Understanding the Dynamics of Source-Apportioned Black Carbon in an Urban Background Environment

Pashneva, Daria; Minderytė, Agnė; Davulienė, Lina; Dudoitis, Vadimas; Byčenkienė, Steigvilė

doi:10.3390/atmos15070832

Atmosphere

2024

DOI: 10.3390/atmos15070832

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Understanding the Dynamics of Source-Apportioned Black Carbon in an Urban Background Environment

Daria Pashneva,

Agnė Minderytė,

Lina Davulienė

et al.

Abstract: This study aims to delineate the characteristics of black carbon (BC) in the atmosphere over the urban background environment in Vilnius (Lithuania) from 1 June 2021 to 31 May 2022 using aethalometer (Magee Scientific) measurements. The annual mean concentrations of BC originating from fossil fuels (BCff) and from biomass burning (BCbb) were found to be 0.63 μg m−3 with a standard deviation (SD) of 0.67 μg m−3 and 0.27 µg m−3 (0.35 μg m−3). The further findings highlight the dominance of fossil-fuel-related BC… Show more

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Cited by 2 publications

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İstanbul'da Kentsel Arka Planda Atmosferik Siyah Karbon Konsantrasyon Değişiminin Değerlendirilmesi

Çolak,

Onat,

Coşgun

et al. 2024

Journal of Anatolian Environmental and Animal Sciences

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Siyah karbon (Black Carbon, BC), eksik bir yanma ürünüdür ve ince partikül madde bileşeni olup solunduğunda insan sağlığı için zararlıdır. Ayrıca BC iklim değişikliğinde kısa ömürlü iklim zorlayıcısı (short lived climate force) olarak tanımlanmakta ve CO2’den sonra önemli bir ısı tutma etkisine sahiptir. Dünyanın diğer kentlerinde atmosferik BC konsantrasyon değişimi oldukça yaygın çalışılmışken, Türkiye’de sadece İstanbul’da kısıtlı sayıda trafik alanlarında çalışma bulunmaktadır. Bu çalışmada, İstanbul’da ilk kez kent arkaplanda BC’nin değişimleri ve diğer parametrelerle ilişkisi mevsimsel olarak incelenmiştir. BC ölçümleri tek dalga boyunda (880 nm) tek kanallı AE51 aethalometre ile yapılmıştır. Mevsimsel ortalama BC konsantrasyon değişimleri yaz, sonbahar, kış ve ilkbahar dönemlerinde sırasıyla 1,97 ± 3,10 µg/m3, 1,77 ± 2,36 µg/m3, 3,33 ± 4,29 µg/m3, 3,22 ± 3,25 µg/m3 olarak ölçüldü. En yüksek konsantrasyon kışın gözlendi. BC ile partikül madde ve trafikle ilgili kirleticiler (NOX gibi) arasında pozitif yüksek korelasyonlar olduğu tespit edildi. BC’nin gün içi saatlik değişimleri incelendiğinde trafiğin yoğun olduğu sabah ve akşam saatlerinde İstanbul trafiğinin bölgesel emisyonlara katkısı olduğu görüldü. Rüzgâr hızı, PBLH gibi meteorolojik parametrelerin ve mevsimsel konsantrasyon üzerinde önemli bir etkisi olduğu ve trafik kaynağının kentsel arka plan bölgesinde her mevsim önemli bir BC kaynağı olduğu söylenebilir. Kentsel ortamlarda BC’nin mekânsal dağılımının anlaşılması için uzun süreli mevsimsel farklar ortaya konulmasını ve hem sabit hem mobil ölçümlerle izlenmesini tavsiye ediyoruz.

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İstanbul'da Kentsel Arka Planda Atmosferik Siyah Karbon Konsantrasyon Değişiminin Değerlendirilmesi

Çolak,

Onat,

Coşgun

et al. 2024

Journal of Anatolian Environmental and Animal Sciences

View full text Add to dashboard Cite

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Measurement report: Source attribution and estimation of black carbon levels in an urban hotspot of the central Po Valley – an integrated approach combining high-resolution dispersion modelling and micro-aethalometers

Veratti,

Bigi,

Stortini

et al. 2024

Atmos. Chem. Phys.

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Abstract. Understanding black carbon (BC) levels and its sources in urban environments is of paramount importance due to the far-reaching health, climate, and air quality implications. While several recent studies have assessed BC concentrations at specific fixed urban locations, there is a notable lack of knowledge in the existing literature on spatially resolved data alongside source estimation methods. This study aims to fill this gap by conducting a comprehensive investigation of BC levels and sources in Modena (Po Valley, Italy), which serves as a representative example of a medium-sized urban area in Europe. Using a combination of multi-wavelength micro-aethalometer measurements and a hybrid Eulerian–Lagrangian modelling system, we studied two consecutive winter seasons (February–March 2020 and December 2020–January 2021). Leveraging the multi-wavelength absorption analyser (MWAA) model, we differentiate sources (fossil fuel combustion, FF, and biomass burning, BB) and components (BC vs. brown carbon, BrC) from micro-aethalometer measurements. The analysis reveals consistent, minimal diurnal variability in BrC absorption, in contrast to FF-related sources that exhibit distinctive diurnal peaks during rush hours, while BB sources show less diurnal variation. The city itself contributes significantly to BC concentrations (52 ± 16 %), with BB and FF playing a prominent role (35 ± 15 % and 9 ± 4 %, respectively). Long-distance transport also influences BC concentrations, especially in the case of BB and FF emissions, with 28 ± 1 % and 15 ± 2 %, respectively. When analysing the traffic-related concentrations, Euro 4 diesel passenger cars considerably contribute to the exhaust emissions. These results provide valuable insights for policy makers and urban planners to manage BC levels in medium-sized urban areas, taking into account local and long-distance sources.

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Understanding the Dynamics of Source-Apportioned Black Carbon in an Urban Background Environment

Cited by 2 publications

References 49 publications

İstanbul'da Kentsel Arka Planda Atmosferik Siyah Karbon Konsantrasyon Değişiminin Değerlendirilmesi

İstanbul'da Kentsel Arka Planda Atmosferik Siyah Karbon Konsantrasyon Değişiminin Değerlendirilmesi

Measurement report: Source attribution and estimation of black carbon levels in an urban hotspot of the central Po Valley – an integrated approach combining high-resolution dispersion modelling and micro-aethalometers

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