[{"@context":"http:\/\/schema.org\/","@type":"Dataset","identifier":"https:\/\/doi.org\/10.17043\/zeppelin-freitas-2023-bioaerosols-1","@id":"https:\/\/doi.org\/10.17043\/zeppelin-freitas-2023-bioaerosols-1","name":"Concentration of bioaerosols and ice nucleating particles at Zeppelin Observatory, Svalbard, 2017\u200a\u2013\u200a2020","description":"Using a single-particle online optical instrument we measured the coarse particle concentration (optical diameter bigger than 0.8 \u00b5m) at the Zeppelin Observatory, Svalbard from June 2019 to January 2021. Using ultra-violet laser-induced fluorescence, we further categorised these particles into non-fluorescent, fluorescent, highly-fluorescent and fluorescent primary biological aerosol particles (PBAP). PBAP accounts for particles such as bacteria and fungal spores. This is accompanied by transmission electronic microscopy images of PBAP sampled at the same site.\r\n\r\nPBAP are known to be efficient ice nucleating particles (INP), which facilitate the growth of ice particles in the atmosphere. Here, we also provide the concentration of INP at the Zeppelin observatory active at -12 \u00b0C along with their proteinaceous (heat-labile) fraction. Which was measured for the years 2017\u200a\u2013\u200a2020.\r\n\r\nThis dataset thus provide insights on the relationship between PBAP and INP in the Arctic and a valuable source for parametrisation of high-temperature Arctic INP.","url":"http:\/\/bolin.su.se\/data\/zeppelin-freitas-2023-bioaerosols-1","keywords":["Atmosphere","Aerosols","Bioaerosols","Arctic","Zeppelin","Svalbard","Ice nucleating particles","Black carbon","Earth science > Atmosphere > Aerosols"],"creator":{"@type":"Person","name":"Gabriel Pereira Freitas, Franz Conen, Kouji Adachi, Karl Espen Yttri, Radovan Krejci, Paul Zieger"},"citation":"Freitas, G., Adachi, K., Conen, F., Heslin-Rees, D., Krejci, R., Tobo, Y., Yttri, K. E., Zieger, P. (2023). Regionally sourced bioaerosols drive high-temperature ice nucleating particles in the Arctic. Nature Comm. (accepted in principle)\r\n\r\nFreitas, G. P., Stolle, C., Kaye, P. H., Stanley, W., Herlemann, D. P. R., Salter, M. E., & Zieger, P. (2022). Emission of primary bioaerosol particles from Baltic seawater. Environmental Science: Atmospheres, 2(5), 1170\u20131182. https:\/\/doi.org\/10.1039\/d2ea00047d\r\n\r\nLinn Karlsson, Radovan Krejci, Paul Zieger (2023) Equivalent black carbon concentration in- and outside low-level Arctic clouds at Zeppelin Observatory, Svalbard, 2015\u2060\u200a\u2013\u200a\u20602019. Dataset version 1. Bolin Centre Database. https:\/\/doi.org\/10.17043\/zeppelin-ebc-2015-2019-1","license":"https:\/\/opendatacommons.org\/licenses\/by\/","isAccessibleForFree":true,"includedInDataCatalog":{"@type":"DataCatalog","name":"Bolin Centre for Climate Research, Stockholm University","identifier":"https:\/\/bolin.su.se\/data\/","url":"https:\/\/bolin.su.se\/data\/"},"distribution":{"@type":"DataDownload","encodingFormat":"application\/zip","contentUrl":"https:\/\/bolin.su.se\/data\/uploads\/zeppelin-freitas-2023-bioaerosols-1.zip"},"size":2351274,"isBasedOn":"Freitas, G., Adachi, K., Conen, F., Heslin-Rees, D., Krejci, R., Tobo, Y., Yttri, K. E., Zieger, P. (2023). Regionally sourced bioaerosols drive high-temperature ice nucleating particles in the Arctic. Nature Comm. (accepted in principle)\r\n\r\nFreitas, G. P., Stolle, C., Kaye, P. H., Stanley, W., Herlemann, D. P. R., Salter, M. E., & Zieger, P. (2022). Emission of primary bioaerosol particles from Baltic seawater. Environmental Science: Atmospheres, 2(5), 1170\u20131182. https:\/\/doi.org\/10.1039\/d2ea00047d\r\n\r\nLinn Karlsson, Radovan Krejci, Paul Zieger (2023) Equivalent black carbon concentration in- and outside low-level Arctic clouds at Zeppelin Observatory, Svalbard, 2015\u2060\u200a\u2013\u200a\u20602019. Dataset version 1. Bolin Centre Database. https:\/\/doi.org\/10.17043\/zeppelin-ebc-2015-2019-1","temporalCoverage":"2019-06-21\/2019-06-21"}]