Last time on this blog, I spoke primarily about my undergraduate research here in Bodega. Now I now look to discuss the research I have been working on to assist Dr. Kate Davis. Her interests lie in paleobiology, the study of the past through fossils, with a focus on microorganisms.
This time around, the organisms of interest are foraminifera. Foraminifera, or forams, are microorganisms composed of cytoplasm enveloped in a shell. Because of their sensitivity to their surrounding environmental conditions, forams are often the subject of paleooceanographic studies (understanding past marine environments). In this research, we are hoping to be able to better understand the origins of the chemical composition of foraminifera shells in relation to environmental conditions.
Foraminifera: exhibiting a red-brown color and an empty final chamber (Credit: Catherine Davis)
The study began with obtaining a large number of forams. To accomplish this, plankton tows were taken both in and around Bodega Bay waters. A plankton tow is a method of capturing plankton, forams, and other microorganisms. When the tows returned to us in the lab, we began searching! The process consisted of swirling the whole sample in a large bowl to get the denser materials, like forams, to fall into the center; a small sample was then taken from the center and put in a sample dish under a microscope; forams that were found in the sample were transferred into a separate water dish. Each individual foram - the size of a sand grain - was then transferred into their own water filled bottles and then maintained at a constant temperature.
We then made observations of the foraminifera in the bottles - things like color, rhizopodia density, number of adult chambers, the fullness of the final chamber, and length of the short and long sides of the shell. Rhizopodia are the extension of the foram’s cytoplasm outside of its shell. Good health was primarily determined by the foram having a pink or red-brown color and a high rhizopodia density. Observations and photographs were taken daily to record progress (see a cool video here).
Check out part II of my story to hear more about this experiment!
~Adam Rueckert is a recent graduate of UC Davis, with a B.S. in Marine & Coastal Science.
For more information, check out previous posts by Hill lab students:
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September 2021
- Sep 16, 2021 Exploring Changes in California Mussels
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November 2020
- Nov 2, 2020 Welcome to the Student Research Blog!
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March 2019
- Mar 23, 2019 Kimberly: Following a path to science
- Mar 23, 2019 Katherine: Caught in a rip current of research
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October 2018
- Oct 5, 2018 Sawyer: The problem of hypoxia
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December 2017
- Dec 18, 2017 Ocean Optimism: People Who Bring Us Hope
- Dec 15, 2017 Ocean Optimism: Special Ocean Habitats, and Our Pledges...
- Dec 15, 2017 Ocean Optimism: Hope for Coral Reefs
- Dec 12, 2017 Ocean Optimism: Endangered Species Making A Comeback
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November 2017
- Nov 29, 2017 Ocean Optimism: Marine Protected Areas Lead the Way
- Nov 25, 2017 Ocean Optimism: Leadership from communities, states, and countries
- Nov 16, 2017 Ocean Optimism: Raising Awareness
- Nov 6, 2017 Ocean Optimism: The Problem of Plastic Pollution in the Ocean
- October 2017
- July 2017
- May 2017
- April 2017
- December 2016
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October 2016
- Oct 15, 2016 Priya: Happy 50th Birthday to Bodega Marine Lab!
- Oct 9, 2016 Wendy: Mussel-ling My Way into Marine Biology
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September 2016
- Sep 18, 2016 Walker: Reflections on a summer of research
- Sep 12, 2016 Grace: Exploring research in marine science
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August 2016
- Aug 23, 2016 Laura: A future teacher experiences marine research
- Aug 13, 2016 Amanda: Testing the waters in ocean chemistry
- Aug 1, 2016 Grace: Carrying on a tradition of environmental stewardship
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July 2016
- Jul 21, 2016 Walker: Seagrass, sediments, and a future in marine science
- Jul 19, 2016 Welcome to the student research blog!