Table of Contents
I Introduction.- 1 Ecosystem Response, Resistance, Resilience, and Recovery in Arctic Landscapes: Introduction.- 2 Integrated Ecosystem Research in Northern Alaska, 1947–1994.- 3 Disturbance and Recovery of Arctic Alaskan Vegetation.- 4 Terrain and Vegetation of the Imnavait Creek Watershed.- 5 Vegetation Structure and Aboveground Carbon and Nutrient Pools in the Imnavait Creek Watershed.- II Physical Environment, Hydrology, and Transport.- 6 Energy Balance and Hydrological Processes in an Arctic Watershed.- 7 Shortwave Reflectance Properties of Arctic Tundra Landscapes.- 8 Isotopic Tracers for Investigating Hydrological Processes.- III Nutrient and Carbon Fluxes.- 9 Surface Water Chemistry and Hydrology of a Small Arctic Drainage Basin.- 10 Nutrient Availability and Uptake by Tundra Plants.- 11 Landscape Patterns of Carbon Dioxide Exchange in Tundra Ecosytems.- 12 Control of Tundra Methane Emission by Microbial Oxidation.- 13 Dynamics of Dissolved and Particulate Carbon in an Arctic Stream.- IV Modeling Landscape Function.- 14. Patch and Landscape Models of Arctic Tundra: Potentials and Limitations.- 15 Modeling Dry Deposition of Dust Along the Dalton Highway.- 16 Modeling Decomposition in Arctic Ecosystems.- 17 Hydrological Controls on Ecosystem Gas Exchange in an Arctic Landscape.- 18 Road-Related Disturbances in an Arctic Watershed: Analyses by a Spatially Explicit Model of Vegetation and Ecosystem Processes.- V Summary.- 19 Ecosystem Response, Resistance, Resilience, and Recovery in Arctic Landscapes: Progress and Prospects.