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8. Multispecies environmental DNA metabarcoding sheds light on annual coral spawning events.

Author

Ip, Yin Cheong Aden, Chang, Jia Jin Marc, Tun, Karenne Phyu Phyu, Meier, Rudolf, and Huang, Danwei

Subjects
SPAWNING, FISH spawning, GENETIC barcoding, CORALS, LIFE cycles (Biology), CORAL reef fishes, DNA
Abstract

Synchronous multispecific coral spawning generally occurs annually and forms an integral part of the coral life cycle. Apart from spawning times and species participation, however, much else remains unknown. Here, we applied environmental DNA (eDNA) metabarcoding to study two tropical reef sites of contrasting coral cover before, during and after coral spawning. Using coral‐ITS2 and vertebrate‐12S markers, we evaluated eDNA as an alternative monitoring tool by assessing its capabilities in detecting spawning species and tracking relative abundances of coral and fish eDNA. Over 3 years, elevated eDNA coral signals during the event (proportional read increase of up to five‐fold) were observed, detecting a total of 38 coral and 133 fish species with all but one of the coral species visually observed to be spawning. This is also the first demonstration that eDNA metabarcoding can be used to infer the diurnal partitioning of night‐ and day‐time spawning, spawning in coral species overlooked by visual surveys, and the associated changes in fish trophic structures as an indicator of spawning events. Our study paves the way for applied quantitative eDNA metabarcoding approaches to better study ephemeral and important biological events. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Prioritizing phylogenetic diversity to protect functional diversity of reef corals.

Author

Ng, Linus W. K., Chisholm, Chelsea, Carrasco, Luis Roman, Darling, Emily S., Guilhaumon, François, Mooers, Arne Ø., Tucker, Caroline M., Winter, Marten, Huang, Danwei, and Lin, Qiang

Subjects
CORAL reefs & islands, CORALS, MARINE parks & reserves, REEFS, SCLERACTINIA
Abstract

Aim: The ecosystem functions and services of coral reefs are critical for coastal communities worldwide. Due to conservation resource limitation, species need to be prioritized to protect desirable properties of biodiversity, such as functional diversity (FD), which has been associated with greater ecosystem functioning but is difficult to quantify directly. Selecting species to maximize phylogenetic diversity (PD) has been shown to indirectly capture FD in certain other taxa but not corals. Here, we test this hypothesis, the "phylogenetic gambit", on corals within global marine protected areas (MPAs). Location: Global coral reefs. Methods: Based on the global distributions of reef corals, a complete species‐level phylogeny and trait data, we compared the FD of coral assemblages within MPAs when selected to maximize PD versus FD for assemblages selected randomly. The relationships between PD and FD were also tested as predictors of surrogacy. We then used coral FD and PD to perform spatial prioritization of reefs for protection and assessed the congruence between the two approaches. Results: Selecting assemblages to maximize PD captured significantly more FD than a random subset of species for 83.1% of all selection scenarios across MPAs and would protect on average 18.7% more FD than random selection. Spatial prioritization analyses showed some mismatches between PD‐ and FD‐optimized planning units, particularly in the Tropical Western Atlantic, but the high degree of overlap between the optimizations for other reef regions lends further credence to the PD‐maximizing strategy in conserving coral FD. Main Conclusions: A PD‐maximizing strategy generally protects greater FD of coral assemblages relative to random selection of species, suggesting that the "phylogenetic gambit" is valid for reef corals. There are risks, however, and the mismatches between PD‐maximized and FD‐maximized MPA networks highlight specific shortcomings of the PD‐maximization approach. Nevertheless, in data‐deficient circumstances, maximizing PD may provide a viable alternative. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Evolution and biogeography of the Zanclea-Scleractinia symbiosis.

Author

Maggioni, Davide, Arrigoni, Roberto, Seveso, Davide, Galli, Paolo, Berumen, Michael L., Denis, Vianney, Hoeksema, Bert W., Huang, Danwei, Manca, Federica, Pica, Daniela, Puce, Stefania, Reimer, James D., and Montano, Simone

Subjects
SCLERACTINIA, SYMBIOSIS, BIOGEOGRAPHY, CORALS, HYDROZOA, GENETIC variation, CORAL bleaching, PHYLOGEOGRAPHY
Abstract

Scleractinian corals provide habitats for a broad variety of cryptofauna, which in turn may contribute to the overall functioning of coral symbiomes. Among these invertebrates, hydrozoans belonging to the genus Zanclea represent an increasingly known and ecologically important group of coral symbionts. In this study, we analysed 321 Zanclea colonies associated with 31 coral genera collected from 11 localities across the Indo-Pacific and Caribbean regions, and used a multi-disciplinary approach to shed light on the evolution and biogeography of the group. Overall, we found high genetic diversity of hydrozoans that spans nine clades corresponding to cryptic or pseudo-cryptic species. All but two clades are associated with one or two coral genera belonging to the Complex clade, whereas the remaining ones are generalists associated with both Complex and Robust corals. Despite the observed specificity patterns, no congruence between Zanclea and coral phylogenies was observed, suggesting a lack of coevolutionary events. Most Zanclea clades have a wide distribution across the Indo-Pacific, including a generalist group extending also into the Caribbean, while two host-specific clades are possibly found exclusively in the Red Sea, confirming the importance of this peripheral region as an endemicity hotspot. Ancestral state reconstruction suggests that the most recent common ancestor of all extant coral-associated Zanclea was a specialist species with a perisarc, occurring in what is now known as the Indo-Pacific. Ultimately, a mixture of geography- and host-related diversification processes is likely responsible for the observed enigmatic phylogenetic structure of coral-associated Zanclea. [ABSTRACT FROM AUTHOR]

Published
2022
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15. The Association of Waminoa with Reef Corals in Singapore and Its Impact on Putative Immune- and Stress-Response Genes.

Author

Maggioni, Giorgia, Huang, Danwei, Maggioni, Davide, Jain, Sudhanshi S., Quek, Randolph Z. B., Poquita-Du, Rosa Celia, Montano, Simone, Montalbetti, Enrico, and Seveso, Davide

Subjects
*SCLERACTINIA, *CORALS, *CORAL reefs & islands, *CORAL bleaching, *CORAL communities, *GENES, *PLATYHELMINTHES, *IMMUNE system
Abstract

Waminoa spp. are acoel flatworms mainly found as ectosymbionts on scleractinian corals. Although Waminoa could potentially represent a threat to their hosts, not enough information is available yet regarding their ecology and effect on the coral. Here, the Waminoa sp.–coral association was analyzed in Singapore reefs to determine the prevalence, host range, and preference, as well as the flatworm abundance on the coral surface. Moreover, the impact of Waminoa sp. on the expression of putative immune- and stress-response genes (C-type lectin, C3, Hsp70 and Actin) was examined in the coral Lobophyllia radians. The association prevalence was high (10.4%), especially in sites with lower sedimentation and turbidity. Waminoa sp. showed a wide host range, being found on 17 coral genera, many of which are new association records. However, only few coral genera, mostly characterized by massive or laminar morphologies appeared to be preferred hosts. Waminoa sp. individuals displayed variable patterns of coral surface coverage and an unequal distribution among different host taxa, possibly related to the different coral growth forms. A down-regulation of the expression of all the analyzed genes was recorded in L. radians portions colonized by Waminoa individuals compared to those without. This indicated that Waminoa sp. could affect components of the immune system and the cellular homeostasis of the coral, also inhibiting its growth. Therefore, Waminoa sp. could represent a potential further threat for coral communities already subjected to multiple stressors. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Untangling the molecular basis of coral response to sedimentation.

Author

Bollati, Elena, Rosenberg, Yaeli, Simon‐Blecher, Noa, Tamir, Raz, Levy, Oren, and Huang, Danwei

Subjects
CORALS, CORAL reefs & islands, CORAL reef conservation, SEDIMENTATION & deposition, SUSPENDED sediments, HYDROGEN sulfide, PATTERN recognition systems, ENERGY metabolism
Abstract

Urbanized coral reefs are often chronically affected by sedimentation and reduced light levels, yet many species of corals appear to be able to thrive under these highly disturbed conditions. Recently, these marginal ecosystems have gained attention as potential climate change refugia due to the shading effect of suspended sediment, as well as potential reservoirs for stress‐tolerant species. However, little research exists on the impact of sedimentation on coral physiology, particularly at the molecular level. Here, we investigated the transcriptomic response to sediment stress in corals of the family Merulinidae from a chronically turbid reef (one genet each of Goniastrea pectinata and Mycedium elephantotus from Singapore) and a clear‐water reef (multiple genets of G. pectinata from the Gulf of Aqaba/Eilat). In two ex‐situ experiments, we exposed corals to either natural sediment or artificial sediment enriched with organic matter and used whole‐transcriptome sequencing (RNA sequencing) to quantify gene expression. Analysis revealed a shared basis for the coral transcriptomic response to sediment stress, which involves the expression of genes broadly related to energy metabolism and immune response. In particular, sediment exposure induced upregulation of anaerobic glycolysis and glyoxylate bypass enzymes, as well as genes involved in hydrogen sulphide metabolism and in pathogen pattern recognition. Our results point towards hypoxia as a probable driver of this transcriptomic response, providing a molecular basis to previous work that identified hypoxia as a primary cause of tissue necrosis in sediment‐stressed corals. Potential metabolic and immunity trade‐offs of corals living under chronic sedimentation should be considered in future studies on the ecology and conservation of turbid reefs. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Distinct species hidden in the widely distributed coral Coelastrea aspera (Cnidaria, Anthozoa, Scleractinia).

Author

Mitsuki, Yuta, Isomura, Naoko, Nozawa, Yoko, Tachikawa, Hiroyuki, Huang, Danwei, and Fukami, Hironobu

Subjects
CNIDARIA, CORAL reef conservation, CORAL reef restoration, SCLERACTINIA, ANTHOZOA, CORALS
Abstract

Species identification is key for coral reef conservation and restoration. Recent coral molecular-morphological studies have indicated the existence of many cryptic species. Coelastrea aspera (Verrill, 1866) is a zooxanthellate scleractinian coral that is widely distributed in the Indo-Pacific. In Japan, this species is distributed from the subtropical reef region to the high-latitudinal non-reef region. Previous studies have reported that C. aspera colonies in the non-reef region release egg-sperm bundles (bundle type), whereas those in the reef region release eggs and sperm separately (non-bundle type) and release planula larvae after spawning. This difference in reproduction might be relevant to species differences. To clarify the species delimitation of C. aspera , the reproduction, morphology and molecular phylogeny of C. aspera samples collected from reef and non-reef regions in Japan were analysed, along with additional morphological and molecular data of samples from northern Taiwan. The results show that C. aspera is genetically and morphologically separated into two main groups. The first group is the non-bundle type, distributed only in reef regions, whereas the second group is the bundle type, widely distributed throughout the reef and non-reef regions. Examination of type specimens of the taxon's synonyms leads us to conclude that the first group represents the true C. aspera , whereas the second is Coelastrea incrustans comb. nov., herein re-established, that was originally described as Goniastrea incrustans Duncan, 1886, and had been treated as a junior synonym of C. aspera. Coelastrea aspera is a zooxanthellate scleractinian coral, widely distributed in the Indo-Pacific. Our analyses of reproduction, morphology and molecular phylogeny reveal that C. aspera is clearly separated into two main groups. Examination of the type materials leads us to conclude that one group represents the true C. aspera , whereas the second is C. incrustans comb. nov., herein re-established. [ABSTRACT FROM AUTHOR]

Published
2021
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18. Barriers and corridors of gene flow in an urbanized tropical reef system.

Author

Afiq‐Rosli, Lutfi, Wainwright, Benjamin John, Gajanur, Anya Roopa, Lee, Ai Chin, Ooi, Seng Keat, Chou, Loke Ming, and Huang, Danwei

Subjects
CORAL reefs & islands, GENE flow, REEFS, SINGLE nucleotide polymorphisms, CORALS, PORITES
Abstract

Information about the distribution of alleles among marine populations is critical for determining patterns of genetic connectivity that are essential in modern conservation planning. To estimate population connectivity in Singapore's urbanized equatorial reef system, we analysed single nucleotide polymorphisms (SNPs) from two species of reef‐building corals with distinct life histories. For Porites sp., a broadcast‐spawning coral, we found cryptic lineages that were differentially distributed at inshore and central‐offshore sites that could be attributed to contemporary surface current regimes. Near panmixia was observed for Pocillopora acuta with differentiation of colonies at the farthest site from mainland Singapore, a possible consequence of the brooding nature and relatively long pelagic larval duration of the species. Furthermore, analysis of recent gene flow showed that 60–80% of colonies in each population were nonmigrants, underscoring self‐recruitment as an important demographic process in this reef system. Apart from helping to enhance the management of Singapore's coral reef ecosystems, findings here pave the way for better understanding of the evolution of marine populations in South‐East Asia. [ABSTRACT FROM AUTHOR]

Published
2021
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19. Integrative systematics of the scleractinian coral genera Caulastraea, Erythrastrea and Oulophyllia.

Author

Arrigoni, Roberto, Huang, Danwei, Berumen, Michael L., Budd, Ann F., Montano, Simone, Richards, Zoe T., Terraneo, Tullia I., and Benzoni, Francesca

Subjects
*SCLERACTINIA, *BIOLOGICAL classification, *CNIDARIA, *CORALS, *OCTOCORALLIA, *TAXONOMY, *SPECIES
Abstract

Modern systematics integrating molecular and morphological data has greatly improved our understanding of coral evolutionary relationships during the last two decades and led to a deeply revised taxonomy of the order Scleractinia. The family Merulinidae (Cnidaria: Scleractinia) was recently subjected to a series of revisions following this integrated approach but the phylogenetic affinities of several genera ascribed to it remain unknown. Here, we partially fill this gap through the study of 89 specimens belonging to all 10 valid species from four genera (Caulastraea, Erythrastrea, Oulophyllia and Dipsastraea) collected from 14 localities across the Indo‐Pacific realm. Four molecular loci (histone H3, COI, ITS and IGR) were sequenced, and a total of 44 skeletal morphological characters (macromorphology, micromorphology and microstructure) were analysed. Molecular phylogenetic analyses revealed that the phaceloid Caulastraea species are split into two distinct lineages. A species previously ascribed to the genus Dipsastraea, Dipsastraea maxima, is also recovered in one on these lineages. Furthermore, Erythrastrea is nested within Oulophyllia. The molecular reconstructions of evolutionary relationships are further corroborated by multiscale morphological evidence. To resolve the taxonomy of these genera, Astraeosmilia is resurrected to accommodate Astraeosmilia connata, Astraeosmilia curvata, Astraeosmiliatumida and Astraeosmilia maxima, with Caulastraea retaining Caulastraeafurcata and Caulastraeaechinulata. Based on the examination of type material, Erythrastrea flabellata is considered an objective synonym of Lobophyllia wellsi, which is transferred to Oulophyllia following the obtained morpho‐molecular results. This work further confirms that an integrated morpho‐molecular approach based on a rigorous phylogenetic framework is fundamental for an objective classification that reflects the evolutionary history of scleractinian corals. [ABSTRACT FROM AUTHOR]

Published
2021
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20. Reproduction in the tropical frilly sea anemone Phymanthus pinnulatus (Cnidaria, Actiniaria).

Author

Yong, Clara Lei Xin, Yap, Nicholas Wei Liang, Tan, Koh Siang, and Huang, Danwei

Subjects
SEA anemones, CNIDARIA, SCLERACTINIA, GAMETOGENESIS, SPERMATOGENESIS, OOGENESIS, SPAWNING
Abstract

Our understanding of how sea anemones reproduce in the equatorial Central Indo‐Pacific region remains poor compared to other marine regions. Here we report the gametogenic cycles of Phymanthus pinnulatus, a zooxanthellate sea anemone found throughout the Indo‐Pacific tropics. Observations were based on 41 individuals collected in Singapore. We found P. pinnulatus to be gonochoric, with an equal sex ratio of 1:1. Phases of oogenesis and spermatogenesis were detailed for the first time in P. pinnulatus, and were consistent with phases in other actiniarians. Females with pedal disc diameters <10 mm were found to asynchronously produce oocytes. We also found that trophonemata were associated with both oocytes and spermaries during gametogenesis. In Singapore, the periods during which gametes matured in each sex of P. pinnulatus appeared to overlap. We were unable distinguish whether spawning was annual or continuous in P. pinnulatus. Our observations on the occurrence of maturing and matured gametes in P. pinnulatus were similar to those reported for other species within the Central Indo‐Pacific. It also coincided with the multispecies spawning of scleractinian corals in Singapore. This study contributes to the growing body of work focused on the biology of tropical actiniarians in the Central Indo‐Pacific region. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Transcriptome‐based target‐enrichment baits for stony corals (Cnidaria: Anthozoa: Scleractinia).

Author

Quek, Randolph Z. B., Jain, Sudhanshi S., Neo, Mei Lin, Rouse, Greg W., and Huang, Danwei

Subjects
SCLERACTINIA, CNIDARIA, ANTHOZOA, FISHING baits, CORAL reefs & islands, CORALS
Abstract

Despite the ecological and economic significance of stony corals (Scleractinia), a robust understanding of their phylogeny remains elusive due to patchy taxonomic and genetic sampling, as well as the limited availability of informative markers. To increase the number of genetic loci available for phylogenomic analyses in Scleractinia, we designed 15,919 DNA enrichment baits targeting 605 orthogroups (mean 565 ± SD 366 bp) over 1,139 exon regions. A further 236 and 62 barcoding baits were designed for COI and histone H3 genes respectively for quality and contamination checks. Hybrid capture using these baits was performed on 18 coral species spanning the presently understood scleractinian phylogeny, with two corallimorpharians as outgroup. On average, 74% of all loci targeted were successfully captured for each species. Barcoding baits were matched unambiguously to their respective samples and revealed low levels of cross‐contamination in accordance with expectation. We put the data through a series of stringent filtering steps to ensure only scleractinian and phylogenetically informative loci were retained, and the final probe set comprised 13,479 baits, targeting 452 loci (mean 531 ± SD 307 bp) across 865 exon regions. Maximum likelihood, Bayesian and species tree analyses recovered maximally supported, topologically congruent trees consistent with previous phylogenomic reconstructions. The phylogenomic method presented here allows for consistent capture of orthologous loci among divergent coral taxa, facilitating the pooling of data from different studies and increasing the phylogenetic sampling of scleractinians in the future. [ABSTRACT FROM AUTHOR]

Published
2020
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22. Evolution of the Caribbean subfamily Mussinae (Anthozoa: Scleractinia: Faviidae): transitions between solitary and colonial forms.

Author

Budd, Ann F., Woodell, James D., Huang, Danwei, and Klaus, James S.

Subjects
SCLERACTINIA, FOSSIL corals, CORAL reefs & islands, ANTHOZOA, CORALS, FOSSILS
Abstract

Understanding evolutionary transitions in scleractinian corals is fundamental to predicting responses of coral reefs to climate change. We examine transitions between solitary and colonial corals in the fossil record, focusing on the Caribbean solitary reef coral Scolymia and members of the subfamily Mussinae. Fossil specimens are selected from a large well-documented collection of Neogene Caribbean corals, and a total of 23 species are distinguished using 15 morphological features. Ten of the 23 species are extant Caribbean species, seven are previously described extinct Neogene species, and six other extinct species are formally described as new. The 7 + 6 extinct species are added to a morphological data set consisting of 30 extant molecularly characterized species plus seven additional extinct (five Eocene, two Neogene) species. In addition to the Caribbean subfamily Mussinae, the extant species include the Indo-Pacific families Merulinidae and Lobophylliidae, and the Caribbean subfamily Faviinae. Phylogenetic analysis was performed on the data using maximum parsimony, and the results reveal four clades, which correspond with previously reported molecular clades. Solitary corals group most closely with Caribbean Mussinae and Indo-Pacific Lobophylliidae, whereas colonial corals are present in all four clades. Within Caribbean Mussinae, members of the colonial genera Mycetophyllia and Isophyllia form distinct subclades, as do the extinct solitary genera Antillia and Antillophyllia. The relationships within Scolymia are less well defined but its members appear more closely related to extinct solitary genera dating back to the Eocene. These results indicate that evolutionary transitions between solitary and colonial corals have been rare within the Mussinae. Except Antillophyllia, most Mussinae genera are restricted to the Caribbean. During the late Miocene, Mycetophyllia diversified and three other modern Mussinae genera (Mussa, Scolymia, Isophyllia) originated in association with increased Caribbean productivity. Mussinae that were more likely to survive Plio–Pleistocene extinction may have taken refuge in deep forereef habitats. [ABSTRACT FROM AUTHOR]

Published
2019
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23. Effects of missing data and data type on phylotranscriptomic analysis of stony corals (Cnidaria: Anthozoa: Scleractinia).

Author

Quek, Zheng Bin Randolph and Huang, Danwei

Subjects
*SCLERACTINIA, *INVERTEBRATE phylogeny, *MISSING data (Statistics), *ROBUST statistics, *AMINO acids
Abstract

Graphical abstract Highlights • Phylotranscriptomic analysis is generally robust against data incompleteness. • Phylotranscriptomic tree of stony corals is broadly consistent with Sanger-sequenced trees. • DNA alignments outperform amino acid alignments in tree consistency and node support. • Gene tree incongruity affects concatenated amino acid alignments more than DNA data. Abstract Across the tree of life, phylogenetic analysis is increasingly being performed using transcriptome data. As a result of heterogeneous gene expression within individual organisms and unequal sequencing depth between samples, coverage of homologous loci in such datasets is typically inhomogeneous. Consequently, missing data are a common feature of phylotranscriptomic inference, but their impact on phylogenetic analysis remains poorly characterised empirically. Considering the complexity of the evolutionary history of stony corals (Cnidaria: Anthozoa: Scleractinia), transcriptome data hold great promise for resolving their phylogeny, particularly if there is a good understanding of missing data and data type (either amino acid or DNA) effects. Here, we reconstructed a broad phylogenetic tree of 39 scleractinian species with 3 corallimorpharians as outgroups, including 15 transcriptomes that were newly sequenced and assembled in this study. Between 63 and 505 loci were used to analyse the scleractinian phylogeny, and we quantified differences in tree topology, tree shape, bootstrap support and effects of conflicting gene trees among datasets of varying completeness for both amino acid and DNA sequences. Even with almost 70% missing data, tree topologies appear to be mostly unaffected, although there are higher incongruence levels in the less complete datasets. Furthermore, DNA trees outperform amino acid trees in bootstrap support and robustness against incongruent loci. Overall, our findings indicate that high levels of missing data can still produce expected tree topologies, but identifying and omitting incongruent loci can lead to more consistent branch length estimates. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Taxonomic classification of the reef coral families Merulinidae, Montastraeidae, and Diploastraeidae (Cnidaria: Anthozoa: Scleractinia)

Author

Huang, Danwei, Benzoni, Francesca, Fukami, Hironobu, Knowlton, Nancy, Smith, Nathan D., Budd, Ann F., Huang, D, Benzoni, F, Fukami, H, Knowlton, N, Smith, N, and Budd, A

Subjects
morphological phylogenetic, Faviidae, Trachyphylliidae, Merulinidae, Biodiversity, Anthozoa, Montastraeidae, Cnidaria, Scleractinia, systematic, Pectiniidae, Animalia, Indo-Pacific, Diploastreidae, Faviina, integrative taxonomy, Taxonomy, BIO/05 - ZOOLOGIA
Abstract

Modern coral taxonomy has begun to resolve many long-standing problems in traditional systematics stemming from its reliance on skeletal macromorphology. By integrating examinations of colony, corallite, and subcorallite morphology with the molecular sequence data that have proliferated in the last decade, many taxa spread across the scleractinian tree of life have been incorporated into a rigorous classification underpinned by greater phylogenetic understanding. This monograph focuses on one of the most challenging clades recovered to date - its disarray epitomized by the informal name 'Bigmessidae'. This group of predominantly Indo-Pacific species previously comprised families Merulinidae, Faviidae, Pectiniidae, and Trachyphylliidae, but in a recent study these have been incorporated within Merulinidae. We studied 84 living merulinid species by examining morphological traits at three different scales of coral skeletal structure - macromorphology, micromorphology, and microstructure - to construct a morphological matrix comprising 44 characters. Data were analysed via maximum parsimony and also transformed onto a robust molecular phylogeny under the parsimony and maximum likelihood criteria. Comparisons amongst morphological character types suggest that although many characters at every scale are homoplastic, some to a greater extent than others, several can aid in distinguishing genus-level clades. Our resulting trees and character analyses form the basis of a revised classification that spans a total of 139 species contained within 24 genera. The tree topologies necessitate the synonymization of Barabattoia as Dipsastraea, and Phymastrea as Favites. Furthermore, Astrea and Coelastrea are resurrected, and one new genus, Paramontastraea Huang & Budd gen. nov., is described. All the genera in Merulinidae, along with the monotypic Montastraeidae and Diploastraeidae, are diagnosed based on the characters examined. The integrative classification system proposed here will form the framework for more accurate biodiversity estimates and guide the taxonomic placement of extinct species. © 2014 The Linnean Society of London.

Published
2014

25. The origin and evolution of coral species richness in a marine biodiversity hotspot.

Author

Huang, Danwei, Goldberg, Emma E., Chou, Loke Ming, and Roy, Kaustuv

Subjects
*MARINE biodiversity, *CORAL ecology, *PHYLOGENY, *SCLERACTINIA, CORAL Triangle
Abstract

Abstract: The Coral Triangle (CT) region of the Indo‐Pacific realm harbors an extraordinary number of species, with richness decreasing away from this biodiversity hotspot. Despite multiple competing hypotheses, the dynamics underlying this regional diversity pattern remain poorly understood. Here, we use a time‐calibrated evolutionary tree of living reef coral species, their current geographic ranges, and model‐based estimates of regional rates of speciation, extinction, and geographic range shifts to show that origination rates within the CT are lower than in surrounding regions, a result inconsistent with the long‐standing center of origin hypothesis. Furthermore, endemism of coral species in the CT is low, and the CT endemics are older than relatives found outside this region. Overall, our model results suggest that the high diversity of reef corals in the CT is largely due to range expansions into this region of species that evolved elsewhere. These findings strongly support the notion that geographic range shifts play a critical role in generating species diversity gradients. They also show that preserving the processes that gave rise to the striking diversity of corals in the CT requires protecting not just reefs within the hotspot, but also those in the surrounding areas. [ABSTRACT FROM AUTHOR]

Published
2018
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26. Taxonomic classification of the reef coral family Lobophylliidae (Cnidaria: Anthozoa: Scleractinia).

Author

Huang, Danwei, Arrigoni, Roberto, Benzoni, Francesca, Fukami, Hironobu, Knowlton, Nancy, Smith, Nathan D., Stolarski, Jarosław, Chou, Loke Ming, and Budd, Ann F.

Subjects
*CORALS, *CNIDARIA, *CLASSIFICATION of invertebrates, *SCLERACTINIA, *SOIL micromorphology, *PARSIMONIOUS models
Abstract

Lobophylliidae is a family-level clade of corals within the 'robust' lineage of Scleractinia. It comprises species traditionally classified as Indo-Pacific 'mussids', 'faviids', and 'pectiniids'. Following detailed revisions of the closely related families Merulinidae, Mussidae, Montastraeidae, and Diploastraeidae, this monograph focuses on the taxonomy of Lobophylliidae. Specifically, we studied 44 of a total of 54 living lobophylliid species from all 11 genera based on an integrative analysis of colony, corallite, and subcorallite morphology with molecular sequence data. By examining coral skeletal features at three distinct levels - macromorphology, micromorphology, and microstructure - we built a morphological matrix comprising 46 characters. Data were analysed via maximum parsimony and transformed onto a robust molecular phylogeny inferred using two nuclear (histone H3 and internal transcribed spacers) and one mitochondrial (cytochrome c oxidase subunit I) DNA loci. The results suggest that micromorphological characters exhibit the lowest level of homoplasy within Lobophylliidae. Molecular and morphological trees show that Symphyllia, Parascolymia, and Australomussa should be considered junior synonyms of Lobophyllia, whereas Lobophyllia pachysepta needs to be transferred to Acanthastrea. Our analyses also lend strong support to recent revisions of Acanthastrea, which has been reorganized into five separate genera ( Lobophyllia, Acanthastrea, Homophyllia, Sclerophyllia, and Micromussa), and to the establishment of Australophyllia. Cynarina and the monotypic Moseleya remain unchanged, and there are insufficient data to redefine Oxypora, Echinophyllia, and Echinomorpha. Finally, all lobophylliid genera are diagnosed under the phylogenetic classification system proposed here, which will facilitate the placement of extinct taxa on the scleractinian tree of life. [ABSTRACT FROM AUTHOR]

Published
2016
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27. A PRELIMINARY CHARACTERISATION OF SYMBIODINIUM DIVERSITY IN SOME COMMON CORALS FROM SINGAPORE.

Author

ISA TANZIL, JANI THUAIBAH, NG, ABIGAYLE PEK KAYE, TEY, YI QING, TAN, BEVERLY HSIN YI, YUN, ERIC YAO, and HUANG, DANWEI

Subjects
SYMBIODINIUM, BIODIVERSITY, CORAL reef conservation, DINOFLAGELLATES, CORAL bleaching
Abstract

The symbiosis between corals and Symbiodinium dinoflagellates is considered a major driver of the distribution and health of reefs worldwide. This study investigated the genetic identities and diversity of Symbiodinium in seven coral species ( Porites lutea, Porites lobata, Acropora millepora, Merulina ampliata, Diploastrea heliopora, Pachyseris speciosa, Pocillopora acuta) from three shallow reefs around Singapore (Kusu Island, Pulau Tekukor, Pulau Satumu). Analyses of 31 colonies using denaturing gradient gel electrophoresis of the nuclear internal transcribed spacer region indicated the dominance of C and D Symbiodinium clades. The latter clade was the predominant symbiont in Pachyseris speciosa collected from Pulau Tekukor but those sampled from Pulau Satumu hosted C27, providing evidence for variable symbiosis in this species. The prevalence of the D clade - noted for their stress tolerance (e.g. to elevated temperatures and sedimentation) - in three of seven coral species examined could underlie the importance of this particular symbiotic relationship for the persistence of Singapore's impacted reefs. Further characterisation of Symbiodinium communities may provide insights into corals' response to stress and their bleaching patterns in the future. [ABSTRACT FROM AUTHOR]

Published
2016
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28. Towards a phylogenetic classification of reef corals: the Indo- Pacific genera Merulina, Goniastrea and Scapophyllia ( Scleractinia, Merulinidae).

Author

Huang, Danwei, Benzoni, Francesca, Arrigoni, Roberto, Baird, Andrew H., Berumen, Michael L., Bouwmeester, Jessica, Chou, Loke Ming, Fukami, Hironobu, Licuanan, Wilfredo Y., Lovell, Edward R., Meier, Rudolf, Todd, Peter A., and Budd, Ann F.

Subjects
*CORALS, *BIOLOGICAL classification, *PHYLOGENY, *SCLERACTINIA, *BIOLOGICAL evolution
Abstract

Recent advances in scleractinian systematics and taxonomy have been achieved through the integration of molecular and morphological data, as well as rigorous analysis using phylogenetic methods. In this study, we continue in our pursuit of a phylogenetic classification by examining the evolutionary relationships between the closely related reef coral genera Merulina, Goniastrea, Paraclavarina and Scapophyllia (Merulinidae). In particular, we address the extreme polyphyly of Favites and Goniastrea that was discovered a decade ago. We sampled 145 specimens belonging to 16 species from a wide geographic range in the Indo- Pacific, focusing especially on type localities, including the Red Sea, western Indian Ocean and central Pacific. Tree reconstructions based on both nuclear and mitochondrial markers reveal a novel lineage composed of three species previously placed in Favites and Goniastrea. Morphological analyses indicate that this clade, Paragoniastrea Huang, Benzoni & Budd, gen. n., has a unique combination of corallite and subcorallite features observable with scanning electron microscopy and thin sections. Molecular and morphological evidence furthermore indicates that the monotypic genus Paraclavarina is nested within Merulina, and the former is therefore synonymised. [ABSTRACT FROM AUTHOR]

Published
2014
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29. Cleaning up the 'Bigmessidae': Molecular phylogeny of scleractinian corals from Faviidae, Merulinidae, Pectiniidae and Trachyphylliidae.

Author

Huang, Danwei, Licuanan, Wilfredo Y., Baird, Andrew H., and Fukami, Hironobu

Subjects
*BIOLOGICAL evolution, *NUCLEOTIDE sequence, *CONVERGENT evolution, *BIOLOGICAL classification, *SCLERACTINIA
Abstract

Background: Molecular phylogenetic studies on scleractinian corals have shown that most taxa are not reflective of their evolutionary histories. Based principally on gross morphology, traditional taxonomy suffers from the lack of well-defined and homologous characters that can sufficiently describe scleractinian diversity. One of the most challenging clades recovered by recent analyses is 'Bigmessidae', an informal grouping that comprises four conventional coral families, Faviidae, Merulinidae, Pectiniidae and Trachyphylliidae, interspersed among one another with no apparent systematic pattern. There is an urgent need for taxonomic revisions in this clade, but it is vital to first establish phylogenetic relationships within the group. In this study, we reconstruct the evolutionary history of 'Bigmessidae' based on five DNA sequence markers gathered from 76 of the 132 currently recognized species collected from five reef regions in the central Indo-Pacific and the Atlantic. Results: We present a robust molecular phylogeny of 'Bigmessidae' based on the combined five-gene data, achieving a higher degree of resolution compared to previous analyses. Two Pacific species presumed to be in 'Bigmessidae' are more closely related to outgroup clades, suggesting that other unsampled taxa have unforeseen affinities. As expected, nested within 'Bigmessidae' are four conventional families as listed above, and relationships among them generally corroborate previous molecular analyses. Our more resolved phylogeny supports a close association of Hydnophora (Merulinidae) with Favites + Montastraea (Faviidae), rather than with the rest of Merulinidae, i.e., Merulina and Scapophyllia. Montastraea annularis, the only Atlantic 'Bigmessidae' is sister to Cyphastrea, a grouping that can be reconciled by their septothecal walls, a microstructural feature of the skeleton determined by recent morphological work. Characters at the subcorallite scale appear to be appropriate synapomorphies for other subclades, which cannot be explained using macromorphology. Indeed, wide geographic sampling here has revealed more instances of possible cryptic taxa confused by evolutionary convergence of gross coral morphology. Conclusions: Numerous examples of cryptic taxa determined in this study support the assertion that diversity estimates of scleractinian corals are erroneous. Fortunately, the recovery of most 'Bigmessidae' genera with only minor degrees of paraphyly offers some hope for impending taxonomic amendments. Subclades are well defined and supported by subcorallite morphological features, providing a robust framework for further systematic work. [ABSTRACT FROM AUTHOR]

Published
2011
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30. More evidence for pervasive paraphyly in scleractinian corals: Systematic study of Southeast Asian Faviidae (Cnidaria; Scleractinia) based on molecular and morphological data

Author

Huang, Danwei, Meier, Rudolf, Todd, Peter A., and Chou, Loke Ming

Subjects
*MOLECULAR phylogeny, *FAVIIDAE, *CORALS, *PHENOTYPES, *NUCLEOTIDE sequence, *CORAL reefs & islands, *GENETIC markers
Abstract

Abstract: Coral taxonomy and systematics continue to be plagued by a host of problems. Due to high phenotypic variability within species, morphological approaches have often failed to recognize natural taxa, and molecular techniques have yet to be applied to many groups. Here, we summarize the levels of paraphyly found for scleractinian corals and test, based on new data, whether paraphyly is also a significant problem in Faviidae, the second-most speciose hermatypic scleractinian family. Using both DNA sequence and morphological data we find that, regardless of analysis technique (maximum parsimony, maximum likelihood and Bayesian likelihood), many conventional taxonomic groups are not monophyletic. Based on two mitochondrial markers (COI and a noncoding region) that we amplified for 81 samples representing 41 faviid species and 13 genera, five genera that are represented by more than one species are paraphyletic, as is the family Faviidae. The morphological characters currently used to identify these corals similarly fail to recover many genera. Furthermore, trees based on both data types are incongruent, and total evidence analysis does little to salvage conventional taxonomic groupings. Morphological convergence, phenotypic variability in response to the environment, and recent speciation are likely causes for these conflicts, which suggest that the present classification of corals is in need of a major overhaul. We propose more detailed studies of problematic faviid taxa using standardized morphological, mitochondrial, and nuclear genetic markers to facilitate combining of data. [Copyright &y& Elsevier]

Published
2009
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31. The earliest diverging extant scleractinian corals recovered by mitochondrial genomes.

Author

Seiblitz, Isabela G. L., Capel, Kátia C. C., Stolarski, Jarosław, Quek, Zheng Bin Randolph, Huang, Danwei, and Kitahara, Marcelo V.

Subjects
SCLERACTINIA, GENOMES, CORALS, CORALLIMORPHARIA, PHYLOGENY
Abstract

Evolutionary reconstructions of scleractinian corals have a discrepant proportion of zooxanthellate reef-building species in relation to their azooxanthellate deep-sea counterparts. In particular, the earliest diverging "Basal" lineage remains poorly studied compared to "Robust" and "Complex" corals. The lack of data from corals other than reef-building species impairs a broader understanding of scleractinian evolution. Here, based on complete mitogenomes, the early onset of azooxanthellate corals is explored focusing on one of the most morphologically distinct families, Micrabaciidae. Sequenced on both Illumina and Sanger platforms, mitogenomes of four micrabaciids range from 19,048 to 19,542 bp and have gene content and order similar to the majority of scleractinians. Phylogenies containing all mitochondrial genes confirm the monophyly of Micrabaciidae as a sister group to the rest of Scleractinia. This topology not only corroborates the hypothesis of a solitary and azooxanthellate ancestor for the order, but also agrees with the unique skeletal microstructure previously found in the family. Moreover, the early-diverging position of micrabaciids followed by gardineriids reinforces the previously observed macromorphological similarities between micrabaciids and Corallimorpharia as well as its microstructural differences with Gardineriidae. The fact that both families share features with family Kilbuchophylliidae ultimately points towards a Middle Ordovician origin for Scleractinia. [ABSTRACT FROM AUTHOR]

Published
2020
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32. Homogenization of Endosymbiont Communities Hosted by Equatorial Corals during the 2016 Mass Bleaching Event.

Author

Jain, Sudhanshi S., Afiq-Rosli, Lutfi, Feldman, Bar, Levy, Oren, Phua, Jun Wei, Wainwright, Benjamin J., and Huang, Danwei

Subjects
CORAL bleaching, ENDOSYMBIOSIS, ECOLOGICAL disturbances, CORALS, POLYMERASE chain reaction, THERMAL stresses
Abstract

Thermal stress drives the bleaching of reef corals, during which the endosymbiotic relationship between Symbiodiniaceae microalgae and the host breaks down. The endosymbiont communities are known to shift in response to environmental disturbances, but how they respond within and between colonies during and following bleaching events remains unclear. In 2016, a major global-scale bleaching event hit countless tropical reefs. Here, we investigate the relative abundances of Cladocopium LaJeunesse & H.J.Jeong, 2018 and Durusdinium LaJeunesse, 2018 within and among Pachyseris speciosa colonies in equatorial Singapore that are known to host both these Symbiodiniaceae clades. Bleached and unbleached tissues from bleaching colonies, as well as healthy colonies, during and following the bleaching event were sampled and analyzed for comparison. The nuclear ribosomal internal transcribed spacer (ITS) regions were separately amplified and quantified using a SYBR Green-based quantitative polymerase chain reaction (qPCR) method and Illumina high-throughput sequencing. We found Cladocopium to be highly abundant relative to Durusdinium. The relative abundance of Durusdinium, known to be thermally tolerant, was highest in post-bleaching healthy colonies, while bleached and unbleached tissues from bleaching colonies as well as tissue from healthy colonies during the event had depressed proportions of Durusdinium. Given the importance of Durusdinium for thermal tolerance and stress response, it is surprising that bleached tissue showed limited change over healthy tissue during the bleaching event. Moreover, colonies were invariably dominated by Cladocopium during bleaching, but a minority of colonies were Durusdinium-dominant during non-bleaching times. The detailed characterization of Symbiodiniaceae in specific colonies during stress and recovery will provide insights into this crucial symbiosis, with implications for their responses during major bleaching events. [ABSTRACT FROM AUTHOR]

Published
2020
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33. Responses of urban reef corals during the 2016 mass bleaching event.

Author

Ng, Chin Soon Lionel, Huang, Danwei, Toh, Kok Ben, Sam, Shu Qin, Kikuzawa, Yuichi Preslie, Toh, Tai Chong, Taira, Daisuke, Chan, Yong Kit Samuel, Hung, Ling Zi Tracy, Sim, Wan Ting, Rashid, Ahmad Rafiuddin, Afiq-Rosli, Lutfi, Ng, Ngan Kee, and Chou, Loke Ming

Subjects
CORAL bleaching, CORAL reefs & islands, CORAL reef ecology, CORALS, CORAL communities, REEFS, COMMUNITY change
Abstract

Predicting the bleaching responses of corals is crucial in light of frequent heat stress events to manage further losses of biodiversity and ecosystem functioning, especially for reefs impacted by urbanisation. We examined if the coral cover and community at various Singapore sites changed during the 2016 global coral bleaching event. Bleaching prevalence varied widely among sites in June 2016, and was best explained by site and coral species. While some sites were minimally impacted, others registered significant decreases in coral cover and community changes persisting till March 2017, when normal colouration was mostly regained by corals. Bleaching susceptibility was associated with larger corallites in hermaphrodites and smaller corallites in gonochores (probably due to the cost of maintaining dual sexual functions in hermaphrodites), and with increasing proximity between polyps (likely because thermal damage would be less contained among polyps with greater physiological integration). However, bleaching resilience—the capacity to regain baseline pigmentation—was poorly explained by the traits studied. Our findings suggest that the interplay between local conditions and species composition strongly affects bleaching outcomes on urbanised reefs, and underscore the utility of coral traits for predicting bleaching responses to help in formulating appropriate management strategies. • Understanding how urban reef corals bleach could help stem further losses. • Bleaching prevalence varied widely across Singapore reefs during the 2016 GCBE. • Corallite size, polyp proximity and sexuality best predicted susceptibility. • Local conditions and species composition affect bleaching outcomes strongly. • Coral traits are a useful tool for formulating bleaching management strategies. [ABSTRACT FROM AUTHOR]

Published
2020
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34. How long have we been mistaken? Multi-tools shedding light into the systematics of the widespread deep-water genus Madrepora Linnaeus, 1758 (Scleractinia).

Author

Capel, Kátia C.C., Zilberberg, Carla, Carpes, Raphael M., Morrison, Cheryl L., Vaga, Claudia F., Quattrini, Andrea M., ZB Quek, Randolph, Huang, Danwei, Cairns, Stephen D., and Kitahara, Marcelo V.

Subjects
*ACROPORA, *SCLERACTINIA, *CORAL reefs & islands, *DEEP-sea corals, *MICROSATELLITE repeats
Abstract

[Display omitted] • Proposition of Bathyporidae fam. nov. • Description of a new species of Madrepora. • High gene flow within Madrepora populations in the Southwestern Atlantic. Deep-water coral reefs are found worldwide and harbor biodiversity levels that are comparable to their shallow-water counterparts. However, the genetic diversity and population structure of deep-water species remain poorly explored, and historical taxonomical issues still need to be resolved. Here we used microsatellite markers as well as ultraconserved elements (UCE) and exons to shed light on the population structure, genetic diversity, and phylogenetic position of the genus Madrepora , which contains M. oculata , one of the most widespread scleractinian species. Population structure of 107 samples from three Southwestern Atlantic sedimentary basins revealed the occurrence of a cryptic species, herein named M. piresae sp. nov. (authored by Kitahara, Capel and Zilberberg), which can be found in sympatry with M. oculata. Phylogeny reconstructions based on 134 UCEs and exon regions corroborated the population genetic data, with the recovery of two well-supported groups, and reinforced the polyphyly of the family Oculinidae. In order to better accommodate the genus Madrepora , while reducing taxonomical confusion associated with the name Madreporidae, we propose the monogeneric family Bathyporidae fam. nov. (authored by Kitahara, Capel, Zilberberg and Cairns). Our findings advance the knowledge on the widespread deep-water genus Madrepora , resolve a long-standing question regarding the phylogenetic position of the genus , and highlight the need of a worldwide review of the genus. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Light limitation selects for depth generalists in urbanised reef coral communities.

Author

Chow, Gwendolyn S.E., Chan, Y.K. Samuel, Jain, Sudhanshi Sanjeev, and Huang, Danwei

Subjects
*CORAL reefs & islands, *CORALS, *CORAL reef ecology, *CORAL communities, *SPECIES diversity, *COMMUNITY organization, *SEA level
Abstract

Depth range is an important species trait for coral reef organisms, yet it remains to be quantified and analysed adequately among tropical coral species. Filling this knowledge gap is crucial as the depth limits of corals are related to important environmental factors such as light and temperature. Furthermore, the health and survivorship of corals may be threatened due to warming-induced sea-level rise, particularly for colonies living at the deeper limits of species depth ranges. Here we collected benthic and environmental data along the reef profile to characterise the depth ranges of coral species, and analysed species diversity and community structure in relation to possible depth-related biophysical parameters on the sediment-stressed reefs of Singapore. The results reveal clear environmental covariations with depth, expectedly with light availability showing the most marked decline as depth increases. Live coral cover, species richness and diversity are associated positively and significantly with light, which also structures coral communities along the reef profile more strongly than temperature or sediment levels. Relatedly, we detect species-specific depth distributions with two main strategies observed among coral species: shallow specialists and depth generalists. We suggest that corals in Singapore are unlikely to be impacted by light limitation specifically as sea level rises due to the wider depth range of the deeper species. Our data will inform conservation efforts especially in the selection of sites and depths for coral transplantation. • Depth range is an important species trait for coral reef organisms • Reef corals show clear environmental covariations with depth • Coral diversity and communities are driven mostly by light availability with depth • Coral species are generally either shallow specialists or depth generalists • Singapore corals are unlikely to be impacted by light limitation as sea level rises [ABSTRACT FROM AUTHOR]

Published
2019
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36. A hybrid-capture approach to reconstruct the phylogeny of Scleractinia (Cnidaria: Hexacorallia).

Author

Quek, Z.B. Randolph, Jain, Sudhanshi S., Richards, Zoe T., Arrigoni, Roberto, Benzoni, Francesca, Hoeksema, Bert W., Carvajal, Jose I., Wilson, Nerida G., Baird, Andrew H., Kitahara, Marcelo V., Seiblitz, Isabela G.L., Vaga, Claudia F., and Huang, Danwei

Subjects
*SCLERACTINIA, *PHYLOGENY, *ACROPORA, *PERSONAL names, *CNIDARIA, *CORALS
Abstract

• Hybrid capture is a useful large-scale phylogenomic reconstructions. • We perform the largest phylogenomic reconstruction of Scleractinia. • Phylogenetic relationships are resolved, but paraphyletic families remain. • Taxonomic uncertainty is rife, and revisions are urgently required. A well-supported evolutionary tree representing most major lineages of scleractinian corals is in sight with the development and application of phylogenomic approaches. Specifically, hybrid-capture techniques are shedding light on the evolution and systematics of corals. Here, we reconstructed a broad phylogeny of Scleractinia to test previous phylogenetic hypotheses inferred from a few molecular markers, in particular, the relationships among major scleractinian families and genera, and to identify clades that require further research. We analysed 449 nuclear loci from 422 corals, comprising 266 species spanning 26 families, combining data across whole genomes, transcriptomes, hybrid capture and low-coverage sequencing to reconstruct the largest phylogenomic tree of scleractinians to date. Due to the large number of loci and data completeness (less than 38% missing data), node supports were high across shallow and deep nodes with incongruences observed in only a few shallow nodes. The "Robust" and "Complex" clades were recovered unequivocally, and our analyses confirmed that Micrabaciidae Vaughan, 1905 is sister to the "Robust" clade, transforming our understanding of the "Basal" clade. Several families remain polyphyletic in our phylogeny, including Deltocyathiidae Kitahara, Cairns, Stolarski & Miller, 2012, Caryophylliidae Dana, 1846, and Coscinaraeidae Benzoni, Arrigoni, Stefani & Stolarski, 2012, and we hereby formally proposed the family name Pachyseridae Benzoni & Hoeksema to accommodate Pachyseris Milne Edwards & Haime, 1849, which is phylogenetically distinct from Agariciidae Gray, 1847. Results also revealed species misidentifications and inconsistencies within morphologically complex clades, such as Acropora Oken, 1815 and Platygyra Ehrenberg, 1834, underscoring the need for reference skeletal material and topotypes, as well as the importance of detailed taxonomic work. The approach and findings here provide much promise for further stabilising the topology of the scleractinian tree of life and advancing our understanding of coral evolution. [ABSTRACT FROM AUTHOR]

Published
2023
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37. A Trait-Based Approach to Advance Coral Reef Science.

Author

Madin, Joshua S., Hoogenboom, Mia O., Connolly, Sean R., Darling, Emily S., Falster, Daniel S., Huang, Danwei, Keith, Sally A., Mizerek, Toni, Pandolfi, John M., Putnam, Hollie M., and Baird, Andrew H.

Subjects
*CORAL reef ecology, *BIODIVERSITY, *SCLERACTINIA, *BIOTIC communities, *POPULATION biology
Abstract

Coral reefs are biologically diverse and ecologically complex ecosystems constructed by stony corals. Despite decades of research, basic coral population biology and community ecology questions remain. Quantifying trait variation among species can help resolve these questions, but progress has been hampered by a paucity of trait data for the many, often rare, species and by a reliance on nonquantitative approaches. Therefore, we propose filling data gaps by prioritizing traits that are easy to measure, estimating key traits for species with missing data, and identifying ‘supertraits’ that capture a large amount of variation for a range of biological and ecological processes. Such an approach can accelerate our understanding of coral ecology and our ability to protect critically threatened global ecosystems. [ABSTRACT FROM AUTHOR]

Published
2016
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38. Coral community composition and carbonate production in an urbanized seascape.

Author

Ng, Chin Soon Lionel, Chan, Yong Kit Samuel, Nguyen, Nhung Thi Hong, Kikuzawa, Yuichi Preslie, Sam, Shu Qin, Toh, Tai Chong, Mock, Aidan Yong Jie, Chou, Loke Ming, and Huang, Danwei

Subjects
*CORAL communities, *CORALS, *CORAL reefs & islands, *CARBONATES, *SEA-walls, *REEFS
Abstract

Coastal urbanization causes environmental modifications that directly and indirectly influence the distribution and functioning of coral reefs. However, the capacity of urban infrastructure to support corals and vertically accrete is less understood. Here, we investigated if coral communities on reefs and seawalls in Singapore are distinct, and examined the environmental variables influencing coral carbonate production. Surveys at 22 sites yielded 134 coral species, with richness significantly higher on reefs. Coral cover and Shannon index did not differ between habitat types. Community composition was distinct between habitat types, with seawalls supporting a higher proportion of massive and thick-plating species. 'Distance from mainland' was the single most important variable influencing normalized carbonate production rates (a function of species-specific linear extension rate and skeletal bulk density and site coral cover), which were higher further from the mainland where human activity and development pressures were greater. Our results indicate that environmental filtering strongly shapes coral communities and may influence ecosystem functioning in Singapore's urbanized reef system. The findings will guide the management of reefs on increasingly urbanized coastlines. • We studied species composition and ecosystem functioning of an urbanized reef system. • Communities differed between reefs and seawalls, which comprised more massive corals. • Reefs supported more species but cover and diversity did not differ between habitats. • Normalized coral carbonate production rates were higher further from the mainland. • Foliose corals accounted for the highest carbonate production on Singapore's reefs. [ABSTRACT FROM AUTHOR]

Published
2021
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39. Among-genotype responses of the coral Pocillopora acuta to emersion: implications for the ecological engineering of artificial coastal defences.

Author

Pang, Hui En, Poquita-Du, Rosa Celia, Jain, Sudhanshi Sanjeev, Huang, Danwei, and Todd, Peter A.

Subjects
*ECOLOGICAL engineering, *COASTAL engineering, *SCLERACTINIA, *CORAL reef restoration, *SEA-walls, *PHENOTYPIC plasticity
Abstract

Stony corals are promising transplant candidates for the ecological engineering of artificial coastal defences such as seawalls as they attract and host numerous other organisms. However, seawalls are exposed to a wide range of environmental stressors associated with periods of emersion during low tide such as desiccation and changes in salinity, temperature, and solar irradiance. All of these variables have known deleterious effects on coral physiology, growth, and fitness. In this study, we performed parallel experiments (in situ and ex situ) to examine among-genotype responses of Pocillopora acuta to emersion by quantifying growth, photophysiological metrics (F v /F m , non-photochemical quenching [NPQ], endosymbiont density, and chlorophyll [chl] a concentration) and survival, following different emersion periods. Results showed that coral fragments emersed for longer durations (>2 h) exhibited reduced growth and survival. Endosymbiont density and NPQ, but not F v /F m and chl a concentration, varied significantly among genotypes across different durations of emersion. Overall, the ability of P. acuta to tolerate emersion for up to 2 h suggests its potential to serve as a 'starter species' for transplantation efforts on seawalls. Further, careful characterisation and selection of genotypes with a high capacity to withstand emersion can help maximise the efficacy of ecological engineering using coral transplants. • Pocillopora acuta exhibits substantial intraspecific variability to withstand emersion stress. • P. acuta coral fragments emersed for longer durations (>2 h) exhibited reduced growth and survival. • Photophysiological perfomances of P. acuta coral fragments deteriorate beyond 2 hours of emersion period. [ABSTRACT FROM AUTHOR]

Published
2021
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40. The Paradox of Environmental Symbiont Acquisition in Obligate Mutualisms.

Author

Hartmann, Aaron C., Baird, Andrew H., Knowlton, Nancy, and Huang, Danwei

Subjects
*MUTUALISM (Biology), *EUKARYOTES, *BUOYANCY, *EGGS, *LARVAL ecology
Abstract

Summary Mutually beneficial interactions between species (mutualisms) shaped the evolution of eukaryotes and remain critical to the survival of species globally [ 1, 2 ]. Theory predicts that hosts should pass mutualist symbionts to their offspring (vertical transmission) [ 3–8 ]. However, offspring acquire symbionts from the environment in a surprising number of species (horizontal acquisition) [ 9–12 ]. A classic example of this paradox is the reef-building corals, in which 71% of species horizontally acquire algal endosymbionts [ 9 ]. An untested hypothesis explaining this paradox suggests that horizontal acquisition allows offspring to avoid symbiont-induced harm early in life. We reconstructed the evolution of symbiont transmission across 252 coral species and detected evolutionary transitions consistent with costs of vertical transmission among broadcast spawners, whose eggs tend to be positively buoyant and aggregate at the sea surface. Broadcasters with vertical transmission produce eggs with traits that favor reduced buoyancy (less wax ester lipid) and rapid development to the swimming stage (small egg size), both of which decrease the amount of time offspring spend at the sea surface. Wax ester provisioning decreased after vertically transmitting species evolved brooding from broadcasting, indicating that reduced buoyancy evolves only when offspring bear symbionts. We conclude that horizontal acquisition protects offspring from damage caused by high light and temperatures near the sea surface while providing benefits from enhanced fertilization and outcrossing. These findings help explain why modes of symbiont transmission and reproduction are strongly associated in corals and highlight benefits of delaying mutualist partnerships, offering an additional hypothesis for the pervasiveness of this theoretically paradoxical strategy. [ABSTRACT FROM AUTHOR]

Published
2017
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