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Frequent rainfall-induced new particle formation within the canopy in the Amazon rainforest

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Machado, Luiz A. T. ; Unfer, Gabriela R. ; Brill, Sebastian ; Hildmann, Stefanie ; Poehlker, Christopher ; Cheng, Yafang ; Williams, Jonathan ; Hartwig, Harder ; Andreae, Meinrat O. ; Artaxo, Paulo ; Curtius, Joachim ; Franco, Marco A. ; Cecchini, Micael A. ; Edtbauer, Achim ; Hoffmann, Thorsten ; Holanda, Bruna ; Khadir, Theodore ; Krejci, Radovan ; Kremper, Leslie A. ; Liu, Yunfan ; Meller, Bruno B. ; Poehlker, Mira L. ; Quesada, Carlos A. ; Ringsdorf, Akima ; Riipinen, Ilona ; Trumbore, Susan ; Wolff, Stefan ; Lelieveld, Jos ; Poeschl, Ulrich
Número total de Autores: 29
Tipo de documento: Artigo Científico
Fonte: NATURE GEOSCIENCE; v. N/A, p. 11-pg., 2024-11-08.
Resumo

Atmospheric aerosol particles are essential for forming clouds and precipitation, thereby influencing Earth's energy budget, water cycle and climate on regional and global scales. However, the origin of aerosol particles over the Amazon rainforest during the wet season is poorly understood. Earlier studies showed new particle formation in the outflow of deep convective clouds and suggested a downward flux of aerosol particles during precipitation events. Here we use comprehensive aerosol, trace gas and meteorological data from the Amazon Tall Tower Observatory to show that rainfall regularly induces bursts of nanoparticles in the nucleation size range. This can be attributed to rain-related scavenging of larger particles and a corresponding reduction of the condensation sink, along with an ozone injection into the forest canopy, which could increase the oxidation of biogenic volatile organic compounds, especially terpenes, and enhance new particle formation. During and after rainfall, the nucleation particle concentrations directly above the canopy are greater than those higher up. This gradient persists throughout the wet season for the nucleation size range, indicating continuous particle formation within the canopy, a net upward flux of newly formed particles and a paradigm shift in understanding aerosol-cloud-precipitation interactions in the Amazon. Particle bursts provide a plausible explanation for the formation of cloud condensation nuclei, leading to the local formation of green-ocean clouds and precipitation. Our findings suggest that an interplay of a rain-related reduction in the condensation sink, primary emissions of gases, mainly terpenes, and particles from the forest canopy, and convective cloud processing determines the population of cloud condensation nuclei in pristine rainforest air. Rainfall induces nanoparticle bursts within the Amazon rainforest canopy by scavenging large particles and bringing down ozone-rich air, according to aerosol, trace gas and meteorology data from the Amazon Tall Tower Observatory. (AU)

Processo FAPESP: 22/07974-0 - Efeitos sinergéticos das mudanças climáticas e do uso do solo nas fontes e sumidouros de carbono na Amazônia
Beneficiário:Luiz Augusto Toledo Machado
Modalidade de apoio: Auxílio à Pesquisa - Programa de Pesquisa sobre Mudanças Climáticas Globais - Temático
Processo FAPESP: 17/17047-0 - O ciclo de vida de aerossóis e nuvens na Amazônia: emissões biogênicas, emissões de queimadas e impactos no ecossistema
Beneficiário:Paulo Eduardo Artaxo Netto
Modalidade de apoio: Auxílio à Pesquisa - Programa de Pesquisa sobre Mudanças Climáticas Globais - Temático