ZOTTO Publications

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1Timokhina, A. V., Prokushkin, A. S., Panov, A. V., Kolosov, R. A., Sidenko, N. V., Lavric, J. V., Heimann, M. (2018). Interannual variability of atmospheric CO2 concentrations over central Siberia from ZOTTO data for 2009–2015. Russian Meteorology and Hydrology, 43(5), 288-294. doi:10.3103/S1068373918050023.
2Konovalov, I. B., Lvova, D. A., Beekmann, M., Jethva, H., Mikhailov, E. F., Paris, J.-D., Belan, B. D., Kozlov, V. S., Ciais, P., Andreae, M. O. (2018). Estimation of black carbon emissions from Siberian fires using satellite observations of absorption and extinction optical depths. Atmospheric Chemistry and Physics Discussions. doi:10.5194/acp-2018-469.
3Ezhova, E., Ylivinkka, I., Kuusk, J., Komsaare, K., Vana, M., Krasnova, A., Noe, S., Arshinov, M., Belan, B., Park, S.-B., Lavric, J. V., Heimann, M., Petäjä, T., Vesala, T., Mammarella, I., Kolari, P., Bäck, J., Rannik, U., Kerminen, V.-M., Kulmala, M. (2018). Direct effect of aerosols on solar radiation and gross primary production in boreal and hemiboreal forests. Atmospheric Chemistry and Physics Discussions. doi:10.5194/acp-2018-694.
4Park, S.-B., Knohl, A., Lucas-Moffat, A., Migliavacca, M., Gerbig, C., Vesala, T., Peltola, O., Mammarella, I., Kolle, O., Lavric, J. V., Prokushkin, A., Heimann, M. (2018). Strong radiative effect induced by clouds and smoke on forest net ecosystem productivity in central Siberia. Agricultural and Forest Meteorology, 250-251, 376-387. doi:10.1016/j.agrformet.2017.09.009.
5Grodnitskaya, I. D., Karpenko, L. V., Syrtsov, S. N., Prokushkin, A. S. (2018). Microbiological parameters and peat stratigraphy of two types of bogs in the northern part of the Sym–Dubches interfluve (Krasnoyarsk Krai). Biology Bulletin, 45(2), 160-170. doi:10.1134/S1062359018020036.
6Panov, A. V., Prokushkin, A. S., Bryukhanov, A. V., Korets, M. A., Ponomarev, E. I., Sidenko, N. V., Zrazhevskaya, G. K., Timokhina, A. V., Andreae, M. O. (2018). A complex approach for the estimation of carbonaceous emissions from wildfires in Siberia. Russian Meteorology and Hydrology, 43(5), 295-301. doi:10.3103/S1068373918050035.
7Prokushkin, A. S., Karpenko, L. V., Tokareva, I. V., Korets, M. A., Pokrovskii, O. S. (2017). Carbon and nitrogen in the bogs of the northern part of the Sym-Dubches interfluve. Geography and natural resources, 2, 114-123. doi:10.21782/GiPR0206-1619-2017-2(114-123).
8Mikhailov, E. F., Mironova, S., Mironov, G., Vlasenko, S., Panov, A., Chi, X., Walter, D., Carbone, S., Artaxo, P., Heimann, M., Lavric, J. V., Pöschl, U., Andreae, M. O. (2017). Long-term measurements (2010–2014) of carbonaceous aerosol and carbon monoxide at the Zotino Tall Tower Observatory (ZOTTO) in central Siberia. Atmospheric Chemistry and Physics, 17(23), 14365-14392. doi:10.5194/acp-17-14365-2017.
9Shtabkin, Y. A., Moiseenko, K. B., Skorokhod, A. I., Vasileva, A. V., Heimann, M. (2016). Sources of and variations in tropospheric CO in Central Siberia: Numerical experiments and observations at the Zotino Tall Tower Observatory. Izvestiya Atmospheric and Oceanic Physics, 52(1), 45-56. doi:10.1134/S0001433816010096.
10Panov, A. V., Prokushkin, A. S., Korets, M. A., Bryukhanov, A. V., Myers-Pigg, A. N., Louchouarn, P., Sidenko, N. V., Amon, R., Andreae, M. O., Heimann, M. (2016). Linking trace gas measurements and molecular tracers of organic matter in aerosols for identification of ecosystem sources and types of wildfires in Central Siberia. In E. Gordov (Ed.), IOP Conf. Series: Earth and Environmental Science (pp. 1-8).
11Konovalov, I. B., Beekmann, M., Berezin, E. V., Petetin, H., Mielonen, T., Kuznetsova, I. N., Andreae, M. O. (2015). The role of semi-volatile organic compounds in the mesoscale evolution of biomass burning aerosol: a modeling case study of the 2010 mega-fire event in Russia. Atmospheric Chemistry and Physics, 15(23), 13269-13297. doi:10.5194/acp-15-13269-2015.
12Mikhailov, E. F., Mironov, G. N., Pöhlker, C., Chi, X., Krüger, M. L., Shiraiwa, M., Förster, J.-D., Pöschl, U., Vlasenko, S. S., Ryshkevich, T. I., Weigand, M., Kilcoyne, A. L. D., Andreae, M. O. (2015). Chemical composition, microstructure, and hygroscopic properties of aerosol particles at the Zotino Tall Tower Observatory (ZOTTO), Siberia, during a summer campaign. Atmospheric Chemistry and Physics, 15(15), 8847-8869. doi:10.5194/acp-15-8847-2015.
13Mikhailov, E. F., Mironova, S. Y., Makarova, M. V., Vlasenko, S. S., Ryshkevich, T. I., Panov, A. V., Andreae, M. O. (2015). Studying seasonal variations in carbonaceous aerosol particles in the atmosphere over central Siberia. Izvestiya Atmospheric and Oceanic Physics, 51(4), 423-430. doi:10.1134/S000143381504009X.
14Timokhina, A. V., Prokushkin, A. S., Onuchin, A. A., Panov, A. V., Kofman, G. B., Verkhovets, S. V., Heimann, M. (2015). Long-term trend in CO2 concentration in the surface atmosphere over Central Siberia. Russian Meteorology and Hydrology, 40(3), 186-190. doi:10.3103/S106837391503005X.
15Ryshkevich, T. I., Mironov, G. N., Mironova, S. Y., Vlasenko, S. S., Chi, X., Andreae, M. O., Mikhailov, E. F. (2015). Comparative analysis of hygroscopic properties of atmospheric aerosols at ZOTTO Siberian background station during summer and winter campaigns of 2011. Izvestiya Atmospheric and Oceanic Physics, 51(5), 512-519. doi:10.1134/S0001433815050114.
16Timokhina, A. V., Prokushkin, A. S., Onuchin, A. A., Panov, A. V., Kofman, G. B., Heimann, M. (2015). Variability of ground CO2 concentration in the middle taiga subzone of the Yenisei region of Siberia. Russian Journal of Ecology, 46(2), 143-151. doi:10.1134/S1067413615020125.
17Konovalov, I. B., Berezin, E. V., Ciais, P., Broquet, G., Beekmann, M., Hadji-Lazaro, J., Clerbaux, C., Andreae, M. O., Kaiser, J. W., Schulze, E. D. (2014). Constraining CO2 emissions from open biomass burning by satellite observations of co-emitted species: a method and its application to wildfires in Siberia. Atmospheric Chemistry and Physics, 14, 10383-10410. doi:10.5194/acp-14-10383-2014.
18Winderlich, J., Gerbig, C., Kolle, O., Heimann, M. (2014). Inferences from CO2 and CH4 concentration profiles at the Zotino Tall Tower Observatory (ZOTTO) on regional summertime ecosystem fluxes. Biogeosciences, 11(7), 2055-2068. doi:10.5194/bg-11-2055-2014.
19Heimann, M., Schulze, E. D., Winderlich, J., Andreae, M. O., Chi, X., Gerbig, C., Kolle, O., Kübler, K., Lavric, J. V., Mikhailov, E., Panov, A., Park, S., Rödenbeck, C., Skorochod, A. (2014). The Zotino Tall Tower Observatory (Zotto): Quantifying large scale biogeochemical changes in Central Siberia. Nova Acta Leopoldina NF, 117(399), 51-64.
20Schuldt, R., Brovkin, V., Kleinen, T., Winderlich, J. (2013). Modelling Holocene carbon accumulation and methane emissions of boreal wetlands: an earth system model approach. Biogeosciences, 10(3), 1659-1674. doi:10.5194/bg-10-1659-2013.
21Heintzenberg, J., Birmili, W., Seifert, P., Panov, A., Chi, X. G., Andreae, M. O. (2013). Mapping the aerosol over Eurasia from the Zotino Tall Tower. Tellus, Series B - Chemical and Physical Meteorology, 65(1): 20062. doi:10.3402/tellusb.v65i0.20062.
22Chi, X., Winderlich, J., Mayer, J.-.-C., Panov, A. V., Heimann, M., Birmili, W., Heintzenberg, J., Cheng, Y., Andreae, M. O. (2013). Long-term measurements of aerosol and carbon monoxide at the ZOTTO tall tower to characterize polluted and pristine air in the Siberian taiga. Atmospheric Chemistry and Physics, 13, 12271-12298. doi:10.5194/acp-13-12271-2013.
23Stjernberg, A.-C.-E.-S.-E., Skorokhod, A., Paris, J. D., Elansky, N., Stohl, P. N. &. A. (2012). Low concentrations of near-surface ozone in Siberia. Tellus, Series B - Chemical and Physical Meteorology, 64(1): 11607. doi:10.3402/tellusb.v64i0.11607.
24Panov, A. V., Heintzenberg, J., Birmili, W., Otto, R., Chi, X., Zrazhevskaya, G. K., Timokhina, A. V., Verkhovets, S. V., Andreae, M., Onuchin, A. A. (2011). Sources, seasonal variability, and trajectories of atmospheric aerosols over central Siberian forest ecosystems. Doklady Earth Sciences, 441(2), 1710-1714. doi:10.1134/S1028334X1112018X.
25Heintzenberg, J., Birmili, W., Otto, R., Andreae, M. O., Mayer, J.-C., Chi, X., Panov, A. (2011). Aerosol particle number size distributions and particulate light absorption at the ZOTTO tall tower (Siberia), 2006-2009. Atmospheric Chemistry and Physics, 11(16), 8703-8719. doi:10.5194/acp-11-8703-2011.
26Vasileva, A. V., Moiseenko, K. B., Mayer, J. C., Jürgens, N., Panov, A., Heimann, M., Andreae, M. O. (2011). Assessment of the regional atmospheric impact of wildfire emissions based on CO observations at the ZOTTO tall tower station in central Siberia. Journal of Geophysical Research-Atmospheres, 116, D07301. doi:10.1029/2010jd014571.
27Lavric, J. V., Heimann, M., Gerbig, C., Winderlich, J., Schulze, E.-D., Andreae, M., Onuchin, A., Panov, A. (2011). Walk Tall: A look up at the Zotino Tall Tower Observatory. Meteorological Technology International, 6-10.
28Winderlich, J., Chen, H., Gerbig, C., Seifert, T., Kolle, O., Lavric, J. V., Kaiser, C., Hofer, A., Heimann, M. (2010). Continuous low-maintenance CO2/CH4/H2O measurements at the Zotino Tall Tower Observatory (ZOTTO) in Central Siberia. Atmospheric Measurement Techniques, 3(4), 1113-1128. doi:10.5194/amt-3-1113-2010.
29Kozlova, E. A., Manning, A. C. (2009). Methodology and calibration for continuous measurements of biogeochemical trace gas and O2 concentrations from a 300-m tall tower in central Siberia. Atmospheric Measurement Techniques, 2(1), 205-220. doi:10.5194/amt-2-205-2009.
30Vivchar, A. V., Moiseenko, K. B., Shumskii, R. A., Skorokhod, A. I. (2009). Identifying anthropogenic sources of nitrogen oxide emissions from calculations of Lagrangian trajectories. Izvestiya Atmospheric and Oceanic Physics, 45(3), 302-313. doi:10.1134/S0001433809030049.
31Kozlova, E. A., Manning, A. C., Kisilyakhov, Y., Seifert, T., Heimann, M. (2008). Seasonal, synoptic, and diurnal-scale variability of biogeochemical trace gases and O2 from a 300-m tall tower in central Siberia. Global Biogeochemical Cycles, 22(4), B4020. doi:10.1029/2008GB003209.
32Heintzenberg, J., Birmili, W., Theiss, D., Kisilyakhov, Y. (2008). The atmospheric aerosol over Siberia, as seen from the 300 m ZOTTO tower. Tellus, Series B - Chemical and Physical Meteorology, 60(3), 276-285. doi:10.1111/j.1600-0889.2007.00335.x.
33Eschert, J. (2003). The Tower in the Taiga. Max Planck Research Magazine, 1203, 102-104.
34Lloyd, J., Langenfelds, R. L., Francey, R. J., Gloor, M., Tchebakova, N. M., Zolotoukhine, D., Brand, W. A., Werner, R. A., Jordan, A., Allison, C. A., Zrazhewske, V., Shibistova, O., Schulze, E.-D. (2002). A trace-gas climatology above Zotino, central Siberia. Tellus, Series B - Chemical and Physical Meteorology, 54(5), 749-767.
35Schulze, E.-D., Vygodskaya, N. N., Tchebakova, N. M., Czimczik, C. I., Kozlov, D. N., Lloyd, J., Mollicone, D., Parfenova, E., Sidorov, K. N., Varlagin, A. V., Wirth, C. (2002). The Eurosiberian Transect: an introduction to the experimental region. Tellus, Series B - Chemical and Physical Meteorology, 54(5), 421-428. doi:10.1034/j.1600-0889.2002.01342.x.
36Shibistova, O., Lloyd, J., Evgrafova, S., Savushkina, N., Zrazhevskaya, G., Arneth, A., Knohl, A., Kolle, O., Schulze, E.-D. (2002). Seasonal and spatial variability in soil CO2 efflux rates for a central Siberian Pinus sylvestris forest. Tellus, Series B - Chemical and Physical Meteorology, 54(5), 552-567. doi:10.1034/j.1600-0889.2002.01348.x.
37Styles, J. M., Lloyd, J., Zolotoukhine, D., Lawton, K. A., Tchebakova, N., Francey, R. J., Arneth, A., Salamakho, D., Kolle, O., Schulze, E.-D. (2002). Estimates of regional surface carbon dioxide exchange and carbon and oxygen isotope discrimination during photosynthesis from concentration profiles in the atmospheric boundary layer. Tellus, Series B - Chemical and Physical Meteorology, 54(5), 768-783. doi:10.1034/j.1600-0889.2002.01336.x.
38Gloor, M., Bakwin, P., Hurst, D., Lock, L., Draxler, R., Tans, P. (2001). What is the concentration footprint of a tall tower? Journal of Geophysical Research-Atmospheres, 106(16), 17831-17840. doi:10.1029/2001JD900021.