Riordan, B., Verbyla, D. and A. D. McGuire. 2006.
Shrinking ponds in subarctic Alaska
based on 1950-2002 remotely sensed images
Journal of Geophysical Research. (in press)
Abstract.
Over the past 50 years, Alaska has experienced a warming climate with longer growing seasons, increased potential evapotranspiration, and permafrost warming.
Research from the Seward Peninsula and Kenai Peninsula has demonstrated a substantial
landscape-level trend in the reduction of surface water and number of closed-basin ponds.
We investigated whether this drying trend occurred at nine other regions throughout
Alaska. One study region was from the Arctic Coastal Plain where deep permafrost occurs
continuously across the landscape. The other eight study regions were from the boreal
forest regions where discontinuous permafrost occurs. Mean annual precipitation across
the study regions ranged from 100 to over 700 mm yr�1. We used remotely sensed
imagery from the 1950s to 2002 to inventory over 10,000 closed-basin ponds from at least
three periods from this time span. We found a reduction in the area and number of shallow,
closed-basin ponds for all boreal regions. In contrast, the Arctic Coastal Plain region
had negligible change in the area of closed-basin ponds. Since the 1950s, surface water
area of closed-basin ponds included in this analysis decreased by �31 to �4 percent,
and the total number of closed-basin ponds surveyed within each study region decreased
from �54 to �5 percent. There was a significant increasing trend in annual mean
temperature and potential evapotranspiration since the 1950s for all study regions. There
was no significant trend in annual precipitation during the same period. The regional trend
of shrinking ponds may be due to increased drainage as permafrost warms, or increased
evapotranspiration during a warmer and extended growing season.
Email: D.Verbyla@uaf.edu
Last updated:
September 2006