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M. Lavoie and M. C. Mack, “Spacial Heterogeneity in Understory Vegetation and Soil in an Alaskan Upland Boreal Forest Fire Chronosequence,” Biogeochemistry, Vol. 107, No. 1-3, 2012, pp. 227-239. doi:10.1007/s10533-010-9547-x

has been cited by the following article:

  • TITLE: Soil Pedon Carbon and Nitrogen Data for Alaska: An Analysis and Update

    AUTHORS: Gary J. Michaelson, Chien-Lu Ping, Mark Clark

    KEYWORDS: Soil Carbon; Soil Nitrogen; Arctic Soils; Pedotransfer Functions; Permafrost Soils

    JOURNAL NAME: Open Journal of Soil Science, Vol.3 No.2, June 10, 2013

    ABSTRACT: We combined C and N related pedon data from the USDA-NRCS National Cooperative Soil Survey Soil Characterization Database with data from the University of Alaska Fairbanks (UAF) northern soils research program, representing 58 and 30 years of field work, respectively. Carbon and N data from 117 UAF pedons were added to 541 pedons from the USDA-NRCS data set for a total of 658. Missing carbon (C), nitrogen (N) and related data were added to nearly all of the USDA-NRCS Arctic region pedons from unpublished UAF data. We present relationships among soil parameters of the data set that are necessary for calculation of pedon soil organic C and N stores. These new relationships are necessary for better estimating missing soil bulk density (Db) from measured soil organic C by high-temperature combustion (SOCHTC) and for conversion of acid chromate reduction soil organic carbon (SOCACR) to SOCHTC. For the USDA-NRCS data, missing Db data were estimated and SOCACR corrected to SOCHTC using the new functional relationships developed. This allowed for pedon SOC and N stores to be calculated for 609 and 468 Alaska pedons respectively, the most available to-date. Additionally, functional relationships were developed for data within soil orders to estimate total SOCHTC and N stores in pedons with missing surface organic horizons where only thicknesses were known. These relationships are presented in order to fill-in missing data and to better define the existing data set for future use. Some 1904 missing Db data points and 1612 corrected SOCHTC data points were added to the total of 4240 points in the 609 pedons that constitute the updated dataset. When O-layer thickness functions developed here were used, SOC and N stores were calculated for an additional 137 and 184 pedons respectively.