User:Kenia Fernandez-Ortiz/Notebook/Biology 210 at AU

2/9/2014 Lab 2: Identifying Algae and Protists

Objective- Our objectives for this lab were to analyze, study, and understand the characteristics of Protists and Algae and to understand how to use that dichotomus key. We also observed our hay infusion cultures and prepared serial dilutions. I believe that in the hay infusions we will find a lot of organisms that couldn’t be seen with the naked eye. This experiment will help us see if there are any organisms because the contents we collected in the jar act as a mini “ecosystem”. The serial dilutions will help us further examine the types of organisms in the jar.

Materials and Methods- 1) First, we observed known organisms under the microscope and tried characterizing them using the dichotomus key. We did this twice for practice. 2) Next, we carefully examined our hay infusions for any changes in the ecosystem. We took samples form the surface of the water (where plants were floating) and from the bottom of the jar because those are two different niches where organisms can live on. 3) Then, we drew and measured how the organisms looked like and tried characterizing them with the dichotomus key given. 4) Then, we prepared serial dilutions for next week’s lab by taking 4 test tubes and filling them with 10 mls of water, mixing the contents in the jar, piping out 100 microliters, and putting it into the first test tube which we labeled 2 for dilution 10^-2. Then we took 100 microliters from tube 2 and put it into tube 3 and labeled it 10^-3. This step was repeated two more times. 5) Lastly, we took 100 microliters from tube 2 and put it on a nutrient agar plate which we labeled 10^-3. This step was repeated three more times. One with tetracycline, one with test tube 4 and 6. Observations and data- The top of our culture looks moldy and murky and it smells horrible. Most of the contents are at the bottom of the jar. There is also like a clear film thing on the surface that looks like the top of oatmeal after it cools off. Organisms at the bottom of the jar might not need more oxygen then the ones at the bottom. In the picture you see that the first three organisms were taken from the surface of the jar. The last three were taken from the bottom of the jar. The first organism under “Surface” was taken from the clear filmy substance.

http://openwetware.org/wiki/Image:Lab_2d.jpg

All of the organisms were mobile. Some more than others, for example the paramecium buraria was very mobile, but the actinosphaerium only rotated very slowly in the same place. The arcela moved more like a pseudopod and the bottom two were very mobile. The blepharisma moved slower. The paramecium bursaria meets all the need of life because the reproduce (asexually), and they have DNA, and they eat food to survive. If the hay infusion culture had been observed for another two months I think that the organisms would have died out because there wasn’t a lot of movement in the jar. Most of the dirt and plants were at the bottom. The selective pressures that may have affected our samples was the fact that the jar was clothes, this didn’t let enough oxygen get in.

This is a picture of the serial dilutions we did Basically we took 100 microliters from one test tube and put it into the other ( we repeated this three more times). These dilutions helped us see organisms better; since it is hard to see what’s going on the water is too convoluted.

http://openwetware.org/wiki/Image:Lab_2_dd.jpg

Conclusion- Ultimately, we saw that a lot of organisms were living in our culture. I think that we will get a better idea of what kind of organisms are in the jar when we observe the serial dilutions. I would like to have a better understanding of what selective pressures could kill or affect the life of the organisms.

Kenia Michelle Fernandez-Ortiz

2/6/14, lab 1 notes

Great job! Start working on building a map of your transect to detail your land and where your samples are taken from. We will talk about this more Wednesday

AP

1/15/2014 Lab 1: Niches at AU

Objective- The objective of this lab was to see how biotic and abiotic factors of a niche effect natural selection. The purpose of this lab is to see how organisms can evolve over time. Before looking at our transects we observed three different types of algae that illustrate the Volvocine Line, which will help us later on when we study the organisms in our 20 by 20 foot transects. My hypothesis is that

Materials and Methods- 1. Before going to our transects, we observed three types of algae (Volvox, Chlamydomonas, and Gonium) under the microscope. While observing we noted the number of cells in our field of view, the size of the colony, and any reproductive or functional specialization of cells.

http://openwetware.org/images/thumb/c/c0/Lab_1.jpg/800px-Lab_1.jpg

2. After this we went to go observe our transect. It is located right before the amphitheater and near the Bender Arena. It is surrounded by vegetation and there are benches for people to sit. We observed biotic and abiotic factors on our transect.

3. Next, before going back to the lab we took some vegetation from our transect in a sterile 50ml conical tube so that we could do a hay infusion.

4. In order to do the hay infusion, we added 500ml of water, 0.1 gram of powdered milk, and the contents of our conical (which included wet soil, mulch, dead leaves and tan colored twig looking leaves) tube to a beaker. After this we transported the contents into a jar.

5. Next, we let it sit until the next lab.

Observations and Data- Biotic factors we observed were one bird, plants, and shrubs. Most of the tall plants where planted more towards the middle of the transect and surrounding it where purplish colored shrubs. Abiotic factors we observed were wet mulch, soil, sunlight, cigarette buts, rocks, a sprinkler, a coca cola paper cup, and two lampposts. It was also very chilly outside and it is not very busy with people walking. Most of the dead leaves were found on the wet mulch under the shrubs, very little were on top of the shrubs.

Conclusion- Ultimately, today’s lab will help us study microorganisms living in our transect. I believe that we will find some bacterial organisms living in our transect next lab. In the future it may be interesting to take a sample of soil deeper in the ground. There may be more organisms living deeper in the soil to observe.

Kenia Michelle Fernandez-Ortiz