All B2 Publications

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  • Nyawira, S.-S., Nabel, J. E. M. S., Brovkin, V., & Pongratz, J. (2017). Input-driven versus turnover-driven controls of simulated changes in soil carbon from land-use change. Environmental Research Letters, 12(8): 084015. doi:10.1088/1748-9326/aa7ca9.
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  • Zscheischler, J., Mahecha, M. D., Avitabile, V., Calle, L., Carvalhais, N., Ciais, P., Gans, F., Gruber, N., Hartmann, J., Herold, M., Ichii, K., Jung, M., Landschützer, P., Laruelle, G. G., Lauerwald, R., Papale, D., Peylin, P., Poulter, B., Ray, D., Regnier, P., Rödenbeck, C., Roman-Cuesta, R. M., Schwalm, C., Tramontana, G., Tyukavina, A. T., Valentini, R., van der Werf, G., West, T. O., Wolf, J. E., & Reichstein, M. (2017). Reviews and syntheses: An empirical spatiotemporal description of the global surface–atmosphere carbon fluxes: opportunities and data limitations. Biogeosciences, 14, 3685-3703. doi:10.5194/bg-14-3685-2017.
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  • Neumann, M., Mues, V., Moreno, A., Hasenauer, H., & Seidl, R. (2017). Climate variability drives recent tree mortality in Europe. Global Change Biology, early view, available online. doi:10.1111/gcb.13724.
  • Goll, D. S., Winkler, A., Raddatz, T., Dong, N., Prentice, I. C., Ciais, P., & Brovkin, V. (2017). Carbon-nitrogen interactions in idealized simulations with JSBACH (version 3.10). Geoscientific Model Development, 10, 2009-2030. doi:10.5194/gmd-10-2009-2017.
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  • Schmidt, J., Böhner, J., Brandl, R., & Opgenoorth, L. (2017). Mass elevation and lee effects markedly lift the elevational distribution of ground beetles in the Himalaya-Tibet orogen. PLoS One, 12(3), 1-17. doi:10.1371/journal.pone.0172939.
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  • Arneth, A., Sitch, S., Pongratz, J., Stocker, B., Ciais, P., Poulter, B., Bayer, A., Bondeau, A., Calle, L., Chini, L., Gasser, T., Fader, M., Friedlingstein, P., Kato, E., Li, W., Lindeskog, M., Nabel, J. E. M. S., Pugh, T., Robertson, E., Viovy, N., Yue, C., & Zaehle, S. (2017). Historical carbon dioxide emissions caused by land-use changes are possibly larger than assumed. Nature Geoscience, 10, 79-84. doi:10.1038/ngeo2882.
  • Müller, M., Oelmann, Y., Schickhoff, U., Böhner, J., & Scholten, T. (2017). Himalayan treeline soil and foliar C:N:P stoichiometry indicate nutrient shortage with elevation. Geoderma, 291, 21-32. doi:10.1016/j.geoderma.2016.12.015.
  • Neupane, P., Maraseni, T. N., & Köhl, M. (2017). The sugarcane industry in Nepal: Opportunities and challenges. Environmental Development, 24, 86-98. doi:10.1016/j.envdev.2017.02.001.
  • Di Lallo, G., Mundhenk, P., Lopez, S. E. Z., Marchetti, M., & Köhl, M. (2017). REDD plus: Quick Assessment of Deforestation Risk Based on Available Data. Forests, 8: 29. doi:10.3390/f8010029.
  • Lara-Estrada, L. D., Rasche, L., & Schneider, U. (2017). Modeling land suitability for Coffea arabica L. in Central America. Environmental Modelling and Software, 95, 196-209. doi:10.1016/j.envsoft.2017.06.028.

Related Publications (CliSAP 1, 2007-2012)

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  • Eschenbach, A. (2010). Transformation and accumulation of PAH and bound residues in soil under extreme conditions – a risk assessment approach. Geophysical Research Abstracts, 12, EGU2010-12606.
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  • Classen, N., Gröngröft, A., & Eschenbach, A. (2010). Comparison of Infiltrability Measurements in the Thornbush Savanna, Namibia. Geophysical Research Abstracts, 12, EGU2010-11109.
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  • Zschocke, A., Schönborn, M., & Eschenbach, A. (2010). Behaviour of polycyclic aromatic hydrocarbons (PAH) in soils under freeze-thaw cycles. Geophysical Research Abstracts, 12, EGU2010-11437.
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  • Eschenbach, A., Mahro, B., & Wienberg, R. (2010). Bewertung der Verfügbarkeit von nicht extrahierbaren PAK-Rückständen im Boden. Mitteilungen der Fachgruppe Umweltchemie und Ökotoxikologie, 16. Jg.(3), 70-72.
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  • Bennartz, R., Lorenz, P., & Jacob, D. (2014). A comparison of the BALTIMOS coupled climate model with atmospheric and sea surface parameters derived from AMSR-E. Theoretical and Applied Climatology, 118(Spec. Iss.), 617-625. doi:10.1007/s00704-009-0178-x.