de Arellano, J. V.-G.; Hartogensis, O. K.; de Boer, H.; Moonen, R.; González-Armas, R.; Janssens, M.; Adnew, G. A.; Bonell-Fontás, D. J.; Botia, S.; Jones, S. P.et al.; van Asperen, H.; Komiya, S.; de Feiter, V. S.; Rikkers, D.; de Haas, S.; Machado, L. A. T.; Dias-Junior, C. Q.; Giovanelli-Haytzmann, G.; Valenti, W. I. D.; Figueiredo, R. C.; Farias, C. S.; Hall, D. H.; Mendonça, A. C. S.; da Silva, F. A. G.; da Silva, J. L. M.; Souza, R.; Martins, G.; Miller, J. N.; Mol, W. B.; Heusinkveld, B.; van Heerwaarden, C. C.; D’Oliveira, F. A. F.; Ferreira, R. R.; Gotuzzo, R. A.; Pugliese, G.; Williams, J.; Ringsdorf, A.; Edtbauer, A.; Quesada, C. A.; Portela, B. T. T.; Alves, E. G.; Pöhlker, C.; Trumbore, S. E.; Lelieveld, J.; Röckmann, T.: CloudRoots-Amazon22: Integrating clouds with photosynthesis by crossing scales. Bulletin of the American Meteorological Society 105 (7), pp. E1275 - E1302 (2024)
van der Woude, A. M.; Peters, W.; Joetzjer, E.; Lafont, S.; Koren, G.; Ciais, P.; Ramonet, M.; Xu, Y.; Bastos, A.; Botia, S.et al.; Sitch, S.; de Kok, R.; Kneuer, T.; Kubistin, D.; Jacotot, A.; Loubet, B.; Herig-Coimbra, P.-H.; Luijkx, D. L. I. T.: Temperature extremes of 2022 reduced carbon uptake by forests in Europe. Nature Communications 14, 6218 (2023)
Alves, E. G.; Santana, R. A.; Dias-Júnior, C. Q.; Botia, S.; Taylor, T.; Yáñez-Serrano, A. M.; Kesselmeier, J.; Bourtsoukidis, E.; Williams, J.; de Assis, P. I. L. S.et al.; Martins, G.; de Souza, R.; Júnior, S. D.; Guenther, A.; Gu, D.; Tsokankunku, A.; Sörgel, M.; Nelson, B.; Pinto, D.; Komiya, S.; Rosa, D. M.; Weber, B.; Barbosa, C.; Robin, M.; Feeley, K. J.; Duque, A.; Lemos, V. L.; Contreras, M. P.; Idarraga, A.; López, N.; Husby, C.; Jestrow, B.; Toro, I. M. C.: Intra- and interannual changes in isoprene emission from central Amazonia. Atmospheric Chemistry and Physics 23 (14), pp. 8149 - 8168 (2023)
Tangarife-Escobar, A.; Koeniger, P.; Lopez-Moreno, J. I.; Botia, S.; Ceballos-Liévano, J. L.: Spatiotemporal variability of stable isotopes in precipitation and stream water in a high elevation tropical catchment in the Central Andes of Colombia. Hydrological Processes 37 (5), e14873 (2023)
de Arellano, J. V.-G.; Hartogensis, O.; Benedict, I.; de Boer, H.; Bosman, P. J. M.; Botia, S.; Cecchini, M. A.; Faassen, K. A. P.; González-Armas, R.; van Diepen, K.et al.; Heusinkveld, B. G.; Janssens, M.; Lobos-Roco, F.; Luijkx, I. T.; Machado, L. A. T.; Mangan, M. R.; Moene, A. F.; Mol, W. B.; van der Molen, M.; Moonen, R.; Ouwersloot, H. G.; Park, S.-W.; Pedruzo-Bagazgoitia, X.; Röckmann, T.; Adnew, G. A.; Ronda, R.; Sikma, M.; Schulte, R.; van Stratum, B. J. H.; Veerman, M. A.; van Zanten, M. C.; van Heerwaarden, C. C.: Advancing understanding of land–atmosphere interactions by breaking discipline and scale barriers. Annals of the New York Academy of Sciences 1522 (1), pp. 74 - 97 (2023)
van der Woude, A. M.; de Kok, R.; Smith, N.; Luijkx, I. T.; Botia, S.; Karstens, U.; Kooijmans, L. M. J.; Koren, G.; Meijer, H.; Steeneveld, G.-J.et al.; Storm, I.; Super, I.; Scheeren, B. A.; Vermeulen, A.; Peters, W.: Near-real-time CO2 fluxes from CarbonTracker Europe for high-resolution atmospheric modeling. Earth System Science Data 15 (2), pp. 579 - 605 (2023)
Dias-Júnior, C. Q.; Carneiro, R. G.; Fisch, G.; D’Oliveira, F. A. F.; Sörgel, M.; Botia, S.; Machado, L. A. T.; Wolff, S.; dos Santos, R. M. N.; Pöhlker, C.: Intercomparison of planetary boundary layer heights using remote sensing retrievals and ERA5 reanalysis over Central Amazonia. Remote Sensing 14 (18), 4561 (2022)
Melack, J. M.; Basso, L. S.; Fleischmann, A. S.; Botia, S.; Guo, M.; Zhou, W.; Barbosa, P. M.; Amaral, J. H.F.; MacIntyre, S.: Challenges regionalizing methane emissions using aquatic environments in the Amazon Basin as examples. Frontiers of Environmental Science & Engineering 10, 866082 (2022)
Botia, S.; Komiya, S.; Marshall, J.; Koch, T.; Galkowski, M.; Lavrič, J. V.; Gomes-Alves, E.; Walter, D.; Fisch, G.; Pinho, D. M.et al.; Nelson, B.; Martins, G.; Luijkx, I. T.; Koren, G.; Florentie, L.; de Araujo, A. C.; Sa, M.; Andreae, M. O.; Heimann, M.; Peters, W.; Gerbig, C.: The CO2 record at the Amazon Tall Tower Observatory: a new opportunity to study processes on seasonal and inter-annual scales. Global Change Biology 28 (2), pp. 588 - 611 (2022)
Correa, P. B.; Dias-Júnior, C. Q.; Cava, D.; Sörgel, M.; Botia, S.; Acevedo, O.; Oliveira, P. E. S.; Manzi, A. O.; Machado, L. A. T.; Martins, H. d. S.et al.; Tsokankunku, A.; de Araújo, A. C.; Lavrič, J. V.; Walter, D.; Mortarini, L.: A case study of a gravity wave induced by Amazon forest orography and low level jet generation. Agricultural and Forest Meteorology 307, 108457 (2021)
Bezerra, V. L.; Dias-Júnior, C. Q.; Vale, R. S.; Santana, R. A.; Botia, S.; Manzi, A. O.; Cohen, J. C. P.; Martins, H. S.; Chamecki, M.; Fuentes, J. D.: Near-surface atmospheric turbulence in the presence of a squall line above a forested and deforested region in the Central Amazon. Atmosphere 12 (4), 461 (2021)
Botía, S. B.; Gerbig, C.; Marshall, J.; Lavrič, J. V.; Walter, D.; Pölhker, C.; Holanda, B.; Fisch, G.; de Araújo, A. C.; Sá, M. O.et al.; Teixeira, P. R.; Resende, A. F.; Dias-Junior, C. Q.; van Asperen, H.; Oliveira, P. S.; Stefanello, M.; Acevedo, O. C.: Understanding nighttime methane signals at the Amazon Tall Tower Observatory (ATTO). Atmospheric Chemistry and Physics 20 (11), pp. 6583 - 6606 (2020)
Botia, S.: Greenhouse gas exchange in the Amazon: Carbon dioxide and methane insights from the Amazon Tall Tower Observatory. Dissertation, 180 pp., Wageningen University & Research, Wageningen (2022)
Meunier, F.; Boeckx, P.; Botia, S.; Bauters, M.; Cherlet, W.; Ciais, P.; Hertog, S. D.; Dietze, M.; Peaucelle, M.; Sibret, T.et al.; Sitch, S.; Li, W.; Verbeeck, H.: The impact of the 2023-2024 drought on intact Amazon forests’ productivity. Research Square (2024)
Meunier, F.; Boeckx, P.; Botia, S.; Bauters, M.; Cherlet, W.; Ciais, P.; Hertog, S. D.; Dietze, M.; Peaucelle, M.; Sibret, T.et al.; Sitch, S.; Li, W.; Verbeeck, H.: Intact Amazon forests hit a record low gross primary productivity level in 2023-2024. Research Square (2024)
Ho, D.; Galkowski, M.; Reum, F.; Botia, S.; Marshall, J.; Totsche, K. U.; Gerbig, C.: Recommended coupling to global meteorological fields for long-term tracer simulations with WRF-GHG. EGUsphere (2024)
The Chinese Academy of Sciences (CAS) and the German National Academy of Sciences Leopoldina will hold a joint conference on the challenges of achieving carbon neutrality in Berlin on October 29-30, 2024.
Experts from science, journalism, local authorities and non-governmental organizations consider a change of course in communication on climate issues to be urgently needed. The appeal was published on the occasion of the K3 Congress on Climate Communication with around 400 participants in Graz.
A recent study by scientists from the Max Planck Institute for Biogeochemistry and the University of Leipzig suggests that increasing droughts in the tropics and changing carbon cycle responses due to climate change are not primarily responsible for the strong tropical response to rising temperatures. Instead, a few particularly strong El Niño events could be the cause.
The Chapter of the Order has elected the writer, philosopher and filmmaker Alexander Kluge and the mathematician Gerd Faltings as domestic members of the Order and the geologist Susan Trumbore and the literary scholar Stephen Greenblatt as foreign members.
EU funds the international research project AI4PEX to further improve Earth system models and thus scientific predictions of climate change. Participating scientists from 9 countries met at the end of May 2024 to launch the project at the MPI for Biogeochemistry in Jena, which is leading the project.
Thuringia is severely affected by climate change, which is already reflected in extreme weather events and rising temperatures. The Climate Council is calling for the consistent implementation and tightening of climate policy targets in order to achieve climate neutrality by 2045. The coming legislative period is crucial for the future of Thuringia.
When it comes to studying climate change, we generally assume that the total amount of carbon emissions determines how much the planet will warm. A new study suggests that not only the amount, but also the timing of those emissions controls the amount of surface warming that occurs on human time-scale.
Nitrogen fertilizers and nitrogen oxides from fossil fuels pollute the air and drinking water, lead to the over-fertilization of water bodies and terrestrial ecosystems, reduce biodiversity and damage the ozone layer. On balance, however, they have a cooling effect on the climate.
A research team led by the German Centre for Integrative Biodiversity Research (iDiv) and Leipzig University has developed an algorithm that analyses observational data from the Flora Incognita app. The novel can be used to derive ecological patterns that could provide valuable information about the effects of climate change on plants.
On June 24, Prof. Dr. Henrik Hartmann, head of the Julius Kühn Institute for Forest Protection and former group leader at the Max Planck Institute for Biogeochemistry, received an important award for his scientific achievements in the field of forestry. Our warmest congratulations!