1. Dispersal of populations and environmental deterioration rate influence evolutionary rescue under selection by salinity in the freshwater cyanobacterium Microcystis aeruginosa
- Author
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María J. García-Sánchez, Elena Bañares-España, Antonio Flores-Moya, Elena Martín-Clemente, Andreas Reul, and Ignacio J. Melero-Jiménez
- Subjects
0106 biological sciences ,Experimental evolution ,Extinction ,biology ,Ecology ,010604 marine biology & hydrobiology ,Metapopulation ,Plant Science ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Salinity ,Biological dispersal ,Microcystis aeruginosa ,Adaptation ,Selection (genetic algorithm) - Abstract
Evolutionary rescue (ER) occurs when adaptation prevents extinction under lethal selection. However, the lack of empirical studies addressing the possible factors enabling ER limits our understanding of the current biodiversity crisis in the context of global change. Here we addressed the roles of environmental deterioration rate and dispersal of metapopulations on the dynamics of ER in the freshwater cyanobacterium Microcystis aeruginosa exposed to lethal salinity levels. We exposed M. aeruginosa to six combinations of two environmental deterioration rates (control = no deterioration, and progressive deterioration). Populations under progressive deterioration started with five different NaCl concentrations (from 0 to 4 g l���1 NaCl), with 2 g l���1 NaCl added twice at 4-week intervals, followed by a final increase of 4 g l���1 NaCl. Final concentrations in the experiment ranged from 8 to 12 g l���1 NaCl. Populations with no deterioration treatment spent 12 weeks in the initial concentration and were suddenly shifted to the final range concentration. To determine the effects of dispersal on the number of ER events, three dispersal modes were implemented: (i) populations were not mixed (no dispersal); (ii) six replicate populations of the same NaCl concentration were mixed together (local dispersal); and (iii) all populations of the same metapopulation were mixed together (global dispersal). Both dispersal mode and deterioration rate were very strong predictors of the ER outcome in each metapopulation. Specifically, dispersal among populations and prior stress exposure favoured the occurrence of ER events.
- Published
- 2021
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