Abstract
Coral reef habitats surrounding Cuba include relatively healthy, well-developed shallow and mesophotic (30–150 m) scleractinian communities at the cross-currents of the Tropical Western Atlantic (TWA). However, Cuba’s coral communities are not immune to the declines observed throughout the TWA, and there is limited information available regarding genetic connectivity, diversity, and structure among these populations. This represents an immense gap in our understanding of coral ecology and population dynamics at both local and regional scales. To address this gap, we evaluated the population genetic structure of the coral Montastraea cavernosa across eight reef sites surrounding Cuba. Colonies were genotyped using nine microsatellite markers and > 9,000 single nucleotide polymorphism (SNP) markers generated using the 2bRAD approach to assess fine-scale genetic structure across these sites. Both the microsatellite and SNP analyses identified patterns of genetic differentiation among sample populations. While the microsatellite analyses did not identify significant genetic structure across the seven shallow M. cavernosa sampling sites, the SNP analyses revealed significant pairwise population differentiation, suggesting that differentiation is greater between eastern and western sites. This study provides insight into methodological differences between microsatellite and SNP markers including potential trade-offs between marker-specific biases, sample size, sequencing costs, and the ability to resolve subtle patterns of population genetic structure. Furthermore, this study suggests that locations in western Cuba may play important roles in this species’ regional metapopulation dynamics and therefore may merit incorporation into developing international management efforts in addition to the local management the sites receive.
Highlights
In response to the precipitous declines in coral cover and health on reefs throughout the Tropical Western Atlantic (TWA) and worldwide, greater focus has been placed on quantifying larval connectivity among coral populations that may play critical roles in the persistence and recovery of regional m etapopulations[1,2]
This study used nine previously developed microsatellite loci and > 9,000 single nucleotide polymorphism (SNP) loci generated using a 2bRAD approach to quantify the genetic structure of M. cavernosa across eight sites surrounding the Cuban archipelago
Sample collection accessibility and effort, sequencing costs, marker type and number, and relative desire to resolve subtle patterns in genetic differentiation are all considerations for method selection
Summary
In response to the precipitous declines in coral cover and health on reefs throughout the Tropical Western Atlantic (TWA) and worldwide, greater focus has been placed on quantifying larval connectivity among coral populations that may play critical roles in the persistence and recovery of regional m etapopulations[1,2]. There have been relatively few studies focused on characterizing the connectivity patterns and dynamics in coral genetic structure across the Cuban archipelago or between Cuba and other reefs in the TWA1 7–19. Overexploitation of coral reef fishes, land-based pollution, and multiple thermally induced bleaching events have contributed to an estimated average annual decline in coral cover of 1.75%, only slightly lower than the estimated decline for the wider TWA (2.5–2.7%)[2,24,25,30,31]. In response to these declines, Cuba has implemented several strategies to protect its coastal marine ecosystems, including coral reefs. Previous investigations have demonstrated varying levels of horizontal and vertical genetic connectivity of M. cavernosa across local and regional spatial scales and between shallow and mesophotic depth zones[7,12,14,34,41]
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