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Bi 103: General Biology III: Populations
Information Sheet and Syllabus
Last revision: 3/27/97
Personnel:
phone e-mail address office hours
Dan Udovic 346-5092 udovic@oregon 335 Pacific MF 11
Jill Fuglister 346-5003 fuges@darkwing 6 Pacific M 8:30; U 8
Justin Hicks 346-4697 justin@darkwing 394 Onyx H 10
Christy Quebodeaux 346-4538 cheidel@gladstone 360 Onyx U 10
Kristina Vartanian krisv@gladstone 25 Klamath W 2
Paul Schroder 341-4507 ambiente@gladstone 25 Klamath U 3
The very best way to get in touch with us is via e-mail.
You can expect a prompt (though not immediate) response to questions
or comments sent via e-mail. Though some of you may feel it is
a bit ìimpersonalî, e-mail increases your access
to us dramatically, and you should take advantage of it.
Web Site -- http://biology.uoregon.edu/Biology_WWW/online_classes/bi103s97
Course Overview:
In this course, we will explore the sciences of ecology and evolution
and their implications for humanity. We will study the diverse
ways in which scientists approach the study of our natural and
explore how to use scientific information in decision-making.
Biology 103 has two parts: (1) the large-class ìlectureî
section, and (2) smaller laboratory sections which will involve
guided and self-designed investigations, demonstrations and group
projects.
Class Goals
Here are the major learning objectives we want you to achieve
by the end of the course:
ï Gain some basic knowledge about the fundamental concepts
of ecology and evolution that will help you better understand
Earthís biological history, how our planet functions and
how human actions are influencing the planet
ï Gain an understanding of how the sciences of ecology and
evolution work and what their limits are. In particular, we hope
you will learn that science is not a body of facts, but a way
of knowing, a way to learn about the world we live in.
ï Recognize the importance of biological and scientific
literacy in our daily lives
ï Improve skills at obtaining, understanding and judging
the quality of information
ï Improve ability to organize and communicate your ideas
Class Activities and Resources
Class meetings and participation. Class meetings
serve several important functions that cannot be duplicated by
doing the reading on your own, by talking to someone who attended
class, or by reading footnotes. It is very important to your learning
(and to your grade) that you attend class regularly. I will
assume that everyone is doing the reading and the homework; I
do not plan to lecture from the readings. Instead, we will focus
on putting your readings into context, we will explore some ideas
that are difficult to understand by reading alone, we will introduce
and reflect on laboratory activities, and we will use class time
for special kinds of presentations and activities (video segments,
group activities, etc.).
The first few minutes of class often will be devoted to review
of previous classes and overview of the upcoming meeting. This
is an important part of the class meeting (material directly relevant
to exams is often reviewed); try not to be late to class, but
if you are, please come in and sit down quietly so as not to disturb
others.
I believe that we learn best when we actively construct our knowledge
rather than when we passively absorb knowledge. It is a challenge
for all of us to accomplish this within the context of a large
classroom, where the environment is conducive to passive, not
active learning. In this setting, it is easy for teachers to rely
on lecturing as a seemingly efficient mode of knowledge ìtransmissionî
and on objective exams as the easiest way to assess student learning.
Similarly, it is easy for students to remain anonymous, to hide
in the crowd, and to simply try to ìget byî. This
is particularly true in a ìgeneral educationî course.
To meet the challenge of active learning we must all agree to
make the extra effort to overcome the inertia of the large classroom.
For the instructors, this means making the commitment to providing
opportunities for active learning, and for spending time reading
and commenting on student work. For students, this means taking
more responsibility for your own learning, becoming a proactive
rather than reactive learner, coming to class prepared to participate,
and resisting the temptation to ìtune outî during
classroom activities.
We will provide a number of opportunities for you to get actively
involved in learning. Examples include group projects, group activities
in the classroom, and the use of educational technology.
Laboratories. We consider the labs to be
the central focus of the course, not just an add-on to lecture.
We have tried to design active learning experiences that will
broaden your understanding of what the science of biology is all
about. To the greatest extent possible, you will be working in
groups posing your own questions, designing experiments or observations
to help find answers, and presenting your findings in written
and/or oral form.
The activities that we will do in the lab will fall into one or
more of the following themes: (1) Biodiversity, (2) Population
Growth and Interactions, and (3) Environmental Decision-Making.
In addition you will work with several members of your lab section
on a term project of your own choosing, which will be presented
in a poster session during the last week of class.
Reading. The primary readings for the course will
be from Postlethwait and Hopsonís The Nature of Life
and from E. O. Wilsonís The Diversity of Life. Both
are available at the UO Bookstore. In addition, there will be
a small packet of readings from science magazines and journals
that will be assigned in conjunction with particular lab activities.
Your reading will be one of the most important ways for you to
learn the important concepts in the course and to see how the
course material relates to environmental and other pertinent issues.
The study guide at the back of Wilsonís book is a superb
resource to help you organize the material. Answering the questions
for each chapter is a great way to insure that you understand
the material. In addition to assigned readings, you will be gathering
and reading other materials for your project.
Materials on Reserve. Copies of the texts will be
on reserve in the Science Library. There are also some other interesting
books and articles on reserve relating to the project and to the
course in general.
The Class Web Page. The World Wide Web offers some
great resources for learning introductory biology. We will be
placing a variety of important and useful materials on our class
home page, including information and announcements about the course
(including the schedule, assignments and grades), about the teaching
staff, about students, about campus resources, and about ecology
and evolution. You will find material for each lecture (brief
outlines of lecture notes, pictures and graphs, and links to many
other relevant web sites). As the term proceeds, we will develop
a collection of ìcase studiesî referred to in lecture
and lab. Several other study aids will be available on the web.
Finally, for those of you interested in creating web pages for
presenting your projects, there will be an easy-to-follow web
form to automate the process.
Other Students. You are valuable resources for each
other. We encourage you to form study groups, to peer review each
otherís writing, to listen attentively to what your classmates
say in class discussions, to share ideas via e-mail, and to learn
from the diversity of group projects presented at the end of the
term.
Footnotes. It is possible that Student Services
will offer footnotes for this class. They may be a valuable supplement
to your class notes, but they cannot replace attendance and participation
in class. You may find footnotes redundant, given the information
available on the class web page.
Evaluation and Grading
Except in unusual circumstances, everyone will be graded according
to the following plan. If you feel that you could benefit by
altering the course requirements or weighting the components differently,
you should talk to me about this by April 10. If you want
to alter these requirements, you will need to write a proposal,
similar to the one that follows, and include a justification for
the way in which you want to be evaluated. If we both agree on
an alteration, you will use your proposal to write a contract
explaining exactly how your course grade will be determined.
Changes in the nature of grading after this point in the course
will not be considered.
Final grades will be a composite of lecture and laboratory scores.
You must pass both the lecture and laboratory in order to receive
a passing grade in this course.
Your scores will be kept recorded and will be available through
our class web site (using the last four or five digits of your
student ID). The will also be displayed in the glass case next
to the elevator on the 3rd floor of Pacific Hall (around the corner
from my office, 335 Pacific). You should check these periodically
to make sure that we have not made a mistake in entering your
scores. If you think that you deserve a different mark on a writing
assignment or on an exam question, give the appropriate instructor
a brief written explanation of the situation. Addition errors
and the like will be corrected at any time, but if you think one
of your answers deserved more points than it was awarded, you
must let us know in writing within one week of the return of your
assignment or exam. Keep all of your work (exams, homework, essays,
etc.)! Because it is important that you not lose any assignments,
we suggest you keep an extra copy (photocopy, or computer file)
of any writing that you do. This will also make it easier for
you to redo any written assignments, if you so desire.
Lecture
Exams (175 points) and Quizzes (30 points). There
will be two midterm exam, a comprehensive final exam, and two
pop quizzes. Each midterm exam will be worth 50 points; the final
is worth 75 points. Each quiz will be worth 15 points. Exams and
quizzes will cover material from lecture and lab, as well as the
assigned reading. Exams will be a mixture of multiple choice,
short answer and essay.
Make-Up Policy. In order to make up an exam, you
must be involved in a recognized University activity or have a
verifiable medical or family excuse. You should notify us in advance
if at all possible.
Discussion Questions (20 points). Your will work
with members of your lab group to periodically answer discussion
questions. These questions are designed to stimulate critical
thought and to prepare you for exams. Responses should be short
(< 100 words).
The goal behind the discussion questions is to get you to discuss
them (either in person or via e-mail) and come up with a group
response. Group members will take turns writing the answers to
the questions after conferring with the entire group. You will
have the opportunity to answer 5 questions. The four best grades
will be counted. Your answers will be graded as follows:
| 0 points | no response |
| 1 point | deficient in at least one important aspect
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| 3 points | average understanding
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| 5 points | superior synthesis
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Personal Essay (50 points). In this essay please
review the learning objectives listed on page two of the syllabus.
In your essay, describe your progress towards meeting each of
these objectives this quarter. Treat each objective separately.
The essay should be about 2 pages in length and should meet the
formatting guidelines for written assignments described in the
next section.
Participation (25 points). Occasionally, we will
ask you to turn in assignments from classroom activities. Their
primary purpose will be to help the teaching staff assess how
things are going in the course. For example, near the end of class
we might ask you to write a one-minute essay describing what you
thought was the most important or difficult concept discussed
in that class period.
Laboratory
Laboratory Write-Ups (3 write-ups for 20 points each).
There will be a lab write-up do for each of the three main laboratory
modules. These will be submitted as a group, with a different
person taking prime responsibility for each write-up.
Term project (100 points). Working in groups, you
will do a class project culminating in a poster session the last
week of classes. The projects must fit within one of the following
three categories:
_ Issues Projects. These will focus
on a controversial scientific issue or a social/political issue
pertaining to ecology and/or evolution.
_ Ecological Investigations. These
projects will focus on doing experiments or making observations
to help answer ecological or evolutionary questions.
_ Photo-essays of Ecosystems. These
projects will focus on an ecosystem of your choice and attempt
to capture on film the ecological and evolutionary concepts presented
in class and in your readings.
Details on the project will be described in another handout.
Participation (40 points). Each week there are
4 points available for coming to lab prepared and organized to
work. Read labs before arriving! You will receive either 4 points
or 0 points for each lab. If you are not in lab, you receive 0
points.
Format for ALL Written Assignments
All written assignments submitted for a grade must be word
processed or typed. Naturally we expect work of high professional
quality that has been carefully edited for spelling and grammatical
errors prior to submission. Use at least one inch margins on
all sides, and do not use any kind of folder or binder or
title page. Make sure your name, lab time, Course Number
and date are in the upper left hand corner. Staple
your work BEFORE turning it in. For all group assignments,
list the group members and the project title.
Determining your course grade.
The following grading scheme will help you chart your progress
during the quarter. Use the grade sheet at the end of the syllabus
to keep track of your own scores. You may check your scores from
the class web page at any time during the term.
Your final grade will be based on a total of 500 points, 300 from
lecture and 200 from lab. Remember, you must pass both the lecture
(>180 points) and lab (>140 points) to pass the course.
| Grade
| Percentage
| Total Points
|
A |
90% or better
|
450-500 |
| B | 80% - 89%
| 400-449 |
| C | 70% - 79%
| 350-399 |
| D | 60% - 69%
| 300-349 |
| F | less than 60%
| 0-299 |
Classroom Conduct
This syllabus is, in effect, a contract between students and instructors
about how each of us will carry out our duties this quarter.
You should read this carefully at several times during the quarter.
If you are uncomfortable with, or if you don't understand parts
of this syllabus, you should talk to me or one of the teaching
assistants about it as soon as possible.
There are some university guidelines for behavior that I expect
all of us to abide by as well. One of these has to do with plagiarism,
or taking credit for the work of others. This is a serious offense
and will be treated according to the guidelines in the Spring-term
schedule of classes (pp 113-114). Don't do it! This doesn't
mean you shouldn't talk with other students about what you are
thinking or writing; it does mean that when you write something,
it should be in your own words, not copied from someone else.
You write is to exercise you brain, not your wrists.
I also ask that we all do our best to be intellectually honest,
while also being tolerant of personal differences. Everyone in
the class should feel safe to express an idea, even if that idea
is not a popular one. I welcome and encourage intellectual controversy--it
is how we learn best, I believe. I demand, however, that we respect
one another's right to believe differently, even as we challenge
the ideas supporting those beliefs. I promise to value each of
you as individuals independently of how well you do on exams or
homework in this class.
We all have crises now and then. If you are having problems that
are interfering with your ability to do the work in this class,
please tell us about it as soon as you can. We are willing to
give incompletes or to make some kinds of special arrangements
when the need is real and when you have done your best
to deal with the situation and have let me know about it in a
timely manner.
Bi 103 Personal Grade Sheet
Lecture
| Exam/Quiz/
Assignment
| Date
| Possible
Points
| Score
|
Midterm 1 |
H 4/24
|
50 |
_____________
|
| Midterm 2 | H 5/22
| 50 | _____________
|
| Final | W 6/11 15:15
| 75 | _____________
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| Pop Quiz 1 | TBA
| 15 | _____________
|
| Pop Quiz 2 | TBA
| 15 | _____________
|
| | |
|
| Discussion Questions | |
| |
| Q1 | TBA
| 5 | _____________
|
| Q2 | TBA
| 5 | _____________
|
| Q3 | TBA
| 5 | _____________
|
| Q4 | TBA
| 5 | _____________
|
| Personal Essay | H 6/5
| 50 | _____________
|
| Participation | | 25
| _____________ |
| Total Possible from Lecture |
| 300 | ___________
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Lab
| Assignment | Date
| Possible
Points
| Score
|
Lab Write-Ups | |
|
_____________
|
| 1 Diversity | W 4/23
| 20 | _____________
|
| 2 Spread of Disease | W 5/14
| 20 | _____________
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| 3 Fishing Simulation | W 6/4
| 20 | _____________
|
| Group Project | |
| |
| Proposal | W 4/16
| 20 | _____________
|
| Progress Report | W 5/21
| 20 | _____________
|
| Poster/Web Page | W 6/4
| 50 | _____________
|
| Group Analysis | W 6/4
| 10 | _____________
|
| Participation | | 40
| _____________ |
| Total Possible from Lab |
| 200 | ___________
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Packet Articles
Bi 103. General Biology III. Spring 1997
1. Bright, Christopher. 1995. Bio-Invasions: the spread of non-native
species. World Watch 8 (4): 10-19.
2. Nixon, Will. 1994. Crowded out. In These Times, September
5, pp 23-25.
3. Bender, William and Margaret Smith. 1997 Feeding the future.
Population Today 25 (3; March): 4-5.
4. Platt, Anne. 1995. The resurgence of infectious diseases. World
Watch. 8 (4): 26-32.
5. Hardin, Garrett, 1968. The tragedy of the commons. Science
162: 1243-1248.
6. Eisner, T. et. al. 1995. Building a scientifically sound policy
for protecting endangered species. Science 268: 1231-1232.
7. Nicol, S. and W. de la Mare 1993. Ecosystem management and
the Antarctic krill. American Scientist 81: 36-48.
8. Christensen, N.L., et al. 1996. The Report of the Ecological
Society of America Committee on the Scientific Basis for Ecosystem
Management. Ecological Applications 6(3):665-691. On the WWW,
not included in packet. (http://www.sdsc.edu/ESA/ecmpage.htm)
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