期刊
GLOBAL CHANGE BIOLOGY
卷 19, 期 7, 页码 2276-2284出版社
WILEY
DOI: 10.1111/gcb.12196
关键词
Alaska; drainage; groundwater; National Wildlife Refuge; permafrost; talik; terrestrialization; thermokarst; waterfowl; wetlands
资金
- U.S. Fish and Wildlife Service
- U.S. Geological Survey Climate Effects Network
- University of Alaska Fairbanks Graduate School
- Direct For Biological Sciences
- Division Of Environmental Biology [1026415] Funding Source: National Science Foundation
Climate-related declines in lake area have been identified across circumpolar regions and have been characterized by substantial spatial heterogeneity. An improved understanding of the mechanisms underlying lake area trends is necessary to predict where change is most likely to occur and to identify implications for high latitude reservoirs of carbon. Here, using a population of ca. 2300 lakes with statistically significant increasing and decreasing lake area trends spanning longitudinal and latitudinal gradients of ca. 1000km in Alaska, we present evidence for a mechanism of lake area decline that involves the loss of surface water to groundwater systems. We show that lakes with significant declines in lake area were more likely to be located: (1) in burned areas; (2) on coarser, well-drained soils; and (3) farther from rivers compared to lakes that were increasing. These results indicate that postfire processes such as permafrost degradation, which also results from a warming climate, may promote lake drainage, particularly in coarse-textured soils and farther from rivers where overland flooding is less likely and downslope flow paths and negative hydraulic gradients between surface water and groundwater systems are more common. Movement of surface water to groundwater systems may lead to a deepening of subsurface flow paths and longer hydraulic residence time which has been linked to increased soil respiration and CO2 release to the atmosphere. By quantifying relationships between statewide coarse resolution maps of landscape characteristics and spatially heterogeneous responses of lakes to environmental change, we provide a means to identify at-risk lakes and landscapes and plan for a changing climate.
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