Graham Ailish M, Spracklen Dominick V, McQuaid James B, Smith Thomas E L, Nurrahmawati Hanun, Ayona Devina, Mulawarman Hasyim, Adam Chaidir, Papargyropoulou Effie, Rigby Richard, Padfield Rory, Choiruzzad Shofwan
School of Earth and Environment University of Leeds Leeds UK.
National Centre for Earth Observation University of Leeds Leeds UK.
Geohealth. 2024 Nov 3;8(11):e2024GH001125. doi: 10.1029/2024GH001125. eCollection 2024 Nov.
Indonesia accounts for more than one third of the world's tropical peatlands. Much of the peatland in Indonesia has been deforested and drained, meaning it is more susceptible to fires, especially during drought and El Niño events. Fires are most common in Riau (Sumatra) and Central Kalimantan (Borneo) and lead to poor regional air quality. Measurements of air pollutant concentrations are sparse in both regions contributing to large uncertainties in both fire emissions and air quality degradation. We deployed a network of 13 low-cost PM sensors across urban and rural locations in Central Kalimantan and measured indoor and outdoor PM concentrations during the onset of an El Niño dry season in 2023. During the dry season (September 1st to October 31st), mean outdoor PM concentrations were 136 μg m, with fires contributing 90 μg m to concentrations. Median indoor/outdoor (I/O) ratios were 1.01 in rural areas, considerably higher than those reported during wildfires in other regions of the world (e.g., USA), indicating housing stock in the region provides little protection from outdoor PM We combined WRF-Chem simulated PM concentrations with the median fire-derived I/O ratio and questionnaire results pertaining to participants' time spent I/O to estimate 1.62 million people in Central Kalimantan were exposed to unhealthy, very unhealthy and dangerous air quality (>55.4 μg m) during the dry season. Our work provides new information on the exposure of people in Central Kalimantan to smoke from fires and highlights the need for action to help reduce peatland fires.
印度尼西亚的热带泥炭地占世界总量的三分之一以上。印度尼西亚的许多泥炭地已遭森林砍伐和排水,这意味着它们更容易发生火灾,尤其是在干旱和厄尔尼诺事件期间。火灾在廖内省(苏门答腊岛)和中加里曼丹省(婆罗洲)最为常见,导致当地空气质量不佳。这两个地区空气污染物浓度的测量数据稀少,导致火灾排放和空气质量恶化方面存在很大的不确定性。我们在中加里曼丹省的城乡地区部署了一个由13个低成本颗粒物传感器组成的网络,并在2023年厄尔尼诺旱季开始时测量了室内和室外的颗粒物浓度。在旱季(9月1日至10月31日),室外颗粒物平均浓度为136微克/立方米,火灾导致的浓度为90微克/立方米。农村地区室内/室外(I/O)比率中位数为1.01,远高于世界其他地区(如美国)野火期间报告的比率,这表明该地区的住房对室外颗粒物几乎没有防护作用。我们将WRF-Chem模拟的颗粒物浓度与火灾衍生的I/O比率中位数以及与参与者在室内/室外花费时间相关的问卷调查结果相结合,估计中加里曼丹省有162万人在旱季暴露于不健康、非常不健康和危险的空气质量(>55.4微克/立方米)中。我们的工作提供了有关中加里曼丹省居民接触火灾烟雾的新信息,并强调了采取行动帮助减少泥炭地火灾的必要性。
