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1. Response diversity in corals: hidden differences in bleaching mortality among cryptic Pocillopora species

   https://doi.org/10.1002/ecy.3324  

   Burgess, Scott_C; Johnston, Erika_C; Wyatt, Alex_S_J; Leichter, James_J; Edmunds, Peter_J (June 2021, Ecology)

   Abstract Variation among functionally similar species in their response to environmental stress buffers ecosystems from changing states. Functionally similar species may often be cryptic species representing evolutionarily distinct genetic lineages that are morphologically indistinguishable. However, the extent to which cryptic species differ in their response to stress, and could therefore provide a source of response diversity, remains unclear because they are often not identified or are assumed to be ecologically equivalent. Here, we uncover differences in the bleaching response between sympatric cryptic species of the common Indo‐Pacific coral,Pocillopora. In April 2019, prolonged ocean heating occurred at Moorea, French Polynesia. 72% of pocilloporid colonies bleached after 22 d of severe heating (>8^oC‐days) at 10 m depth on the north shore fore reef. Colony mortality ranged from 11% to 42% around the island four months after heating subsided. The majority (86%) of pocilloporids that died from bleaching belonged to a single haplotype, despite twelve haplotypes, representing at least five species, being sampled. Mitochondrial (open reading frame) sequence variation was greater between the haplotypes that experienced mortality versus haplotypes that all survived than it was between nominal species that all survived. Colonies > 30 cm in diameter were identified as the haplotype experiencing the most mortality, and in 1125 colonies that were not genetically identified, bleaching and mortality increased with colony size. Mortality did not increase with colony size within the haplotype suffering the highest mortality, suggesting that size‐dependent bleaching and mortality at the genus level was caused instead by differences among cryptic species. The relative abundance of haplotypes shifted between February and August, driven by declines in the same common haplotype for which mortality was estimated directly, at sites where heat accumulation was greatest, and where larger colony sizes occurred. The identification of morphologically indistinguishable species that differ in their response to thermal stress, but share a similar ecological function in terms of maintaining a coral‐dominated state, has important consequences for uncovering response diversity that drives resilience, especially in systems with low or declining functional diversity. 

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2. Niche breadth and divergence in sympatric cryptic coral species ( Pocillopora spp.) across habitats within reefs and among algal symbionts

   https://doi.org/10.1111/eva.13762  

   Burgess, Scott C; Turner, Alyssa M; Johnston, Erika C (August 2024, Evolutionary Applications)

   Abstract While the presence of morphologically cryptic species is increasingly recognized, we still lack a useful understanding of what causes and maintains co‐occurring cryptic species and its consequences for the ecology, evolution, and conservation of communities. We sampled 724Pocilloporacorals from five habitat zones (the fringing reef, back reef, and fore reef at 5, 10, and 20 m) at four sites around the island of Moorea, French Polynesia. Using validated genetic markers, we identified six sympatric species ofPocillopora, most of which cannot be reliably identified based on morphology:P. meandrina(42.9%),P. tuahiniensis(25.1%),P. verrucosa(12.2%),P. acuta(10.4%),P. grandis(7.73%), andP.cf.effusa(2.76%). For 423 colonies (58% of the genetically identified hosts), we also usedpsbA^ncror ITS2 markers to identify symbiont species (Symbiodiniaceae). The relative abundance ofPocilloporaspecies differed across habitats within the reef. Sister taxaP. verrucosaandP. tuahiniensishad similar niche breadths and hosted the same specialist symbiont species (mostlyCladocopium pacificum) but the former was more common in the back reef and the latter more common deeper on the fore reef. In contrast, sister taxaP. meandrinaandP. grandishad the highest niche breadths and overlaps and tended to host the same specialist symbiont species (mostlyC. latusorum).Pocillopora acutahad the narrowest niche breadth and hosted the generalist, and more thermally tolerant,Durusdinium gynnii. Overall, there was a positive correlation between reef habitat niche breadth and symbiont niche breadth—Pocilloporaspecies with a broader habitat niche also had a broader symbiont niche. Our results show how fine‐scale variation within reefs plays an important role in the generation and coexistence of cryptic species. The results also have important implications for how niche differences affect community resilience, and for the success of coral restoration practices, in ways not previously appreciated. 

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3. Cophylogeny and specificity between cryptic coral species ( Pocillopora spp.) at Mo′orea and their symbionts (Symbiodiniaceae)

   https://doi.org/10.1111/mec.16654  

   Johnston, Erika C.; Cunning, Ross; Burgess, Scott C. (August 2022, Molecular Ecology)

   Abstract The congruence between phylogenies of tightly associated groups of organisms (cophylogeny) reflects evolutionary links between ecologically important interactions. However, despite being a classic example of an obligate symbiosis, tests of cophylogeny between scleractinian corals and their photosynthetic algal symbionts have been hampered in the past because both corals and algae contain genetically unresolved and morphologically cryptic species. Here, we studied co‐occurring, crypticPocilloporaspecies from Mo′orea, French Polynesia, that differ in their relative abundance across depth. We constructed new phylogenies of the hostPocillopora(using complete mitochondrial genomes, genomic loci, and thousands of single nucleotide polymorphisms) and their Symbiodiniaceae symbionts (using ITS2 and psbA^ncrmarkers) and tested for cophylogeny. The analysis supported the presence of fivePocilloporaspecies on the fore reef at Mo′orea that mostly hosted eitherCladocopium latusorumorC. pacificum.OnlyPocilloporaspecies hostingC. latusorumalso hosted taxa fromSymbiodiniumandDurusdinium. In general, theCladocopiumphylogeny mirrored thePocilloporaphylogeny. WithinCladocopiumspecies, lineages also differed in their associations withPocilloporahaplotypes, except those showing evidence of nuclear introgression, and with depth in the two most commonPocilloporaspecies. We also found evidence for a newPocilloporaspecies (haplotype 10), that has so far only been sampled from French Polynesia, that warrants formal identification. The linked phylogenies of thesePocilloporaandCladocopiumspecies and lineages suggest that symbiont speciation is driven by niche diversification in the host, but there is still evidence for symbiont flexibility in some cases. 

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4. Corals survive severe bleaching event in refuges related to taxa, colony size, and water depth

   https://doi.org/10.1038/s41598-024-58980-1  

   Winslow, Erin M.; Speare, Kelly E.; Adam, Thomas C.; Burkepile, Deron E.; Hench, James L.; Lenihan, Hunter S. (April 2024, Scientific Reports)

   Abstract Marine heatwaves are increasing in frequency and duration, threatening tropical reef ecosystems through intensified coral bleaching events. We examined a strikingly variable spatial pattern of bleaching in Moorea, French Polynesia following a heatwave that lasted from November 2018 to July 2019. In July 2019, four months after the onset of bleaching, we surveyed > 5000 individual colonies of the two dominant coral genera,PocilloporaandAcropora, at 10 m and 17 m water depths, at six forereef sites around the island where temperature was measured. We found severe bleaching increased with colony size for both coral genera, butAcroporableached more severely thanPocilloporaoverall. Acroporableached more at 10 m than 17 m, likely due to higher light availability at 10 m compared to 17 m, or greater daily temperature fluctuation at depth. Bleaching inPocilloporacorals did not differ with depth but instead varied with the interaction of colony size and Accumulated Heat Stress (AHS), in that larger colonies (> 30 cm) were more sensitive to AHS than mid-size (10–29 cm) or small colonies (5–9 cm). Our findings provide insight into complex interactions among coral taxa, colony size, and water depth that produce high spatial variation in bleaching and related coral mortality. 

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5. Characterization and spatial variation of the deep-sea fish assemblages on Pioneer Bank, Northwestern Hawaiian Islands

   https://doi.org/10.3354/meps14071  

   Mejía-Mercado, BE; Baco, AR (June 2022, Marine Ecology Progress Series)

   Knowledge of the spatial variation of deep-sea fish assemblages is a critical gap in understanding seamount ecology. Pioneer Bank in the Papahānaumokuākea Marine National Monument (Hawaii, USA) has a history of hook-and-line fishing but not trawling; thus, it is a good location to further describe deep-sea fish assemblages. From replicated autonomous underwater vehicle transects at 300, 450, and 600 m on 3 sides of Pioneer Bank, we observed 4190 fish representing 81 species. Fish assemblages were dominated by Gadiformes, Perciformes, and Stomiiformes. The relative abundance of fish was significantly different among sides of the seamount and the interaction of side and depth, with the NW side having the highest relative abundance at 450 m. Species richness, rarefaction estimates of expected species richness, Shannon diversity, and Simpson dominance showed significant differences by side, but not by depth. These differences were between the S and NW sides, with the S side having the lowest diversity and high dominance. The structure of the fish assemblage was significantly different among both sides and depths, with depth as the most important factor. Fish assemblage structure was most strongly correlated with salinity, % rugosity, chlorophyll a , and mean direction of substrate. These scales of spatial variability both with depth and across short horizontal distances on a single seamount are similar to those found on nearby Necker Island, which reaffirms the spatial heterogeneity in deep-sea fish assemblages on seamounts. This study provides an ecological baseline for the management and conservation of seamounts. 

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