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View article: Radiative forcing due to shifting southern African fire regimes
Radiative forcing due to shifting southern African fire regimes Open
Landscape fires emit climate-influencing greenhouse gases and aerosols. The vast majority of landscape fire emissions originate from tropical savannas, especially in Africa. During the fire season climatic conditions change, and fires burn…
View article: Representing extreme fires and their radiative effects in a global climate model via variable scaling of emissions: Case study of the 2020 California wildfires
Representing extreme fires and their radiative effects in a global climate model via variable scaling of emissions: Case study of the 2020 California wildfires Open
An accurate representation of biomass burning aerosol emissions is essential in Earth System Models to capture aerosol properties and reduce uncertainties in their interactions with radiation and climate. Sources of wildfire smoke include …
View article: Radiative forcing due to shifting southern African fire regimes
Radiative forcing due to shifting southern African fire regimes Open
Landscape fires emit climate-influencing greenhouse gases and aerosols. The vast majority of landscape fire emissions originate from tropical savannas, especially in Africa. During the fire season, the climatic and fuel conditions change, …
View article: A bottom–up savanna fire fuel consumption inventory and its application to savanna burning in Kafue National Park, Zambia
A bottom–up savanna fire fuel consumption inventory and its application to savanna burning in Kafue National Park, Zambia Open
Background Tropical savannas are the most extensively and frequently burned biome worldwide. To establish accurate emissions inventories for burning in tropical savannas, detailed biomass information is required. Available pan-tropical or …
View article: Framework for a savanna burning emissions abatement methodology applicable to fire-prone miombo woodlands in southern Africa
Framework for a savanna burning emissions abatement methodology applicable to fire-prone miombo woodlands in southern Africa Open
Background and aims To assess development of a robust emissions accounting framework for expansive miombo woodland savannas covering ~2 million km2 of southern Africa that typically are burnt under relatively severe late dry season (LDS) c…
View article: Dynamic savanna burning emission factors based on satellite data using a machine learning approach
Dynamic savanna burning emission factors based on satellite data using a machine learning approach Open
Landscape fires, predominantly found in the frequently burning global savannas, are a substantial source of greenhouse gases and aerosols. The impact of these fires on atmospheric composition is partially determined by the chemical breakup…
View article: Incentivizing sustainable fire management in Australia's northern arid spinifex grasslands
Incentivizing sustainable fire management in Australia's northern arid spinifex grasslands Open
Fire management across Australia's fire-prone 1.2 M km2 northern savannas region has been transformed over the past decade supported by the inception of Australia's national regulated emissions reduction market in 2012. Today, incentivised…
View article: Comment on egusphere-2023-267
Comment on egusphere-2023-267 Open
Abstract. Landscape fires, predominantly in the frequently burning global savannas, are a substantial source of greenhouse gases and aerosols. The impact of these fires on atmospheric composition is partially determined by the chemical bre…
View article: Comment on egusphere-2023-267
Comment on egusphere-2023-267 Open
Abstract. Landscape fires, predominantly in the frequently burning global savannas, are a substantial source of greenhouse gases and aerosols. The impact of these fires on atmospheric composition is partially determined by the chemical bre…
View article: Dynamic savanna burning emission factors based on satellite data using a machine learning approach
Dynamic savanna burning emission factors based on satellite data using a machine learning approach Open
Landscape fires, predominantly in the frequently burning global savannas, are a substantial source of greenhouse gases and aerosols. The impact of these fires on atmospheric composition is partially determined by the chemical breakup of th…
View article: Seasonal skew of tropical savanna fires
Seasonal skew of tropical savanna fires Open
Tropical savannas and grasslands are the most frequently burned biome in the world, and fire constitutes an important part of the ecosystem. In this ecosystem it can have both rejuvenating and destructive effects, depending on several fact…
View article: Drivers of spatial and temporal variability in savanna fire emission factors
Drivers of spatial and temporal variability in savanna fire emission factors Open
Roughly half of global fire emissions originate from savannas, and emission factors (EF) are used to quantify the amount of trace gases and aerosols emitted per unit dry matter burned. It is well known that these EFs vary substantially eve…
View article: Stable carbon isotopic composition of biomass burning emissions – implications for estimating the contribution of C <sub>3</sub> and C <sub>4</sub> plants
Stable carbon isotopic composition of biomass burning emissions – implications for estimating the contribution of C <sub>3</sub> and C <sub>4</sub> plants Open
Landscape fires are a significant contributor to atmospheric burdens of greenhouse gases and aerosols. Although many studies have looked at biomass burning products and their fate in the atmosphere, estimating and tracing atmospheric pollu…
View article: Comment on acp-2021-897
Comment on acp-2021-897 Open
Abstract. Landscape fires are a significant contributor to atmospheric burdens of greenhouse gases and aerosols. Although many studies have looked at biomass burning products and their fate in the atmosphere, estimating and tracing atmosph…
View article: Stable carbon isotopic composition of biomass burning emissions – implications for estimating the contribution of C3 and C4 plants
Stable carbon isotopic composition of biomass burning emissions – implications for estimating the contribution of C3 and C4 plants Open
Landscape fires are a significant contributor to atmospheric burdens of greenhouse gases and aerosols. Although many studies have looked at biomass burning products and their fate in the atmosphere, estimating and tracing atmospheric pollu…
View article: Instantaneous Pre-Fire Biomass and Fuel Load Measurements from Multi-Spectral UAS Mapping in Southern African Savannas
Instantaneous Pre-Fire Biomass and Fuel Load Measurements from Multi-Spectral UAS Mapping in Southern African Savannas Open
Landscape fires are substantial sources of (greenhouse) gases and aerosols. Fires in savanna landscapes represent more than half of global fire carbon emissions. Quantifying emissions from fires relies on accurate burned area, fuel load an…
View article: Modeling ozone Air Quality in the Netherlands and North-Western Europe in 2050
Modeling ozone Air Quality in the Netherlands and North-Western Europe in 2050 Open
Tropospheric ozone is a species whose concentration partially depends on meteorology,\nand partially on a complex non-linear chemistry. It is also hazardous to human health,\nand high ozone spikes in particular can be damaging to the respi…