A phylogeny of the genus Limia (Teleostei: Poeciliidae) suggests a single-lake radiation nested in a Caribbean-wide allopatric speciation scenario

Objective The Caribbean is an important global biodiversity hotspot. Adaptive radiations there lead to many speciation events within a limited period and hence are particularly prominent biodiversity generators. A prime example are freshwater fish of the genus Limia, endemic to the Greater Antilles. Within Hispaniola, nine species have been described from a single isolated site, Lake Miragoâne, pointing towards extraordinary sympatric speciation. This study examines the evolutionary history of the Limia species in Lake Miragoâne, relative to their congeners throughout the Caribbean. Results For 12 Limia species, we obtained almost complete sequences of the mitochondrial cytochrome b gene, a well-established marker for lower-level taxonomic relationships. We included sequences of six further Limia species from GenBank (total N  = 18 species). Our phylogenies are in concordance with other published phylogenies of Limia. There is strong support that the species found in Lake Miragoâne in Haiti are monophyletic, confirming a recent local radiation. Within Lake Miragoâne, speciation is likely extremely recent, leading to incomplete lineage sorting in the mtDNA. Future studies using multiple unlinked genetic markers are needed to disentangle the relationships within the Lake Miragoâne clade. Supplementary Information The online version contains supplementary material available at 10.1186/s13104-021-05843-x.

Adaptive radiations typically occur when a set of open niches becomes available because of a key innovation or the arrival of a founder species, which subsequently differentiates to occupy these niches [17]. Many classical examples are linked to islands, as Darwin's Finches on the Galapagos islands, all of which go back to a

BMC Research Notes
The original online version of this article was revised to provide additional funding information.
*Correspondence: tiedeman@uni-potsdam.de 1 Unit of Evolutionary Biology/Systematic Zoology, Institute of Biochemistry and Biology, University of Potsdam, Karl-Liebknecht-Straße 24-25, Haus 26, 14476 Potsdam, Germany Full list of author information is available at the end of the article single ancestor [18][19][20]. Research on Darwin's Finches also highlighted the role of hybridization in speciation [21]. Other well-explored radiations include Hawaiian silverswords [22][23][24] and Hawaiian honeycreepers [25]. In all these examples, molecular evidence has played an important role in understanding the evolutionary processes of speciation. Probably the best-known examples from the Caribbean region are Anolis lizards [26] and Eleutherodactylus frogs [27].
Poeciliidae are freshwater livebearing fishes that have experienced an enormous radiation in aquatic environments of the West Indies with three endemic genera (Girardinus, Quintana and Limia) distributed in the Antilles [3,4,28,29]. The Caribbean is also the site of two lesser known radiations in isolated inland lakes, both of which involve fishes of the genus Cyprinodon [30][31][32][33]. These Caribbean fishes share many characteristics with the most prominent example of radiation in freshwater fishes, the cichlids in lakes of the Rift Valley of East Africa, where each lake has produced a distinct cichlid fauna [34][35][36]. One of the important drivers for speciation in these fishes seems to be feeding specializations [33,37,38]. Furthermore, as generally predicted from the theory of island biogeography [39] and recently empirically confirmed for island birds [40,41], the number and diversity of species in both the Rift Valley lakes and Greater Antilles correlates with the size of the habitat.
Among livebearing fishes of the Greater Antilles, the origin of the different lineages and species composition within each genus may show peculiar patterns [39,42]. Limia is part of the unique freshwater fish fauna of the Greater Antilles. It is found in most freshwater habitats in Hispaniola, ranging from hypersaline lagoons to relatively cool mountain streams [43,44]. Limia species are generally feeding generalists [2,45,46]. Their distribution indicates a radiation on Hispaniola [2,47], with 19 of the 23 known species found on this island [46,48] (Additional file 1). By contrast, on Cuba, Jamaica, and Grand Cayman, only one species each is found [28,44,49]. Within Hispaniola, nine Limia species (L. fuscomaculata, L. garnieri, L. grossidens, L. immaculata, L. islai, L. mandibularis, L. miragoanensis, L. nigrofasciata, L. ornata) have been described from a single site, Lake Miragoâne. This lake is one of the largest freshwater lakes in the Caribbean and is located in the southwestern part of Haiti. It comprises an isolated, endorheic drainage [50]. A Limia radiation there was hypothesized by Rivas [2] and has received renewed attention through the description of two new species from the lake [43,45]. However, few studies have examined the evolutionary history of the fishes found in Lake Miragoâne.
Without specific attention to Lake Miragoâne, some studies of Limia have resolved the general phylogeny of the genus. Current literature suggests Limia to form a monophyletic group with the genera Pamphorichthys, Mollienesia, Micropoecilia, and Poecilia, with Limia as sister taxon to Poecilia [51][52][53]. Limia melanogaster is the most basal species, branching off early and colonizing Jamaica [2]. Limia melanogaster's divergence was followed by the colonization of Hispaniola, where the species diverged into over 20 recognized species [44]. Nested within the species native to Hispaniola are L. vittata and L. caymanensis [2,54] which are the only species native to their respective islands, Cuba and Grand Cayman [28,44]. Most previous analyses target only a few species [52,53,55]. The most comprehensive phylogeny to date used nine species of Limia. Among them were only two native to Lake Miragoâne, Limia nigrofasciata and Limia islai [2,44,46], such that Riva's hypothesis of a local radiation within Lake Miragoâne [1] could so far not been tested.
Our study comprises 18 out of 23 currently recognized species of Limia. It is particularly novel regarding its more comprehensive sampling of Lake Miragoâne, including five of its native species. We expected that if a local radiation event did occur in Lake Miragoâne, those species native to the lake should form a monophyletic clade.

Materials and methods Sampling
Ingroup sampling consisted of 67 individuals representing 18 species of Limia (Additional files 2, 3). Twelve Limia species were obtained from wild-caught populations. Sequences from six Limia species were obtained from GenBank: L. garnieri, L. melanonotata, L. pauciradiata, L. rivasi, L. versicolor, and L. sulphurophila. Outgroup sampling consisted of eight individuals representing three species of Poecilia, the sister taxon to Limia [28,44,55]: P. dominicensis [45], P. hispaniolana [56], both endemic to Hispaniola, and P. mexicana from the Atlantic side of Mexico. We used four to five individuals per species, except in cases where sampling was limited.

Molecular methods
We targeted the mitochondrial (mt) cytochrome b gene, a well-established marker for lower-level taxonomic relationships as in recent radiations (see [57] for a fish example) for which we obtained an almost complete sequence.

Phylogenetic and haplotype network analyses
Sequences were manually edited and aligned with ClustalW in BioEdit v.7.2 [61,62] and 1127 bp of cytochrome b were used in phylogenetic analyses. Potential mutation saturation was assessed with DAMBE [63]. We conducted Maximum Likelihood analyses using RAxML GUI v.2.0 [64,65] and assessing clade support via 10,000 rapid bootstrap pseudoreplicates. Separately, we conducted Bayesian analyses in MrBayes v.3.2.7. [66], where we ran four Markov chains for 10,00,000 iterations, sampling every 1000 iterations, with three heated chains and one cold chain and default parameters unlinked across partitions. Convergence was assessed using Tracer v.1.7. All parameter estimates were verified to have been sampled sufficiently (ESS > 200). We removed the first 25% of our trees as burn-in, such that 3002 trees were retained. Nodes were considered with bootstrap support (BS) and Bayesian posterior probability (PP) greater than 70 and 0.95, respectively [67,68]. A haplotype network was constructed within PopArt [69] using a median joining network [70]. Genetic distances between taxonomic groups were calculated in MEGA [71].

Results
There was no indication of mutation saturation in our data set (Additional file 5). Maximum Likelihood and Bayesian trees revealed nearly identical topologies for interspecific relationships (Fig. 1). In both trees, there is strong support that the species found in Lake Miragoâne in Haiti are monophyletic (BS = 97; PP = 1.0). However, within Lake Miragoâne, L. mandibularis is the only species resolved as a monophyletic group, while the phenotypically described species L. islai, L. immacualata, L. miragoanensis, and L. nigrofasciata form a polytomy.
For the majority of taxa outside Lake Miragoâne, both species monophylies and respective taxonomic Fig. 1 Phylogenetic tree of Limia based on the mitochondrial (mt) cytochrome b gene. Maximum likelihood bootstrap values are placed after Bayesian inference posterior probabilities at each node. Both phylogenetic analyses revealed identical topologies. Species endemic to Lake Miragoâne formed a separate clade, compatible with an in-situ radiation. Phylogenetic relationships within the Lake Miragoâne clade were not resolved in our analyses relationships were well supported. L. yaguajali is sister to a clade consisting of L. perugiae, L. dominicensis, and the species in Lake Miragoâne, but this node has only moderate support (BS = 61; PP = 72). We found significant genetic divergence among two populations of L. melanogaster on Jamaica (BS = 100; PP = 1.0; Additional file 6). The haplotype network (Fig. 2) confirms divergent Limia evolution among the different Caribbean islands. Within Lake Miragoâne and in the L. perugiae group, some mitochondrial haplotypes were shared among morphological species.

Discussion
The five Limia species from Lake Miragoâne are recovered as a well-supported clade in all phylogenetic analyses, indicating an in situ radiation. However, taxonomic relationships within the clade were not resolved. These species have likely diverged too recently for complete lineage sorting and reciprocal monophyly to evolve at a single maternally inherited locus like cytochrome b. Alternatively, the observed pattern could be due to species hybridization, introgression, or phenotypic species misassignment [72]. However, the distinct morphological differences of the species found in Lake Miragoâne make us reluctant to attribute the polytomy to phenotypic species misassignment (Fig. 3). Most other relationships supported in our phylogenetic analyses are consistent with the findings of previous phylogenetic studies [28,44]. Limia melanogaster's basal placement (Fig. 1) corroborates initially colonization of Jamaica before radiating across other islands in the Greater Antilles [41], lending additional support to the Greater Antilles and Aves Ridge (GAAR) landia hypothesis [44,73]. The divergence within L. melanogaster may be the first evidence of a further cryptic speciation event in Limia (Additional file 5). Limia vittata from Cuba and L. caymanensis from Grand Cayman group within the Hispaniola clade. These two species are likely the sister taxa to L. yaguajali which is found in the north of Hispaniola. This coincides with geological evidence that eastern Cuba and northcentral Hispaniola were likely connected as a single magmatic arc during the Paleocene-Eocene [74] until the Oligocene [75]. Together, the biogeographic and geological evidence suggests that a L. vittata ancestor reached Cuba from the north of Hispaniola and subsequently L. caymanensis ancestor reached Grand Cayman from Cuba. Alternatively, they may have reached Cuba via open ocean migration, which has been found in freshwater fishes [5].
The L. perugiae group also exhibits a shallow phylogeny with short branches and one haplotype shared across species, again indicating a recent divergence or incomplete lineage sorting. L. perugiae is found from hypersaline lagoons to cool freshwater streams and dominates another large lake on Hispaniola, Lake Enriquillo. Limia perugiae is also widely distributed throughout Hispaniola with many isolated populations. The combination of L. perugiae's diverse life history strategies and fragmented populations may promote cryptic speciation. However, given our inability to genetically resolve this group, phenotypic plasticity could be an alternative explanation.
It is known that Limia species from Lake Miragoâne all inhabit extremely similar niches [76] and they likely possess similar life histories, perhaps with the exception of L. mandibularis. This species has well-developed and anteriorly projected lower jaw, deviating from other poeciliids and potentially reflecting specializations in diet [48]. Marked sexual dimorphism, with males such as in L. nigrofasciata being extremely ornamented, suggests that sexual selection is also present. Therefore, it is plausible that both natural and sexual selection might-independently or in concert-act as drivers in the potential radiation of Limia in Lake Miragoâne.

Limitations
We present initial evidence for a potential radiation in Lake Miragoâne, yet we recognize the limitations of a single-gene phylogeny. Our preliminary findings are supported by morphometric data that show distinct phenotypic differences between multiple Limia populations [1,43,45]. The use of multiple unlinked markers, such as microsatellites or SNPs, along with increased population sampling are imperative to understand the radiation event within this clade, as is true for the L. perugiae group as well. Such analyses may also resolve the relationship of L. yaguajali with L. vittata and L. caymanensis. We acknowledge that 18 species represent only a subset of the 23 known species of Limia, therefore future studies should continue to increase species sampling. Furthermore, our methodology cannot rule out ongoing hybridization between species in Lake Miragoâne, however, the species we keep in the International Stock Center for Livebearing Fishes, appear to breed like regular species.
Additional file 1: Figure S1. Biogeographical distribution of Limia species on the Greater Antilles. Note the high species number on Hispaniola, suggesting a radiation on that island. Additional file 2: Table S1. Taxon list including collection localities, country of origin, coordinates, date of collection, and accession numbers. 'NA' denotes the information is either unavailable or inapplicable.  Table S2. Cytochrome b PCR primer pairs and temperature profiles. Primer sequences are listed from 5' to 3' ends. For primers not developed during this study, references are provided. Additional file 5: Figure S3. DAMBE saturation plot for our cytochrome b data set. There is no indication of saturation, as transisitions (s) exceed transversions (v) and both are linearly correlated to genetic distance. Additional file 6: Table S3. p-distance between genetically analysed species and populations of Limia and Poecilia based on mitochondrial cytochrome b.