The coupling between atmosphere, sea ice, ocean, bowhead whales, and subsistence whaling by the Native human populations is fundamental to the physical-biological-human systems of the Northern Alaska Coast. Whale migration routes and habitat use are determined by zooplankton aggregations, which are driven by oceanographic conditions, which depend on the climatic regime. Successful hunting depends on interactions between environmental and societal factors that vary each year and are driven by forces originating outside the system. This complex suite of environment-whale-human factors comprises a system that is vulnerable both to global climate and human generated change. This proposal seeks to identify and understand the complex linkages, mechanisms, and interactions within and between the atmosphere, ocean, and human components of this system. The response and resilience of these components and the system as a whole to variable forcing by external environmental change will also be investigated. The work is highly interdisciplinary and focuses on the linked ocean-human systems of coastal Alaska, concentrating specifically near Barrow, Alaska.

Four distinct yet highly interrelated approaches to understanding the system are used: 1) Biological and physical ocean modeling to identify mechanisms of frontal and eddy formation and plankton aggregation, to describe the effects of environmental forcing from outside on the local ocean, and to understand longer term, past and future variability in outside forcing on whaling success, 2) High resolution field sampling to demonstrate presence of physical features and associated biological concentrations and to validate modeling, 3) Assessment of the resilience and vulnerability of the subsistence hunting economy and culture in Barrow, and 4) Retrospective analysis synthesizing modeled ocean and climate conditions with available information on whale location, feeding, and harvest success to asses the resilience and vulnerability of the whale-ocean-human system to environmental change.

Intrinsic Merit: On the local scale, the results of the research will provide a greater understanding of the factors influencing a natural resource, demonstrating linkages between discovery and application to policy issues of bowhead whale management. The social structure and fabric of the Inupiat communities are intimately linked to the whaling tradition and are particularly vulnerable to both environmental change and human-generated pressures. On the broader scale, the research will address how multiple physical, biological, and human factors are linked in a complex natural system that may be critically affected by environmental variability. Biogeochemical and physical manifestations of climate change in this region (e.g., ice reduction, changes in marine mammal migration and ecosystem structure) will have consequences for local human linkages to the Arctic ecosystem by influencing hunting success, ease of travel, and the relative importance of subsistence and cash economies and are representative of those of the broader Arctic with important impacts on global carbon cycling. All these topics are highly relevant to the Study of Environmental Arctic Change (SEARCH) program. This project is cutting-edge in that it assimilates research of multiple disciplines from oceanography to social science to address questions that can only successfully be answered using this multi-faceted, integrative approach.

Broader Impacts: The locally relevant science proposed for this project is of significant interest to the Barrow community and neighboring villages, to policy makers at the IWC, NOAA, and MMS, and to the broader public. The interdisciplinary collaborative partnership between academic researchers and staff at a federal agency and at a regional wildlife management agency is an investment in human and social capital that enhances the broader research infrastructure. Climate variability and its effects on access to and mobility within the Arctic Ocean have broader impacts for global and local commerce and national security. The proposed high school internship program involves the participation of native people who are often underrepresented in the fields of science and technology. Broader involvement of high school students and teachers through the ARMADA program will communicate to the scientists of the next generation understanding of field research, of the Arctic Ocean ecosystem, and of the importance of climate variability to this ecosystem.

Agency
National Science Foundation (NSF)
Institute
Division of Polar Programs (PLR)
Type
Standard Grant (Standard)
Application #
0435956
Program Officer
Neil R. Swanberg
Project Start
Project End
Budget Start
2004-09-15
Budget End
2008-08-31
Support Year
Fiscal Year
2004
Total Cost
$679,771
Indirect Cost
Name
Oregon State University
Department
Type
DUNS #
City
Corvallis
State
OR
Country
United States
Zip Code
97331