Publications of the Max-Planck-Institute for Meteorology

Our newest articles

  • Schlutow, M., Stacke, T., Doerffel, T., Smolarkiewicz, P. & Göckede, M. (2024). Large eddy simulations of the interaction between the atmospheric boundary layer and degrading Arctic permafrost. Journal of Geophysical Research: Atmospheres, 129: e2024JD040794. doi:10.1029/2024JD040794 [publisher-version]
  • Kroll, C. & Schmidt, A. (2024). Indirect stratospheric moisture increase after a Pinatubo-magnitude eruption can be comparable to direct increase after 2022 Hunga. Communications Earth & Environment, 5: 497. doi:10.1038/s43247-024-01651-w [publisher-version][any-fulltext]
  • Wu, M., Li, C. & Zhang, Z. (2024). Recalibrated projections of the Hadley circulation under global warming. Geophysical Research Letters, 19: 104041. doi:10.1088/1748-9326/ad751f [publisher-version]
  • Chen, T., Wang, T., Xue, L. & Brasseur, G. (2024). Heatwave exacerbates air pollution in China through intertwined climate-energy-environment interactions. Science Bulletin, 69, 2765-2775. doi:10.1016/j.scib.2024.05.018
  • Morr, A., Riechers, K., Gorjão, L. & Boers, N. (2024). Anticipating critical transitions in multidimensional systems driven by time- and state-dependent noise. Physical Review Research, 6: 033251. doi:10.1103/PhysRevResearch.6.033251 [publisher-version]
  • Bouttes, N., Kwiatkowski, L., Berger, M., Brovkin, V. & Munhoven, G. (2024). Implementing the iCORAL (version 1.0) coral reef CaCO_3 production module in the iLOVECLIM climate model. Geoscientific Model Development, 17, 6513-6528. doi:10.5194/gmd-17-6513-2024 [publisher-version][supplementary-material]
  • Di Capua, G., Tyrlis, E., Matei, D. & Donner, R. (2024). Tropical and mid-latitude causal drivers of the eastern Mediterranean Etesians during boreal summer. Climate Dynamics. doi:10.1007/s00382-024-07411-y [publisher-version]
  • Schickhoff, M., de Vrese, P., Bartsch, A., Widhalm, B. & Brovkin, V. (2024). Effects of land surface model resolution on fluxes and soil state in the Arctic. ERL, 19: 104032. doi:10.1088/1748-9326/ad6019 [supplementary-material][publisher-version]
  • Toda, M., Kosaka, Y., Miyamoto, A. & Watanabe, M. (2024). Walker circulation strengthening driven by sea surface temperature changes outside the tropics. Nature Geoscience. doi:10.1038/s41561-024-01510-5
  • Eskes, H., Tsikerdekis, A., Ades, M., Alexe, M., Benedictow, A., Bennouna, Y., Blake, L., Bouarar, I., Chabrillat, S., Engelen, R., Errera, Q., Flemming, J., Garrigues, S., Griesfeller, J., Huijnen, V., Ilić, L., Inness, A., Kapsomenakis, J., Kipling, Z., Langerock, B., Mortier, A., Parrington, M., Pison, I., Pitkänen, M., Remy, S., Richter, A., Schoenhardt, A., Schulz, M., Thouret, V., Warneke, T., Zerefos, C. & Peuch, V.-H. (2024). Technical note: evaluation of the Copernicus Atmosphere Monitoring Service Cy48R1 upgrade of June 2023. Atmospheric Chemistry and Physics, 24, 9475-9514. doi:10.5194/acp-24-9475-2024 [publisher-version]
  • Dorgeist, L., Schwingshackl, C., Bultan, S. & Pongratz, J. (2024). A consistent budgeting of terrestrial carbon fluxes. Nature Communications, 15: 7426. doi:10.1038/s41467-024-51126-x [publisher-version][research-data][supplementary-material][any-fulltext][supplementary-material][supplementary-material][supplementary-material]
  • Hazeleger, W., Aerts, J., Bauer, P., Bierkens, M., Camps-Valls, G., Dekker, M., Doblas-Reyes, F., Eyring, V., Finkenauer, C., Grundner, A., Hachinger, S., Hall, D., Hartmann, T., Iglesias-Suarez, F., Janssens, M., Jones, E., Kölling, T., Lees, M., Lhermitte, S., van Nieuwpoort, R., Pahker, A.-K., Pellicer-Valero, O., Pijpers, F., Siibak, A., Spitzer, J., Stevens, B., Vasconcelos, V. & Vossepoel, F. (2024). Digital twins of the Earth with and for humans. Communications Earth & Environment, 5: 463. doi:10.1038/s43247-024-01626-x [publisher-version][any-fulltext]
  • Windmiller, J. (2024). The calm and variable inner life of the Atlantic Intertropical Convergence Zone: the relationship between the doldrums and surface convergence. Geophysical Research Letters, 51: e2024GL109460. doi:10.1029/2024GL109460 [publisher-version]
  • Li, X., Markkanen, T., Korkiakoski, M., Lohila, A., Leppänen, A., Aalto, T., Peltoniemi, M., Mäkipää, R., Kleinen, T. & Raivonen, M. (2024). Modelling alternative harvest effects on soil CO2 and CH4 fluxes from peatland forests (in press for Science of The Total Environment). Science of the Total Environment, 951: 175257. doi:10.1016/j.scitotenv.2024.175257
  • Meuer, J., Timmreck, C., Fang, S.-W. & Kadow, C. (2024). Fingerprints of past volcanic eruptions can be detected in historical climate records using machine learning. Communications Earth & Environment, 5: 455. doi:10.1038/s43247-024-01617-y [publisher-version][supplementary-material]

More peer reviewed articles

  • Achatz, U., Alexander, M., Becker, E., Chun, H.-Y., Dörnbrack, A., Holt, L., Plougonven, R., Polichtchouk, I., Sato, K., Sheshadri, A., Stephan, C., van Niekerk, A. & Wright, C. (2024). Atmospheric gravity waves: processes and parameterization. Journal of the Atmospheric Sciences, 81, 237-262. doi:10.1175/JAS-D-23-0210.1 [publisher-version]
  • Andreasen, L., Cornér, J., Abbott, P., Sinclair, V., Riede, F. & Timmreck, C. (2024). Changes in Northern Hemisphere extra-tropical cyclone frequency following volcanic eruptions. Environmental research: climate, 3: 025002. doi:10.1088/2752-5295/ad2c0e [publisher-version]
  • Bao, J., Stevens, B., Kluft, L. & Muller, C. (2024). Intensification of tropical precipitation extremes from more organized convection. Science Advances, 10: eadj6801. doi:10.1126/sciadv.adj6801 [supplementary-material][publisher-version]
  • Barkhordarian, A., Nielsen, D., Olonscheck, D. & Baehr, J. (2024). Arctic marine heatwaves forced by greenhouse gases and triggered by abrupt sea-ice melt. Communications Earth and Environment, 5: 57. doi:10.1038/s43247-024-01215-y [publisher-version][supplementary-material]
  • Basaglia, P., Grunau, J. & Drupp, M. (2024). The European Union emissions trading system might yield large co-benefits from pollution reduction. PNAS, 121: e2319908121. doi:10.1073/pnas.23199081 [publisher-version]
  • Bauer, P., Hoefler, T., Stevens, B. & Hazeleger, W. (2024). Digital twins of Earth and the computing challenge of human interaction. Nature Computational Science, 4, 154-157. doi:10.1038/s43588-024-00599-3
  • Behncke, J., Landschützer, P. & Tanhua, T. (2024). A detectable change in the air-sea CO2 flux estimate from sailboat measurements. Scientific Reports, 14: 3345. doi:10.1038/s41598-024-53159-0 [publisher-version][supplementary-material]
  • Bishnoi, A., Stein, O., Meyer, C., Redler, R., Eicker, N., Haak, H., Hoffmann, L., Klocke, D., Kornblueh, L. & Suarez, E. (2024). Earth system modeling on modular supercomputing architecture: coupled atmosphere-ocean simulations with ICON 2.6.6-rc. Geoscientific Model Development, 17, 261-273. doi:10.5194/gmd-17-261-2024 [publisher-version]
  • Bouttes, N., Kwiatkowski, L., Berger, M., Brovkin, V. & Munhoven, G. (2024). Implementing the iCORAL (version 1.0) coral reef CaCO_3 production module in the iLOVECLIM climate model. Geoscientific Model Development, 17, 6513-6528. doi:10.5194/gmd-17-6513-2024 [publisher-version][supplementary-material]
  • Brodowsky, C., Sukhodolov, T., Chiodo, G., Aquila, V., Bekki, S., Dhomse, S., Höpfner, M., Laakso, A., Mann, G., Niemeier, U., Pitari, G., Quaglia, I., Rozanov, E., Schmidt, A., Sekiya, T., Tilmes, S., Timmreck, C., Vattioni, S., Visioni, D., Yu, P., Zhu, Y. & Peter, T. (2024). Analysis of the global atmospheric background sulfur budget in a multi-model framework. Atmospheric Chemistry and Physics Discussions, 24, 5513-5548. doi:10.5194/acp-24-5513-2024 [publisher-version]
  • Brüggemann, N., Losch, M., Scholz, P., Pollmann, F., Danilov, S., Gutjahr, O., Jungclaus, J., Koldunov, N., Korn, P., Olbers, D. & Eden, C. (2024). Parameterized internal wave mixing in three ocean general circulation models. Journal of Advances in Modeling Earth Systems, 16: e2023MS003768. doi:10.1029/2023MS003768 [research-data][publisher-version]
  • Bustamante, M., Roy, J., Ospina, D., Achakulwisut, P., Aggarwal, A., Bastos, A., Broadgate, W., Canadell, J., Carr, E., Chen, D., Cleugh, H., Ebi, K., Edwards, C., Farbotko, C., Fernández-Martínez, M., Frölicher, T., Fuss, S., Geden, O., Gruber, N., Harrington, L., Hauck, J., Hausfather, Z., Hebden, S., Hebinck, A., Huq, S., Huss, M., Jamero, M., Juhola, S., Kumarasinghe, N., Lwasa, S., Mallick, B., Martin, M., McGreevy, S., Mirazo, P., Mukherji, A., Muttitt, G., Nemet, G., Obura, D., Okereke, C., Oliver, T., Orlove, B., Ouedraogo, N., Patra, P., Pelling, M., Pereira, L., Persson, Å., Pongratz, J., Prakash, A., Rammig, A., Raymond, C., Redman, A., Reveco, C., Rockström, J., Rodrigues, R., Rounce, D., Schipper, E., Schlosser, P., Selomane, O., Semieniuk, G., Shin, Y.-J., Siddiqui, T., Singh, V., Sioen, G., Sokona, Y., Stammer, D., Steinert, N., Suk, S., Sutton, R., Thalheimer, L., Thompson, V., Trencher, G., Van Der Geest, K., Werners, S., Wübbelmann, T., Wunderling, N., Yin, J., Zickfeld, K. & Zscheischler, J. (2024). Ten new insights in climate science 2023. Global Sustainability, 7: e19. doi:10.1017/sus.2023.25 [publisher-version]
  • Chen, S., Chen, W., Wu, R., Yu, B., Zheng, Y., Cai, Q., Hasi, A. & Lan, X. (2024). Improved simulation of the influence of the North Pacific Oscillation on El Niño-Southern Oscillation in CMIP6 than in CMIP5 models. Climate Dynamics. doi:10.1007/s00382-024-07423-8
  • Chen, T., Wang, T., Xue, L. & Brasseur, G. (2024). Heatwave exacerbates air pollution in China through intertwined climate-energy-environment interactions. Science Bulletin, 69, 2765-2775. doi:10.1016/j.scib.2024.05.018
  • Cheng, X., Chen, S., Chen, W., Wu, R., Yang, R., Hu, P., Chen, L. & Hasi, A. (2024). Selective influence of the Arctic Oscillation on the Indian Ocean Dipole and El Niño-Southern Oscillation. Climate Dynamics. doi:10.1007/s00382-023-07098-7
  • Creel, R., Miessner, F., Wilkenskjeld, S., Austermann, J. & Overduin, P. (2024). Glacial isostatic adjustment reduces past and future Arctic subsea permafrost. Nature Communications, 15: 3232. doi:10.1038/s41467-024-45906-8 [publisher-version]
  • de Hertog, S., Lopez-Fabara, C., van der Ent, R., Keune, J., Miralles, D., Portmann, R., Schemm, S., Havermann, F., Guo, S., Luo, F., Manola, I., Lejeune, Q., Pongratz, J., Schleussner, C.-F., Seneviratne, S. & Thiery, W. (2024). Effects of idealized land cover and land management changes on the atmospheric water cycle. Earth System Dynamics, 15, 265-291. doi:10.5194/esd-15-265-2024 [publisher-version]
  • de Vrese, P., Stacke, T., Gayler, V. & Brovkin, V. (2024). Permafrost cloud feedback may amplify climate change. Geophysical Research Letters, 51: e2024GL109034. doi:10.1029/2024GL109034 [publisher-version]
  • Deroubaix, A., Hoelzemann, J., Ynoue, R., Toledo de Almeida Albuquerque, T., Alves, R., de Fatima Andrade, M., Andreão, W., Bouarar, I., de Souza Fernandes Duarte, E., Elbern, H., Franke, P., Lange, A., Lichtig, P., Lugon, L., Martins, L., de Arruda Moreira, G., Pedruzzi, R., Rosario, N. & Brasseur, G. (2024). Intercomparison of air quality models in a megacity: toward an operational ensemble forecasting system for São Paulo. Journal of Geophysical Research: Atmospheres, 129: e2022JD038179. doi:10.1029/2022JD038179 [publisher-version]
  • Di Capua, G., Tyrlis, E., Matei, D. & Donner, R. (2024). Tropical and mid-latitude causal drivers of the eastern Mediterranean Etesians during boreal summer. Climate Dynamics. doi:10.1007/s00382-024-07411-y [publisher-version]
  • Dorff, H., Konow, H., Schemann, V. & Ament, F. (2024). Observability of moisture transport divergence in Arctic atmospheric rivers by dropsondes. Atmospheric Chemistry and Physics, 24, 8771-8795. doi:10.5194/acp-24-8771-2024 [publisher-version]
  • Dorgeist, L., Schwingshackl, C., Bultan, S. & Pongratz, J. (2024). A consistent budgeting of terrestrial carbon fluxes. Nature Communications, 15: 7426. doi:10.1038/s41467-024-51126-x [publisher-version][research-data][supplementary-material][any-fulltext][supplementary-material][supplementary-material][supplementary-material]
  • Erokhina, O. & Mikolajewicz, U. (2024). A new Eulerian iceberg module for climate studies. Journal of Advances in Modeling Earth Systems, 16: e2023MS003807. doi:10.1029/2023MS003807 [supplementary-material][supplementary-material][publisher-version]
  • Eskes, H., Tsikerdekis, A., Ades, M., Alexe, M., Benedictow, A., Bennouna, Y., Blake, L., Bouarar, I., Chabrillat, S., Engelen, R., Errera, Q., Flemming, J., Garrigues, S., Griesfeller, J., Huijnen, V., Ilić, L., Inness, A., Kapsomenakis, J., Kipling, Z., Langerock, B., Mortier, A., Parrington, M., Pison, I., Pitkänen, M., Remy, S., Richter, A., Schoenhardt, A., Schulz, M., Thouret, V., Warneke, T., Zerefos, C. & Peuch, V.-H. (2024). Technical note: evaluation of the Copernicus Atmosphere Monitoring Service Cy48R1 upgrade of June 2023. Atmospheric Chemistry and Physics, 24, 9475-9514. doi:10.5194/acp-24-9475-2024 [publisher-version]
  • Feng, Y., Du, S., Fraedrich, K., Zhang, X., Du, M. & Cheng, W. (2024). Local climate regionalization of the Tibetan Plateau: A data-driven scale-dependent analysis. Theoretical and Applied Climatology. doi:10.1007/s00704-024-04916-8
  • Fons, E., Naumann, A., Neubauer, D., Lang, T. & Lohmann, U. (2024). Investigating the sign of stratocumulus adjustments to aerosols in the ICON global storm-resolving model. Atmospheric Chemistry and Physics, 24, 8653-8675. doi:10.5194/acp-24-8653-2024 [publisher-version]
  • Forster, P., Smith, C., Walsh, T., Lamb, W., Lamboll, R., Hall, B., Hauser, M., Ribes, A., Rosen, D., Gillett, N., Palmer, M., Rogelj, J., von Schuckmann, K., Trewin, B., Allen, M., Andrew, R., Betts, R., Borger, A., Boyer, T., Broersma, J., Buontempo, C., Burgess, S., Cagnazzo, C., Cheng, L., Friedlingstein, P., Gettelman, A., Gütschow, J., Ishii, M., Jenkins, S., Lan, X., Morice, C., Mühle, J., Kadow, C., Kennedy, J., Killick, R., Krummel, P., Minx, J., Myhre, G., Naik, V., Peters, G., Pirani, A., Pongratz, J., Schleussner, C.-F., Seneviratne, S., Szopa, S., Thorne, P., Kovilakam, M., Majamäki, E., Jalkanen, J.-P., van Marle, M., Hoesly, R., Rohde, R., Schumacher, D., van der Werf, G., Vose, R., Zickfeld, K., Zhang, X., Masson-Delmotte, V. & Zhai, P. (2024). Indicators of global climate change 2023: annual update of key indicators of the state of the climate system and human influence. Earth System Science Data, 16, 2625-2658. doi:10.5194/essd-16-2625-2024 [publisher-version]
  • Gao, J., Minobe, S., Roberts, M., Haarsma, R., Putrasahan, D., Scoccimarro, E., Terray, L. & Vidale, P. (2024). Projected future changes in bomb cyclones by the HighResMIP-PRIMAVERA multimodel ensemble. Climate Dynamics. doi:10.1007/s00382-024-07327-7
  • García-Pereira, F., González-Rouco, J., Schmid, T., Melo-Aguilar, C., Vegas-Cañas, C., Steinert, N., Roldán-Gómez, P., Cuesta-Valero, F., García-García, A., Beltrami, H. & de Vrese, P. (2024). Thermodynamic and hydrological drivers of the soil and bedrock thermal regimes in central Spain. Soil, 10, 1-21. doi:10.5194/egusphere-2023-462 [publisher-version]
  • García-Pereira, F., González-Rouco, J., Melo-Aguilar, C., Steinert, N., García-Bustamante, E., de Vrese, P., Jungclaus, J., Lorenz, S., Hagemann, S., Cuesta-Valero, F., García-García, A. & Beltrami, H. (2024). First comprehensive assessment of industrial-era land heat uptake from multiple sources. Under open review for Earth System Dynamics. Earth System Dynamics, 15, 547-564. doi:10.5194/esd-15-547-2024 [publisher-version]
  • Ghosh, R., Manzini, E., Gao, Y., Gastineau, G., Cherchi, A., Frankignoul, C., Liang, Y.-C., Kwon, Y.-O., Suo, L., Tyrlis, E., Mecking V, J., Tian, T., Zhang, Y. & Matei, D. (2024). Observed winter Barents Kara Sea ice variations induce prominent sub-decadal variability and a multi-decadal trend in the Warm Arctic Cold Eurasia pattern. Environmental Research Letters, 19: 024018. doi:10.1088/1748-9326/ad1c1a [publisher-version][supplementary-material]
  • Goosse, H., Brovkin, V., Meissner, K., Menviel, L., Mouchet, A., Muscheler, R. & Nilson, A. (2024). Atmospheric D14C in the northern and southern hemisphere over the past two millennia: role of production rate, southern hemisphere westerly winds and ocean circulation changes. Quaternary Science Reviews, 326: 108502. doi:10.1016/j.quascirev.2024.108502
  • Günther, M., Schmidt, H., Timmreck, C. & Toohey, M. (2024). Why does stratospheric aerosol forcing strongly cool the warm pool?. Atmospheric Chemistry and Physics Discussions, 24, 7203-7225. doi:10.5194/acp-24-7203-2024 [publisher-version]
  • Gutjahr, O. & Mehlmann, C. (2024). Polar lows and their effects on sea ice and the upper ocean in the Iceland, Greenland and Labrador Seas. Journal of Geophysical Research: Oceans, 129: e2023JC020258. doi:10.1029/2023JC020258 [supplementary-material][publisher-version]
  • Hazeleger, W., Aerts, J., Bauer, P., Bierkens, M., Camps-Valls, G., Dekker, M., Doblas-Reyes, F., Eyring, V., Finkenauer, C., Grundner, A., Hachinger, S., Hall, D., Hartmann, T., Iglesias-Suarez, F., Janssens, M., Jones, E., Kölling, T., Lees, M., Lhermitte, S., van Nieuwpoort, R., Pahker, A.-K., Pellicer-Valero, O., Pijpers, F., Siibak, A., Spitzer, J., Stevens, B., Vasconcelos, V. & Vossepoel, F. (2024). Digital twins of the Earth with and for humans. Communications Earth & Environment, 5: 463. doi:10.1038/s43247-024-01626-x [publisher-version][any-fulltext]
  • He, C., Kumar, R., Tang, W., Pfister, G., Xu, Y., Qian, Y. & Brasseur, G. (2024). Air pollution interactions with weather and climate extremes: Current knowledge, gaps, and future directions. Current Pollution Reports. doi:10.1007/s40726-024-00296-9
  • Heinicke, S., Volkholz, J., Schewe, J., Gosling, S., Müller Schmied, H., Zimmermann, S., Mengel, M., Sauer, I., Burek, P., Chang, J., Kou-Giesbrecht, S., Grillakis, M., Guillaumot, L., Hanasaki, N., Koutroulis, A., Otta, K., Qi, W., Satoh, Y., Stacke, T., Yokohata, T. & Frieler, K. (2024). Global hydrological models continue to overestimate river discharge. Environmental Research Letters, 19: 074005. doi:10.1088/1748-9326/ad52b0 [publisher-version]
  • Heuer, H., Schwabe, M., Gentine, P., Giorgetta, M. & Eyring, V. (2024). Interpretable multiscale machine learning-based parameterizations of convection for ICON. Journal of Advances in Modeling Earth Systems, 16: e2024MS004398. doi:10.1029/2024MS004398 [publisher-version]
  • Jersild, A. & Landschützer, P. (2024). A spatially explicit uncertainty analysis of the air-sea CO2 flux from observations. Geophysical Research Letters, 51: 45. doi:10.1029/2023GL106636 [publisher-version][supplementary-material]
  • Jin, Y., Köhl, A., Jungclaus, J. & Stammer, D. (2024). Mechanisms of projected sea-level trends and variability in the Southeast Asia region based on MPI-ESM-ER. Climate Dynamics, 62, 973-988. doi:10.1007/s00382-023-06960-y [publisher-version]
  • Karpechko, A., Wu, Z., Simpson, I., Kretschmer, M., Afargan-Gerstman, H., Butler, A., Domeisen, D., Garny, H., Lawrence, Z., Manzini, E. & Sigmond, M. (2024). Northern hemisphere stratosphere-troposphere circulation change in CMIP6 models: 2. mechanisms and sources of the spread. Journal of Geophysical Research: Atmospheres, 129: e2024JD040823.. doi:10.1029/2024JD040823 [publisher-version][supplementary-material]
  • Kim, D., Kang, S., Kim, H. & Taylor, P. (2024). Quantifying changes in the Arctic shortwave cloud radiative effects. Journal of Geophysical Research: Atmospheres, 129: e2023JD040707. doi:10.1029/2023JD040707 [publisher-version][supplementary-material]
  • Kroll, C., Fueglistaler, S., Schmidt, H., Dauhut, T. & Timmreck, C. (2024). The impact of stratospheric aerosol heating on the frozen hydrometeor transport pathways in the tropical tropopause layer. Environmental Research Letters, 19: 044039. doi:10.1088/1748-9326/ad33d0 [supplementary-material][publisher-version]
  • Kroll, C. & Schmidt, A. (2024). Indirect stratospheric moisture increase after a Pinatubo-magnitude eruption can be comparable to direct increase after 2022 Hunga. Communications Earth & Environment, 5: 497. doi:10.1038/s43247-024-01651-w [publisher-version][any-fulltext]
  • Laakso, A., Visioni, D., Niemeier, U., Tilmes, S. & Kokkola, H. (2024). Dependency of the impacts of geoengineering on the stratospheric sulfur injection strategy – Part 2: How changes in the hydrological cycle depend on the injection rate and model used. Earth System Dynamics Discussions, 15, 405-427. doi:10.5194/esd-15-405-2024 [publisher-version]
  • Lahijani, H., Leroy, S., Arpe, K. & Crétaux, J.-F. (2024). Corrigendum to "Caspian Sea level changes during instrumental period, its impact and forecast: A review" (in press). Earth-Science Reviews. doi:10.1016/j.earscirev.2024.104856 [pre-print]
  • Lapolli, F., da Silva Peixoto, P. & Korn, P. (2024). Accuracy and stability analysis of horizontal discretizations used in unstructured grid ocean models. Ocean Modelling, 189: 102335. doi:10.1016/j.ocemod.2024.102335 [publisher-version]
  • Lauerwald, R., Bastos, A., McGrath, M., Petrescu, A., Ritter, F., Andrew, R., Berchet, A., Broquet, G., Brunner, D., Chevallier, F., Cescatti, A., Filipek, S., Fortems‐Cheiney, A., Forzieri, G., Friedlingstein, P., Fuchs, R., Gerbig, C., Houweling, S., Ke, P., Lerink, B., Li, W., Li, W., Li, X., Luijkx, I., Monteil, G., Munassar, S., Nabuurs, G., Patra, P., Peylin, P., Pongratz, J., Regnier, P., Saunois, M., Schelhaas, M., Scholze, M., Sitch, S., Thompson, R., Tian, H., Tsuruta, A., Wilson, C., Wigneron, J., Yao, Y., Zaehle, S. & Ciais, P. (2024). Carbon and greenhouse gas budgets of Europe: trends, interannual and spatial variability, and their drivers. Global Biogeochemical Cycles, 38: e2024GB008141. doi:10.1029/2024GB008141 [publisher-version][supplementary-material][supplementary-material]
  • Lee, J. & Hohenegger, Cathy (Climate Surface Interaction, Department Climate Physics, MPI for Meteorology, Max Planck Society), . (2024). Weaker land–atmosphere coupling in global storm-resolving simulation. PNAS, 121: 2314265121. doi:10.1073/pnas.2314265121 [publisher-version]
  • Li, D., Zhou, T., Qi, Y., Zou, L., Li, C., Zhang, W. & Chen, X. (2024). Future reduction of cold extremes over East Asia due to thermodynamic and dynamic warming. Atmospheric Chemistry and Physics, 24, 7347-7358. doi:10.5194/acp-24-7347-2024 [publisher-version]
  • Li, X., Markkanen, T., Korkiakoski, M., Lohila, A., Leppänen, A., Aalto, T., Peltoniemi, M., Mäkipää, R., Kleinen, T. & Raivonen, M. (2024). Modelling alternative harvest effects on soil CO2 and CH4 fluxes from peatland forests (in press for Science of The Total Environment). Science of the Total Environment, 951: 175257. doi:10.1016/j.scitotenv.2024.175257
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