Microbial Markets (Strous Lab) Research
The Microbial Markets Lab is part of the and located in the . Currently, students and scholars develop new biotechnology from alkaline soda lake microbiomes and grow enigmatic microbes from Alberta groundwater using geo-pops.
Rapid progress in DNA sequencing and other high throughput technologies have driven rapid progress in microbial ecology. Unfortunately, we lack theory to make sense of all the amassed data. The Microbial Markets lab draws inspiration from the field of Economy to develop new ecological theory and test hypotheses with creative market experiments. It also draws inspiration from the kitchen to develop new media for growing microbes more inclusively.
If you would like to know more about working in the Strous Lab, check out 1. our code, 2. our expectations, 3. the 500 questions for Candidacy and 4. our recruitment and selection procedures.
Alkaline Soda Lakes, Bioenergy and Alkaline Biotechnology
The Canadian Rockies feature a rich diversity of alkaline soda lakes. Some of these lakes contain prolific microbial mats mainly consisting of large, filamentous cyanobacteria. Our team enriched a community consisting of such a cyanobacterium and its associated heterotrophs. This community has potential for biotechnology, both for bioenergy production and production of phycocyanin, a natural blue pigment for food and beverage. The research is in part performed at field scale in our outdoor raceway pond. It also features fieldwork to learn more about the natural environment of the associated microorganisms. A spin off company was established, check out. This project uses a combination of field work (sampling soda lakes), laboratory cultivation, outdoors experiments, nanopore sequencing and cloud computation.
Team , , , Stan Pankratz, , , , , , and, previously, Maryam Ataeian, William Richardson, Christine Sharp.
Geo-pops (Lab Cultivation of Enigmatic Microbes from Groundwater)
Together with Alberta Environments and Parks, our group surveys groundwater samples for interesting microbes. Groundwater contains a large diversity of Bacteria, Archaea and Eukaryotes, that have never been grown in labs and that are evolutionary unrelated to anything we really know. In this research, we survey microbial biodiversity in groundwater from across the Province of Alberta. We then engineer microcosms, 鈥淕eo-pops鈥, and offer them to interesting groundwater microbiomes for growth, enabling new microbes to grow in new and original ways. Microbes can grow all by themselves or depend on pthers as predators or symbionts. This project uses a combination of field work (sampling groundwater), laboratory growing, nanopore sequencing and cloud computation.
Team , , and, previously, Bella Hrabe de Angelis, Kay Kuloyo, Emil Ruff
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Optimizing biomass production in an outdoors raceway pond
Angelica Markosky
Department of Biological Sciences
Supervised by Marianne Haines, Dr. Will Richardson
2021
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Development of Flexible Photobioreactors
Jeremy Ohlhauser
Schulich School of Engineeering
Supervised by Dr. Will Richardson
2019-2020
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Rheology of Mixtures of Algae and Media
Beth Mentie
Schulich School of Engineeering
Supervised by Dr. Will Richardson
2019
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Freezing Tolerance of Cyanobacteria used in Bioenergy
Sim Lakhyan
Department of Biological Sciences
Supervised by William Richardson
2018
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