Litcius/Paper detail

Large Soil Carbon Storage in Terrestrial Ecosystems of Canada

Camile Söthe, Alemu Gonsamo, Joyce Arabian, Werner A. Kurz, Sarah A. Finkelstein, James Snider

2022Global Biogeochemical Cycles93 citationsDOIOpen Access PDF

Abstract

Abstract Terrestrial ecosystems of Canada store a large amount of organic carbon (C) in soils, peats and plant materials, yet little is known about the C stock size and distributions, both spatially and in various C pools. As temperature rises, C is becoming available for disturbance, decomposition and eventual release into the atmosphere, which makes the quantification of C stocks in terrestrial ecosystems of Canada of high interest for the assessment of climate change impacts and conservation efforts. We used a large number of field measurements, multisource satellite, climate and topographic data and a machine learning algorithm to produce the first wall‐to‐wall estimates of C stocks and uncertainties in plants and soils of Canada at 250 m spatial resolution. Our findings show that above and belowground live biomass and detritus store a total of 21.1 Pg of carbon (Pg C). Whereas the Canadian soils store 306 (±147, 90% confidence interval) Pg organic C in the top 1 m, 98 Pg C of which are stored in peatlands, confirming that the soil organic C dominates terrestrial carbon stocks in Canada. We also find previously under‐reported large soil organic C stocks in forested peatlands on the boreal shields of Canada. Given that Canada is warming twice the global average rate and Canadian soils store approximately 20.4% of world soil C stocks in top 1 m, initiatives to understand their vulnerabilities to climate change and disturbance are indispensable not only for Canada but also for the global C cycle.

Topics & Concepts

Terrestrial ecosystemEnvironmental scienceSoil waterPeatEcosystemSoil carbonClimate changeBorealTaigaTerrestrial plantCarbon cycleGlobal warmingDetritusEcologySoil scienceForestryGeographyBiologyPeatlands and Wetlands EcologySoil Carbon and Nitrogen DynamicsFire effects on ecosystems