to fail that exam! Any student missing more than three lab sessions for any reason will fail the class. Non-participation in lab activities, frequent late arrivals or early departures are considered equivalent to absences. Students have the responsibility to drop themselves from the class if they realize they cannot successfully complete the course. Students not dropped from the class roster through Admissions and Records by the Drop Due Date must be given a grade! — No late drops! Science majors are also expected to have read the BHES Division Student Handbook for additional advice and standards. The Handbook may be downloaded from https://www.deanza.edu/bhes/documents/StudentHandbook-2.pdf. |
|
SUPPORT SERVICESThe college has a wide range of support services to provide students with assistance. These services range from tutoring and special short courses in reading and writing skills to financial aid and special programs for educational transition, reentry, and disabled students. If you would like to see if any of these programs would be of help to you, please check with the Counseling and Advising office in the Registration and Student Services (RSS) building. Consult your class schedule for a list of telephone numbers, or go to the Student Success Center website at https://www.deanza.edu/studentsuccess/ . If you need a special accommodation for a physical or learning disability, please talk to me after the first class session so that I can make appropriate adjustments in the class to meet your needs. Visit Disability Support Programs & Services (DSPS) in Learning Center West, room 110, for testing, advice, assistance, and special programs. |
ASSIGNMENTS & GRADING
Lab & Field Exercises
Several group exercises demonstrating ecological principles and methods.
Virtual Lab Simulation Reports
SimUText/SimBio® EcoBeaker® & EvoBeaker® Virtual Lab simulations/tutorials. Two simulations are posted each week to be completed asynchronously. The completed reports are due within one week of posting.
You must submit all SimBio simulation reports on your own personal SimUText account. No group reports!
Exams
There are three exams based upon material covered in lecture and in lab. (The final exam is Exam 3. There is no separate lab exam.) These exams are non-cumulative and will be composed of multiple choice and matching questions and diagram interpretations.
-
Please note the dates of all exams. If you are sick or have an emergency, contact me BEFORE the exam and special arrangements might be made in extenuating circumstances. Vacation plans are not extenuating circumstances! If a last-minute crisis occurred, contact me before the end of the day.
Research Project
An independently conceived and conducted ecological research project implemented by a team of four students.
GRADING SUMMARY
Lab/Field/Simulation Reports & Graded Questions: Cumulative % score of all exercises & reports counts 250 points.
Exams: Three exams. Each exam counts 100 points. (3 x 100 = 300 points)
Research Project: Each student shall receive a percentage of the total score based upon their contribution and participation to all parts.
-
-
pitches & prospectus: literature search, proposed hypotheses & experimental design = 35 points
-
technique & data analysis = 50 points
-
final project presentation = 50 points
-
individual peer evaluation = 15 points
-
-
Total project score = 150 points
The final class grade will be determined as a percentage of the maximum total 700 points:
92-100% = A
89-91% = A-
86-88% = B+
80-85% = B
77-79% = B-
74-76% = C+
65-73% = C
53-64% = D
<53% = F
Return to Top of Page