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Ghezelayagh, Pouya; Oleszczuk, Ryszard; Stachowicz, Marta; Eini, Mohammad Reza; Kamocki, Andrzej; Banaszuk, Piotr; Grygoruk, Mateusz
Ecological indicators, September 2024, 2024-09-00, 2024-09-01, Volume: 166Journal Article
Display omitted •Remote sensing-based approach to indicate vertical displacement of the peat.•Annualpeatland subsidencein the BiebrzaValleypeatlands = 1.44 cm.•Verifying this approach vs. field observations (R2 = 0.7, RMSE = 0. 23 cm)•∼ 46 tones of peat per hectare lost per annum.•Subsidence due to artificial drainage and climate change at the regional scale. Peatlands play a crucial role in carbon storage, but drainage and climate change-induced hydrological changes drivers degrade peat soils, followed by negative vertical displacement of the soil surface, referred to in the literature as peat subsidence. Assessing peatland subsidence is an important indicator of peatland status that allows the development of peatlands to be revealed over a given period. However, traditional methods are limited in their applicability to large and inaccessible peatlands. In this study, we introduce a remote sensing framework for easily indicating peat subsidence at a large scale. Our framework utilizes the Alaska Satellite Facility (ASF) Interferometry Synthetic Aperture Radar (InSAR) with on-demand cloud computing, employing an optimization process including a Small Baseline Set technique and seasonal-annual search approach. By implementing this approach in the Biebrza Valley, Poland, covering the period from April 2015 to April 2022, we unveiled a tragedy, an annual subsidence rate of 1.44 cm. It means a peat loss between 58.1 and 89.6 million cubic meters over seven years, an annual loss of 86.4 to 132.5 (average 109) m3, approximately 46 tons, of dry matter peat per hectare. This finding was verified through field surveys, with high accuracy. An R2 value of 0.7, and an RMSE value of 0.23 cm determine the reliability of this approach in estimating the vertical displacement. The potential of this tool as a robust method to assess large-scale peatlands would allow for the assessment of average water levels as well as greenhouse gas emissions over large areas of peatlands, even at the continental scale.
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