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Quantifying an Overlooked Deciduous‐Needleleaf Carbon Sink at the Southern Margin of the Central‐Siberian Permafrost Zone

落叶松 永久冻土 碳汇 每年落叶的 环境科学 泰加语 生态系统 土壤碳 碳循环 北方的 常绿 水槽(地理) 固碳 大气科学 自然地理学 土壤水分 生态学 地质学 土壤科学 二氧化碳 地理 生物 地图学
作者
Jialin Liu,Fangyan Cheng,R. Commane,Yijie Zhu,Wan Ji,Xiuling Man,ChengHe Guan,J. William Munger
出处
期刊:Journal Of Geophysical Research: Biogeosciences [Wiley]
卷期号:128 (3) 被引量:1
标识
DOI:10.1029/2022jg006845
摘要

Abstract With over 700 million km 2 Siberia is the largest expanse of the northern boreal forest—deciduous‐needleleaf larch. Temperatures are increasing across this region, but the consequences to carbon balances are not well understood for larch forests. We present flux measurements from a larch forest near the southern edge of Central‐Siberia where permafrost degradation and ecosystem shifts are already observed. Results indicate net carbon exchanges are influenced by the seasonality of permafrost active layers, temperature and humidity, and soil water availability. During periods when surface soils are fully thawed, larch forest is a significant carbon sink. During the spring‐thaw and fall‐freeze transition, there is a weak signal of carbon uptake at mid‐day. Net carbon exchanges are near‐zero when the soil is fully frozen from the surface down to the permafrost. We fit an empirical ecosystem functional model to quantify the dependence of larch‐forest carbon balance on climatic drivers. The model provides a basis for ecosystem carbon budgets over time and space. Larch differs from boreal evergreens by having higher maximum productivity and lower respiration, leading to an increased carbon sink. Comparison to previous measurements from another northern larch site suggests climate change will result in an increased forest carbon sink if the southern larch subtype replaces the northern subtype. Observations of carbon fluxes in Siberian larch are still too sparse to adequately determine age dependence, inter‐annual variability, and spatial heterogeneity though they suggest that boreal larch accounts for a larger fraction of global carbon uptake than has been previously recognized.

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