The resistance and short‐term resilience of a restored extracted peatland ecosystems post‐fire: an opportunistic study after a wildfire

Bogs are known to be relatively resistant and resilient to fire, due to the dominance of wet Sphagnum mosses. Indeed, Sphagnum mosses by holding water, ensure bog resistance, and by regenerating from any fragments left post‐fire, ensure bog resilience. The return of several ecological attributes has...

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Published inRestoration ecology Vol. 30; no. 4
Main Authors Blier‐Langdeau, Ariane, Guêné‐Nanchen, Mélina, Hugron, Sandrine, Rochefort, Line
Format Journal Article
LanguageEnglish
Published Malden, USA Wiley Periodicals, Inc 01.04.2022
Blackwell Publishing Ltd
Subjects
Aquatic plants
bog
Bogs
Bryophyta
capillarity
Carpets
ecological restoration
Eriophorum vaginatum
Evaluation
fire
Fire resistance
Fires
Growing season
growth habit
humidity
lawns and turf
Mosses
peatland
Peatlands
Plant communities
Reintroduction
Resilience
resistance
Restoration
Scirpus cyperinus
Species
Sphagnum
vegetation
Wildfires
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Summary:Bogs are known to be relatively resistant and resilient to fire, due to the dominance of wet Sphagnum mosses. Indeed, Sphagnum mosses by holding water, ensure bog resistance, and by regenerating from any fragments left post‐fire, ensure bog resilience. The return of several ecological attributes has been reported in the literature post‐restoration. However, the resistance and resilience have not yet been evaluated in restored peatlands. A fire affecting an extracted peatland restored 10 years ago provided the opportunity to (1) evaluate the losses post‐fire, in terms of phytobiomass and plant cover and (2) assess early vegetation recovery after one growing season post‐fire. The fire response of the restored peatland, in terms of resistance and short‐term resilience, differed between the main plant communities. Sphagnum Lawn communities (Sphagnum species from the Acutifolia subgenus and Eriophorum vaginatum) showed greater resistance to fire losing proportionally less phytobiomass (17%) than Wet Hollow communities (44%) (Sphagnum species from the Cuspidata subgenus and Scirpus cyperinus). Greater resistance of the Sphagnum Lawn likely comes from the Acutifolia Sphagnum species growing in dense carpets with good water retention, along with the E. vaginatum tussocks being able to retain humidity below the tussocks, whereas the looser growth habit of Cuspidata Sphagnum species do not have good capillary rise capacity and Scirpus produced litter that can produce a good fuel. This study reinforces the idea that a peatland restoration approach using reintroduction material dominated by Acutifolia Sphagnum species and tussock cottongrass provides a better resistance and short‐term resilience of restored peatlands.
Bibliography:Coordinating Editor: Stephen Murphy
Author contributions: ABL performed the experiment preparation, fieldwork, analyzed most of the data and wrote in part the manuscript; MGN analyzed partly the data, finalized writing the manuscript and edited it; SH, LR assisted in the development and implementation of the experimental design, helped with data analysis and revised the manuscript.
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ISSN:1061-2971
1526-100X
DOI:10.1111/rec.13545