SPATIAL ANALYSIS OF SOIL ORGANIC CARBON ALONG THE COASTLINE OF NORTHERN ALASKA

Abstract

          Coastal erosion plays an important role in the terrestrial-marine-atmosphere carbon cycle. A total of 268 soil samples, from 48 sites along over 1800-km of coastline in northern Alaska, were collected during the summers of 2005 and 2006.  A geographic information system (GIS) and a geostatistical method (ordinary kriging) were coupled to investigate the spatial variation of soil organic carbon (SOC) along the coastline. SOC had a large variation ranging from 0.8 in the river delta to 187.4 kg C m^-2 in high bluffs of organic rich tundra soils. Compared to a 1-D model or a 1-D model using a shortcut distance, a 2-D model was more suitable to describe SOC content along the coastline. A Gaussian variogram model was used because it has less prediction errors than other examined geostatistical models. The results indicate that soils of the northwestern coastline stored greater amounts of SOC than those of the northeastern coastline. The estimation of total SOC along the coastline of northern Alaska was 6.86 x10⁷ kg m^-1. The prediction errors indicated that greater errors were observed in both ends of the coastline than were observed in other sections, although the range was from 0.739 to 0.779. Our study suggests that the isotropic 2-D model (Gaussian correlation structure) is a useful tool for investigating SOC in large scale.