Root carbon pools across a post-fire tree density gradient in far northeastern Siberia, 2015 - 2017

Fire severity is increasing in larch forests of the Siberian Arctic as climate warms, and initial fire impacts on tree demographic processes could be an especially important determinant of long-term forest structure and carbon (C) dynamics. We hypothesized that changes in post-fire larch recruitment...

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Bibliographic Details
Main Authors: Heather Alexander, Alison Paulson, Rebecca Hewitt, Michael Loranty, Michelle Mack, Sue Natali
Format: Dataset
Language:unknown
Published: Arctic Data Center 2021
Subjects:
coarse root biomass
fine root biomass
fire
Siberia
larch
carbon
Larix cajanderi
Arctic
Cherskiy
permafrost
Online Access:https://doi.org/10.18739/A2639K644
Description
Summary:Fire severity is increasing in larch forests of the Siberian Arctic as climate warms, and initial fire impacts on tree demographic processes could be an especially important determinant of long-term forest structure and carbon (C) dynamics. We hypothesized that changes in post-fire larch recruitment impact C accumulation through tree density impacts on understory microclimate and permafrost thaw. We tested these hypotheses by quantifying C pools across a Cajander larch (Larix cajanderi Mayr.) tree density gradient within a fire perimeter near Cherskiy, Russia that burned in 1940. Across the density gradient, from 2010 - 2017 we inventoried larch trees and harvested ground-layer vegetation to estimate above ground contribution to C pools. We also quantified woody debris C pools and sampled below ground C pools (soil, fine roots, and coarse roots) in the organic + upper mineral soils. Our findings should highlight the potential for a climate-driven increase in fire severity to alter tree recruitment, successional dynamics, and C cycling in Siberian larch forests.

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