Understanding Sources and Drivers of Size-Resolved Aerosol in the High Arctic Islands of Svalbard Using a Receptor Model Coupled with Machine Learning

被引:26
作者
Song, Congbo [4 ]
Becagli, Silvia [1 ,2 ]
Beddows, David C. S. [3 ]
Brean, James [4 ]
Browse, Jo [5 ]
Dai, Qili [6 ]
Dall'Osto, Manuel [7 ]
Ferracci, Valerio [8 ]
Harrison, Roy M. [4 ,9 ,10 ]
Harris, Neil [8 ]
Li, Weijun [11 ]
Jones, Anna E.
Kirchgassner, Amelie
Kramawijaya, Agung Ghani [4 ]
Kurganskiy, Alexander [5 ]
Lupi, Angelo
Mazzola, Mauro
Severi, Mirko [1 ,2 ]
Traversi, Rita [1 ,2 ]
Shi, Zongbo [4 ]
机构
[1] Univ Florence, Dept Chem Ugo Schiff, I-50019 Sesto Fiorentino, Italy
[2] Natl Res Council Italy, Inst Polar Sci, I-30172 Venice Mestre, Italy
[3] Univ Birmingham, Natl Ctr Atmospher Sci NCAS, Sch Geog Earth & Environm Sci, Birmingham B15 2TT, England
[4] Univ Birmingham, Sch Geog Earth & Environm Sci, Birmingham B15 2TT, England
[5] Univ Exeter, Ctr Geog & Environm Sci, Penryn TR10 9FE, England
[6] Nankai Univ, Coll Environm Sci & Engn, State Environm Protect Key Lab Urban Ambient Air P, Tianjin 300350, Peoples R China
[7] Consejo Super Invest Cientif CSIC, Inst Marine Sci, Barcelona 08003, Spain
[8] Cranfield Univ, Ctr Environm & Agr Informat, Sch Water Energy & Environm, Cranfield MK43 0AL, England
[9] Univ Birmingham, Sch Geog Earth & Environm Sci, Birmingham B15 2TT, England
[10] King Abdulaziz Univ, Fac Meteorol Environm & Arid Land Agr, Dept Environm Sci, Jeddah 21589, Saudi Arabia
[11] Zhejiang Univ, Sch Earth Sci, Dept Atmospher Sci, Hangzhou 310027, Peoples R China
来源
ENVIRONMENTAL SCIENCE & TECHNOLOGY | 2022年
基金
英国自然环境研究理事会;
关键词
Arctic; source apportionment; positive matrix factorization; machine learning; particle number concentration; meteorology; SEA-SALT AEROSOL; PARTICLE FORMATION; NY-LESUND; MARINE; DISTRIBUTIONS; NUMBER; DUST; ZEPPELIN; CLIMATE;
D O I
10.1021/acs.est.1c07796
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
Atmospheric aerosols are important drivers of Arctic climate change through aerosol-cloud-climate interactions. However, large uncertainties remain on the sources and processes controlling particle numbers in both fine and coarse modes. Here, we applied a receptor model and an explainable machine learning technique to understand the sources and drivers of particle numbers from 10 nm to 20 mu m in Svalbard. Nucleation, biogenic, secondary, anthropogenic, mineral dust, sea salt and blowing snow aerosols and their major environmental drivers were identified. Our results show that the monthly variations in particles are highly size/source dependent and regulated by meteorology. Secondary and nucleation aerosols are the largest contributors to potential cloud condensation nuclei (CCN, particle number with a diameter larger than 40 nm as a proxy) in the Arctic. Nonlinear responses to temperature were found for biogenic, local dust particles and potential CCN, highlighting the importance of melting sea ice and snow. These results indicate that the aerosol factors will respond to rapid Arctic warming differently and in a nonlinear fashion.
引用
收藏
页码:11189 / 11198
页数:10
相关论文
共 43 条
  • [1] Overview paper: New insights into aerosol and climate in the Arctic
    Abbatt, Jonathan P. D.
    Leaitch, W. Richard
    Aliabadi, Amir A.
    Bertram, Allan K.
    Blanchet, Jean-Pierre
    Boivin-Rioux, Aude
    Bozem, Heiko
    Burkart, Julia
    Chang, Rachel Y. W.
    Charette, Joannie
    Chaubey, Jai P.
    Christensen, Robert J.
    Cirisan, Ana
    Collins, Douglas B.
    Croft, Betty
    Dionne, Joelle
    Evans, Greg J.
    Fletcher, Christopher G.
    Gali, Marti
    Ghahreman, Roya
    Girard, Eric
    Gong, Wanmin
    Gosselin, Michel
    Gourdal, Margaux
    Hanna, Sarah J.
    Hayashida, Hakase
    Herber, Andreas B.
    Hesaraki, Sareh
    Hoor, Peter
    Huang, Lin
    Hussherr, Rachel
    Irish, Victoria E.
    Keita, Setigui A.
    Kodros, John K.
    Koellner, Franziska
    Kolonjari, Felicia
    Kunkel, Daniel
    Ladino, Luis A.
    Law, Kathy
    Levasseur, Maurice
    Libois, Quentin
    Liggio, John
    Lizotte, Martine
    Macdonald, Katrina M.
    Mahmood, Rashed
    Martin, Randall V.
    Mason, Ryan H.
    Miller, Lisa A.
    Moravek, Alexander
    Mortenson, Eric
    [J]. ATMOSPHERIC CHEMISTRY AND PHYSICS, 2019, 19 (04) : 2527 - 2560
  • [2] Baccarini A, 2020, NAT COMMUN, V11, DOI 10.1038/s41467-020-18551-0
  • [3] Relationships linking primary production, sea ice melting, and biogenic aerosol in the Arctic
    Becagli, S.
    Lazzara, L.
    Marchese, C.
    Dayan, U.
    Ascanius, S. E.
    Cacciani, M.
    Caiazzo, L.
    Di Biagio, C.
    Di Iorio, T.
    di Sarra, A.
    Eriksen, P.
    Fani, F.
    Giardi, F.
    Meloni, D.
    Muscari, G.
    Pace, G.
    Severi, M.
    Traversi, R.
    Udisti, R.
    [J]. ATMOSPHERIC ENVIRONMENT, 2016, 136 : 1 - 15
  • [4] Biogenic Aerosol in the Arctic from Eight Years of MSA Data from Ny Ålesund (Svalbard Islands) and Thule (Greenland)
    Becagli, Silvia
    Amore, Alessandra
    Caiazzo, Laura
    Di Iorio, Tatiana
    di Sarra, Alcide
    Lazzara, Luigi
    Marchese, Christian
    Meloni, Daniela
    Mori, Giovanna
    Muscari, Giovanni
    Nuccio, Caterina
    Pace, Giandomenico
    Severi, Mirko
    Traversi, Rita
    [J]. ATMOSPHERE, 2019, 10 (07)
  • [5] Differing Mechanisms of New Particle Formation at Two Arctic Sites
    Beck, Lisa J.
    Sarnela, Nina
    Junninen, Heikki
    Hoppe, Clara J. M.
    Garmash, Olga
    Bianchi, Federico
    Riva, Matthieu
    Rose, Clemence
    Perakyla, Otso
    Wimmer, Daniela
    Kausiala, Oskari
    Jokinen, Tuija
    Ahonen, Lauri
    Mikkila, Jyri
    Hakala, Jani
    He, Xu-Cheng
    Kontkanen, Jenni
    Wolf, Klara K. E.
    Cappelletti, David
    Mazzola, Mauro
    Traversi, Rita
    Petroselli, Chiara
    Viola, Angelo P.
    Vitale, Vito
    Lange, Robert
    Massling, Andreas
    Nojgaard, Jakob K.
    Krejci, Radovan
    Karlsson, Linn
    Zieger, Paul
    Jang, Sehyun
    Lee, Kitack
    Vakkari, Ville
    Lampilahti, Janne
    Thakur, Roseline C.
    Leino, Katri
    Kangasluoma, Juha
    Duplissy, Ella-Maria
    Siivola, Erkki
    Marbouti, Marjan
    Tham, Yee Jun
    Saiz-Lopez, Alfonso
    Petaja, Tuukka
    Ehn, Mikael
    Worsnop, Douglas R.
    Skov, Henrik
    Kulmala, Markku
    Kerminen, Veli-Matti
    Sipila, Mikko
    [J]. GEOPHYSICAL RESEARCH LETTERS, 2021, 48 (04)
  • [6] Receptor modelling of both particle composition and size distribution from a background site in London, UK
    Beddows, D. C. S.
    Harrison, R. M.
    Green, D. C.
    Fuller, G. W.
    [J]. ATMOSPHERIC CHEMISTRY AND PHYSICS, 2015, 15 (17) : 10107 - 10125
  • [7] Open ocean and coastal new particle formation from sulfuric acid and amines around the Antarctic Peninsula
    Brean, James
    Dall'Osto, Manuel
    Simo, Rafel
    Shi, Zongbo
    Beddows, David C. S.
    Harrison, Roy M.
    [J]. NATURE GEOSCIENCE, 2021, 14 (06) : 383 - +
  • [8] Summertime observations of elevated levels of ultrafine particles in the high Arctic marine boundary layer
    Burkart, Julia
    Willis, Megan D.
    Bozem, Heiko
    Thomas, Jennie L.
    Law, Kathy
    Hoor, Peter
    Aliabadi, Amir A.
    Koellner, Franziska
    Schneiders, Johannes
    Herber, Andreas
    Abbatt, Jonathan P. D.
    Leaitch, W. Richard
    [J]. ATMOSPHERIC CHEMISTRY AND PHYSICS, 2017, 17 (08) : 5515 - 5535
  • [9] openair - An R package for air quality data analysis
    Carslaw, David C.
    Ropkins, Karl
    [J]. ENVIRONMENTAL MODELLING & SOFTWARE, 2012, 27-28 : 52 - 61
  • [10] Potential Source Contribution Function Analysis of High Latitude Dust Sources over the Arctic: Preliminary Results and Prospects
    Crocchianti, Stefano
    Moroni, Beatrice
    Waldhauserova, Pavla Dagsson
    Becagli, Silvia
    Severi, Mirko
    Traversi, Rita
    Cappelletti, David
    [J]. ATMOSPHERE, 2021, 12 (03)
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