Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems

Significant warming of Arctic and northern regions is ongoing and may greatly alter the carbon cycle of these regions. During the International Polar Year, an extensive study was carried out in the Eastern Canadian subarctic and Arctic in order to characterize CO2 and CH4 exchanges from these potent...

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Main Author:	Pilote, Martin
Other Authors:	Humphreys, Elyn
Format:	Thesis
Language:	English
Published:	Université d'Ottawa / University of Ottawa 2015
Subjects:	Gas exchange Carbon balance NEE CO2 CH4 Environmental factor Temperature Precipitation Arctic Subarctic Spatial trend Temporal trend International Polar Year Tundra
Online Access:	http://hdl.handle.net/10393/33426 https://doi.org/10.20381/ruor-3994

id	ftunivottawa:oai:ruor.uottawa.ca:10393/33426
record_format	openpolar
spelling	ftunivottawa:oai:ruor.uottawa.ca:10393/33426 2023-05-15T14:48:40+02:00 Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems Pilote, Martin Humphreys, Elyn 2015 application/pdf http://hdl.handle.net/10393/33426 https://doi.org/10.20381/ruor-3994 en eng Université d'Ottawa / University of Ottawa http://hdl.handle.net/10393/33426 http://dx.doi.org/10.20381/ruor-3994 Gas exchange Carbon balance NEE CO2 CH4 Environmental factor Temperature Precipitation Arctic Subarctic Spatial trend Temporal trend Thesis 2015 ftunivottawa https://doi.org/10.20381/ruor-3994 2021-01-04T17:40:33Z Significant warming of Arctic and northern regions is ongoing and may greatly alter the carbon cycle of these regions. During the International Polar Year, an extensive study was carried out in the Eastern Canadian subarctic and Arctic in order to characterize CO2 and CH4 exchanges from these potentially sensitive ecosystems. The main objectives of this study were to identify the land cover and environmental factors leading to greatest CO2 and CH4 emissions in a highly heterogeneous subarctic landscape, to quantify interannual variability in the net ecosystem exchange of CO2 (NEE) in subarctic forest tundra and investigate the weather conditions that increase net uptake of CO2, and finally, to evaluate the general trends of mid-summer NEE along a latitudinal gradient spanning from 55° to the 72° north. At the landscape level, CO2 and CH4 exchanges showed large variability. Although CH4 emissions were greatest in wetlands, their areal coverage is small in the Kuujuarapik area and limited the influence of these CH4 sources. At the ecosystem level, large-scale atmospheric processes controlled growing season length and cumulative growing degree days which greatly influenced annual and seasonal NEE trends. The subarctic forest tundra near Kuujuarapik was a net source of CO2 in all 3 study years but the source strength was least with the greatest growing degree days while the length of the snow-free period appeared to be less important. Across a latitudinal gradient covering subarctic forest tundra to Arctic tundra, variations in summer NEE could be linked to surface organic carbon content with higher net CO2 uptake at sites with greater soil organic carbon. Warmer days tended to correlate with smaller daily net CO2 uptake (or greater net CO2 losses) but overall, warmer growing seasons reduced the net losses of CO2 on an annual basis. Carbon fluxes in Eastern Canadian subarctic and Arctic regions are highly variable in space and time but these observations help establish a baseline for future examinations of how these carbon exchanges may change with further warming. Thesis Arctic International Polar Year Subarctic Tundra uO Research (University of Ottawa - uOttawa) Arctic
institution	Open Polar
collection	uO Research (University of Ottawa - uOttawa)
op_collection_id	ftunivottawa
language	English
topic	Gas exchange Carbon balance NEE CO2 CH4 Environmental factor Temperature Precipitation Arctic Subarctic Spatial trend Temporal trend
spellingShingle	Gas exchange Carbon balance NEE CO2 CH4 Environmental factor Temperature Precipitation Arctic Subarctic Spatial trend Temporal trend Pilote, Martin Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems
topic_facet	Gas exchange Carbon balance NEE CO2 CH4 Environmental factor Temperature Precipitation Arctic Subarctic Spatial trend Temporal trend
description	Significant warming of Arctic and northern regions is ongoing and may greatly alter the carbon cycle of these regions. During the International Polar Year, an extensive study was carried out in the Eastern Canadian subarctic and Arctic in order to characterize CO2 and CH4 exchanges from these potentially sensitive ecosystems. The main objectives of this study were to identify the land cover and environmental factors leading to greatest CO2 and CH4 emissions in a highly heterogeneous subarctic landscape, to quantify interannual variability in the net ecosystem exchange of CO2 (NEE) in subarctic forest tundra and investigate the weather conditions that increase net uptake of CO2, and finally, to evaluate the general trends of mid-summer NEE along a latitudinal gradient spanning from 55° to the 72° north. At the landscape level, CO2 and CH4 exchanges showed large variability. Although CH4 emissions were greatest in wetlands, their areal coverage is small in the Kuujuarapik area and limited the influence of these CH4 sources. At the ecosystem level, large-scale atmospheric processes controlled growing season length and cumulative growing degree days which greatly influenced annual and seasonal NEE trends. The subarctic forest tundra near Kuujuarapik was a net source of CO2 in all 3 study years but the source strength was least with the greatest growing degree days while the length of the snow-free period appeared to be less important. Across a latitudinal gradient covering subarctic forest tundra to Arctic tundra, variations in summer NEE could be linked to surface organic carbon content with higher net CO2 uptake at sites with greater soil organic carbon. Warmer days tended to correlate with smaller daily net CO2 uptake (or greater net CO2 losses) but overall, warmer growing seasons reduced the net losses of CO2 on an annual basis. Carbon fluxes in Eastern Canadian subarctic and Arctic regions are highly variable in space and time but these observations help establish a baseline for future examinations of how these carbon exchanges may change with further warming.
author2	Humphreys, Elyn
format	Thesis
author	Pilote, Martin
author_facet	Pilote, Martin
author_sort	Pilote, Martin
title	Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems
title_short	Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems
title_full	Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems
title_fullStr	Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems
title_full_unstemmed	Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems
title_sort	trends in the exchange of co2 and ch4 between the atmosphere and eastern canadian subarctic and arctic ecosystems
publisher	Université d'Ottawa / University of Ottawa
publishDate	2015
url	http://hdl.handle.net/10393/33426 https://doi.org/10.20381/ruor-3994
geographic	Arctic
geographic_facet	Arctic
genre	Arctic International Polar Year Subarctic Tundra
genre_facet	Arctic International Polar Year Subarctic Tundra
op_relation	http://hdl.handle.net/10393/33426 http://dx.doi.org/10.20381/ruor-3994
op_doi	https://doi.org/10.20381/ruor-3994
_version_	1766319762501009408

Trends in the Exchange of CO2 and CH4 between the Atmosphere and Eastern Canadian Subarctic and Arctic Ecosystems

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