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Biometrics This project deals with development and assessment of techniques for sampling wildlife and habitats, designing ecological experiments, estimating biological and ecological parameters, testing biological and ecological hypotheses, and modeling population, community and ecosystem dynamics.
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GIS /
Remote Sensing This project serves as a focal point of capability and expertise for integrating remote sensing, satellite telemetry and GIS into the methodologies of appropriate biological research programs. In an applied context, this project collaborates with biologists in a variety of capacities ranging from research and development of new methods to assistance and training of project personnel.
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Wildlife
Veterinary Medicine The Wildlife Veterinarian provides surgical and medical services and advice to biologists, especially in the area of drug immobilization of animals and implantation of transmitters. In addition, he conducts research, serves as Controlled Substances Officer for the Center, and serves on the Institutional Animal Care and Use Committee.
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Genetics The Molecular Ecology Laboratory at the Alaska Science Center - Biological Science Office (ASC-BSO) uses mitochondrial and nuclear microsatellite DNA markers in a variety of fish, bird, mammal, and plant species. These markers are valuable tools for a better understanding of breeding and wintering population subdivision, individual behavior, gene flow, species systematics, and evolution. The Molecular Ecology Laboratory has developed a series of avian microsatellite, mitochondrial and numt-specific DNA markers, as well as protocols for non-invasive sampling of wild bird populations. Studies currently underway include population analyses of ducks, geese, shorebirds, seabirds and passerines. Current mammal projects involve characterizing genetic variation of wolf (Canis lupus), polar and brown bear (Ursus arctos and U. maritimus), Pacific walrus (Odobenus rosmarus), and sea otter (Enhydra lutris) populations in Alaska, Canada, and Russia. These population level data subsequently for the basis for more specific questions regarding evolutionary relationships among bear species, levels of inbreeding within wolf populations, genetic consequences of translocation efforts, and the sex of sea otter harvested for subsistence. The laboratory is also developing protocols for non-invasive sampling of brown bears to aid in populations surveys. The Laboratory is currently developing and using genetic techniques for characterization of wild fish populations during various stages of their life cycles. Microsatellite markers have been developed by the lab for use in questions regarding chinook, sockeye, chum, steelhead/rainbow trout and coho salmon. Other microsatellite markers, as well as growth hormone, and restriction fragment length polymorphism techniques are also being used. Genetic research supports fisheries projects characterizing the genetic makeup of fish populations within established and newly created glacial drainages and lake basins. Genetic analysis of coho salmon populations in the Glacier bay area of Southeast Alaska is being conducted to help understand 1) the degree of population differentiation 2) the process by which new populations are founded, and 3) the smallest viable population size. Glacier Bay provides an ideal experimental location because the rapid recession of the glaciers has exposed relatively new habitats for colonization. By comparing the genetic profiles of coho populations among streams of varying ages, more can be learned about the processes of colonization and what the minimum effective population size is. |
Contaminants The banking of environmental specimens under cryogenic conditions for future retrospective analysis has been recognized for many years as an important part of environmental monitoring programs. Since 1987, the Alaska Marine Mammal Tissue Archival Project (AMMTAP) has been collecting tissue samples from marine mammals for archival in the National Biomonitoring Specimen Bank (NBSB) at the National Institute of Standards and Technology (NIST) in Gaithersburg, Maryland, USA.The project is a joint effort by the U.S. Geological Survey Biological Resources Division (USGS\BRD)
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Videography Based on aerial surveys on wintering grounds, populations of Pacific black brant (Branta bernicla nigricans) have fluctuated around the minimum population level, while numbers in nesting colonies on the Yukon-Kuskokwim Delta (YKD) have declined severely during the 1980s. To meet population recovery goals it is important to monitor the reproductive status of these colonies. Annual surveys by ground crews are impractical because of the large areas involved and ocular surveys from aircraft are not possible because of high densities of nests. Photography has been widely used to estimate numbers of other species of waterfowl, but is impractical because of the large areas, poor weather conditions, and cryptic coloration of brant. However, high-quality video imagery can minimize or overcome these problems. This study assesses various photographic techniques and analytical methods for enumerating brant and evaluating habitat conditions. This technique also has application in assessing changes in land cover.
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Last Updated: Monday, February 25, 2002