Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming

The response of Arctic wetland ecosystems and their associated organic carbon stores to future warming is uncertain. For the first time in the Canadian High Arctic I use a multi-proxy palaeoecological approach to test how organic-rich wetlands have responded to pronounced warming since the mid-twent...

Full description

Bibliographic Details
Main Author: Sim, Thomas George
Format: Thesis
Language:unknown
Published: University of Leeds 2018
Subjects:
Arctic
Ice
permafrost
wedge*
Online Access:https://etheses.whiterose.ac.uk/22441/
id ftwhiterose:oai:etheses.whiterose.ac.uk:22441
record_format openpolar
spelling ftwhiterose:oai:etheses.whiterose.ac.uk:22441 2023-05-15T14:22:54+02:00 Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming Sim, Thomas George 2018-09 https://etheses.whiterose.ac.uk/22441/ unknown University of Leeds Sim, Thomas George (2018) Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming. MSc by research thesis, University of Leeds. Thesis NonPeerReviewed 2018 ftwhiterose 2023-01-30T21:26:01Z The response of Arctic wetland ecosystems and their associated organic carbon stores to future warming is uncertain. For the first time in the Canadian High Arctic I use a multi-proxy palaeoecological approach to test how organic-rich wetlands have responded to pronounced warming since the mid-twentieth century. This approach enables ecological analysis on a timescale beyond that of contemporary studies. An ice-wedge polygon mire was a dual-state system with the raised centre mound showing no response to recent warming, but ~AD 2000 the surrounding trough exhibited a shift to wetter conditions and a transition from sedge and herb-dominated to brown moss-dominated vegetation. The accumulation of this vegetation layer may have the effect of insulating ice-wedges and provide a negative ecological feedback to permafrost degradation, mitigating potential carbon losses. In a valley fen, an increase in growing degree days above 0°C (GDD0) since ~AD 1950 is linked to greater inundation from increased snow and ice melt early in the growing season, coupled with increased drying towards the end of the growing season from elevated evapotranspiration. This may have initiated a pathway to wetland desiccation – although wetland persistence is likely to be determined by future Arctic precipitation patterns. In a coastal fen, greater GDD0 combined with isostatic uplift induced shrubification ~AD 1950 and led to rapid carbon accumulation. After this, increasing bird grazing pressures from ~AD 2000 may have affected vegetation and carbon accumulation. My results illustrate a variety of pathways for change in High Arctic wetlands in response to rapid warming. The results of this study suggest that predictions of the future extent and carbon accumulation rates of northern peatlands should consider the marked, yet complex response of High Arctic wetlands to warming alongside external non-climatic factors such as increased bird grazing pressures. Thesis Arctic Arctic Ice permafrost wedge* White Rose eTheses Online (Universities Leeds, Sheffield, York) Arctic
institution Open Polar
collection White Rose eTheses Online (Universities Leeds, Sheffield, York)
op_collection_id ftwhiterose
language unknown
description The response of Arctic wetland ecosystems and their associated organic carbon stores to future warming is uncertain. For the first time in the Canadian High Arctic I use a multi-proxy palaeoecological approach to test how organic-rich wetlands have responded to pronounced warming since the mid-twentieth century. This approach enables ecological analysis on a timescale beyond that of contemporary studies. An ice-wedge polygon mire was a dual-state system with the raised centre mound showing no response to recent warming, but ~AD 2000 the surrounding trough exhibited a shift to wetter conditions and a transition from sedge and herb-dominated to brown moss-dominated vegetation. The accumulation of this vegetation layer may have the effect of insulating ice-wedges and provide a negative ecological feedback to permafrost degradation, mitigating potential carbon losses. In a valley fen, an increase in growing degree days above 0°C (GDD0) since ~AD 1950 is linked to greater inundation from increased snow and ice melt early in the growing season, coupled with increased drying towards the end of the growing season from elevated evapotranspiration. This may have initiated a pathway to wetland desiccation – although wetland persistence is likely to be determined by future Arctic precipitation patterns. In a coastal fen, greater GDD0 combined with isostatic uplift induced shrubification ~AD 1950 and led to rapid carbon accumulation. After this, increasing bird grazing pressures from ~AD 2000 may have affected vegetation and carbon accumulation. My results illustrate a variety of pathways for change in High Arctic wetlands in response to rapid warming. The results of this study suggest that predictions of the future extent and carbon accumulation rates of northern peatlands should consider the marked, yet complex response of High Arctic wetlands to warming alongside external non-climatic factors such as increased bird grazing pressures.
format Thesis
author Sim, Thomas George
spellingShingle Sim, Thomas George
Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming
author_facet Sim, Thomas George
author_sort Sim, Thomas George
title Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming
title_short Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming
title_full Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming
title_fullStr Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming
title_full_unstemmed Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming
title_sort pathways for ecological change in canadian high arctic wetlands under rapid twentieth century warming
publisher University of Leeds
publishDate 2018
url https://etheses.whiterose.ac.uk/22441/
geographic Arctic
geographic_facet Arctic
genre Arctic
Arctic
Ice
permafrost
wedge*
genre_facet Arctic
Arctic
Ice
permafrost
wedge*
op_relation Sim, Thomas George (2018) Pathways for ecological change in Canadian High Arctic wetlands under rapid twentieth century warming. MSc by research thesis, University of Leeds.
_version_ 1766295414609281024

Similar Items