Abstract
Multiple stressors linked to anthropogenic activities can influence how organisms adapt and evolve. So far, a consensus on how multiple stressors drive adaptive trajectories in natural populations has not been reached. Some meta‐analysis reports show predominance of additive effects of stressors on ecological endpoints (e.g., fecundity, mortality), whereas others show synergistic effects more frequently. Moreover, it is unclear what mechanisms of adaptation underpin responses to complex environments. Here, we use populations of Daphnia magna resurrected from different times in the past to investigate mechanisms of adaptation to multiple stressors and to understand how historical exposure to environmental stress shapes adaptive responses of modern populations. Using common garden experiments on resurrected modern and historical populations, we investigate (1) whether exposure to one stress results in higher tolerance to a second stressor; (2) the mechanisms of adaptation underpinning long‐term evolution to multistress (genetic evolution, plasticity, evolution of plasticity); and (3) the interaction effects of multiple stressors on fitness (synergism, antagonism, additivity). We measure the combined impact of different levels of resource availability (algae) and biocides on fitness‐linked life‐history traits and interpret these results in light of historical environmental exposures. We show that exposure to one stressor can alter tolerance to second stressors and that the interaction effect depends on the severity of either stressor. We also show that mechanisms of adaptation underpinning phenotypic evolution significantly differ in single‐stress and multistress scenarios. These adaptive responses are driven largely by synergistic effects on fecundity and size at maturity, and additive effects on age at maturity. Exposure to multiple stressors shifts the trade‐offs among fitness‐linked life‐history traits, with a stronger effect on Daphnia populations when low‐resource availability and high biocide levels are experienced. Our study indicates that mitigation interventions based on single‐stress analysis may not capture realistic threats.
Highlights
We investigated the mechanisms of adaptation [plasticity (E), genetic evolution (G), and evolution of plasticity (G * E)] that enabled the temporal populations of Lake Ring to persist through environmental transitions historically observed in Lake Ring
Our results show that the effect of the insecticide Carbaryl on Daphnia fitness is more severe when resource availability is limiting, whereas it is dampened by high- resource availability
By studying responses to single and multiple stress scenarios in populations separated in time and originating from the same genetic pool, we were able to make inferences on the evolution of fitness traits in response to complex environments and on the role that historical exposure to environmental stress plays in this evolutionary response
Summary
Daphnia magna dormant embryos were revived from a sedimentary archive of Lake Ring, Denmark (55°57′51.83′′N, 9°35′46.87′′E) (Cuenca-Cambronero & Orsini, 2018; Cuenca-Cambronero et al, 2018). For the single-stressor experiment, we assessed the total variance for three of the life- history traits (fecundity, size at maturity, and age at maturity), using two separate two-way ANOVAs, that is, to test for the effects of population and each stressor separately (y ~ population * algae and y ~ population * insecticide). In the first transition (T1 → T2, HALI → HAHI), biocides increased, whereas food levels remained unchanged and high—we evaluated the effects of change in population from EP to PP and the change in environment from LI to HI under high-resource availability (Figure 1a, Figure S1) In this transition, plasticity, evolution of plasticity, and genetic evolution contributed to changes in fecundity and age at maturity; evolution of plasticity largely contributed (>80%) to changes in size at maturity (Figure 3a); genetic evolution In the transition between HA → LA, all changes (a)
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