Mesoscale Wind and Temperature Changes over Peatlands of the Hudson Bay Lowlands: impacts on the Surface Energy Balance and Net CO2 Exchange

Although northern peatlands in general are currently a net carbon sink, there is still considerable uncertainty in the long-term combined response of plant productivity and ecosystem respiration to global warming and moisture changes. The Hudson Bay Lowlands (HBL) region of Canada is the second larg...

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Bibliographic Details
Main Author: Balogun, Olalekan Oluleye
Other Authors: Bello, Richard
Format: Thesis
Language:English
Published: 2022
Subjects:
Climate change
Hudson Bay
Hudson Bay Lowlands
Arctic
Arctic amplification
VPRM
Vegetation Photosynthesis and Respiration Model
HBL
Fen
Bog
Peatlands
Churchill
Attawapiskat
Sea ice
Global warming
Mesoscale winds
Wind regimes
Onshore winds
Offshore winds
Subarctic
LUE
Light-use efficiency
NARR
North American Regional Reanalysis
OCO-2
Eddy covariance
Ecosystem respiration
Enhanced vegetation index
Gross primary production
ER
GPP
MODIS
Moderate resolution imaging spectroradiometer
Net ecosystem exchange
NEE
Orbiting Carbon Observatory-2
Photosynthetically active radiation
PAR
Plant functional type
PFT
Latent heat flux
Ground heat flux
Sensible heat flux
Solar-induced chlorophyll fluorescence
SIF
Theil-Sen slope approach
Mann-Kendall
Permafrost
Spatial analysis
Canada
Hudson
Kendall
Ice
permafrost
Online Access:http://hdl.handle.net/10315/39107
id ftyorkuniv:oai:yorkspace.library.yorku.ca:10315/39107
record_format openpolar
spelling ftyorkuniv:oai:yorkspace.library.yorku.ca:10315/39107 2023-05-15T15:06:54+02:00 Mesoscale Wind and Temperature Changes over Peatlands of the Hudson Bay Lowlands: impacts on the Surface Energy Balance and Net CO2 Exchange Balogun, Olalekan Oluleye Bello, Richard 2022-03-03T14:04:12Z application/pdf http://hdl.handle.net/10315/39107 en eng http://hdl.handle.net/10315/39107 Author owns copyright, except where explicitly noted. Please contact the author directly with licensing requests. Climate change Hudson Bay Hudson Bay Lowlands Arctic Arctic amplification VPRM Vegetation Photosynthesis and Respiration Model HBL Fen Bog Peatlands Churchill Attawapiskat Sea ice Global warming Mesoscale winds Wind regimes Onshore winds Offshore winds Subarctic LUE Light-use efficiency NARR North American Regional Reanalysis OCO-2 Eddy covariance Ecosystem respiration Enhanced vegetation index Gross primary production ER GPP MODIS Moderate resolution imaging spectroradiometer Net ecosystem exchange NEE Orbiting Carbon Observatory-2 Photosynthetically active radiation PAR Plant functional type PFT Latent heat flux Ground heat flux Sensible heat flux Solar-induced chlorophyll fluorescence SIF Theil-Sen slope approach Mann-Kendall Permafrost Spatial analysis Electronic Thesis or Dissertation 2022 ftyorkuniv 2022-08-22T12:58:32Z Although northern peatlands in general are currently a net carbon sink, there is still considerable uncertainty in the long-term combined response of plant productivity and ecosystem respiration to global warming and moisture changes. The Hudson Bay Lowlands (HBL) region of Canada is the second largest peat-accumulating complex in the world that is strongly influenced by the cold air masses originating off the Hudson Bay. Recent warming has caused observed changes in the sea ice dynamics and energy budget of the Hudson Bay, yet it is presently unknown how these climatic changes in the Bay will impact the surface energy and carbon balance of the adjacent HBL. As a globally significant peatland carbon pool, the HBL will play an important role in future climate warming and permafrost carbon feedback. The primary aim of this study is to improve our understanding of the warming-induced changes in the advective influence of the Hudson Bay and its linkage to the changes in the surface energy and carbon balance over peatlands of the HBL. I use a combined model and assimilated climate dataset to investigate the mesoscale wind and temperature changes in the HBL and their impacts on the surface energy balance (1979–2018). Furthermore, I employ a satellite data-driven light-use efficiency model, calibrated and validated with eddy covariance tower measurements at a fen and bog to examine the response of net ecosystem CO2 exchange to climatic changes (2000–2019). The results reveal that differential rates of warming between offshore and onshore winds have produced significant changes in the advective role of the Hudson Bay as evident in the increased frequency and strength of onshore winds. Also, the results show contrasting net CO2 exchange between the fen and bog sites. The anomalies in gross primary production and ecosystem respiration were associated with strong trends in temperature and moisture, and the Hudson Bay had a more pronounced advective influence on peatland respiration than photosynthesis. Thesis Arctic Attawapiskat Climate change Global warming Hudson Bay Ice permafrost Sea ice Subarctic York University, Toronto: YorkSpace Arctic Attawapiskat ENVELOPE(-82.417,-82.417,52.928,52.928) Canada Hudson Hudson Bay Kendall ENVELOPE(-59.828,-59.828,-63.497,-63.497)
institution Open Polar
collection York University, Toronto: YorkSpace
op_collection_id ftyorkuniv
language English
topic Climate change
Hudson Bay
Hudson Bay Lowlands
Arctic
Arctic amplification
VPRM
Vegetation Photosynthesis and Respiration Model
HBL
Fen
Bog
Peatlands
Churchill
Attawapiskat
Sea ice
Global warming
Mesoscale winds
Wind regimes
Onshore winds
Offshore winds
Subarctic
LUE
Light-use efficiency
NARR
North American Regional Reanalysis
OCO-2
Eddy covariance
Ecosystem respiration
Enhanced vegetation index
Gross primary production
ER
GPP
MODIS
Moderate resolution imaging spectroradiometer
Net ecosystem exchange
NEE
Orbiting Carbon Observatory-2
Photosynthetically active radiation
PAR
Plant functional type
PFT
Latent heat flux
Ground heat flux
Sensible heat flux
Solar-induced chlorophyll fluorescence
SIF
Theil-Sen slope approach
Mann-Kendall
Permafrost
Spatial analysis
spellingShingle Climate change
Hudson Bay
Hudson Bay Lowlands
Arctic
Arctic amplification
VPRM
Vegetation Photosynthesis and Respiration Model
HBL
Fen
Bog
Peatlands
Churchill
Attawapiskat
Sea ice
Global warming
Mesoscale winds
Wind regimes
Onshore winds
Offshore winds
Subarctic
LUE
Light-use efficiency
NARR
North American Regional Reanalysis
OCO-2
Eddy covariance
Ecosystem respiration
Enhanced vegetation index
Gross primary production
ER
GPP
MODIS
Moderate resolution imaging spectroradiometer
Net ecosystem exchange
NEE
Orbiting Carbon Observatory-2
Photosynthetically active radiation
PAR
Plant functional type
PFT
Latent heat flux
Ground heat flux
Sensible heat flux
Solar-induced chlorophyll fluorescence
SIF
Theil-Sen slope approach
Mann-Kendall
Permafrost
Spatial analysis
Balogun, Olalekan Oluleye
Mesoscale Wind and Temperature Changes over Peatlands of the Hudson Bay Lowlands: impacts on the Surface Energy Balance and Net CO2 Exchange
topic_facet Climate change
Hudson Bay
Hudson Bay Lowlands
Arctic
Arctic amplification
VPRM
Vegetation Photosynthesis and Respiration Model
HBL
Fen
Bog
Peatlands
Churchill
Attawapiskat
Sea ice
Global warming
Mesoscale winds
Wind regimes
Onshore winds
Offshore winds
Subarctic
LUE
Light-use efficiency
NARR
North American Regional Reanalysis
OCO-2
Eddy covariance
Ecosystem respiration
Enhanced vegetation index
Gross primary production
ER
GPP
MODIS
Moderate resolution imaging spectroradiometer
Net ecosystem exchange
NEE
Orbiting Carbon Observatory-2
Photosynthetically active radiation
PAR
Plant functional type
PFT
Latent heat flux
Ground heat flux
Sensible heat flux
Solar-induced chlorophyll fluorescence
SIF
Theil-Sen slope approach
Mann-Kendall
Permafrost
Spatial analysis
description Although northern peatlands in general are currently a net carbon sink, there is still considerable uncertainty in the long-term combined response of plant productivity and ecosystem respiration to global warming and moisture changes. The Hudson Bay Lowlands (HBL) region of Canada is the second largest peat-accumulating complex in the world that is strongly influenced by the cold air masses originating off the Hudson Bay. Recent warming has caused observed changes in the sea ice dynamics and energy budget of the Hudson Bay, yet it is presently unknown how these climatic changes in the Bay will impact the surface energy and carbon balance of the adjacent HBL. As a globally significant peatland carbon pool, the HBL will play an important role in future climate warming and permafrost carbon feedback. The primary aim of this study is to improve our understanding of the warming-induced changes in the advective influence of the Hudson Bay and its linkage to the changes in the surface energy and carbon balance over peatlands of the HBL. I use a combined model and assimilated climate dataset to investigate the mesoscale wind and temperature changes in the HBL and their impacts on the surface energy balance (1979–2018). Furthermore, I employ a satellite data-driven light-use efficiency model, calibrated and validated with eddy covariance tower measurements at a fen and bog to examine the response of net ecosystem CO2 exchange to climatic changes (2000–2019). The results reveal that differential rates of warming between offshore and onshore winds have produced significant changes in the advective role of the Hudson Bay as evident in the increased frequency and strength of onshore winds. Also, the results show contrasting net CO2 exchange between the fen and bog sites. The anomalies in gross primary production and ecosystem respiration were associated with strong trends in temperature and moisture, and the Hudson Bay had a more pronounced advective influence on peatland respiration than photosynthesis.
author2 Bello, Richard
format Thesis
author Balogun, Olalekan Oluleye
author_facet Balogun, Olalekan Oluleye
author_sort Balogun, Olalekan Oluleye
title Mesoscale Wind and Temperature Changes over Peatlands of the Hudson Bay Lowlands: impacts on the Surface Energy Balance and Net CO2 Exchange
title_short Mesoscale Wind and Temperature Changes over Peatlands of the Hudson Bay Lowlands: impacts on the Surface Energy Balance and Net CO2 Exchange
title_full Mesoscale Wind and Temperature Changes over Peatlands of the Hudson Bay Lowlands: impacts on the Surface Energy Balance and Net CO2 Exchange
title_fullStr Mesoscale Wind and Temperature Changes over Peatlands of the Hudson Bay Lowlands: impacts on the Surface Energy Balance and Net CO2 Exchange
title_full_unstemmed Mesoscale Wind and Temperature Changes over Peatlands of the Hudson Bay Lowlands: impacts on the Surface Energy Balance and Net CO2 Exchange
title_sort mesoscale wind and temperature changes over peatlands of the hudson bay lowlands: impacts on the surface energy balance and net co2 exchange
publishDate 2022
url http://hdl.handle.net/10315/39107
long_lat ENVELOPE(-82.417,-82.417,52.928,52.928)
ENVELOPE(-59.828,-59.828,-63.497,-63.497)
geographic Arctic
Attawapiskat
Canada
Hudson
Hudson Bay
Kendall
geographic_facet Arctic
Attawapiskat
Canada
Hudson
Hudson Bay
Kendall
genre Arctic
Attawapiskat
Climate change
Global warming
Hudson Bay
Ice
permafrost
Sea ice
Subarctic
genre_facet Arctic
Attawapiskat
Climate change
Global warming
Hudson Bay
Ice
permafrost
Sea ice
Subarctic
op_relation http://hdl.handle.net/10315/39107
op_rights Author owns copyright, except where explicitly noted. Please contact the author directly with licensing requests.
_version_ 1766338493364043776

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