Major atmospheric emissions from peat fires in Southeast Asia during non-drought years: evidence from the 2013 Sumatran fires
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Locatelli, Bruno; Locatelli, Bruno
Harvested from ORCID Public Data File Sloan, Sean; Sloan, Sean
Harvested from ORCID Public Data File Wooster, Martin; Wooster, Martin
Harvested from ORCID Public Data File Marlier, Miriam E; Marlier, Miriam E
Harvested from ORCID Public Data File Locatelli, Bruno; Locatelli, Bruno
Harvested from ORCID Public Data File Sloan, Sean; Sloan, Sean
Harvested from ORCID Public Data File Wooster, Martin; Wooster, Martin
Harvested from ORCID Public Data File Marlier, Miriam E; Marlier, Miriam E
Harvested from ORCID Public Data File Verchot, Louis; Verchot, Louis
Harvested from ORCID Public Data File Nasi, Robert; Nasi, Robert
Harvested from ORCID Public Data File Sheil, Douglas; Sheil, Douglas
Harvested from ORCID Public Data FileMajor atmospheric emissions from peat fires in Southeast Asia during non-drought years: evidence from the 2013 Sumatran fires
AbstractTrans-boundary haze events in Southeast Asia are associated with large forest and peatland fires in Indonesia. These episodes of extreme air pollution usually occur during drought years induced by climate anomalies from the Pacific (El Niño Southern Oscillation) and Indian Oceans (Indian Ocean Dipole). However, in June 2013 – a non-drought year – Singapore's 24-hr Pollutants Standards Index reached an all-time record 246 (rated “very unhealthy”). Here, we show using remote sensing, rainfall records and other data, that the Indonesian fires behind the 2013 haze followed a two-month dry spell in a wetter-than-average year. These fires were short-lived (one week) and limited to a localized area in Central Sumatra (1.6% of Indonesia): burning an estimated 163,336 ha, including 137,044 ha (84%) on peat. Most burning was confined to deforested lands (82%; 133,216 ha). The greenhouse gas (GHG) emissions during this brief, localized event were considerable: 172 ± 59 Tg CO2-eq (or 31 ± 12 Tg C), representing 5–10% of Indonesia's mean annual GHG emissions for 2000–2005. Our observations show that extreme air pollution episodes in Southeast Asia are no longer restricted to drought years. We expect major haze events to be increasingly frequent because of ongoing deforestation of Indonesian peatlands.
- James Cook University Australia
- University of California System United States
- King’s University United States
- King's College London United Kingdom
- Centre de Coopération Internationale en Recherche Agronomique pour le Développement France
Incendie, Rain, forêt tropicale, INDONESIA, Analyse du risque, agriculture, Air Pollutants, T01 - Pollution, SCIENCE, fire ecology, Surface, COVER CHANGE, climate change, Gaz à effet de serre, Environmental Monitoring, Life on Land, P40 - Météorologie et climatologie, Télédétection, Évaluation du risque, Conditions météorologiques, 333, Fires, Atmospheric Sciences, Pollution atmosphérique, Couverture végétale, K70 - Dégâts causés aux forêts et leur protection, Précipitation, food security, Déboisement, Carbon, Climate Action, Indonesia, Earth Sciences, Tourbière, U40 - Méthodes de relevé, Dioxyde de carbone, agrovoc: agrovoc:c_34841, agrovoc: agrovoc:c_2915, agrovoc: agrovoc:c_6161, agrovoc: agrovoc:c_25409, agrovoc: agrovoc:c_35328, agrovoc: agrovoc:c_29565, agrovoc: agrovoc:c_3840, agrovoc: agrovoc:c_24904, agrovoc: agrovoc:c_37932, agrovoc: agrovoc:c_1302, agrovoc: agrovoc:c_37936, agrovoc: agrovoc:c_13929, agrovoc: agrovoc:c_15590, agrovoc: agrovoc:c_7518, agrovoc: agrovoc:c_7260, agrovoc: agrovoc:c_6498, agrovoc: agrovoc:c_228
Incendie, Rain, forêt tropicale, INDONESIA, Analyse du risque, agriculture, Air Pollutants, T01 - Pollution, SCIENCE, fire ecology, Surface, COVER CHANGE, climate change, Gaz à effet de serre, Environmental Monitoring, Life on Land, P40 - Météorologie et climatologie, Télédétection, Évaluation du risque, Conditions météorologiques, 333, Fires, Atmospheric Sciences, Pollution atmosphérique, Couverture végétale, K70 - Dégâts causés aux forêts et leur protection, Précipitation, food security, Déboisement, Carbon, Climate Action, Indonesia, Earth Sciences, Tourbière, U40 - Méthodes de relevé, Dioxyde de carbone, agrovoc: agrovoc:c_34841, agrovoc: agrovoc:c_2915, agrovoc: agrovoc:c_6161, agrovoc: agrovoc:c_25409, agrovoc: agrovoc:c_35328, agrovoc: agrovoc:c_29565, agrovoc: agrovoc:c_3840, agrovoc: agrovoc:c_24904, agrovoc: agrovoc:c_37932, agrovoc: agrovoc:c_1302, agrovoc: agrovoc:c_37936, agrovoc: agrovoc:c_13929, agrovoc: agrovoc:c_15590, agrovoc: agrovoc:c_7518, agrovoc: agrovoc:c_7260, agrovoc: agrovoc:c_6498, agrovoc: agrovoc:c_228
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