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Coral Reefs of the Red Sea. (2019)

Voolstra, Christian R.

Cham :Springer International Publishing AG,

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Keywords: Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (185 pages)

Edition: 1st ed.

ISBN: 9783030058029

Series Statement: Coral Reefs of the World Series ; v.11

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=5771244

Language: English

Note: Intro -- Preface -- Contents -- 1: The Red Sea: Environmental Gradients Shape a Natural Laboratory in a Nascent Ocean -- 1.1 Introduction -- 1.2 The Physical Environment of the Red Sea -- 1.3 Nutrients and Productivity in the Red Sea -- 1.4 Gene Flow and Genetic Diversity in the Red Sea -- 1.5 Biogeography of Red Sea Organisms -- References -- 2: Environmental Setting for Reef Building in the Red Sea -- 2.1 Geology and Reef Morphology -- 2.2 Atmospheric Setting -- 2.3 Marine Environment -- 2.3.1 Basin-Scale Circulation -- 2.3.2 Mesoscale Processes - Basin Eddies -- 2.3.3 Wind-Driven Flow -- 2.3.4 Sea Level Motions -- 2.3.4.1 Seasonal Sea Level Variations -- 2.3.4.2 Intermediate Band Sea Level Variations -- 2.3.4.3 Tides -- 2.3.5 Surface Waves -- 2.3.6 Water Properties -- 2.3.7 Oxygen and Nutrients -- 2.3.8 Light and Chlorophyll Distribution -- 2.4 The Carbonate System -- 2.5 Summary and Conclusions -- References -- 3: Ecophysiology of Reef-Building Corals in the Red Sea -- 3.1 Introduction -- 3.2 The Red Sea as a Historic Area of Research on Coral Reef Ecosystems and Coral Physiology -- 3.3 Environmental Conditions in the Red Sea That Affect Coral Physiology -- 3.4 Red Sea Corals Maintain Efficient Photosynthesis Across Depth and Geographical Gradients -- 3.5 Coral Calcification Rates Peak During Spring Season in the Red Sea -- 3.6 Nutrient Cycling Sustains Coral Holobiont Productivity in the Nutrient-Poor Waters of the Red Sea -- 3.7 Coral Reproduction Follows Latitudinal Water Temperature Regimes in the Red Sea -- 3.8 Deep-Sea Corals in the Red Sea Illustrate Remarkable Physiological Plasticity of Azooxanthellate Corals -- 3.9 'Symbiomics'-Elucidating Coral Function Using Holobiont Genomics and Model System-Based Approaches -- References -- 4: Microbial Communities of Red Sea Coral Reefs. , 4.1 Reef Microbe Studies in the Red Sea -- 4.2 Coral Reef Waters and Sediments -- 4.2.1 Coral Reef Picoplankton -- 4.2.1.1 Abundance of Major Reef Picoplankton Groups -- 4.2.1.2 Diversity of Reef Picoplankton -- 4.2.1.3 Reef Organisms Alter the Picoplankton Community -- 4.2.2 Reef Sand-Associated Microorganisms -- 4.2.2.1 Drivers of Microbial Community Variations in Reef Sands -- 4.3 Microbial Associations with Reef Animals -- 4.3.1 Coral Associated Microbes -- 4.3.1.1 Diversity of Coral Associated Microbes -- 4.3.1.2 Factors Structuring Coral-Associated Bacterial Communities -- 4.3.1.3 Microbes and Coral Disease -- 4.3.2 Sponge Associated Microbes -- 4.3.3 Reef Fish Associated Microbes -- 4.3.3.1 Overview -- 4.3.3.2 Studies on Coral Reef Fish Microbiota -- 4.3.3.3 Studies in the Red Sea -- 4.3.3.4 Gut Microbiota of Red Sea Reef Fishes -- 4.3.3.5 Regional Specificity in the Red Sea Gut Microbiota -- 4.4 Conclusions -- References -- 5: Symbiodiniaceae Diversity in Red Sea Coral Reefs & -- Coral Bleaching -- 5.1 Introduction -- 5.2 Symbiodiniaceae Taxonomy and Phylogeny- Challenges in Diversity Analyses -- 5.3 Functional Diversity of Different Host-Symbiodiniaceae Pairings -- 5.4 Symbiodiniaceae Diversity in the Red Sea -- 5.5 Biogeographic Patterns in Symbiodiniaceae Diversity and Host-Symbiont Associations -- 5.6 Coral Bleaching and Symbiosis Breakdown -- 5.7 Coral Bleaching in the Red Sea -- 5.8 Outlook: What Can We Learn from Red Sea Algal Symbionts in Regard to 'Future Oceans'? -- References -- 6: Sponges of the Red Sea -- 6.1 Introduction -- 6.2 Red Sea Sponge Biodiversity -- 6.2.1 Demosponge Diversity of the Red Sea -- 6.2.2 Calcareous Sponge Diversity of the Red Sea -- 6.3 Publications on Red Sea Sponge Biology -- 6.3.1 Bioactive Compounds of Red Sea Sponges -- 6.3.2 Ecology of Red Sea Sponges. , 6.3.3 Microbiology of Red Sea Sponges -- 6.4 Potential Future Research Directions -- Appendix -- References -- 7: Corals of the Red Sea -- 7.1 Diversity and Patterns within Red Sea -- 7.2 Coral Communities in the Red Sea -- 7.3 Red Sea Corals in an Indian Ocean Perspective -- 7.4 Climate Change and Red Sea Corals -- Appendices -- Appendix 1 -- Appendix 2 -- References -- 8: Fishes and Connectivity of Red Sea Coral Reefs -- 8.1 Red Sea Ichthyofauna and Movement Ecology -- 8.1.1 Early Natural Historians and Red Sea Taxonomy -- 8.1.2 Fishes and Movement Ecology -- 8.2 Biodiversity Patterns -- 8.2.1 Latitudinal/Longitudinal Gradients -- 8.2.2 Understudied Regions of the Red Sea -- 8.3 Genetic Connectivity -- 8.3.1 Genetic Barriers in the Red Sea -- 8.3.2 East-West Connectivity -- 8.3.3 Genetic Identification of Cryptobenthic Species -- 8.3.4 Inter-Species Genetic Variation and Cryptic Speciation -- 8.4 Ecology -- 8.4.1 Application of Stable Isotope Techniques to Red Sea Fishes -- 8.4.2 Megafauna Movements -- 8.4.3 Lessepsian Migrants -- 8.4.4 Larval Ecology and Recruitment of Reef Fishes -- 8.4.5 Particularly Understudied Areas -- 8.4.5.1 Mesophotic Coral Ecosystems -- 8.4.5.2 Al Wajh Lagoon Reefs -- 8.5 Conservation Status and Future Challenges -- 8.5.1 Bleaching and Thermal Stress -- 8.5.2 Fisheries -- 8.5.3 Coastal Development, Ecotourism, and Saudi Arabia's Vision 2030 -- 8.5.4 Aquaculture -- 8.5.5 Existing Protected Areas -- 8.5.6 Marine Invasive Species -- References.

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Extensive phenotypic plasticity of a Red Sea coral over a strong latitudinal temperature gradient suggests limited acclimatization potential to warming (2015)

Sawall, Yvonne ; Al-Sofyani, Abdulmoshin ; Hohn, Sönke ; [et al.]

Nature Publishing Group

In: Scientific Reports, 5 (8940).

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Publication Date: 2019-09-23

Description: Global warming was reported to cause growth reductions in tropical shallow water corals in both, cooler and warmer, regions of the coral species range. This suggests regional adaptation with less heat-tolerant populations in cooler and more thermo-tolerant populations in warmer regions. Here, we investigated seasonal changes in the in situ metabolic performance of the widely distributed hermatypic coral Pocillopora verrucosa along 12 degrees latitudes featuring a steep temperature gradient between the northern (28.5 degrees N, 21-27 degrees C) and southern (16.5 degrees N, 28-33 degrees C) reaches of the Red Sea. Surprisingly, we found little indication for regional adaptation, but strong indications for high phenotypic plasticity: Calcification rates in two seasons (winter, summer) were found to be highest at 28-29 degrees C throughout all populations independent of their geographic location. Mucus release increased with temperature and nutrient supply, both being highest in the south. Genetic characterization of the coral host revealed low inter-regional variation and differences in the Symbiodinium clade composition only at the most northern and most southern region. This suggests variable acclimatization potential to ocean warming of coral populations across the Red Sea: high acclimatization potential in northern populations, but limited ability to cope with ocean warming in southern populations already existing at the upper thermal margin for corals

Type: Article , PeerReviewed

Format: text

DOI: 10.1038/srep08940

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First biological measurements of deep-sea corals from the Red Sea (2013)

Roder, C. ; Berumen, Michael L. ; Bouwmeester, J. ; [et al.]

Nature Publishing Group

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Publication Date: 2022-05-25

Description: © The Author(s), 2013. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Scientific Reports 3 (2013): 2802, doi:10.1038/srep02802.

Description: It is usually assumed that metabolic constraints restrict deep-sea corals to cold-water habitats, with ‘deep-sea’ and ‘cold-water’ corals often used as synonymous. Here we report on the first measurements of biological characters of deep-sea corals from the central Red Sea, where they occur at temperatures exceeding 20°C in highly oligotrophic and oxygen-limited waters. Low respiration rates, low calcification rates, and minimized tissue cover indicate that a reduced metabolism is one of the key adaptations to prevailing environmental conditions. We investigated four sites and encountered six species of which at least two appear to be undescribed. One species is previously reported from the Red Sea but occurs in deep cold waters outside the Red Sea raising interesting questions about presumed environmental constraints for other deep-sea corals. Our findings suggest that the present understanding of deep-sea coral persistence and resilience needs to be revisited.

Keywords: Ecosystem ecology ; Biodiversity ; Genetics ; Metabolism

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

Format: application/msword

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Differential specificity between closely related corals and abundant Endozoicomonas endosymbionts across global scales (2017)

Neave, Matthew J. ; Rachmawati, Rita ; Xun, Liping ; [et al.]

Nature Publishing Group

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Publication Date: 2022-05-25

Description: © The Author(s), 2016. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in The ISME Journal 11 (2017): 186–200, doi:10.1038/ismej.2016.95.

Description: Reef-building corals are well regarded not only for their obligate association with endosymbiotic algae, but also with prokaryotic symbionts, the specificity of which remains elusive. To identify the central microbial symbionts of corals, their specificity across species and conservation over geographic regions, we sequenced partial SSU ribosomal RNA genes of Bacteria and Archaea from the common corals Stylophora pistillata and Pocillopora verrucosa across 28 reefs within seven major geographical regions. We demonstrate that both corals harbor Endozoicomonas bacteria as their prevalent symbiont. Importantly, catalyzed reporter deposition–fluorescence in situ hybridization (CARD–FISH) with Endozoicomonas-specific probes confirmed their residence as large aggregations deep within coral tissues. Using fine-scale genotyping techniques and single-cell genomics, we demonstrate that P. verrucosa harbors the same Endozoicomonas, whereas S. pistillata associates with geographically distinct genotypes. This specificity may be shaped by the different reproductive strategies of the hosts, potentially uncovering a pattern of symbiont selection that is linked to life history. Spawning corals such as P. verrucosa acquire prokaryotes from the environment. In contrast, brooding corals such as S. pistillata release symbiont-packed planula larvae, which may explain a strong regional signature in their microbiome. Our work contributes to the factors underlying microbiome specificity and adds detail to coral holobiont functioning.

Description: This research was supported by a KAUST-WHOI Post-doctoral Partnership Award to MN and a KAUST-WHOI Special Academic Partnership Funding Reserve Award to CRV and AA. Research in this study was further supported by baseline research funds to CRV by KAUST and NSF award OCE-1233612 to AA. RR was supported by the ct-PIRE Project, Robert Lemelson Fellowship, Graduate Research Award (UCLA), Women Divers Hall of Fame—Sister Fund Conservation Award and a Betty and E. P. Franklin Grant in Tropical Biology and Conservation.

Repository Name: Woods Hole Open Access Server

Type: Article

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