User:Meredith Gleason/Notebook/Lab 2: Protist Lab (7/3/14)/Entry Base

From OpenWetWare
Jump to: navigation, search
Owwnotebook icon.png Project name Report.pngMain project page

Lab 2: Identifying Algae and Protists


Objective: The objective of this laboratory investigation was to practice using the dichotomous key of possible protists to identify protists in a sample from the Hay Infusion Culture (produced in the previous lab on 7/1/14).

Methods: After practicing protist-identification with a pre-made mixture of protists provided in laboratory, 2 samples of water from the Hay Infusion Culture of Transect 2 were mounted on 2 separate slides for observation. It is important to note here the rather pungent odor of the Hay Infusion Culture, which smelled strongly of fecal matter and mold - common to stagnant bodies of water. There was no visible mold floating in the system, but a moldy scent was present before it was disturbed by a pipette to make the slides. The first sample was taken from the water near the top of the culture and the second sample was taken from water near the bottom of the culture. Using a dichotomous key of possible common protists that could be found in the mixture, 3 different varieties were identified and drawn for record.

Results & Conclusions: In the water sample taken from the bottom of the Hay Infusion Culture, no protists were found to be identified under the microscope using the dichotomous key. However, 3 distinct protists were easily identified using the dichotomous key in the sample from the top of the Hay Infusion Culture. In the top "layer" of this culture, there was some plant material floating and gathered at the top. The 3 protists found there - Didinium, Paramecium, and Volovox - it is interesting to note that the Volovox does photosynthesize, which is confirmed by the presence of chloroplasts and a green coloring to the colonies found in the water sample. The presence of Volovox near the surface of the Hay Infusion water is expected, as it uses photosynthesis for energy and, thus, requires access to sunlight and oxygen at the top of the water. The presence of Didinium and Paramecium is particularly interesting as these often exhibit a predator-prey relationship, where Didinium is the predator and Paramecium is the prey. Finding them in the same sample is logical, as Didinium cannot exist without an energy source and Paramecium is one of the most common protists found in stagnant, fresh water. The Volovox colony found measured ~ 400 µm in size. 2 Didinium were found, one ~80 µm in size and the other slightly larger at ~120 µm in size. Several paramecium were identified at a size of ~ 200 µm each, suggesting either Paramecium multimicronucleatum or Paramecium caudatum (from the dichotomous key).

Representation illustrations of each protist are included below:

1. Didinium MG Lab 2 Didinium.JPG

2. Paramecium MG Lab 2 Paramecium.JPG

3. Volovox colony MG Lab 2 Volovox.JPG

After identification of the protists, samples of the Hay Infusion Culture were created to plate serial dilutions. 4 sterile tubes with 10 mLs of sterile broth, each, were labeled with serial dilution factors, 10^-2, 10^-4, 10^-6, and 10^-8, respectively. To begin the serial dilution, 100 µL of Hay Infusion liquid was added to the 10^-2 sterile broth, capped, and swirled. Then, 100 µL of the 10^-2 solution was removed and added to the 10^-4 sterile broth, capped, and swirled for mixing. Then the process was repeated to create the 10^-6 and 10^-8 solutions, created from the previous larger magnitude in the series. Once all 4 serial dilutions were made, 100 µL of each was plated on labeled agar plates: 10^-3, 10^-3 T, 10^-5, 10^-5 T, 10^-7, 10^-7 T, 10^-9, 10^-T, where "T" denotes an agar solution with tetracycline antibiotic present to test for possible antibiotic resistance in future study. The 8 serial dilution plates were then placed agar-side-down in a plate rack in the biology lab with access to sunlight (near a clear window).

Predictions: Thinking about the Didinium present, the idea of the predator-prey relationship is once again notable for the ways in which this species meets its needs of life. It has an energy source (phagocytosis of the much larger Paramecium). It is able to move about its surroundings via cilia - which produced a spiral motion as observed under the microscope. As a protist, this organism can reproduce either sexually or asexually and this leads to increased survival in the environment as it does not require other Didinium present to increase in population. If the Hay Infusion were to go on for another 2 months, I predict that the Didinium species would still be in existence, so long as there was a food source for the Paramecium upon which the Didinium preys. Allowed to sit stagnant in an open container of water with other organisms and exchanges of energy (notably, photosynthesis) occurring around, there is a high possibility that the populations of these 3 protists would no only survive, but have increased in population size (though not exponentially). So long as there are resources for life, these protists can continue to live in the Hay Infusion Culture for another 2 months.