Abstract
Mesophotic habitats could be sheltered from natural and anthropogenic disturbances and act as reproductive refuges, providing propagules to replenish shallower populations. Molecular markers can be used as proxies evaluating the connectivity and inferring population structure and larval dispersal. This study characterizes population structure as well as horizontal and vertical genetic connectivity of the broadcasting coral Pocillopora verrucosa from Ludao, a small oceanic island off the eastern coast of Taiwan. We genotyped 75 P. verrucosa specimens from three sites (Gongguan, Dabaisha, and Guiwan) at three depth ranges (Shallow: 7–15 m, Mid-depth: 23–30 m, and Deep: 38–45 m), spanning shallow to upper mesophotic coral reefs, with eight microsatellite markers. F-statistics showed a moderate differentiation (FST = 0.106, p<0.05) between two adjacent locations (Dabaisha 23–30 and Dabaisha 38–45 m), but no differentiation elsewhere, suggesting high levels of connectivity among sites and depths. STRUCTURE analysis showed no genetic clustering among sites or depths, indicating that all Pocillopora individuals could be drawn from a single panmictic population. Simulations of recent migration assigned 30 individuals (40%) to a different location from where they were collected. Among them, 1/3 were assigned to deeper locations, 1/3 to shallower populations and 1/3 were assigned to the right depth but a different site. These results suggest high levels of vertical and horizontal connectivity, which could enhance the recovery of P. verrucosa following disturbances around Ludao, a feature that agrees with demographic studies portraying this species as an opportunistic scleractinian.
Highlights
Mesophotic Coral Ecosystems (MCEs) are deeper sections of shallow tropical and subtropical coral reefs [1]
Full dataset with allele scoring, Mitochondrial Open Reading Frame (mtORF) haplotype and museum numbers is provided in S1 Table
Pocillopora verrucosa colonies originating from three sites and three depth ranges were genotyped at eight microsatellite loci to evaluate genetic differentiation and genetic structure, and to estimate migration flux between sites and across depths
Summary
In 2016 and 2017, Pocillopora verrucosa specimens were collected at three sites around Ludao —Gongguan, (22.683530 ̊N, 121.496631 ̊E), Guiwan, (22.639212 ̊N, 121.483529 ̊E), and Dabaisha (22.637706 ̊N, 121.490844 ̊E)—using compressed air or Trimix diving, with a minimum distance of 3 m between samples to avoid collecting colonies that might be clones (Fig 1). Distances between sites are < 6 km (Fig 1). Eighty-five colonies originating from three depth ranges—Shallow (7–15 m, hereafter “S”), Mid-depth (23–30 m, hereafter “M”), and Deep (38–45 m, hereafter “D”)—were previously confirmed to be Pocillopora verrucosa by mtORF sequencing [50]. Locations are separated by vertical distances (i.e., depth) and horizontal distances (i.e., perpendicular to the depth axis) so that the frontal distances between locations from the same site are < 100 m
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