about
The role of fire in UK peatland and moorland management: the need for informed, unbiased debatePyrogenic organic matter production from wildfires: a missing sink in the global carbon cycleQuantity, composition and water contamination potential of ash produced under different wildfire severities.Global trends in wildfire and its impacts: perceptions versus realities in a changing worldFire effects on soils: the human dimension.Towards a global assessment of pyrogenic carbon from vegetation fires.Carbon sequestration potential and physicochemical properties differ between wildfire charcoals and slow-pyrolysis biochars.The peatland vegetation burning debate: keep scientific critique in perspective. A response to Brown et al. and Douglas et al.Investigation of surface properties of soil particles and model materials with contrasting hydrophobicity using atomic force microscopy.Size fractionation as a tool for separating charcoal of different fuel source and recalcitrance in the wildfire ash layer.Effect of particle size on droplet infiltration into hydrophobic porous media as a model of water repellent soil.Prescribed fire and its impacts on ecosystem services in the UK.Impact of a moderate/high-severity prescribed eucalypt forest fire on soil phosphorous stocks and partitioning.Soil seal development under simulated rainfall: Structural, physical and hydrological dynamics.Organic matter identifies the nano-mechanical properties of native soil aggregates.Dopamine D3 receptor antagonist reveals a cryptic pocket in aminergic GPCRs.Pyrogenic organic matter produced during wildfires can act as a carbon sink - a reply to Billings & Schlesinger (2015).Cave development on the Caribbean coast of the Yucatan Peninsula, Quintana Roo, MexicoParticulate emissions from large North American wildfires estimated using a new top-down methodReplacing time with space: using laboratory fires to explore the effects of repeated burning on black carbon degradationCorrigendum to “Wildland fire ash: Production, composition and eco-hydro-geomorphic effects”, Earth Sci. Rev. 130 (2014) [103–127]Wildland fire ash: Production, composition and eco-hydro-geomorphic effectsCarbon loads, forms and sequestration potential within ash deposits produced by wildfire: new insights from the 2009 ‘Black Saturday’ fires, AustraliaAssessing water contamination risk from vegetation fires: Challenges, opportunities and a framework for progressCO<sub>2</sub> efflux from soils with seasonal water repellencyEffectiveness of Polyacrylamide, Wood Shred Mulch, and Pine Needle Mulch as Post-Fire Hillslope Stabilization Treatments in Two Contrasting Volcanic SoilsUsing Thermogravimetry as a Simple Tool for Nutrient Assessment in Fire Affected SoilsSpatially variable soil water repellency enhances soil respiration rates (CO<sub>2</sub> efflux)Forest floor chemical transformations in a boreal forest fire and their correlations with temperature and heating durationModelling and quantifying the spatial distribution of post-wildfire ash loadsAbundance and composition of free and aggregate-occluded carbohydrates and lignin in two forest soils as affected by wildfires of different severityDrop impact behaviour on alternately hydrophobic and hydrophilic layered bead packsWettability decay in an oil-contaminated waste-mineral mixture with dry-wet cyclesEffects of fire on the physicochemical properties of soil in a slash-and-burn agricultureOrganic matter and wettability characteristics of wildfire ash from Mediterranean conifer forestsExperimental characterization of the impact of temperature and humidity on the breakdown of soil water repellency in sandy soils and compostsHot-Water-Soluble Organic Compounds Related to Hydrophobicity in Sandy SoilsThe temporal evolution of wildfire ash and implications for post-fire infiltrationThermal analysis as a predictor for hydrological parameters of fire-affected soilsFT-IR spectroscopy reveals that ash water repellency is highly dependent on ash chemical composition
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Stefan H Doerr
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Stefan H. Doerr
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