(08)                       Результаты работы лаборатории

ПУБЛИКАЦИИ

2018

Sokhi, R.S., A. Baklanov, K.H. Schlünzen (Eds.), Mesoscale Modelling for Meteorological and Air Pollution Applications, 9781783088263, Anthem Press (2018), p. 380

Baklanov, A., C.S.B. Grimmond, D. Carlson, D. Terblanche, X. Tang, V. Bouchet, B. Lee, G. Langendijk, R.K. Kolli, A. Hovsepyan, 2018: From urban meteorology, climate and environment research to integrated city services. Urban Climate, 23 330–341, DOI10.1016/j.uclim.2017.05.004. (Q1, IF=6,663, WoS, Scopus)

Baklanov, A., D. Brunner, G. Carmichael, J. Flemming, S. Freitas, M. Gauss, O. Hov, R. Mathur, K. Schlünzen, C. Seigneur, and B. Vogel, 2018: Key issues for seamless integrated chemistry-meteorology modeling. Bull. Amer. Meteor. Soc. doi:10.1175/BAMS-D-15-00166.1. (Q1, IF= 9.116, WoS, Scopus)

Baklanov, A., 2018: Overview of the European framework for online integrated air quality and meteorology modelling (EuMetChem). Atmospheric Chemistry and Physics, doi:10.5194/acp-special_issue370-preface; web: http://www.geosci-model-dev.net/acp-special_issue370-preface.pdf (Q1, IF=7.197, WoS, Scopus)

Palacios-Peña, L., Baró, R., Baklanov, A., Balzarini, A., Brunner, D., Forkel, R., Hirtl, M., Honzak, L., López-Romero, J. M., Montávez, J. P., Pérez, J. L., Pirovano, G., San José, R., Schröder, W., Werhahn, J., Wolke, R., Žabkar, R., and Jiménez-Guerrero, P.: An assessment of aerosol optical properties from remote-sensing observations and regional chemistry–climate coupled models over Europe, Atmos. Chem. Phys., 18, 5021-5043, https://doi.org/10.5194/acp-18-5021-2018, 2018. (Q1, IF=7.197, WoS, Scopus)

Varentsov, M., Konstantinov, P., Baklanov, A., Esau, I., Miles, V., and Davy, R., 2018: Anthropogenic and natural drivers of a strong winter urban heat island in a typical Arctic city, Atmos. Chem. Phys., 18, 17573–17587, https://doi.org/10.5194/acp-18-17573-2018, 2018. (Q1, IF=7.197, WoS, Scopus)

Ching, J., G. Mills, B. Bechtel, L. See, J. Feddema, X. Wang, C. Ren, O. Brousse, A. Martilli, M. Neophytou, P. Mouzourides, I. Stewart, A. Hanna, E. Ng, M. Foley, P. Alexander, D. Aliaga, D. Niyogi, A. Shreevastava, P. Bhalachandran, V. Masson, J. Hidalgo, J. Fung, M. Andrade, A. Baklanov, W. Dai, G. Milcinski, M. Demuzere, N. Brunsell, M. Pesaresi, S. Miao, Q. Mu, F. Chen, and N. Theeuwes, 2018: World Urban Database and Access Portal Tools (WUDAPT), an urban weather, climate and environmental modeling infrastructure for the Anthropocene. Bull. Amer. Meteor. Soc. doi:10.1175/BAMS-D-16-0236.1. (Q1, IF= 9.116, WoS, Scopus)

Lappalainen, HK, N Altimir, VM Kerminen, T Petäjä, R Makkonen, P Alekseychik, N Zaitseva, I Bashmakova, J Kujansuu, A Lauri, P Haapanala, SB Mazon, A Borisova, P Konstantinov, S Chalov, T Laurila, E Asmi, H Lihavainen, J Bäck, M Arshinov, A Mahura, S Arnold, T Vihma, P Uotila, G de Leeuw, I Kukkonen, S Malkhazova, VP Tynkkynen, I Fedorova, HC Hansson, S Dobrolyubov, V Melnikov, G Matvienko, A Baklanov, Y Viisanen, N Kasimov, H Guo, V Bondur, S Zilitinkevich and M Kulmala (2018) Pan-Eurasian Experiment (PEEX) Program: An overview of the first 5 years in operation and future prospects. Geography, Environment, Sustainability, Vol.11, No 1, p. 6-19. DOI-10.24057/2071-9388-2018-11-1-6-19 (Scopus)

Benedetti, A., Reid, J. S., Baklanov, A., Basart, S., Boucher, O., Brooks, I. M., Brooks, M., Colarco, P. R., Cuevas, E., da Silva, A., Di Giuseppe, F., Escribano, J., Flemming, J., Huneeus, N., Jorba, O., Kazadzis, S., Kinne, S., Knippertz, P., Laj, P., Marsham, J. H., Menut, L., Mona, L., Popp, T., Quinn, P. K., Rémy, S., Sekiyama, T. S., Tanaka, T., Terradellas, E., and Wiedensohler, A., 2018: Status and future of Numerical Atmospheric Aerosol Prediction with a focus on data requirements, Atmos. Chem. Phys., 8, 10615-10643, 10.5194/acp-18-10615-2018 (Q1, IF=7.197, WoS, Scopus)

Mahura, A., Gonzalez-Aparicio, I., Nuterman, R. and Baklanov, A., 2018: Seasonal Impact Analysis on Population due to Continuous Sulphur Emissions from Severonikel Smelters of the Kola Peninsula, Geogr. Environ. Sustain., 11(1), 130–144, doi:10.24057/2071-9388-2018-11-1-130144, 2018. (Scopus)

Amorim, J.H., Asker, C., Belusic, D., Carvalho, A.C., Engardt, M., Gidhagen, L., Hundecha, Y., Körnich, H., Lind, P., Olsson, E., Olsson, J., Segersson, D., Strömbäck, L., Joe, P., Baklanov, A., 2018. Integrated Urban Services for European cities: the Stockholm case. WMO Bull. 67 (2), 33–40.

Rocío Baró, Laura Palacios-Peña, Alexander Baklanov, Alessandra Balzarini, Dominik Brunner, Renate Forkel, Marcus Hirtl, Luka Honzak, Juan Luis Pérez, Guido Pirovano, Roberto San José, Wolfram Schröder, Johannes Werhahn, Ralf Wolke, Rahela Žabkar, and Pedro Jiménez-Guerrero: Regional effects of atmospheric aerosols on temperature: an evaluation of an ensemble of online coupled models, Atmos. Chem. Phys., 17, 9677-9696, https://doi.org/10.5194/acp-17-9677-2017, 2017 (Q1, IF=7.197, WoS, Scopus)

Baklanov, A., Korsholm, U. S., Nuterman, R., Mahura, A., Nielsen, K. P., Sass, B. H., Rasmussen, A., Zakey, A., Kaas, E., Kurganskiy, A., Sørensen, B., and González-Aparicio, I.: The Enviro-HIRLAM online integrated meteorology–chemistry modelling system: strategy, methodology, developments, and applications (v. 7.2), Geosci. Model Dev./ Atmos. Chem. Phys., 10, 2971-2999, https://doi.org/10.5194/gmd-10-2971-2017, 2017. (Q1, IF=7.197, WoS, Scopus

Диденко К.А., Погорельцев А.И., Шевчук Н.О. Внутрисезонная изменчивость мигрирующих и немигрирующих приливов // Инновационные методы и средства исследований в области физики атмосферы, гидрометеорологии, экологии и изменения климата: Доклады третьей международной конференции с элементами научной школы. Ставрополь : Северо-Кавказский федеральный университет. 2018. стр. 150-154. http://ra.rshu.ru/mps/dwnl/lab/pub/Stavropol_2018.pdf

Шевчук Н.О., Ортиков М.Ю., Погорельцев. А.И. Моделирование солнечных приливов с учетом суточных вариаций ионосферных проводимостей // Химическая физика. 2018. том 37. № 5. с. 93–106. DOI: 10.7868/S0207401X18050126 http://ra.rshu.ru/mps/dwnl/lab/pub/Shevchuk_Phys_Ch-em_2018.pdf

Попов А.А., Гаврилов Н.М., Андреев А.Б., Погорельцев А.И. Межгодовые изменения интенсивности мезомасштабных вариаций ночного свечения гидроксила в Алма-Ате // Солнечно-земная физика. 2018. Т. 4. № 2. DOI: 10.12737/szf-42201810 http://ra.rshu.ru/mps/dwnl/lab/pub/PopovEtAl_STP_2018.pdf

Koval A.V., Gavrilov N.M., Pogoreltsev A.I., Shevchuk N.O. 2018. Influence of solar activity on penetration of traveling planetary-scale waves from the troposphere into the thermosphere // Journal of Geophysical Research: Space Physics,s, 123. https://doi.org/10.1029/2018JA025680 http://ra.rshu.ru/mps/dwnl/lab/pub/Koval_et_al-2018-Journal_of_Geophysical_Research-_Space_Physics.pdf

Koval A.V., Gavrilov N.M., Pogoreltsev A.I., Shevchuk N.O. 2018. Propagation of stationary planetary waves to the thermosphere at different levels of solar activity // Journal of Atmospheric and Solar-Terrestrial Physics, 173, pp. 140-149. https://doi.org/10.1016/j.jastp.2018.03.012 http://ra.rshu.ru/mps/dwnl/lab/pub/Koval_Gavrilov_Po-goreltsev_Shevchuk_JASTP_2018.pdf

Кандиева К.К., Анискина О.Г., Погорельцев А.И. Влияние осцилляции Маддена — Джулиана на интенсивность и структуру полярного вихря // Ученые записки Российского государственного гидрометеорологического университета. 2018. № 50. С.18-27.
http://ra.rshu.ru/mps/dwnl/lab/pub/Kandieva_Aniskina_Po-goreltsev_2018.pdf

Rakushina E.V., Ermakova T.S., Pogoreltsev A.I. Changes in the zonal mean flow, temperature, and planetary waves observed in the Northern Hemisphere mid-winter months during the last decades (2018) Journal of Atmospheric and Solar-Terrestrial Physics, 171, pp. 234-240. https://doi.org/10.1016/j.jastp.2017.08.005 http://ra.rshu.ru/mps/dwnl/lab/pub/RakushinaEt-Al_JASTP_2018.pdf

Koval A.V., Gavrilov N.M., Pogoreltsev A.I., Savenkova E.N. 2018. Comparisons of planetary wave propagation to the upper atmosphere during stratospheric warming events at different QBO phases // Journal of Atmospheric and Solar-Terrestrial Physics. V. 171, P. 201-209. Doi 10.1016/j.jastp.2017.04.013. http://ra.rshu.ru/mps/dwnl/lab/pub/KovalEtAl_JASTP_2018.pdf

Gavrilov N.M., Koval A.V., Pogoreltsev A.I., Savenkova E.N. 2018. Simulating planetary wave propagation to the upper atmosphere during stratospheric warming events at different mountain wave scenarios // Advances in Space Research. V. 61, I. 7, p. 1819–1836. doi 10.1016/j.asr.2017.08.022.
http://ra.rshu.ru/mps/dwnl/lab/pub/GavrilovEtAl_ASR_2018.pdf

Коваль А.В., Гаврилов Н.М., Погорельцев А.И., Шевчук Н.О., Распространение стационарных планетарных волн в верхней атмосфере при разных уровнях солнечной активности // Геомагнетизм и аэрономия, 2018, том 58, № 2, с. 295-303. http://ra.rshu.ru/mps/dwnl/lab/pub/Koval_etal_GA_2018.pdf