Hummocks in alpine tundra, northern British Columbia, Canada: distribution, morphology and organic carbon composition

Hummocks develop by cryoturbation in fine-grained frost-susceptible soils and their stage of maturity may affect the translocation of organics in Cryosols. This study examines the distribution and morphology of hummocks in the Chuck Creek Trail Valley (northern British Columbia) and determines the q...

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Bibliographic Details
Published in:Arctic Science
Main Authors: Marjolaine Verret, Yifeng Wang, Jean Bjornson, Denis Lacelle
Format: Article in Journal/Newspaper
Language:English
French
Published: Canadian Science Publishing 2019
Subjects:
cryoturbation
organic carbon
permafrost
subarctic
envir
geo
British Columbia
Canada
Chuck Creek
Arctic
Subarctic
Tundra
Online Access:https://doi.org/10.1139/as-2018-0021
https://doaj.org/article/0ebe2aa29517480b9480e3de7e4eda5b
Description
Summary:Hummocks develop by cryoturbation in fine-grained frost-susceptible soils and their stage of maturity may affect the translocation of organics in Cryosols. This study examines the distribution and morphology of hummocks in the Chuck Creek Trail Valley (northern British Columbia) and determines the quantity, distribution, and composition of organic matter in their soils. Hummocks occupy about 5%–20% of the valley and their morphology is largely affected by their silt content. Cryoturbated intrusions, radiocarbon dated to 2814 and 1648 cal year B.P., suggest that hummock development was initiated during the cooler late Holocene. Hummocks have an average soil organic carbon density of 16.3 kg m−2 in the uppermost 1 m, with 62% stored in the top 25 cm. Organics are mainly present as particulate organic matter in the O-horizon (25%–80%), characterized by degradable alkyl C and O/N-alkyl groups, but occur as mineral-associated organic matter (96%–98%) composed of recalcitrant aromatic and aliphatic C groups in the underlying B and C horizons. Minor differences in organic content and composition occur between hummock tops and troughs, and between hummocks showing different stages of maturity. In the absence of an observed frost table, contemporary hummock activity is attributed to seasonal freezing and thawing.

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