This dataset contains biogeochemical and edaphic information from burned peat soil on the Stalybridge estate located near Manchester (UK), commonly referred to as Saddleworth moor. This study was conducted after a wildfire fire on the Saddleworth moor in June 2018. The sample plots included areas with deep and shallow peat burn. The data includes geographical information (location, elevation and slope), soil temperature and soil chemical composition (carbon, nitrogen and 22 other elements). The dataset is the result of research funded by a NERC Urgency grant entitled 'RECOUP-Moor: Restoring Ecosystem CarbOn Uptake of Post-fire Moorland' (NE/S011943/1, led by Dr. Bjorn Robroek of the University of Southampton (now Radboud University Nijmegen, the Netherlands). Full details about this dataset can be found at https://doi.org/10.5285/1fa8d605-b996-4687-ace2-1fa59cd5c6dd

This dataset contains information on the Bacterial Amplicon Sequence Variant (ASV) abundance from peat soil sampled following a wildfire on the Stalybridge estate (UK) in June 2020. Samples were taken in 10 established plots at three time periods following the fire: approximately 3 months, 10 months and 12 months post-fire. This was taken at two depths: 0 – 5cm from the surface (top) and 5 – 10 cm from the surface (bottom). The 10 plots were divided into two groups of five, one that was observed to have suffered a light burn (termed shallow burn) and one that received a more severe burn (termed deep burn). Five additional plots were sampled at the same time as the 3-month samples from a neighbouring unburned site (termed control plots). Samples where no ASVs were observed were removed from the dataset. Full details about this dataset can be found at https://doi.org/10.5285/01ced3c2-17c6-4512-b73b-e065afed7bad

Plot-scale percent cover of all plant species recorded between October and December 2019 in 360 1 x 1 m quadrats within two burnt areas of the 2019 Flow Country Wildfire and nearby unburnt control areas and within three additional historic burnt site with recorded wildfires in 1997, 2000 and 2011 respectively and their respective adjacent unburnt controls. At each site, quadrats were located in both “open” and “drain” plots to reflect the potential impact of artificial drainage on vegetation/fire response. For the sites within the footprint of the 2019 wildfire, fire damage data were also collected, only in burnt sites. Full details about this dataset can be found at https://doi.org/10.5285/4daf9b1e-c29f-4e38-855c-a68063e8e715