Abstract
During the early stages of adaptive radiation, populations diverge in life history traits such as egg size and growth rates, in addition to eco‐morphological and behavioral characteristics. However, there are few studies of life history divergence within ongoing adaptive radiations. Here, we studied Astatotilapia calliptera, a maternal mouthbrooding cichlid fish within the Lake Malawi haplochromine radiation. This species occupies a rich diversity of habitats, including the main body of Lake Malawi, as well as peripheral rivers and shallow lakes. We used common garden experiments to test for life history divergence among populations, focussing on clutch size, duration of incubation, egg mass, offspring size, and growth rates. In a first experiment, we found significant differences among populations in average clutch size and egg mass, and larger clutches were associated with smaller eggs. In a second experiment, we found significant differences among populations in brood size, duration of incubation, juvenile length when released, and growth rates. Larger broods were associated with smaller juveniles when released and shorter incubation times. Although juvenile growth rates differed between populations, these were not strongly related to initial size on release. Overall, differences in life history characters among populations were not predicted by major habitat classifications (Lake Malawi or peripheral habitats) or population genetic divergence (microsatellite‐based F ST). We suggest that the observed patterns are consistent with local selective forces driving the observed patterns of trait divergence. The results provide strong evidence of evolutionary divergence and covariance of life history traits among populations within a radiating cichlid species, highlighting opportunities for further work to identify the processes driving the observed divergence.
Highlights
Adaptive radiation is characterized by the rapid evolution of ecologically differentiated species that share recent common ancestry (Schluter, 2000)
In Experiment 1, we focused on clutch size, average individual egg mass and total egg investment, using female postspawning total length (TL) as a covariate
There was no significant difference among populations in the association between mean egg mass and number of eggs within those clutches, after correcting for female TL (GLM; F7,120 = 1.834, p = .087), indicating a common trait covariance across populations of Response variable Clutch size (n)
Summary
Adaptive radiation is characterized by the rapid evolution of ecologically differentiated species that share recent common ancestry (Schluter, 2000). Life history traits can diverge among derived species within radiations (Duponchelle, Paradis, Ribbink, & Turner, 2008), the role of local life history adaptation in restricting gene flow among populations remains far less well-understood than adaptation in eco-morphological and behavioral traits This is surprising, given that many studies have demonstrated that intraspecific variation in life history strategies is driven by local environmental variation, including the quality of the food (Segers & Taborsky, 2011), habitat availability. (Rollinson & Hutchings, 2013), and key limits to reproduction including local predation regimes (Segers & Taborsky, 2012) It is, important to assess the role of life history traits, and potential constraints in their evolution, during the process of adaptive radiation. We predicted that if strong local adaptation in life history traits was taking place, QST would be independent of genetic distance between sampling sites
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