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	Provedor de dados ArchiMer (20) Autor Beaufort, Luc (20) Droxler, Andre W. (4) Dickens, Gerald R. (3) Opdyke, Bradley N. (3) Peterson, Larry C. (3) Andersen, Nils (2) Bassinot, Franck (2) Bentley, Sam J. (2) Bolliet, Timothe (2) Chen, Min-te (2) Gally, Yves (2) Holbourn, Ann (2) Kuhnt, Wolfgang (2) Tetard, Martin (2) Anselmetti, Flavio S. (1) Arellano-torres, Elsa (1) Babonneau, Nathalie (1) Bachelery, Patrick (1) Barbarin, Nicholas (1) Barbarin, Nicolas (1) Mais... Palavra-chave Great barrier reef (3) Australia (2) Foreland basin (2) Sedimentation (2) Bank (1) Biogeography (1) Biomass burning (1) Black carbon (1) Carbon cycle (1) Carbonate platforms (1) Caribbean sea (1) Centennial climatic variability (1) Charcoal (1) Circulation (1) Climate (1) Climate cycles (1) Coccolithophores (1) Deposition (1) East Asian monsoon (1) El Nino Southern Oscillation (1) Mais... Tipo do documento Text (20) Ano 2020 (1) 2018 (1) 2017 (3) 2016 (1) 2015 (1) 2014 (3) 2012 (1) 2011 (1) 2010 (2) 2008 (4) 1997 (1) 1994 (1) Mais... País France (20) Idioma Inglês (19) Francês (1)		Registro completo Provedor de dados:  ArchiMer País:  France Título:  Cyclic evolution of phytoplankton forced by changes in tropical seasonality Autores:  Beaufort, Luc Bolton, Clara T Sarr, Anta-clarisse Sucheras-marx, Baptiste Rosenthal, Yair Donnadieu, Yannick Barbarin, Nicholas Bova, Samantha Cornuault, Pauline Gally, Yves Gray, Emmeline Mazur, Jean-charles Tetard, Martin Data:  2020 Ano:  2020 Palavras-chave:  Paleoceanography Climate cycles Global carbon cycle Phytoplankton evolution Tropical seasonality Resumo:  The effect of global climate cycles driven by Earth’s orbital variations on evolution is poorly understood because of difficulties achieving sufficiently-resolved records of past evolution. The fossil remains of coccolithophores, a key calcifying phytoplankton group, enable an exceptional assessment of the impact of cyclic orbital-scale climate change on evolution because of their abundance in marine sediments, and because coccolithophores demonstrate extreme morphological plasticity in response to the changing environment1,2. Recently, evolutionary genetic analyses linked broad changes in Pleistocene fossil coccolith morphology to species radiation events3. Here, using high-resolution coccolith data, we show that during the last 2.8 million years coccolithophore evolution was forced by Earth’s orbital eccentricity with rhythms of ~100,000 years and 405,000 years - a distinct spectral signature to that of coeval global climate cycles4. Simulations with an Earth System Model5 including the marine carbon cycle6 demonstrate that eccentricity directly impacts the diversity of ecological niches occurring over the annual cycle in the tropical ocean. Reduced seasonality favours species with mid-size coccoliths that bloom year-round, increasing coccolith carbonate export and burial. We posit that eccentricity pacing of phytoplankton evolution contributed to the strong 405,000-year pacing seen in records of the global carbon cycle. Tipo:  Text Idioma:  Inglês Identificador:  https://archimer.ifremer.fr/doc/00658/77054/78353.pdf DOI:10.21203/rs.3.rs-100744/v1 https://archimer.ifremer.fr/doc/00658/77054/ Editor:  Research Square Formato:  application/pdf Fonte:  Preprint - Nature Research journal (Research Square) In Press Direitos:  info:eu-repo/semantics/openAccess restricted use Fechar

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