Article
Environmental Sciences
Yu-Jia Lin, Moritz J. Heinle, Ali Al-Musabeh, Jinoy Gopalan, Thiyagarajan D. Vasanthi, Premlal Panickan, Tarek Hamade, Bruno Pulido, Thadickal V. Joydas, Barry Shepherd
Summary: An integrated survey of coral reefs in the northeastern Red Sea revealed a high coverage rate and signs of mass mortality events. The corals showed resilience to past mortality events, while predators likely controlled the proportions of sea urchins and macroalgae. Regular monitoring and careful development plans are necessary to safeguard these valuable reefs.
MARINE POLLUTION BULLETIN
(2023)
Article
Environmental Sciences
Jenny Fong, Peter A. Todd
Summary: The study reveals that interactions between corals and macroalgae vary greatly across sites and seasons, with different coral species showing varying effects on macroalgae. It is important to consider seasonal fluctuations of macroalgae for understanding their overall long-term impacts.
MARINE POLLUTION BULLETIN
(2021)
Article
Environmental Sciences
Caroline B. Randi, Ana Clara Becker, Maria Julia Willemes, Chris T. Perry, Leonardo Tavares Salgado, Rodrigo Tomazetto de Carvalho, Fabio S. Motta, Rodrigo Leao de Moura, Fernando Coreixas de Moraes, Guilherme H. Pereira-Filho
Summary: Recent research indicates that the well-known South Atlantic coral reefs have ceased vertical growth and are dominated by non-coral calcifying organisms. In the southernmost subtropical Atlantic reef, calcareous algae and bryozoans play a key role in limiting erosion and maintaining the stability of the reef structure.
MARINE ENVIRONMENTAL RESEARCH
(2021)
Article
Biodiversity Conservation
Deborah L. Santavy, Susan K. Jackson, Benjamin Jessup, Jeroen Gerritsen, Caroline Rogers, William S. Fisher, Ernesto Weil, Alina Szmant, David Cuevas-Miranda, Brian K. Walker, Christopher Jeffrey, Patricia Bradley, David Ballantine, Loretta Roberson, Hector Ruiz-Torres, Brandi Todd, Tyler Smith, Randy Clark, Ernesto Diaz, Jorge Bauza-Ortega, Christina Horstmann, Sandy Raimondo
Summary: With the decline in coral reef condition worldwide, it is important to understand and communicate the response of coral reefs to management actions, environmental contamination, and natural disasters. A narrative model has been developed to evaluate the condition of coral reefs and detect changes using narrative descriptions. The model can be used to assess actions that affect coral reef ecosystems and develop management plans.
ECOLOGICAL INDICATORS
(2022)
Article
Environmental Sciences
Yip Hung Yeung, James Y. Xie, Yu Zhao, Hiu Yan Yu, Chong Chen, William Weijia Lu, Jian-Wen Qiu
Summary: A 2-year study in subtropical Hong Kong waters revealed that external erosion caused by sea urchin grazing is the primary factor contributing to coral skeletal loss. Controlling the sea urchin population density is crucial to reducing coral erosion.
MARINE POLLUTION BULLETIN
(2021)
Article
Environmental Sciences
Elizabeth Ann Lenz, Lucy A. Bartlett, Anastasios Stathakopoulos, Ilsa B. Kuffner
Summary: This study evaluated the physiological characteristics of Porites astreoides corals at different geographic locations and seasons in the Florida Keys reef tract, finding significant differences in bleaching severity among sites and highlighting the better adaptation of colonies at the Dry Tortugas site to high temperature events. The results contribute to the selection of candidate sites for adaptive coral management strategies.
FRONTIERS IN MARINE SCIENCE
(2021)
Article
Ecology
Ian C. Enochs, Lauren T. Toth, Amanda Kirkland, Derek P. Manzello, Graham Kolodziej, John T. Morris, Daniel M. Holstein, Austin Schlenz, Carly J. Randall, Juan L. Mate, James J. Leichter, Richard B. Aronson
Summary: In this study, the composition and erosion activities on coral blocks in two coral reef gulfs in the eastern tropical Pacific were analyzed, revealing that the balance between bioerosion and calcification activities depends on rich trophic needs and environmental conditions, suggesting the unpredictable impact of contributing species on habitats.
ECOLOGICAL MONOGRAPHS
(2021)
Article
Biodiversity Conservation
Jeremy Carlot, Mohsen Kayal, Hunter S. Lenihan, Simon J. Brandl, Jordan M. Casey, Mehdi Adjeroud, Ulisse Cardini, Alexandre Merciere, Benoit Espiau, Diego R. Barneche, Alessio Rovere, Laetitia Hedouin, Valeriano Parravicini
Summary: Sea-level rise is predicted to have major impacts on tropical coastlines, with coral reefs playing a key role in protecting against ocean waves by producing calcium carbonate. Recent research shows that recovering reefs may produce more calcium carbonate than previously estimated, thanks to the contribution of juvenile corals. However, recruitment failures following large-scale bleaching events could compromise the buffering effect of highly productive juvenile corals.
GLOBAL CHANGE BIOLOGY
(2021)
Article
Geography, Physical
Meixia Zhao, Yu Zhong, Shuqi Zhang, Haiyang Zhang, Hongqiang Yang, Qi Shi, Hongqiang Yan, Haoya Tong, Weihai Xu, Wen Yan
Summary: This study analyzed the NK-1 core from Meiji Reef in the South China Sea, revealing the development model of Holocene coral reefs and the impact of coral community diversity on reef growth. Acropora corals were identified as the main reef builders during the Holocene, with their growth rate and dispersion method playing a crucial role in the vertical accumulation of reefs.
PALAEOGEOGRAPHY PALAEOCLIMATOLOGY PALAEOECOLOGY
(2022)
Article
Geography, Physical
Rosine Riera, Julien Bourget, Eckart Hakansson, Victorien Paumard, Moyra E. J. Wilson
Summary: The Western Australian margin is a unique coral reef province with modern coral reef development occurring at latitudes as far south as 29 degrees S. The genesis of this coral reef province may go back to the Oligo-Miocene, with seismic reefs being only sparsely sampled and present in a few remote locations. The study investigates middle Miocene shallow-water limestones with tropical fauna formed along the North West Shelf, showing warm climate during this time despite being located further south than its present position.
PALAEOGEOGRAPHY PALAEOCLIMATOLOGY PALAEOECOLOGY
(2021)
Article
Biodiversity Conservation
Deborah L. Santavy, Susan K. Jackson, Benjamin Jessup, Christina Horstmann, Caroline Rogers, Ernesto Weil, Alina Szmant, David Cuevas Miranda, Brian K. Walker, Christopher Jeffrey, David Ballantine, William S. Fisher, Randy Clark, Hector Ruiz Torres, Brandi Todd, Sandy Raimondo
Summary: The Biological Condition Gradient (BCG) is a conceptual model used to describe incremental changes in biological condition along a gradient of increasing anthropogenic stress. We developed a numeric BCG model for the coral reefs of Puerto Rico and the US Virgin Islands to facilitate ecologically meaningful management decisions. The model employs decision rules based on multiple attributes to assess coral reef condition and has shown high predictive accuracy in site ratings.
ECOLOGICAL INDICATORS
(2022)
Article
Environmental Sciences
Sonya L. Fiddes, Matthew T. Woodhouse, Todd P. Lane, Robyn Schofield
Summary: This study investigates the influence of coral-reef-derived DMS on atmospheric composition and climate, finding no robust evidence that it affects regional climate. The complexities of the aerosol-climate system are emphasized, with limitations of current modeling capabilities highlighted, particularly regarding convective responses to changes in aerosol.
ATMOSPHERIC CHEMISTRY AND PHYSICS
(2021)
Article
Environmental Sciences
Susann Rossbach, Andrea Anton, Carlos M. Duarte
Summary: This study provides the first large-scale survey of Red Sea Tridacna spp. densities, showing the distribution and densities of Tridacnae in the region. Results indicate that geographical parameters such as latitude, distance to shore, depth, and reef zone, along with local environmental factors, are the main drivers for local Tridacna spp. densities.
FRONTIERS IN MARINE SCIENCE
(2021)
Article
Environmental Sciences
Dwayne Minton, David Burdick, Valerie Brown
Summary: High sedimentation rates have a negative impact on coral reefs; this study quantitatively describes coral reef communities across a large sediment gradient; coral species richness decreases with increasing sedimentation rates.
MARINE POLLUTION BULLETIN
(2022)
Article
Environmental Sciences
Binni Qin, Kefu Yu, Xiuling Zuo
Summary: This study evaluated and improved the coral bleaching alert capabilities of two coral bleaching heat stress products, CRW and CoRTAD, and found that CRW performed better than CoRTAD in the South China Sea. However, both products underestimated coral bleaching events using common DHW thresholds. The study proposed a method to evaluate and optimize multi-source coral bleaching heat stress products.
MARINE ENVIRONMENTAL RESEARCH
(2023)
Article
Microbiology
Parsifal F. Islas-Morales, Anny Cardenas, Maria J. Mosqueira, Luis Felipe Jimenez-Garcia, Christian R. Voolstra
Summary: Nucleoli are subcellular compartments responsible for transcription and maturation of pre-ribosomal RNAs. This study provides evidence for the presence of nucleolus-like subcellular domains in TACK crenarchaeon Saccharolobus solfataricus, suggesting that these domains are not exclusive to eukaryotes.
FRONTIERS IN MICROBIOLOGY
(2023)
Editorial Material
Biochemistry & Molecular Biology
Christian R. Voolstra, Raquel S. Peixoto, Christine Ferrier-Pages
Summary: Global warming is causing significant damage to coral reefs. Urgent actions must be taken to mitigate and restore in order to prevent their complete extinction.
Article
Limnology
Nicolas. R. R. Evensen, Katherine. E. E. Parker, Thomas. A. A. Oliver, Stephen. R. R. Palumbi, Cheryl. A. A. Logan, James. S. S. Ryan, Courtney. N. N. Klepac, Gabriela Perna, Mark. E. E. Warner, Christian. R. R. Voolstra, Daniel. J. J. Barshis
Summary: Ocean warming is causing increasing harm to marine ecosystems worldwide, particularly affecting reef-building corals through more frequent and severe mass bleaching events. The ability of corals to resist or recover from bleaching varies, and understanding this thermal resilience is crucial for the persistence of coral reefs. However, there is a lack of standardized diagnostic approaches to assess coral thermal vulnerability before bleaching events. The Coral Bleaching Automated Stress System (CBASS) is a cost-effective and portable experimental system that can rapidly assess coral thermal thresholds using standardized temperature stress profiles and diagnostics.
LIMNOLOGY AND OCEANOGRAPHY-METHODS
(2023)
Article
Biochemistry & Molecular Biology
Carol Buitrago-Lopez, Anny Cardenas, Benjamin C. C. Hume, Thierry Gosselin, Fabian Staubach, Manuel Aranda, Daniel J. Barshis, Yvonne Sawall, Christian R. Voolstra
Summary: Global habitat degradation has increased the need to study genetic connectivity and diversity of marine biota in order to guide conservation efforts. This study examined the population structure and holobiont assemblage of two common pocilloporid corals across the Red Sea. The results showed evidence for limited population differentiation in P. verrucosa, but complex population structure and genetic differentiation in S. pistillata, along with differences in reproductive mode and genetic adaptation at various sites. The study highlights the importance of multispecies investigations and networks of reef reserves in conserving genetic variants critical to the future survival of coral ecosystems.
Article
Multidisciplinary Sciences
Eric J. Armstrong, Julie Le-Hoang, Quentin Carradec, Jean-Marc Aury, Benjamin Noel, Benjamin C. C. Hume, Christian R. Voolstra, Julie Poulain, Caroline Belser, David A. Paz-Garcia, Corinne Cruaud, Karine Labadie, Corinne Da Silva, Cle'mentine Moulin, Emilie Boissin, Guillaume Bourdin, Guillaume Iwankow, Sarah Romac, Sylvain Agostini, Bernard Banaigs, Emmanuel Boss, Chris Bowler, Colomban de Vargas, Eric Douville, Michel Flores, Didier Forcioli, Paola Furla, Pierre E. Galand, Eric Gilson, Fabien Lombard, Stephane Pesant, Stephanie Reynaud, Matthew B. Sullivan, Shinichi Sunagawa, Olivier P. Thomas, Romain Trouble, Rebecca Vega Thurber, Didier Zoccola, Serge Planes, Denis Allemand, Patrick Wincker
Summary: Heat waves are causing declines in coral reefs globally. Coral thermal responses depend on multiple, interacting drivers, such as past thermal exposure, endosymbiont community composition, and host genotype. This study used DNA and RNA analysis to investigate gene expression patterns in Pocillopora corals across a historical thermal gradient, revealing the importance of host-photosymbiont specificity and host transcriptomic plasticity in thermal acclimatization.
NATURE COMMUNICATIONS
(2023)
Article
Multidisciplinary Sciences
Sarah W. Davies, Matthew H. Gamache, Lauren I. Howe-Kerr, Nicola G. Kriefall, Andrew C. Baker, Anastazia T. Banaszak, Line Kolind Bay, Anthony J. Bellantuono, Debashish Bhattacharya, Cheong Xin Chan, Danielle C. Claar, Mary Alice Coffroth, Ross Cunning, Simon K. Davy, Javier del Campo, Erika M. Diaz-Almeyda, Jorg C. Frommlet, Lauren E. Fuess, Raul A. Gonzalez-Pech, Tamar L. Goulet, Kenneth D. Hoadley, Emily J. Howells, Benjamin C. C. Hume, Dustin W. Kemp, Carly D. Kenkel, Sheila A. Kitchen, Todd C. LaJeunesse, Senjie Lin, Shelby E. McIlroy, Ryan McMinds, Matthew R. Nitschke, Clinton A. Oakley, Raquel S. Peixoto, Carlos Prada, Hollie M. Putnam, Kate Quigley, Hannah G. Reich, James Davis Reimer, Mauricio Rodriguez-Lanetty, Stephanie M. Rosales, Osama S. Saad, Eugenia M. Sampayo, Scott R. Santos, Eiichi Shoguchi, Edward G. Smith, Michael Stat, Timothy G. Stephens, Marie E. Strader, David J. Suggett, Timothy D. Swain, Cawa Tran, Nikki Traylor-Knowles, Christian R. Voolstra, Mark E. Warner, Virginia M. Weis, Rachel M. Wright, Tingting Xiang, Hiroshi Yamashita, Maren Ziegler, Adrienne M. S. Correa, John Everett Parkinson
Summary: Genetic and functional variation in microeukaryotes can accumulate faster than morphological differences. Understanding the evolutionary history and ecology of such lineages requires examining diversity at multiple levels of organization. In the case of Symbiodiniaceae, molecular data have been used to describe phenotypes and make evolutionary inferences, but a lack of consensus among researchers has hindered progress in the field.
Article
Multidisciplinary Sciences
Fabien Lombard, Guillaume Bourdin, Stephane Pesant, Sylvain Agostini, Alberto Baudena, Emilie Boissin, Nicolas Cassar, Megan Clampitt, Pascal Conan, Ophelie Da Silva, Celine Dimier, Eric Douville, Amanda Elineau, Jonathan Fin, J. Michel Flores, Jean-Francois Ghiglione, Benjamin C. C. Hume, Laetitia Jalabert, Seth G. John, Rachel L. Kelly, Ilan Koren, Yajuan Lin, Dominique Marie, Ryan McMinds, Zoe Meriguet, Nicolas Metzl, David A. Paz-Garcia, Maria Luiza Pedrotti, Julie Poulain, Mireille Pujo-Pay, Josephine Ras, Gilles Reverdin, Sarah Romac, Alice Rouan, Eric Roettinger, Assaf Vardi, Christian R. Voolstra, Clementine Moulin, Guillaume Iwankow, Bernard Banaigs, Chris Bowler, Colomban de Vargas, Didier Forcioli, Paola Furla, Pierre E. Galand, Eric Gilson, Stephanie Reynaud, Shinichi Sunagawa, Matthew B. Sullivan, Olivier P. Thomas, Romain Trouble, Rebecca Vega Thurber, Patrick Wincker, Didier Zoccola, Denis Allemand, Serge Planes, Emmanuel Boss, Gaby Gorsky
Summary: The Tara Pacific expedition conducted a comprehensive study of coral ecosystems in the Pacific Ocean from 2016 to 2018. The expedition collected nearly 58,000 samples from 32 islands, including corals, fish, plankton, and seawater, for advanced analysis. The methodology of the sampling process is described, and the different datasets generated by the expedition are made accessible. The released datasets provide valuable environmental context data and have the potential to address various scientific questions.
Article
Multidisciplinary Sciences
Caroline Belser, Julie Poulain, Karine Labadie, Frederick Gavory, Adriana Alberti, Julie Guy, Quentin Carradec, Corinne Cruaud, Corinne Da Silva, Stefan Engelen, Paul Mielle, Aude Perdereau, Gaelle R. Samson, Shahinaz E. Gas, Christian R. Voolstra, Pierre E. Galand, J. Michel Flores, Benjamin C. C. Hume, Gabriela Perna, Maren Ziegler, Hans-Joachim Ruscheweyh, Emilie Boissin, Sarah Romac, Guillaume A. Bourdin, Guillaume Iwankow, Clementine Moulin, David A. Paz Garcia, Sylvain Agostini, Bernard Banaigs, Emmanuel Boss, Chris Bowler, Colomban de Vargas, Eric Douville, Didier Forcioli, Paola Furla, Eric Gilson, Fabien Lombard, Stephane P. Pesant, Stephanie Reynaud, Shinichi Sunagawa, Olivier Thomas, Romain Trouble, Rebecca Vega Thurber, Didier H. Zoccola, Claude Scarpelli, E' Krame Jacoby, Pedro Oliveira, Jean-Marc Aury, Denis Allemand, Serge Planes, Patrick Wincker
Summary: Coral reef science aims to understand coral health and resilience to combat reef loss caused by environmental stress. The intricate symbiotic interactions within the coral holobiont play a vital role in coral resilience. The Tara Pacific project utilizes advanced sequencing technologies to study the biodiversity and complexity of coral holobionts across the Pacific Ocean, providing valuable insights for future investigations of coral reef dynamics and their future in the Anthropocene.
Article
Multidisciplinary Sciences
Nan Xiang, Achim Meyer, Claudia Pogoreutz, Nils Raedecker, Christian R. R. Voolstra, Christian Wild, Astrid Gaerdes
Summary: Nitrogen limitation is essential for stable coral-algal symbioses. Recent studies have shown that enrichment of labile dissolved organic carbon (DOC) or heat stress can increase the abundance and activity of diazotrophs, destabilizing the coral-algal symbiosis.
ROYAL SOCIETY OPEN SCIENCE
(2023)
Article
Multidisciplinary Sciences
Guoxin Cui, Migle K. Konciute, Lorraine Ling, Luke Esau, Jean -Baptiste Raina, Baoda Han, Octavio R. Salazar, Jason S. Presnell, Nils Raedecker, Huawen Zhong, Jessica Menzies, Phillip A. Cleves, Yi Jin Liew, Cory J. Krediet, Val Sawiccy, Maha J. Cziesielski, Paul Guagliardo, Jeremy Bougoure, Mathieu Pernice, Heribert Hirt, Christian R. Voolstra, Virginia M. Weis, John R. Pringle, Manuel Aranda
Summary: Symbiotic cnidarians, such as corals and anemones, have evolved efficient molecular mechanisms for nutrient distribution and recycling in order to thrive in nutrient-poor ocean environments. Using the sea anemone Aiptasia, researchers have discovered that glucose and the presence of algae induce the up-regulation and relocalization of glucose and ammonium transporters, which are critical for symbiont functioning and organism-wide nitrogen assimilation. These findings provide insight into the molecular mechanisms underlying nitrogen conservation and recycling in symbiotic cnidarians.
Article
Biology
Alex J. Veglia, Kalia S. I. Bistolas, Christian R. Voolstra, Benjamin C. C. Hume, Hans-Joachim Ruscheweyh, Serge Planes, Denis Allemand, Emilie Boissin, Patrick Wincker, Julie Poulain, Clementine Moulin, Guillaume Bourdin, Guillaume Iwankow, Sarah Romac, Sylvain Agostini, Bernard Banaigs, Emmanuel Boss, Chris Bowler, Colomban de Vargas, Eric Douville, Michel Flores, Didier Forcioli, Paola Furla, Pierre E. Galand, Eric Gilson, Fabien Lombard, Stephane Pesant, Stephanie Reynaud, Shinichi Sunagawa, Olivier P. Thomas, Romain Trouble, Didier Zoccola, Adrienne M. S. Correa, Rebecca L. Vega L. Thurber
Summary: A study on newly sequenced and publicly available metagenomes and genomes revealed the presence of endogenous +ssRNA viral elements within coral symbionts. These findings provide insight into the evolutionary history and hosts of contemporary viruses. This study highlights the importance of +ssRNA viruses in nested symbioses and their implications for host evolution, exaptation, and immunity in the context of reef health and disease.
COMMUNICATIONS BIOLOGY
(2023)
Article
Marine & Freshwater Biology
Melanie Doerr, Julia Denger, Celine S. Maier, Jana V. Kirsch, Hannah Manns, Christian R. Voolstra
Summary: As the impact of climate change on coral reefs intensifies, microbiome-targeted interventions are emerging as potential solutions to mitigate coral bleaching. However, the mechanisms and extent of manipulating the microbiome are still largely unknown. This study establishes short-term acute thermal stress assays using a standardized and reproducible experimental platform, and demonstrates the ability to assess stress tolerance phenotypes of a coral model organism. The research also shows the potential for resolving differences in thermal tolerance by incubating with bacteria. The findings suggest the use of the experimental platform as a means to accelerate the discovery of microbes and microbial mechanisms mediating thermal stress tolerance.
Review
Biodiversity Conservation
Till Roethig, Stacey M. M. Trevathan-Tackett, Christian R. R. Voolstra, Cliff Ross, Samuel Chaffron, Paul J. J. Durack, Laura M. M. Warmuth, Michael Sweet
Summary: Climate change is significantly impacting marine and coastal ecosystems worldwide. While the effects of ocean warming and acidification are well-studied, there is limited research on the impacts of human-induced changes in ocean salinity. These salinity changes have the potential to affect ocean currents, oxygen saturation, and sea level rise, as well as impact marine biodiversity and ecosystem structure. It is crucial to gather comprehensive salinity data in dynamic coastal regions to understand the relationships between salinity and ecosystem functions and to project future changes that can have implications for carbon sequestration and freshwater availability.
GLOBAL CHANGE BIOLOGY
(2023)
Correction
Multidisciplinary Sciences
Rachel Alderdice, Gabriela Perna, Anny Cardenas, Benjamin C. C. Hume, Martin Wolf, Michael Kuhl, Mathieu Pernice, David J. Suggett, Christian R. Voolstra
SCIENTIFIC REPORTS
(2023)
Article
Environmental Sciences
Barbara Porro, Thamilla Zamoum, Didier Forcioli, Eric Gilson, Adrien Poquet, Eugenio Di Franco, Stephanie Barnay-Verdier, Fabien Lombard, Christian R. Voolstra, Benjamin C. C. Hume, Pierre E. Galand, Clementine Moulin, Emilie Boissin, Guillaume Bourdin, Guillaume Iwankow, Julie Poulain, Sarah Romac, Sylvain Agostini, Bernard Banaigs, Emmanuel Boss, Chris Bowler, Colomban de Vargas, Eric Douville, Michel Flores, Stephane Pesant, Stephanie Reynaud, Matthew B. Sullivan, Shinichi Sunagawa, Olivier P. Thomas, Romain Trouble, Rebecca Vega Thurber, Patrick Wincker, Didier Zoccola, Serge Planes, Denis Allemand, Eric Roettinger, Paola Furla
Summary: This study tested the contribution of genetic and environmental conditions to the phenotypic response of coral species. It found that Pocillopora and Porites exhibit different phenotypic response strategies, influenced by genetics and past climate events. Pocillopora displayed higher phenotypic plasticity in response to environmental variables, while Porites had more robust phenotypes influenced by genetics and past climate.
COMMUNICATIONS EARTH & ENVIRONMENT
(2023)
