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Hood College

2 ARTICLES PUBLISHED IN JoVE

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Neuroscience

Growth and Differentiation of Adult Hippocampal Arctic Ground Squirrel Neural Stem Cells
Kelly L. Drew 1, Rebecca C. McGee 2, Matthew S. Wells 3, Judith A. Kelleher-Andersson 4
1Alaska Basic Neuroscience Program, Institute of Arctic Biology, University of Alaska at Fairbanks, 2Department Biochemistry, Hood College, 3Department of Cell Biology, Neuronascent, Inc., 4Research and Development, Neuronascent, Inc.

Neural stem cells were prepared from the hippocampus of adult non-hibernating yearling Arctic ground squirrels (AGS). These neural stem cells can be expanded through numerous passages, differentiated and maintained as a nearly 50:50 neuron to glial culture.

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Environment

A Video Surveillance System to Monitor Breeding Colonies of Common Terns (Sterna Hirundo)
Jennifer Lynn Wall *1, Paul R. Marbán *2, David F. Brinker 3, Jeffery D. Sullivan 4, Mia Zimnik 5, Jennifer L. Murrow 6, Peter C. McGowan 7, Carl R. Callahan 7, Diann J. Prosser 8
1Chesapeake Conservation Corps, Chesapeake Bay Trust, 2Department of Marine, Estuarine, and Environmental Science, University of Maryland, 3Natural Heritage Program, Maryland Department of Natural Resources, 4Natural Systems Analyst, 5Department of Biology, Hood College, 6Department of Environmental Science and Technology, University of Maryland, 7U.S. Fish and Wildlife Service Chesapeake Bay Field Office, 8U.S. Geological Survey Patuxent Wildlife Research Center

This paper describes a protocol that uses a remote video monitoring surveillance system to continuously monitor breeding colonies of ground-nesting waterbirds. The system includes five cameras monitoring individual nests and one camera monitoring the colony as a whole, and is powered by car batteries that are recharged via solar panels.

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