Range shifts in a foundation sedge potentially induce large Arctic ecosystem carbon losses and gains

Foundation species have disproportionately large impacts on ecosystem structure and function. As a result, future changes to their distribution may be important determinants of ecosystem carbon (C) cycling in a warmer world. We assessed the role of a foundation tussock sedge ( Eriophorum vaginatum )...

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Bibliographic Details
Published in:Environmental Research Letters
Main Authors: Salvatore R Curasi, Ned Fetcher, Rebecca E Hewitt, Peter M Lafleur, Michael M Loranty, Michelle C Mack, Jeremy L May, Isla H Myers-Smith, Susan M Natali, Steven F Oberbauer, Thomas C Parker, Oliver Sonnentag, Sergio A Vargas Zesati, Stan D Wullschleger, Adrian V Rocha
Format: Article in Journal/Newspaper
Language:English
Published: IOP Publishing 2022
Subjects:
Arctic
tundra
carbon cycle
climate change
Eriophorum vaginatum
carbon stocks
Environmental technology. Sanitary engineering
TD1-1066
Environmental sciences
GE1-350
Science
Q
Physics
QC1-999
Climate change
Eriophorum
Tundra
Victoria Island
Online Access:https://doi.org/10.1088/1748-9326/ac6005
https://doaj.org/article/45804bdfe0f548b2a1fb3c53c880c967
Description
Summary:Foundation species have disproportionately large impacts on ecosystem structure and function. As a result, future changes to their distribution may be important determinants of ecosystem carbon (C) cycling in a warmer world. We assessed the role of a foundation tussock sedge ( Eriophorum vaginatum ) as a climatically vulnerable C stock using field data, a machine learning ecological niche model, and an ensemble of terrestrial biosphere models (TBMs). Field data indicated that tussock density has decreased by ∼0.97 tussocks per m ^2 over the past ∼38 years on Alaska’s North Slope from ∼1981 to 2019. This declining trend is concerning because tussocks are a large Arctic C stock, which enhances soil organic layer C stocks by 6.9% on average and represents 745 Tg C across our study area. By 2100, we project that changes in tussock density may decrease the tussock C stock by 41% in regions where tussocks are currently abundant (e.g. −0.8 tussocks per m ^2 and −85 Tg C on the North Slope) and may increase the tussock C stock by 46% in regions where tussocks are currently scarce (e.g. +0.9 tussocks per m ^2 and +81 Tg C on Victoria Island). These climate-induced changes to the tussock C stock were comparable to, but sometimes opposite in sign, to vegetation C stock changes predicted by an ensemble of TBMs. Our results illustrate the important role of tussocks as a foundation species in determining future Arctic C stocks and highlight the need for better representation of this species in TBMs.

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