Carbon exchange over four growing seasons for a subarctic sedge fen in northern Manitoba, Canada

Net ecosystem exchange of carbon was measured using eddy covariance for four growing seasons at a subarctic hummocky fen in northern Manitoba, Canada. Over a 115 day measurement period each year, cumulative net ecosystem exchange of carbon ranged from a gain of 49 g C m−2 to a loss of 16 g C m−2 wit...

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Bibliographic Details
Published in:Arctic Science
Main Authors: Krista L. Hanis, Brian D. Amiro, Mario Tenuta, Tim Papakyriakou, Kyle A. Swystun
Format: Article in Journal/Newspaper
Language:English
French
Published: Canadian Science Publishing 2015
Subjects:
fen
peat
flux
carbon
eddy covariance
methane
hudson bay
envir
geo
Canada
Hudson
Hudson Bay
Arctic
Subarctic
Online Access:https://doi.org/10.1139/as-2015-0003
https://doaj.org/article/db61745757d140f6bbda85194c7f8687
Description
Summary:Net ecosystem exchange of carbon was measured using eddy covariance for four growing seasons at a subarctic hummocky fen in northern Manitoba, Canada. Over a 115 day measurement period each year, cumulative net ecosystem exchange of carbon ranged from a gain of 49 g C m−2 to a loss of 16 g C m−2 with a mean loss of 6 g C m−2 from the fen, with an uncertainty of about ±34 g C m−2. Ecosystem respiration decreased with higher water tables (r2 = 0.3), especially in one summer when flooding occurred to 0.12 m above the peat surface. Additional methane emissions previously documented for the site of 4–5.7 g C m−2 year−1 added to the carbon loss. Carbon loss was measured from this same fen in the 1990s and it is likely that the carbon gain (peat accumulation) during past centuries has not continued in recent decades. Scaling to annual greenhouse gas emissions as a 100 year global warming potential showed that this fen is currently a source of 192–490 g CO2-equivalents m−2 year−1 based on both carbon dioxide and methane flux measurements, indicating that peat is decomposing.

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