Pathways for Ecological Change in Canadian High Arctic Wetlands Under Rapid Twentieth Century Warming

Sim, Thomas G.; Swindles, Graeme T.; Morris, Paul J.; Gałka, Mariusz; Mullan, Donal; Galloway, Jennifer M.

doi:10.1029/2019gl082611

Cited by 26 publications

(15 citation statements)

References 102 publications

(109 reference statements)

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“…These dynamics in turn cause climate feedbacks, particularly by affecting carbon cycling and release of greenhouse gases (Pearson et al, 2013; Ratcliffe et al, 2017; Schuur et al, 2015). However, the scale of this transformation is not uniform across northern landscapes (Sim et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

A multi-proxy reconstruction of peatland development and regional vegetation changes in subarctic NE Fennoscandia (the Republic of Karelia, Russia) during the Holocene

et al. 2021

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A better understanding of past long-term environmental changes in the subarctic region is crucial for mitigation of the possible negative effects of climate warming in this vulnerable region. This study provides a new multi-proxy reconstruction of regional vegetation changes and peatland development for north-eastern Fennoscandia (Russia) during most of the Holocene. To that purpose, we performed plant macrofossil, pollen, testate amoebae, peat humification, loss on ignition and radiocarbon analyses of the peat deposits from a mire around Vodoprovodnoe Lake (the Kindo Peninsula, the Republic of Karelia). Our data indicate that the peat deposits started accumulating before 9147 ± 182 cal. yr. BP. The vegetation cover in the area was mainly typical for the northern taiga zone, except for the period ~7800–5600 cal. yr. BP, when it generally resembled the middle taiga zone. The vegetation cover and peatland were greatly affected by reoccurring fires, which can be partly related to human activity. These events were associated with an increased proportion of birch in the vegetation cover (as a pioneer species) and/or water level decreases. By 600 cal. yr. BP, the peatland and the surrounding vegetation reached its current state and only minor changes had been recorded since that time. Overall, our results suggest a considerable and unexpected role of fires in the postglacial dynamics of subarctic peatlands.

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Section: Introductionmentioning

confidence: 99%

A multi-proxy reconstruction of peatland development and regional vegetation changes in subarctic NE Fennoscandia (the Republic of Karelia, Russia) during the Holocene

et al. 2021

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“…It has been previously reported that different peatland habitats may also undergo different peatland-climate feedback pathways (Zhang et al, 2020). Any one site-based discussion of regional feedbacks is likely to be biased because different peatland types can experience specific successions under similar climate conditions, such as the differences observed between palsa K1P and fen K2 in region Kuujjuarapik in this study, let alone different regions that have different climate (Sim et al, 2019). This problem is exacerbated when within-site data, even taken from a consistent microform, is also variable.…”

Section: Future Perspective On Detecting Reliable Peatland-climate Fementioning

confidence: 77%

Recent Changes in Peatland Testate Amoeba Functional Traits and Hydrology Within a Replicated Site Network in Northwestern Québec, Canada

et al. 2020

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“…Testate amoebae have become an important tool for reconstruction of palaeohydrology from temperate (Booth 2002;Gałka et al 2013;Hendon and Charman 2004), tropical (Swindles et al 2018(Swindles et al , 2016(Swindles et al , 2014, and high latitude (Sim et al 2019;Swindles et al 2015;Zhang et al 2018) peatlands. Some testate amoeba taxa produce proteinaceous tests (amorphous, e.g.…”

Section: Introductionmentioning

confidence: 99%

Quantifying the effect of testate amoeba decomposition on peat-based water-table reconstructions

Swindles

Roland

Amesbury

et al. 2020

European Journal of Protistology

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Pathways for Ecological Change in Canadian High Arctic Wetlands Under Rapid Twentieth Century Warming

Cited by 26 publications

References 102 publications

A multi-proxy reconstruction of peatland development and regional vegetation changes in subarctic NE Fennoscandia (the Republic of Karelia, Russia) during the Holocene

A multi-proxy reconstruction of peatland development and regional vegetation changes in subarctic NE Fennoscandia (the Republic of Karelia, Russia) during the Holocene

Recent Changes in Peatland Testate Amoeba Functional Traits and Hydrology Within a Replicated Site Network in Northwestern Québec, Canada

Quantifying the effect of testate amoeba decomposition on peat-based water-table reconstructions

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