Tropical peatland burning in Asia has been intensifying over the last decades, emitting huge amounts of gas species and aerosol particles. Both laboratory and field studies have been conducted to investigate emission from peat burning, yet a significant variability in data still exists. We conducted a series of experiments to characterize the gas and particulate matter emitted during burning of a peat sample from Sumatra in Indonesia. Heating temperature of peat was found to regulate the ratio of CH4 to CO2 in emissions (ΔCH4/ΔCO2) as well as the chemical composition of particulate matter. The ΔCH4/ΔCO2 ratio was larger for higher temperatures, meaning that CH4 emission is more pronounced at these conditions. Mass spectrometric analysis of ...
Deforestation and draining of the peatlands in equatorial SE Asia has greatly increased their flamma...
Smouldering peat fires, the largest fires on Earth in terms of fuel consumption, are reported in six...
Fine particulate matter (PM<sub>2.5</sub>) was collected in situ from peat smoke during the 2015 El...
Tropical peatland burning in Asia has been intensifying over the last decades, emitting huge amounts...
Tropical peat swamp fires in Southeast Asia are a major source of greenhouse gases (GHGs), responsib...
Indonesia contains large areas of peatland that have been drained and cleared of natural vegetation,...
Abstract Southeast Asia experiences frequent fires in fuel‐rich tropical peatlands, leading to extre...
This thesis describes the work undertaken to determine the rate at which particulates are emitted fr...
Southeast Asia experiences frequent fires in fuel-rich tropical peatlands, leading to extreme episod...
Fires in tropical peatlands account for >25% of estimated total greenhouse gas emissions from defore...
Emissions from peat fires, the largest fires on Earth in terms of fuel consumption, are the dominan...
In response to a strong El Niño, fires in Indonesia during September and October 2015 released a lar...
Tropical peatlands store vast volumes of carbon belowground. Human land uses have led to their degra...
This is a preprint and has not been peer reviewed.Abstract. The 2015–2016 strong El Niño event has h...
Abstract. Peat fires in Southeast Asia have become a major annual source of trace gases and particle...
Deforestation and draining of the peatlands in equatorial SE Asia has greatly increased their flamma...
Smouldering peat fires, the largest fires on Earth in terms of fuel consumption, are reported in six...
Fine particulate matter (PM<sub>2.5</sub>) was collected in situ from peat smoke during the 2015 El...
Tropical peatland burning in Asia has been intensifying over the last decades, emitting huge amounts...
Tropical peat swamp fires in Southeast Asia are a major source of greenhouse gases (GHGs), responsib...
Indonesia contains large areas of peatland that have been drained and cleared of natural vegetation,...
Abstract Southeast Asia experiences frequent fires in fuel‐rich tropical peatlands, leading to extre...
This thesis describes the work undertaken to determine the rate at which particulates are emitted fr...
Southeast Asia experiences frequent fires in fuel-rich tropical peatlands, leading to extreme episod...
Fires in tropical peatlands account for >25% of estimated total greenhouse gas emissions from defore...
Emissions from peat fires, the largest fires on Earth in terms of fuel consumption, are the dominan...
In response to a strong El Niño, fires in Indonesia during September and October 2015 released a lar...
Tropical peatlands store vast volumes of carbon belowground. Human land uses have led to their degra...
This is a preprint and has not been peer reviewed.Abstract. The 2015–2016 strong El Niño event has h...
Abstract. Peat fires in Southeast Asia have become a major annual source of trace gases and particle...
Deforestation and draining of the peatlands in equatorial SE Asia has greatly increased their flamma...
Smouldering peat fires, the largest fires on Earth in terms of fuel consumption, are reported in six...
Fine particulate matter (PM<sub>2.5</sub>) was collected in situ from peat smoke during the 2015 El...