Carbon dynamics in an alluvial fan in the eastern Canadian Arctic

IF 3.1 2区农林科学 Q2 SOIL SCIENCE

Geoderma Regional Pub Date : 2024-07-28 DOI:10.1016/j.geodrs.2024.e00841

Anne Ola , Samuel Gagnon , Daniel Fortier , Jérôme Comte , Florent Domine

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Abstract

Alluvial fans are common features of mountainous landscapes in circumpolar regions and are characterized by a suit of hillslope processes that drive sediment distribution. At present there is little known about the biogeochemistry of these systems. Thus, this study aimed to understand alluvial fan soil carbon (C) dynamics. Surface and permafrost soil was retrieved in the apex, mid-section, and foot of a fan on Bylot Island in the Canadian Arctic. Soil characteristics such as grain size distribution, ice content and major ions, electric conductivity, as well as total C and nitrogen (N) contents were determined. Moreover, soil organic carbon (SOC) pools were assessed using density fractionation in combination with acid hydrolysis. Despite the strong influence of hillslope processes on physical sediment characteristics, hillslope location had no effect on SOC and N stocks. However, fractionation analysis showed that hillslope processes facilitate the degradation of soil C prior to its burial and integration into permafrost soil, where over 90% of the SOC pool associated with the mineral-fraction is resistant to degradation. Hence, SOC pools at the foot of alluvial fans may be considered relatively stable.

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加拿大北极地区东部冲积扇中的碳动态

冲积扇是环北极地区山地景观的常见特征，其特点是有一套山坡过程来驱动沉积物的分布。目前，人们对这些系统的生物地球化学知之甚少。因此，本研究旨在了解冲积扇土壤碳（C）的动态变化。研究人员在加拿大北极地区比洛特岛的冲积扇顶端、中段和底部采集了地表土壤和永久冻土。测定了土壤特征，如粒度分布、冰含量和主要离子、电导率以及总碳和总氮（N）含量。此外，还利用密度分馏结合酸水解法对土壤有机碳（SOC）库进行了评估。尽管山坡过程对沉积物物理特征有很大影响，但山坡位置对 SOC 和 N 储量没有影响。然而，分馏分析表明，山坡过程促进了土壤碳的降解，然后将其埋入永久冻土中，其中 90% 以上的 SOC 储库与矿物组分相关，具有抗降解性。因此，可以认为冲积扇脚下的 SOC 库相对稳定。

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来源期刊

Geoderma Regional Agricultural and Biological Sciences-Soil Science

CiteScore

6.10

自引率

7.30%

发文量

122

审稿时长

76 days

期刊介绍： Global issues require studies and solutions on national and regional levels. Geoderma Regional focuses on studies that increase understanding and advance our scientific knowledge of soils in all regions of the world. The journal embraces every aspect of soil science and welcomes reviews of regional progress.