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W4318916400 abstract "Ecologists and evolutionary biologists are increasingly cognizant of rapid adaptation in wild populations. Rapid adaptation to anthropogenic environmental change is critical for maintaining biodiversity and ecosystems services into the future. Anthropogenic salinization of freshwater ecosystems is quickly emerging as a primary threat, which is well documented in the northern temperate ecoregion. Specifically, many northern temperate lakes have undergone extensive salinization because of urbanization and the associated increase in impervious surfaces causing runoff, and the extensive use of road deicing salts (e.g., NaCl). It remains unclear whether increasing salinization will lead to extirpation of species from these systems. Using a “resurrection genomics” approach, we investigated whether the keystone aquatic herbivore, Daphnia pulicaria, has evolved increased salinity tolerance in a severely salinized lake located in Minnesota, USA. Whole-genome resequencing of 54 Daphnia clones from the lake and hatched from resting eggs that represent a 25-y temporal contrast demonstrates that many regions of the genome containing genes related to osmoregulation are under selection in the study population. Tolerance assays of clones revealed that the most recent clones are more tolerant to salinity than older clones; this pattern is concomitant with the temporal pattern of stabilizing salinity in this lake. Together, our results demonstrate that keystone species such as Daphnia can rapidly adapt to increasing freshwater salinization. Further, our results indicate that rapid adaptation to salinity may allow lake Daphnia populations to persist in the face of anthropogenic salinization maintaining the food webs and ecosystem services they support despite global environmental change." @default.
W4318916400 created "2023-02-03" @default.
W4318916400 creator A5069089730 @default.
W4318916400 creator A5071149950 @default.
W4318916400 date "2023-02-02" @default.
W4318916400 modified "2023-10-16" @default.
W4318916400 title "Resurrection genomics provides molecular and phenotypic evidence of rapid adaptation to salinization in a keystone aquatic species" @default.
W4318916400 cites W1541197051 @default.
W4318916400 cites W1634984597 @default.
W4318916400 cites W1909309234 @default.
W4318916400 cites W1957752345 @default.
W4318916400 cites W1966914636 @default.
W4318916400 cites W1977601452 @default.
W4318916400 cites W1986346704 @default.
W4318916400 cites W1992318298 @default.
W4318916400 cites W2012288872 @default.
W4318916400 cites W2012838792 @default.
W4318916400 cites W2028048786 @default.
W4318916400 cites W2036620956 @default.
W4318916400 cites W2040179931 @default.
W4318916400 cites W2043275427 @default.
W4318916400 cites W2046630500 @default.
W4318916400 cites W2053682001 @default.
W4318916400 cites W2057250255 @default.
W4318916400 cites W2060435573 @default.
W4318916400 cites W2062210712 @default.
W4318916400 cites W2069682948 @default.
W4318916400 cites W2083480173 @default.
W4318916400 cites W2090688525 @default.
W4318916400 cites W2097987365 @default.
W4318916400 cites W2099085143 @default.
W4318916400 cites W2099269327 @default.
W4318916400 cites W2102619694 @default.
W4318916400 cites W2103441770 @default.
W4318916400 cites W2108234281 @default.
W4318916400 cites W2117107268 @default.
W4318916400 cites W2121607424 @default.
W4318916400 cites W2128055298 @default.
W4318916400 cites W2131271579 @default.
W4318916400 cites W2132398700 @default.
W4318916400 cites W2140031713 @default.
W4318916400 cites W2144762955 @default.
W4318916400 cites W2145094964 @default.
W4318916400 cites W2146290595 @default.
W4318916400 cites W2153069919 @default.
W4318916400 cites W2159707687 @default.
W4318916400 cites W2165725065 @default.
W4318916400 cites W2169048626 @default.
W4318916400 cites W2319549227 @default.
W4318916400 cites W2321188286 @default.
W4318916400 cites W2393825485 @default.
W4318916400 cites W2403071997 @default.
W4318916400 cites W2417483443 @default.
W4318916400 cites W2473818600 @default.
W4318916400 cites W2474518231 @default.
W4318916400 cites W2503109891 @default.
W4318916400 cites W2548475219 @default.
W4318916400 cites W2549143342 @default.
W4318916400 cites W2593883258 @default.
W4318916400 cites W2605570603 @default.
W4318916400 cites W2747375639 @default.
W4318916400 cites W2755207913 @default.
W4318916400 cites W2769915029 @default.
W4318916400 cites W2770438748 @default.
W4318916400 cites W2783504177 @default.
W4318916400 cites W2799273013 @default.
W4318916400 cites W2810957514 @default.
W4318916400 cites W2901199346 @default.
W4318916400 cites W2942541179 @default.
W4318916400 cites W2950943638 @default.
W4318916400 cites W2951621382 @default.
W4318916400 cites W2954213592 @default.
W4318916400 cites W2963667546 @default.
W4318916400 cites W2964776373 @default.
W4318916400 cites W3010648363 @default.
W4318916400 cites W3023779228 @default.
W4318916400 cites W3037082252 @default.
W4318916400 cites W3042122970 @default.
W4318916400 cites W3106690112 @default.
W4318916400 cites W3110917833 @default.
W4318916400 cites W3117314014 @default.
W4318916400 cites W3123129704 @default.
W4318916400 cites W3131055609 @default.
W4318916400 cites W3157382090 @default.
W4318916400 cites W3174985893 @default.
W4318916400 cites W3179396968 @default.
W4318916400 cites W3206827014 @default.
W4318916400 cites W4205218064 @default.
W4318916400 cites W4205992240 @default.
W4318916400 cites W4206972314 @default.
W4318916400 cites W4210814778 @default.
W4318916400 cites W4213146240 @default.
W4318916400 cites W4286780001 @default.
W4318916400 cites W4318916400 @default.
W4318916400 cites W4322388308 @default.
W4318916400 doi "https://doi.org/10.1073/pnas.2217276120" @default.
W4318916400 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36730191" @default.
W4318916400 hasPublicationYear "2023" @default.
W4318916400 type Work @default.
W4318916400 citedByCount "6" @default.