Churkina, G.; Brown, D. G.; Keoleian, G.: Carbon stored in human settlements: the conterminous United States. Global Change Biology 16 (1), pp. 135 - 143 (2010)
Churkina, G.; Zaehle, S.; Hughes, J.; Viovy, N.; Chen, Y.; Jung, M.; Heumann, B. W.; 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 (9), pp. 2749 - 2764 (2010)
Luyssaert, S.; Ciais, P.; Piao, S. L.; Schulze, E.-D.; Jung, M.; Zaehle, S.; Schelhaas, M. J.; Reichstein, M.; Churkina, G.; Papale, D.et al.; Abril, G.; Beer, C.; Grace, J.; Loustau, D.; Matteucci, G.; Magnani, F.; Nabuurs, G. J.; Verbeeck, H.; Sulkava, M.; Van Der Werf, G. R.; Janssens, I.; Team, C. S.: The European carbon balance. Part 3: forests. Global Change Biology 16 (5), pp. 1429 - 1450 (2010)
Churkina, G.; Brovkin, V.; Von Bloh, W.; Trusilova, K.; Jung, M.; Dentener, F.: Synergy of rising nitrogen depositions and atmospheric CO2 on land carbon uptake moderately offsets global warming. Global Biogeochemical Cycles 23, p. GB4027 (2009)
Trusilova, K.; Jung, M.; Churkina, G.: On climate impacts of a potential expansion of urban land in Europe. Journal of Applied Meteorology and Climatology 48, pp. 1971 - 1980 (2009)
Hakkenberg, R.; Churkina, G.; Rodeghiero, M.; Börner, A.; Steinhof, A.; Cescatti, A.: Temperature sensitivity of the turnover times of soil organic matter in forests. Ecological Applications 18 (1), pp. 119 - 131 (2008)
Richardson, A. D.; Mahecha, M. D.; Falge, E.; Kattge, J.; Moffat, A. M.; Papale, D.; Reichstein, M.; Stauch, V. J.; Braswell, B. H.; Churkina, G.et al.; Kruijt, B.; Hollinger, D. Y.: Statistical properties of random CO2 flux measurement uncertainty inferred from model residuals. Agricultural and Forest Meteorology 148 (1), pp. 38 - 50 (2008)
Trusilova, K.; Churkina, G.: The response of the terrestrial biosphere to urbanization: land cover conversion, climate, and urban pollution. Biogeosciences 5 (6), pp. 1505 - 1515 (2008)
Trusilova, K.; Jung, M.; Churkina, G.; Karstens, U.; Heimann, M.; Claussen, M.: Urbanization impacts on the climate in Europe: Numerical experiments by the PSU-NCAR Mesoscale Model (MM5). Journal of Applied Meteorology and Climatology 47 (5), pp. 1442 - 1455 (2008)
Jung, M.; Le Maire, G.; Zaehle, S.; Luyssaert, S.; Vetter, M.; Churkina, G.; Ciais, P.; Viovy, N.; 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 (4), pp. 647 - 656 (2007)
Jung, M.; Vetter, M.; Herold, M.; Churkina, G.; Reichstein, M.; Zaehle, S.; Ciais, P.; Viovy, N.; Bondeau, A.; Chen, Y.et al.; Trusilova, K.; Feser, F.; Heimann, M.: Uncertainties of modeling gross primary productivity over Europe: A systematic study on the effects of using different drivers and terrestrial biosphere models. Global Biogeochemical Cycles 21 (4), p. Gb4021 (2007)
Moffat, A. M.; Papale, D.; Reichstein, M.; Hollinger, D. Y.; Richardson, A. D.; Barr, A. G.; Beckstein, C.; Braswell, B. H.; Churkina, G.; Desai, A. R.et al.; Falge, E.; Gove, J. H.; Heimann, M.; Hui, D. F.; Jarvis, A. J.; Kattge, J.; Noormets, A.; Stauch, V. J.: Comprehensive comparison of gap-filling techniques for eddy covariance net carbon fluxes. Agricultural and Forest Meteorology 147 (3-4), pp. 209 - 232 (2007)
Jung, M.; Henkel, K.; Herold, M.; Churkina, G.: Exploiting synergies of global land cover products for carbon cycle modeling. Remote Sensing of Environment 101 (4), pp. 534 - 553 (2006)
If rivers overflow their banks, the consequences can be devastating. Using methods of explainable machine learning, researchers at the Helmholtz Centre for Environmental Research (UFZ) have shown that floods are more extreme when several factors are involved in their development.
Europe is the fastest warming continent in the world. According to the European Environment Agency’s assessment, many of these risks have already reached critical levels and could become catastrophic without urgent and decisive action.
A new study shows a natural solution to mitigate the effects of climate change such as extreme weather events. Researchers found that a diverse plant community acts as a buffer against fluctuations in soil temperature. This buffer, in turn, can have a decisive influence on important ecosystem processes.
Global experts have unveiled the annual 10 New Insights in Climate Science report. The report equips policymakers with the latest and most pivotal climate science research from the previous 18 months, synthesised to help inform negotiations at COP28 and policy implementation through 2024 and beyond.
Storing carbon in the soil can help to mitigate climate change. Soil organic matter bound to minerals in particular can store carbon in the long term. A new study shows that the formation of mineral-associated organic matter depends primarily on the type of mineral, but is also influenced by land use and cultivation intensity.
In the annual ranking of the world's most cited and thus most influential scientists, five authors from our institute are once again represented in 2023.