|Title||Geochemical influences on solubility of soil organic carbon in arctic tundra ecosystems|
|Publication Type||Journal Article|
|Year of Publication||2013|
|Authors||Hobara, S, Koba, K, Noriharu, A, Giblin, AE, Kushida, K, Shaver, GR|
|Journal||Soil Science Society of America Journal|
In northern Alaska, variations in ecosystem characteristics, including plant species composition, soil pH, depth of the organic layer, and microbial activity, appear to be closely related to substrate age and landscape position. In this study, we conducted an extraction experiment on soils from Alaskan tundra ecosystems differing in substrate age and landscape position to elucidate the geochemical controls on solubility of organic C in these soils. The extraction experiment showed higher yields of phosphate-buffer-extractable (soluble) organic C (PEOC) in organic-layer soil from older sites with low soil pH than from younger sites with high soil pH. This was due to the strong relationship between the yield of PEOC and soil pH. Similar relationships were found with mineral soils. A significant correlation was also found between PEOC and extractable Al, suggesting that soluble organic matter is strongly adsorbed to Al oxides and hydroxides, presumably through organic chelation. The importance of geochemical factors in controlling PEOC yields was tested using soils from a variety of ecosystem types that had received long-term additions of P fertilizer. Yields of PEOC from organic soils from P-fertilized plots were significantly lower than yields from control plots, regardless of whether or not P fertilization had increased biomass or changed plant species composition in these plots. This indicates that organic matter adsorbed to minerals in organic soils is strongly controlled by geochemical factors.
|Short Title||Geochemical influences on solubility of soil organic carbon in arctic tundra ecosystems|