Seagrass genomes reveal ancient polyploidy and adaptations to the marine environment
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Published:2024-01-26
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ISSN:2055-0278
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Container-title:Nature Plants
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language:en
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Short-container-title:Nat. Plants
Author:
Ma XiaoORCID, Vanneste Steffen, Chang JiyangORCID, Ambrosino LucaORCID, Barry KerrieORCID, Bayer TillORCID, Bobrov Alexander A.ORCID, Boston LoriBeth, Campbell Justin E., Chen HengchiORCID, Chiusano Maria Luisa, Dattolo Emanuela, Grimwood JaneORCID, He Guifen, Jenkins JerryORCID, Khachaturyan MarinaORCID, Marín-Guirao LázaroORCID, Mesterházy Attila, Muhd Danish-DanielORCID, Pazzaglia JessicaORCID, Plott ChrisORCID, Rajasekar Shanmugam, Rombauts Stephane, Ruocco MiriamORCID, Scott AlisonORCID, Tan Min PauORCID, Van de Velde JozefienORCID, Vanholme Bartel, Webber Jenell, Wong Li Lian, Yan Mi, Sung Yeong YikORCID, Novikova PolinaORCID, Schmutz JeremyORCID, Reusch Thorsten B. H.ORCID, Procaccini GabrieleORCID, Olsen Jeanine L.ORCID, Van de Peer YvesORCID
Publisher
Springer Science and Business Media LLC
Reference136 articles.
1. Green, E. P. & Short, F. T. World Atlas of Seagrasses: Prepared by the UNEP World Conservation Monitoring Centre 48–58 (Univ. California Press, 2003). 2. Short, F., Carruthers, T., Dennison, W. & Waycott, M. Global seagrass distribution and diversity: a bioregional model. J. Exp. Mar. Biol. Ecol. 350, 3–20 (2007). 3. Camacho, C. et al. BLAST+: architecture and applications. BMC Bioinform. 10, 421 (2009). 4. McKenzie, L. J. et al. The global distribution of seagrass meadows. Environ. Res. Lett. 15, 074041 (2020). 5. Duffy, J. E. et al. Toward a coordinated global observing system for seagrasses and marine macroalgae. Front. Mar. Sci. 6, 317 (2019).
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