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Identification of typical eco-hydrological behaviours using InSAR allows landscape-scale mapping of peatland condition

Bradley, Andrew Vincent; Andersen, Roxane; Marshall, Chris; Sowter, Andrew; Large, David James

Identification of typical eco-hydrological behaviours using InSAR allows landscape-scale mapping of peatland condition Thumbnail


Authors

Roxane Andersen

Chris Marshall

Andrew Sowter

DAVID LARGE David.Large@nottingham.ac.uk
Abbott Professor of Geoscience



Abstract

Better tools for rapid and reliable assessment of global peatland extent and condition are urgently needed to support action to prevent their further decline. Peatland surface motion is a response to changes in the water and gas content of a peat body regulated by the ecology and hydrology of a peatland system. Surface motion is therefore a sensitive measure of ecohydrological condition but has traditionally been impossible to measure at the landscape scale. Here we examine the potential of surface motion metrics derived from InSAR satellite radar to map peatland condition in a blanket bog landscape. We show that the timing of maximum seasonal swelling of the peat is characterized by a bimodal distribution. The first maximum is typical of steeper topographic gradients, peatland margins, degraded peatland and more often associated with ‘shrub’-dominated vegetation communities. The second maximum is typically associated with low topographic gradients often featuring pool systems, and Sphagnum dominated vegetation communities. Specific conditions associated with ‘Sphagnum’ and ‘shrub’ communities are also determined by the amplitude of swelling and average multiannual motion. Peatland restoration currently follows a re-wetting strategy, however our approach highlights that landscape setting appears to determine the optimal endpoint for restoration. Aligning expectation for restoration outcomes with landscape setting might optimise peatland stability and carbon storage. Importantly, deployment of this approach, based on surface motion dynamics, could support peatland mapping and management on a global scale.

Citation

Bradley, A. V., Andersen, R., Marshall, C., Sowter, A., & Large, D. J. Identification of typical eco-hydrological behaviours using InSAR allows landscape-scale mapping of peatland condition

Deposit Date Jul 30, 2021
Publicly Available Date Mar 29, 2024
Publisher European Geosciences Union
Keywords Carbon, bog-breathing, Sphagnum, restoration, Sentinel-1.
Public URL https://nottingham-repository.worktribe.com/output/5887069
Publisher URL https://esurf.copernicus.org/preprints/esurf-2021-58/

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