Insight into the genome and brackish water adaptation strategies of toxic and bloom-forming Baltic Sea Dolichospermum sp. UHCC 0315
Author:
Publisher
Springer Science and Business Media LLC
Subject
Multidisciplinary
Link
http://www.nature.com/articles/s41598-019-40883-1.pdf
Reference95 articles.
1. Zillén, L., Conley, D. J., Andrén, T., Andrén, E. & Björck, S. Past occurrences of hypoxia in the Baltic Sea and the role of climate variability, environmental change and human impact. Earth-Science Rev. 91, 77–92 (2008).
2. Kjellström, E. & Ruosteenoja, K. Present-day and future precipitation in the Baltic Sea region as simulated in a suite of regional climate models. Clim. Change 81, 281–291 (2007).
3. von Storch, H., Omstedt, A., Pawlak, J. & Reckermann, M. Introduction and summary. in Second assessment of climate change for the Baltic Sea basin (ed. The BACC II Author Team) 1–22 (Springer International Publishing AG 2015).
4. Graham, L. P. Climate change effects on river flow to the Baltic Sea. Ambio 33, 235–241 (2016).
5. Johannesson, K. & André, C. Life on the margin: genetic isolation and diversity loss in a peripheral marine ecosystem, the Baltic Sea. Mol. Ecol. 15, 2013–2029 (2006).
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