Mowing with invasive machinery can affect chemistry and trophic state of rheophilous mire

•Cutting a biomass by use of machinery devastates micro-topography of the peatland by pushing convex sedge tussocks into the peat.•Decomposition of organic matter forced into the floodwater/surface water can destroy the fragile state of dynamic redox equilibrium that is responsible for low P availability.•The enhanced P mobilization from soil storage may consequently affect the trophic state and biodiversity of the mire ecosystem. Vegetation management in the form of mowing or grazing is usually the obvious prescription for the protection of open wetlands facing the threat of secondary plant succession. This study assessed and quantified the response of the chemistry of a rheophilous mire to oxygen shortages caused by the decomposition of organic matter forced into the floodwater/surface water by the caterpillars of mowing machinery. We hypothesized that the addition of readily available carbon in the form of cut biomass would affect the redox conditions of the soil–water system and consequently enhance P mobilization from soil storage. The laboratory experiment demonstrated that the input of biomass produced favorable conditions (mean Eh