Evolutionary mismatch along salinity gradients in a Neotropical water strider

The evolution of local adaptation is crucial for the in situ persistence of populations in changing environments. However, selection along broad environmental gradients could render local adaptation difficult, and might even result in maladaptation. We address this issue by quantifying fitness trade...

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Veröffentlicht in:Ecology and evolution 2021-05, Vol.11 (10), p.5121-5134
Hauptverfasser: Castillo, Anakena M., De León, Luis F.
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Sprache:eng
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Zusammenfassung:The evolution of local adaptation is crucial for the in situ persistence of populations in changing environments. However, selection along broad environmental gradients could render local adaptation difficult, and might even result in maladaptation. We address this issue by quantifying fitness trade‐offs (via common garden experiments) along a salinity gradient in two populations of the Neotropical water strider Telmatometra withei—a species found in both fresh (FW) and brackish (BW) water environments across Panama. We found evidence for local adaptation in the FW population in its home FW environment. However, the BW population showed only partial adaptation to the BW environment, with a high magnitude of maladaptation along naturally occurring salinity gradients. Indeed, its overall fitness was ~60% lower than that of the ancestral FW population in its home environment, highlighting the role of phenotypic plasticity, rather than local adaptation, in high salinity environments. This suggests that populations seemingly persisting in high salinity environments might in fact be maladapted, following drastic changes in salinity. Thus, variable selection imposed by salinization could result in evolutionary mismatch, where the fitness of a population is displaced from its optimal environment. Understanding the fitness consequences of persisting in fluctuating salinity environments is crucial to predict the persistence of populations facing increasing salinization. It will also help develop evolutionarily informed management strategies in the context of global change. Using common garden experiments, we quantify fitness trade‐offs along a salinity gradient in two populations of the Neotropical water strider Telmatometra withei—a species found in both fresh and brackish water environments across Panama. We found that populations seemingly persisting in high salinity environments might, in fact, be maladapted, following drastic changes in salinity. We suggest that variable selection imposed by salinization could result in evolutionary mismatch, where the fitness of a population is displaced from its optimal environment.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.7405