Faculty of Mathematics and Natural Sciences - Geography Department


Peer-Reviewed Articles


  • Churkina G, Kuik F, Bonn B, Lauer A, Grote R, Tomiak K, Butler TM, Effect of VOC emissions from vegetation on air quality in Berlin during a heatwave. Environmental Science and Technology, in press.
  • Baldacchini C, Castanheiro A, Maghakyan N, Sgrigna G, Verhelst J, Alonso R, Amorim JH, Bellan P, Breuste J, Bühler O, Cântar IC, Cariñanos P, Carriero G, Churkina G, Dinca L, Esposito R, Gawronski SW, Kern M, Le Thiec D, Moretti M, Ningal T, Rantzoudi EC, Sinjur I, Stojanova B, Aničić Urošević M, Velikova V, Zivojinovic I, Sahakyan L, Calfapietra C, Samson R, How does the amount and composition of PM deposited on Platanus acerifolia leaves change across different cities in Europe? . Environmental Science and Technology, 51, (3), 1147-1156.



  • Churkina G, The role of urbanization in the global carbon cycle. Frontiers in Ecology and Evolution 3.
  • Tigges J, Churkina G, Lakes T, Modeling above-ground carbon storage: a remote sensing approach to derive individual tree species information in urban settings. Urban Ecosystems:1-15.
  • Hidy D, Barcza Z, Marjanović H, Ostrogović Sever MZ, Dobor L, Gelybó G, Fodor N, Pintér K, Churkina G, Running S, Thornton P, Bellocchi G, Haszpra L, Horváth F, Suyker A, Nagy Z Terrestrial ecosystem process model Biome-BGCMuSo v4.0: summary of improvements and new modeling possibilities. Geosci. Model Dev. 9:4405-4437.
  • Kuik F, Lauer A, Churkina G, Denier van der Gon HAC, Fenner D, Mar KA, Butler TM Air quality modelling in the Berlin–Brandenburg region using WRF-Chem v3.7.1: sensitivity to resolution of model grid and input data. Geosci. Model Dev. 9:4339-4363.
  • Ma S, Churkina G, Gessler A, Wieland R Yield gap of winter wheat in Europe and sensitivity of potential yield to climate factors. Climate Research 67:179-190.
  • Tiwari S, Grote R, Churkina G, Butler T. Ozone damage, detoxification and the role of isoprenoids – new impetus for integrated models. Functional Plant Biology 43: 324-336.
  • Grote R, Samson R, Alonso R, Amorim JH, Cariñanos P, Churkina G, Fares S, Thiec DL, Niinemets Ü, Mikkelsen TN, Paoletti E, Tiwary A, Calfapietra C, Functional traits of urban trees: air pollution mitigation potential. Front. Ecol. Environ. 14:543-550.
  • Bonn B, von Schneidemesser E, Andrich D, Quedenau J, Gerwig H, Lüdecke A, Kura J, Pietsch A, Ehlers C, Klemp D, Kofahl C, Nothard R, Kerschbaumer A, Junkermann W, Grote R, Pohl T, Weber K, Lode B, Schönberger P, Churkina G, Butler TM, Lawrence MG, BAERLIN2014 - The influence of land surface types on and the horizontal heterogeneity of air pollutant levels in Berlin. Atmospheric Chemistry and Physics 2016: 7785-7811.



  • Churkina G, Grote R, Butler TM, Lawrence M, Natural selection? Picking the right trees for urban greening. Environmental Science & Policy 47: 12-17.



  • Luyssaert S, Jammet M, Stoy PC, Estel S, Pongratz J, Ceschia E, Churkina G, Don A, Erb K, Ferlicoq M, Gielen B, Grunwald T, Houghton RA, Klumpp K, Knohl A, Kolb T, Kuemmerle T, Laurila T, Lohila A, Loustau D, McGrath MJ, Meyfroidt P, Moors EJ, Naudts K, Novick K, Otto J, Pilegaard K, Pio CA, Rambal S, Rebmann C, Ryder J, Suyker AE, Varlagin A, Wattenbach M, Dolman AJ, Land management and land-cover change have impacts of similar magnitude on surface temperature. Nature Climate Change 4: 389-393.
  • Schreyer J, Tigges J, Lakes T, Churkina G, Using Airborne LiDAR and QuickBird Data for Modelling Urban Tree Carbon Storage and Its Distribution—A Case Study of Berlin. Remote Sensing 6, 10636-10655.
  • Hlásny T, Barcza Z, Barka I, Merganičová K, Sedmák R, Kern A, Pajtík J, Balázs B, Fabrika M, Churkina G Future carbon cycle in mountain spruce forests of Central Europe: Modelling framework and ecological inferences. Forest Ecology and Management, 328: 55-68.



  • Rodeghiero M, Churkina G, Martinez C, Scholten T, Gianelle D, Cescatti A, Components of forest soil CO2 efflux estimated from delta14C values of soil organic matter. Plant & Soil, 364: 55-68.



  • Ma S, Churkina G & Trusilova K, Investigating the impact of climate change on crop phenological events in Europe with a phenology model. International Journal of Biometeorology, 56 (4): 749-763.
  • Hidy, D., Barcza, Z., Haszpra, L., Churkina, G., Pintér, K., Nagy, Z., 2012. Development of the Biome-BGC model for simulation of managed herbaceous ecosystems. Ecological  Modelling, 226, 99-119.



  • Ma S, Churkina G, Wieland R, Gessler A, Optimization and evaluation of the ANTHRO-BGC model for winter crops in Europe. Ecological Modelling, 222 (20-22): 3662-3679.
  • Hlásny T, Barcza Z, Fabrika M, Balázs B, Churkina G, Pajtík J, Sedmák R, Turcáni M, Climate change impacts on growth and carbon balance of forests in Central Europe. Climate Research, 47(3): 219-236.
  • Barcza Z, Bondeau A, Churkina G, Ciais P, Czóbel S, Galybó G, Grosz B, Haszpra L, Hidy D, Horváth L, Machon A, Pásztor L, Somogyi Z, Van Oost K Model based biospheric greenhouse gas balance of Hungary. Pages: 295-332 in: Haszpra L (Ed) Atmospheric greenhouse gases: The Hungarian perspective. Springer, New York.
  • Grosz B, Galybó G, Churkina G, Haszpra L, Horváth L, Kern A, Kljun N, Machon A, Pásztor L, Barcza Z Arable lands. . Pages: 263-294 in: Haszpra L (Ed) Atmospheric greenhouse gases: The Hungarian perspective. Springer, New York.
  • Hidy D, Machon A, Haszpra L, Nagy Z, Pintér K, Churkina G, Grosz B, Horváth L, Barcza Z Grasslands. Pages: 229-252 in: Haszpra L (Ed) Atmospheric greenhouse gases: The Hungarian perspective. Springer, New York.


  • Churkina G, Brown D, Keoleian GA, Carbon stored in human settlements: the conterminous US. Global Change Biology, 16, 135-143.
  • Churkina G, Zaehle S, Hughes J, Viovy N, Chen Y, Jung M, Heumann BW, Ramankutty N, Heimann M, Jones C, Interactions between nitrogen deposition, land cover conversion, and climate change determine the contemporary carbon balance of Europe. Biogeosciences, 7, 2749-2764
  • Moffat AM, Beckstein C, Churkina G, Mund M, Heimann M, A new methodology for characterizing ecosystem responses to their climatic controls. Global Change Biology, 16, 2737-2749.
  • Luyssaert S, Ciais P, Piao SL, Schulze ED, Jung M, Zaehle S, Schelhaas MJ, Reichstein M, Churkina G, Papale D, Abril G, Beer C, Grace J, Loustau D, Matteucci G, Magnani F, Nabuurs GJ, Verbeeck H, Sulkava M, van der Werf GR, Janssens IA, CARBOEUROPE-IP Synthesis Team, The European carbon balance. Part 3: forests. Global Change Biology, 16, 1429 – 1450.
  • Tupek B, Zanchi G, Verkerk PJ, Churkina G, Viovy N, Hughes JK, Lindner M, A comparison of alternative modelling approaches to evaluate the European forest carbon fluxes. Forest Ecology and Management, 260, 241-251.
  • Liberloo M, Luyssaert S, Bellassen V, Njakou Djomo S, Lukac M, Calfapietra C, Janssens IA, Hoosbeek MR, Viovy N, Churkina G, Scarascia-Mugnozza G, Ceulemans R Bio-Energy Retains Its Mitigation Potential Under Elevated CO2. PLoS ONE, 5, e11648.



  • Churkina G, Brovkin V, Von Bloh W, Trusilova K, Jung M, and Dentener FJ, Synergy of rising nitrogen depositions and atmospheric CO2 on land carbon uptake offsets global warming, Global Biogeochemical Cycles, 23, GB4027.
  • Trusilova K, Jung M and Churkina G, A note on climate impacts of a potential expansion of urban land in Europe, Journal of Applied Meteorology and Climatology, 48, 1971-1980.
  • Barcza Z, Haszpra L, Somogyi Z, Hidy D, Lovas K, Churkina G, and Horvath L, Estimation of the biospheric carbon dioxide balance of Hungary using the BIOME-BGC model, Quarterly Journal of the Hungarian Meteorological Service, 113, 203-219.




  • Churkina G, Modelling carbon cycle of urban systems. Ecological Modelling, 216: 107-113.
  • Vetter M, Churkina G, Jung M, Reichstein M, Zähle S, Bondeau A, Chen Y, Ciais P, Feser F, Freibauer A, Geyer R, Jones CD, Papale D, Tenhunen J, Tomelleri E, Trusilova K, Viovy N, and Heimann M. Analyzing the causes and spatial pattern of the 2003 carbon flux anomaly in Europe using seven models. Biogeosciences, 5: 561-583.
  • Trusilova K and Churkina G, The response of the terrestrial biosphere to urbanization: land cover conversion, climate, and urban pollution. Biogeosciences 5: 1505-1515.
  • Trusilova K, Jung M, Churkina G, Karstens U, Heimann M, and Claussen M, Urbanization impacts on the climate of Europe: Numerical experiments with the PSU/NCAR Mesoscale Model (MM5). Journal of Applied Meteorology and Climatology, 47(5): 1442-1455.
  • Hakkenberg R, Churkina G, Rodeghiero M, Börner A, Steinhof A, and Cescatti A, Temperature sensitivity of the turnover times of soil organic matter in forests. Ecological Applications, 18: 119-131.
  • Richardson AD, Mahecha MD,  Falge E, Kattge J, Moffat AM, Papale D, Reichstein M, Stauch VJ, Braswell BH, Churkina G, Kruijt B, Hollinger DY. Statistical properties of random CO2 flux measurement uncertainty inferred from model residuals. Agricultural and Forest Meteorology, 148(1): 38-50.



  • Churkina G, Trusilova K, Vetter M, and Dentener FJ. Contributions of nitrogen deposition and forest re-growth to land carbon uptake. Carbon Balance and Management, 2:5.
  • Jung M, Vetter M, Herold M, Churkina G, Reichstein M, Zaehle S, Ciais P, Viovy N, Bondeau A, Chen Y, Trusilova K, Feser F, and Heimann M. Uncertainties of modelling GPP over Europe: A systematic study on the effects of using different drivers and terrestrial biosphere models. Global Biogeochemical Cycles 21, GB4021.
  • Jung M, Le Maire G, Zaehle S, Luyssaert S, Vetter M, Churkina G, Ciais P, Viovy N, and Reichstein M. Assessing the ability of three land ecosystem models to simulate gross carbon uptake of forests from boreal to Mediterranean climate in Europe. Biogeosciences, 4: 647-656.
  • Moffat AM, Papale D, Reichstein M, Barr AG, Braswell BH, Churkina G, Desai AR, Falge E, Gove JH, Heimann M, Hollinger DY, Hui D, Jarvis AJ, Kattge J, Noormets A, Richardson AD, and Stauch VJ, Comprehensive comparison of gap filling techniques for net carbon fluxes. Agricultural and Forest Meteorology, 147(3): 209-232.
  • Hidy D, Barcza Z, Haszpra L, Churkina G, Trusilova K. Parameter estimation for grassland carbon cycle using nonlinear inversion of Biome-BGC. Cereal Research Communications. 35(2 Part 1): 453-456.
  • Hidy D, Barcza Z, Haszpra L, and Churkina G, Modelling the CO2 exchange of grasslands (Gyepek szén-dioxid forgalmának modellezése). Légkör, 51(3): 33-36.




  • Jung M, Henkel K, Herold M, and Churkina G, Exploring synergies of land cover products for carbon cycle modelling. Remote Sensing of Environment, 101: 534-553.
  • Reithmaier LM, Göckede M, Markkanen T, Knohl A, Churkina G, Rebmann C, Buchmann N, and Foken T, Use of remotely sensed land use classification for a better evaluation of micrometeorological flux measurement sites. Theoretical and Applied Climatology, 84, 219-233.



  • Churkina G, Schimel DS, Braswell BH, and Xiao X, Spatial analysis of growing season length control over net ecosystem exchange. Global Change Biology, 11: 1777-1787.
  • Vetter M, Wirth C, Böttcher H, Churkina G, Schulze ED, Wutzler T, and Weber E, Partitioning direct and indirect human-induced effects on carbon sequestration of managed coniferous forests using model simulations and forest inventories, Global Change Biology, 11: 810-827.



  • Churkina G, Tenhunen J, Thornton P, Elbers J, Erhard M, Falge E, Grünwald T, Kowalski A, Rannik U, and Sprinz D, Analyzing the ecosystem carbon dynamics of four European coniferous forests using a biogeochemistry model, Ecosystems 6: 168-184. 



  • Schimel DS, House J. I., Hibbard K. A., Bousquet P., Ciais P., Peylin P., Braswell BH, Apps MJ, Baker D, Bondeau A, Canadell JG, Churkina G, Cramer W, Denning AS, Field CB, Fridlingstein P, Goodale C, Heimann M, Houghton RA, Melillo JM, Moore III B, Murdiyarso D, Noble I, Pacala SW, Prentice IC, Rauparch MR, Rayner PJ, Scholes RJ, Steffen WL, and Wirth C. Recent patterns and mechanisms of carbon exchange by terrestrial ecosystems. Nature 414: 169-172.



  • Churkina G and Running SW, Investigating the balance between timber harvest and productivity of the global coniferous forests under global change, Climatic Change 47(1/2): 167-191.



  • Churkina G, Running SW, and Schloss A, and the other participants of Potsdam ’95, Comparing global models of terrestrial net primary productivity (NPP): The importance of water availability to primary productivity in global terrestrial models, Global Change Biology 5 (Suppl.1): 46-55.
  • Cramer W, Kicklighter DW, Bondeau A, Moore III B, Churkina G, Nemry B, Ruimy A, Schloss A, and the other participants of Potsdam ‘95, Comparing global models of terrestrial net primary productivity (NPP): Overview and key results. Global Change Biology 5 (Suppl. 1): 1-15.



  • Churkina G and Running SW, Contrasting environmental controls on the estimated productivity of different biomes, Ecosystems 1: 206-215.



  • Churkina G and Svirezhev Y, Dynamics and forms of ecotone under the impact of climate change: Mathematical approach. Journal of Biogeography 22: 565-569.



  • Churkina G, Ethics of global ecology (in Russian). Natural Science and Philosophy, Russian Academy of Science.



Books and per-refereed contributions to books, encyclopedia, and special reports


In preparation 

  • Churkina G. Urban Areas and Global Environmental Change: Physical and Biogeochemical Feedbacks, signed book project with Cambridge University Press.


In press  

  • Calfapietra C, Guidolotti G, Churkina G, Grote R Urban tree physiology: methods and tools. in Ferrini F, Konijnendijk van den Bosch C, Fini A (Eds) Handbook of Urban Forestry. Routledge.



  • Churkina G, An introduction to carbon cycle science. Pages 24-51 in: Brown DG, Robinson DT, French NHF & Reed BC (Eds) Land use and the carbon cycle: Advances in Integrated Science, Management, and Policy. Cambridge University Press,



  • Churkina G, Carbonization of urban areas. Pages 369-382 in: Lal R, Lorenz K, Hüttl RFJ, Schneider BU, von Braun J (Eds) Recarbonization of the Biosphere - Ecosystems and the Global Carbon Cycle. Springer. 
  • Churkina G, Carbon cycle of urban ecosystems. Pages 315-330 in: Lal R, Augustin B (Eds) Carbon Sequestration in Urban Ecosystems. Springer, New York.


  • Heimann, M, Roedenbeck C, and Churkina G, Multiple constraint estimates of the European carbon balance. Pages 361-376 in A. J. Dolman, R. Valentini, and A. Freibauer, (Eds). The continental-scale greenhouse gas balance of Europe. Springer, New York.



  • Schimel D, Churkina G, and Braswell B. Remembrance of weather past: ecosystem response to climate variability, in “A history of atmospmyic CO2 and its effects on plants, animals, and ecosystems” in Ehleringer J, Cerling, and Dearing (Eds), Springer, New York.



  • Apps MJ, Artaxo P, Barrett D, Canadell JG, Cescatti A, Churkina G, Ciais P, Cienciala E, Cox PM, Field CB, Heimann M, Holland E, Houghton RA, Jaramillo V, Joos F, Kanninen M, Kaufmann JB, Kurz W, Lasco RD, Law BE, Mahli Y, McMurtrie R, Morikawa Y, Murdiyarso D, Nilsson S, Ogana W, Peylin P, Sala OE, Schimel DS, Smith P, Zhou G, and Zimov S, Science statement on current scientific understanding of the processes affecting terrestrial carbon stocks and human influences upon them. IPCC special report, Geneva, pp. 29.



  • Churkina G, Biography of Vladimir Vernadsky, in “The Earth System: biological and ecological dimensions of global environmental change” in Mooney H and Canadell J (Eds), Encyclopedia of Global Environmental Change, vol. 2, John Wiley and Sons Ltd.
  • Churkina G, Biocenosis, in “The Earth System: biological and ecological dimensions of global environmental change” in Mooney H and Canadell J (Eds), Encyclopedia of Global Environmental Change, vol. 2, John Wiley and Sons Ltd.
  • Churkina G, Noosphere in “The Earth System: biological and ecological dimensions of global environmental change” in Mooney H and Canadell J (Eds), Encyclopedia of Global Environmental Change, vol. 2, John Wiley and Sons Ltd.