Saturday, June 24, 2017
Post AP Bio Exam: Epidemiology Unit
This year, we actually finished the AP Bio content by the time of the exam. This left us 3 weeks of school after the exam, and time to put together a unit on Epidemiology. Way back when I taught AP Bio before I had children, I would read the class the book, Ebola, and then we'd watch some documentaries. This time, I decided to alternate activities with documentaries and a movie. Our schedule looked like this:
Day 1: Watch the TED-Ed Video What we know (and don't know) about Ebola and then the PBS documentary, Spillover-Zika, Ebola, & Beyond.
Day 2: Complete Virus Explorer from HHMI BioInteractive. Students could also get to it through the PBS website.
Day 3: Watch the Nova Documentary, Plague Fighters. I didn't see this available on PBS's site anymore, but got the DVD from my local library. A quick Google search brought up this movie guide that I had students work on as we watched the documentary.
Day 4: Complete Ebola Disease Detectives from HHMI BioInteractive. First we watched the introductory video, Think Like a Scientist-Natural Selection in an Outbreak. I must confess that I'm tempted to do this activity during our Evolution unit next year. Having to organize the different DNA segments by how many changes have happened led to some good discussions, since the changes didn't fall into neat little groups. Also, the video includes clips from the other documentaries we watched, so separating it from the time we watch the other videos might be helpful. By the way, I laminated the DNA sequence sheet and cut the sequences into individual strips to make it easier for the students to group them (and to help them last for another year).
Day 5: Watch Surviving Ebola from Nova. I also got this DVD out from my public library.
Day 6: Complete Disease Detectives. This came from the Life Sciences Learning Center by University of Rochester. (I just had to request membership and a link to all of the activities was sent to me.) This activity involved some reading and answering questions, but also included some hand-on components. We did find that it was easier to see the antibody-coated bead test when we dropped the samples directly onto our black lab tables. It was too hard to see if the solution became cloudy on the white paper. I should have printed the test circles on colored paper. (The instructions did warn about using white paper for this test.)
Day 7: Watch the movie, Contagion. I found a movie guide for Contagion at moviesheets.com. I made a couple of changes and put it into this google doc. The class loved the movie, although they balked at how it ended.
Day 8: Watch a movie (that was not Ebola or outbreak related). I gave the students the choice of The Martian, Jurassic Park, or Jurassic World. Jurassic World won, but we didn't see much of it, because we spent extra time talking about key concepts to review for the final exam.
We only meet 3 times a week in blocks and some of these days spilled over into the next day. This happened especially since on each day we also did a review Kahoot of a different unit and practice essays to prepare for our final exam at the end of the year.
Friday, June 9, 2017
My Favorite Fish Lab
Two years ago, I was planning to do a lab with the heart rate of Daphnia. I had the lab form all prepped for my students, but then realized that I didn't have enough time to order the Daphnia. I went to Google for some ideas and found some great experiments with goldfish (AKA feeder fish). Those I could go to Petsmart for and they only cost $0.14-$0.29. One of the labs I found was the Fish Temperature Lab from Biology Corner, and others from Laying the Foundation, Inc., and a lab by David L. Umbarger in Montezuma-Cortez High School, Cortez, CO, So, for the last two years, we've been doing a lab with goldfish (feeder fish) in both regular Biology and AP Biology that is a combination of these labs. We only have a few modifications in the lab between the two levels of classes. In this one lab, we tie in the concept of endo/exothermy, the respiratory system, and the circulatory system. Last year, we also tried a tie in with the endocrine system, although it was difficult to notice results.
We start the lab by putting a fish in a beaker and then putting the beaker in a water bath. We measure the respiration rate either by counting the opening of the fishes' mouth or the movement of the operculum. Students add warmer water to the bath and continue to measure respiration rate. After we finish with the slightly warmer temperatures, we add ice cubes to the water bath and continue to measure "breaths" as the temperature decreases.
For my regular Biology class, this provides great graphing practice as they gather and find the class average and graph the results. In AP Bio we use this as an opportunity to talk about determining Q10 for fish respirations and talking about what that means.
After giving the fish some time to reaclimate to aquarium temperature, we move onto the next part of the lab. Actually, we usually set those fish aside to allow them to reaclimate and use the fish we didn't use in part one. Each year I've done this lab, I've had to convince students that we won't kill the fish we use in part 2. For part two, we wrap the fish in aquarium water soaked cotton and look at their tails under the microscope. Students are amazed once they see the blood vessels in the fish tails with blood cells actually moving through them.
Last year, in part 2 we then added dilute adrenaline to the fishes' tails to observe the affect, but we had a hard time noticing a difference. We talked about the expected results (faster blood flow) and what the actual results should have been (slower blood flow since the tail is an extremity).
I am happy to report that both years we've done this, all of the fish have survived.
Here's the lab form that I give my AP Biology class. Here's the form I give to regular Biology. I also give them directions separately to save me some photocopies.
Labels:
AP Biology,
arteries,
biology,
blood,
blood vessels,
capillaries,
circulation,
circulatory system,
feeder fish,
fish out of water,
Living Environment,
microscopic,
respiration rate,
veins
Thursday, June 8, 2017
The Immunology Card Game for AP Biology
We do human body systems at the end of AP Biology. I like to save my favorite for last. The only drawback is that by this time of year we are starting to lose some steam. I try to teach this unit almost entirely by activity. I started searching in early Spring for ideas of what to do with immunology. I found an article in the American Biology Teacher, "The Immune System Game" from the May 2015 issue. I decided to make my own "characters" for the game just to make copies a little easier. After a test run playing the game with my husband, I decided that I also needed to rewrite the directions in an easier to follow way. There are so many steps in the process and what you do changes depending on what cell from the body you are looking at. I opened a google drawing and made a flow chart of the directions. It seemed to work well with the class.
The "bad" guys... |
We did run out of time before we got to simulate a viral infection. Next year, I'll have half of my groups "play" the bacterial infection and the other half "play" the viral infection. Then we'll have a group discussion about the differences.
The "good" guys... |
I also found in the trials that even for the primary infection, the body ended up with a lot of immune cells--so it didn't demonstrate the advantage the pathogens have the first time around (in the primary immune response). We didn't have any trials where the pathogens won over the immune system. I've changed the flow chart to reflect an increased reproductive rate for pathogens and a decrease in the reproductive rate of the macrophages.
Here are the files I made for the game:
- Key to Immune Characters
- Antibodies
- B-cells and Helper T cells
- Cytotoxic T cells
- Phagocytes
- Bacterial Pathogens
- Virus Infected Cells
- Plasma Cells and Cytokines
- Immune Game Flowchart (Bacterial)
- Immune Game Flowchart (Viral)
After the simulation, students diagram the immune response on a white board using the cards from the immune system game. They certainly understood the time difference between the primary and secondary immune responses after this game. Next year, I also want to emphasize humoral vs. cell mediated responses in their diagrams.
Update: I've worked on making this virtual and you can read about it here.
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