2018
DOI: 10.1111/gcb.14500
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Arctic browning: Impacts of extreme climatic events on heathland ecosystem CO2 fluxes

Abstract: Extreme climatic events are among the drivers of recent declines in plant biomass and productivity observed across Arctic ecosystems, known as “Arctic browning.” These events can cause landscape‐scale vegetation damage and so are likely to have major impacts on ecosystem CO2 balance. However, there is little understanding of the impacts on CO2 fluxes, especially across the growing season. Furthermore, while widespread shoot mortality is commonly observed with browning events, recent observations show that shoo… Show more

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Cited by 70 publications
(46 citation statements)
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“…In contrast, it is interesting to note that limited warming diminishes soil moisture in the upper layers through evapotranspiration, but is not sufficient to degrade the underlying permafrost and replenish soil moisture. This results in water stress conditions in some areas leading to vegetation damage and stunted growth affecting overall net productivity (Parmentier et al, 2018; Treharne, Bjerke, Tømmervik, Stendardi, & Phoenix, 2019). This issue needs to be explored further to evaluate the impact on productivity in the employed model tools.…”
Section: Discussionmentioning
confidence: 99%
“…In contrast, it is interesting to note that limited warming diminishes soil moisture in the upper layers through evapotranspiration, but is not sufficient to degrade the underlying permafrost and replenish soil moisture. This results in water stress conditions in some areas leading to vegetation damage and stunted growth affecting overall net productivity (Parmentier et al, 2018; Treharne, Bjerke, Tømmervik, Stendardi, & Phoenix, 2019). This issue needs to be explored further to evaluate the impact on productivity in the employed model tools.…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, a study of maximum NDVI (Normalized Difference Vegetation Index), which is an indicator of vegetation productivity, over central parts of Svalbard from 1986-2015 reported on a general greening trend which was linked to trends of increasing temperature over the study period [57]. However, it was shown that the rate of greening slowed during the second half of the study period, which has subsequently been attributed to more frequent occurrences of extreme winter warming events [58,59], but we do not rule out the possibility that the slower rates of greening since the start of the millennium may also have links to timing of spring snow disappearance, which can be affected by winter warming events through changes in the snowpack accumulation.…”
Section: Timing Of Snow Disappearance and Its Effect On Phenologymentioning
confidence: 99%
“…As permafrost thaws, microbes metabolize carbon and it is estimated that $5-15% (Schuur et al 2015) of the carbon will be released to the atmosphere as CO 2 or CH 4 by $2100, but the timing, spatial distribution and CO 2 :CH 4 ratio of future emissions is highly uncertain (Schneider von Diemling et al 2012;Schuur et al 2015;AMAP 2015a). This uncertainty is coupled with changes to CO 2 uptake related to changes in vegetation density (greening or browning) in the Arctic, which have also been reported as the North warms (Lucht et al 2002, Piao et al 2006Pearson et al 2013;Bhatt et al 2013;Fraser et al 2014;Edwards and Treitz 2017;Treharne et al 2019;USGCRP 2018). It remains important to reduce uncertainties and better understand these feedbacks on future climate change.…”
Section: Arctic and Boreal Carbon Cyclementioning
confidence: 94%