Publication Date:
2017-09-28
Description:
Little is known about the abundance and source of soil organic carbon and biogeochemical cycling in permafrost soils from the ultraxerous environment of the Dry Valleys of Antarctica. Here, we investigate the distribution, source and cycling of organic carbon, total nitrogen and carbonates in the icy permafrost soils of University Valley, Quartermain Mountains. Results indicate that organic carbon content is lowest in icy soils from the perennially cryotic zone (〈40 μg g -1 dry soils) and higher in the icy soils from the seasonally non-cryotic zone, where the highest concentrations were found in the warmer-wetter section of the valley and near a frozen pond (up to 313 μg g -1 dry soils). The δ 13 C org of organic carbon in the icy soils showed that it is derived from the weathering of Beacon Supergroup sandstone that hosts active endolithic communities. The C:N ratios in icy soils formed two populations: one with ratios 〈5 and the other with ratios near the Redfield ratios. The low C:N ratios suggest that physico-chemical processes dominates these soils, as supported by the absence of microbial activity and atmospherically-deposited NO 3 with minimal post-deposition modification. The near Redfield C:N ratios can be explained by physical processes (translocation of SOC in the soils from snow meltwater) or balanced microbial activity. The latter is supported by the δ 13 C CaCO3 values of carbonates that suggest a contribution from microbially-respired endolith-derived organic matter, providing indirect evidence of heterotrophic activity in permafrost soils from an ultraxerous environment.
Print ISSN:
0148-0227
Topics:
Biology
,
Geosciences
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