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1. Microorganisms and dissolved metabolites distinguish Floridas Coral Reef habitats.

Author

Becker, Cynthia, Weber, Laura, Zgliczynski, Brian, Sullivan, Chris, Sandin, Stuart, Muller, Erinn, Clark, Abigail, Kido Soule, Melissa, Longnecker, Krista, Kujawinski, Elizabeth, and Apprill, Amy

Subjects
Floridas Coral Reef, coral reefs, metabolomics, metagenomics
Abstract

As coral reef ecosystems experience unprecedented change, effective monitoring of reef features supports management, conservation, and intervention efforts. Omic techniques show promise in quantifying key components of reef ecosystems including dissolved metabolites and microorganisms that may serve as invisible sensors for reef ecosystem dynamics. Dissolved metabolites are released by reef organisms and transferred among microorganisms, acting as chemical currencies and contributing to nutrient cycling and signaling on reefs. Here, we applied four omic techniques (taxonomic microbiome via amplicon sequencing, functional microbiome via shotgun metagenomics, targeted metabolomics, and untargeted metabolomics) to waters overlying Floridas Coral Reef, as well as microbiome profiling on individual coral colonies from these reefs to understand how microbes and dissolved metabolites reflect biogeographical, benthic, and nutrient properties of this 500-km barrier reef. We show that the microbial and metabolite omic approaches each differentiated reef habitats based on geographic zone. Further, seawater microbiome profiling and targeted metabolomics were significantly related to more reef habitat characteristics, such as amount of hard and soft coral, compared to metagenomic sequencing and untargeted metabolomics. Across five coral species, microbiomes were also significantly related to reef zone, followed by species and disease status, suggesting that the geographic water circulation patterns in Florida also impact the microbiomes of reef builders. A combination of differential abundance and indicator species analyses revealed metabolite and microbial signatures of specific reef zones, which demonstrates the utility of these techniques to provide new insights into reef microbial and metabolite features that reflect broader ecosystem processes.

Published
2023

2. Closing the gap between existing large‐area imaging research and marine conservation needs

Author

McCarthy, Orion S, Contractor, Kanisha, Figueira, Will F, Gleason, Arthur CR, Viehman, T Shay, Edwards, Clinton B, and Sandin, Stuart A

Subjects
Environmental Sciences, Ecology, Environmental Management, Biological Sciences, Life Below Water, coral reef, conservation technology, large-area imaging, photomosaic, remote sensing, structure-from-motion photogrammetry, arrecife de coral, estructura a partir del movimiento, fotogrametria, fotomosaico, imagenes de gran superficie, tecnologia de la conservacion, teledeteccion, fotogrametría, imágenes de gran superficie, tecnología de la conservación, teledetección, Agricultural and Veterinary Sciences, Zoology, Environmental management
Abstract

Emerging technology has immense potential to increase the scale and efficiency of marine conservation. One such technology is large-area imaging (LAI), which relies on structure-from-motion photogrammetry to create composite products, including 3-dimensional (3-D) environmental models, that are larger in spatial extent than the individual images used to create them. Use of LAI has become widespread in certain fields of marine science, primarily to measure the 3D structure of benthic ecosystems and track change over time. However, the use of LAI in the field of marine conservation appears limited. We conducted a review of the coral reef literature on the use of LAI to identify research themes and regional trends in applications of this technology. We also surveyed 135 coral reef scientists and conservation practitioners to determine community familiarity with LAI, evaluate barriers practitioners face in using LAI, and identify applications of LAI believed to be most exciting or relevant to coral conservation. Adoption of LAI was limited primarily to researchers at institutions based in advanced economies and was applied infrequently to conservation, although conservation practitioners and survey respondents from emerging economies indicated they expect to use LAI in the future. Our results revealed disconnect between current LAI research topics and conservation priorities identified by practitioners, highlighting the need for more diverse, conservation-relevant research using LAI. We provide recommendations for how early adopters of LAI (typically Global North scientists from well-resourced institutions) can facilitate access to this conservation technology. These recommendations include developing training resources, creating partnerships for data storage and analysis, publishing standard operating procedures for LAI workflows, standardizing methods, developing tools for efficient data extraction from LAI products, and conducting conservation-relevant research using LAI.

Published
2023

3. Harnessing island–ocean connections to maximize marine benefits of island conservation

Author

Sandin, Stuart A, Becker, Penny A, Becker, Ceiba, Brown, Kate, Erazo, Natalia G, Figuerola, Cielo, Fisher, Robert N, Friedlander, Alan M, Fukami, Tadashi, Graham, Nicholas AJ, Gruner, Daniel S, Holmes, Nick D, Holthuijzen, Wieteke A, Jones, Holly P, Rios, Mariela, Samaniego, Araceli, Sechrest, Wes, Semmens, Brice X, Thornton, Hazel E, Thurber, Rebecca Vega, Wails, Christy N, Wolf, Coral A, and Zgliczynski, Brian J

Subjects
Life on Land, Life Below Water, Animals, Humans, Ecosystem, Conservation of Natural Resources, Biodiversity, Introduced Species, Climate Change, Mammals, invasive mammals, island management, land–sea linkage
Abstract

Islands support unique plants, animals, and human societies found nowhere else on the Earth. Local and global stressors threaten the persistence of island ecosystems, with invasive species being among the most damaging, yet solvable, stressors. While the threat of invasive terrestrial mammals on island flora and fauna is well recognized, recent studies have begun to illustrate their extended and destructive impacts on adjacent marine environments. Eradication of invasive mammals and restoration of native biota are promising tools to address both island and ocean management goals. The magnitude of the marine benefits of island restoration, however, is unlikely to be consistent across the globe. We propose a list of six environmental characteristics most likely to affect the strength of land-sea linkages: precipitation, elevation, vegetation cover, soil hydrology, oceanographic productivity, and wave energy. Global databases allow for the calculation of comparable metrics describing each environmental character across islands. Such metrics can be used today to evaluate relative potential for coupled land-sea conservation efforts and, with sustained investment in monitoring on land and sea, can be used in the future to refine science-based planning tools for integrated land-sea management. As conservation practitioners work to address the effects of climate change, ocean stressors, and biodiversity crises, it is essential that we maximize returns from our management investments. Linking efforts on land, including eradication of island invasive mammals, with marine restoration and protection should offer multiplied benefits to achieve concurrent global conservation goals.

Published
2022

4. Evidence of Biological Self-Organization in Spatial Patterns of a Common Tropical Alga.

Author

Sandin, Stuart A, Edwards, Clinton B, Zgliczynski, Brian J, Pedersen, Nicole E, Smith, Jennifer E, and McNamara, Dylan E

Subjects
Biological Sciences, Ecology, Animals, Coral Reefs, Ecosystem, Anthozoa, Chlorophyta, spatial patterns, emergent patterns, Halimeda, coral reefs, Biological sciences
Abstract

AbstractTropical reef communities contain spatial patterns at multiple scales, observable from microscope and satellite alike. Many of the smaller-scale patterns are generated physiologically (e.g., skeletal structures of corals at

Published
2022

5. Benthic assemblages are more predictable than fish assemblages at an island scale

Author

Sandin, Stuart A, Alcantar, Esmeralda, Clark, Randy, de León, Ramón, Dilrosun, Faisal, Edwards, Clinton B, Estep, Andrew J, Eynaud, Yoan, French, Beverly J, Fox, Michael D, Grenda, Dave, Hamilton, Scott L, Kramp, Heather, Marhaver, Kristen L, Miller, Scott D, Roach, Ty NF, Seferina, Gisette, Silveira, Cynthia B, Smith, Jennifer E, Zgliczynski, Brian J, and Vermeij, Mark JA

Subjects
Community ecology, Oceanography, Anthropogenic impacts, Spatial variation, Spatial autocorrelation, Earth Sciences, Environmental Sciences, Biological Sciences, Marine Biology & Hydrobiology
Abstract

AbstractDecades of research have revealed relationships between the abundance of coral reef taxa and local conditions, especially at small scales. However, a rigorous test of covariation requires a robust dataset collected across wide environmental or experimental gradients. Here, we surveyed spatial variability in the densities of major coral reef functional groups at 122 sites along a 70 km expanse of the leeward, forereef habitat of Curaçao in the southern Caribbean. These data were used to test the degree to which spatial variability in community composition could be predicted based on assumed functional relationships and site-specific anthropogenic, physical, and ecological conditions. In general, models revealed less power to describe the spatial variability of fish biomass than cover of reef builders (R2 of best-fit models: 0.25 [fish] and 0.64 [reef builders]). The variability in total benthic cover of reef builders was best described by physical (wave exposure and reef relief) and ecological (turf algal height and coral recruit density) predictors. No metric of anthropogenic pressure was related to spatial variation in reef builder cover. In contrast, total fish biomass showed a consistent (albeit weak) association with anthropogenic predictors (fishing and diving pressure). As is typical of most environmental gradients, the spatial patterns of both fish biomass density and reef builder cover were spatially autocorrelated. Residuals from the best-fit model for fish biomass retained a signature of spatial autocorrelation while the best-fit model for reef builder cover removed spatial autocorrelation, thus reinforcing our finding that environmental predictors were better able to describe the spatial variability of reef builders than that of fish biomass. As we seek to understand spatial variability of coral reef communities at the scale of most management units (i.e., at kilometer- to island-scales), distinct and scale-dependent perspectives will be needed when considering different functional groups.

Published
2022

6. Post-settlement demographics of reef building corals suggest prolonged recruitment bottlenecks

Author

Sarribouette, Lauranne, Pedersen, Nicole E, Edwards, Clinton B, and Sandin, Stuart A

Subjects
Biological Sciences, Ecology, Prevention, Good Health and Well Being, Animals, Anthozoa, Coral Reefs, Demography, Ecosystem, Humans, Reproduction, Coral reefs, Palmyra atoll, Scleractinian, Structure-from-motion, Evolutionary biology, Zoology
Abstract

For many organisms, early life stages experience significantly higher rates of mortality relative to adults. However, tracking early life stage individuals through time in natural settings is difficult, limiting our understanding of the duration of these 'mortality bottlenecks', and the time required for survivorship to match that of adults. Here, we track a cohort of juvenile corals (1-5 cm maximum diameter) from 12 taxa at a remote atoll in the Central Pacific from 2013 to 2017 and describe patterns of annual survivorship. Of the 537 juveniles initially detected, 219 (41%) were alive 4 years later, 163 (30%) died via complete loss of live tissue from the skeleton, and the remaining 155 (29%) died via dislodgement. The differing mortality patterns suggest that habitat characteristics, as well as species-specific features, may influence early life stage survival. Across most taxa, survival fit a logistic model, reaching > 90% annual survival within 4 years. These data suggest that mortality bottlenecks characteristic of 'recruitment' extend up to 5 years after individuals can be visually detected. Ultimately, replenishment of adult coral populations via sexual reproduction is needed to maintain both coral cover and genetic diversity. This study provides key insights into the dynamics and time scales that characterize these critical early life stages.

Published
2022

7. Emerging insights on effects of sharks and other top predators on coral reefs

Author

Sandin, Stuart A, French, Beverly J, and Zgliczynski, Brian J

Subjects
Environmental Sciences, Ecology, Environmental Management, Biological Sciences, Biotechnology, Animals, Coral Reefs, Fisheries, Fishes, Predatory Behavior, Sharks, community ecology, predation, prey release, Biological sciences, Biomedical and clinical sciences, Environmental sciences
Abstract

Predation is ubiquitous on coral reefs. Among the most charismatic group of reef predators are the top predatory fishes, including sharks and large-bodied bony fishes. Despite the threat presented by top predators, data describing their realized effects on reef community structure and functioning are challenging to produce. Many innovative studies have capitalized on natural experimental conditions to explore predator effects on reefs. Gradients in predator density have been created by spatial patterning of fisheries management. Evidence of prey release has been observed across some reefs, namely that potential prey increase in density when predator density is reduced. While such studies search for evidence of prey release among broad groups or guilds of potential prey, a subset of studies have sought evidence of release at finer population levels. We find that some groups of fishes are particularly vulnerable to the effects of predators and more able to capitalize demographically when predator density is reduced. For example, territorial damselfish appear to realize reliable population expansion with the reduction in predator density, likely because their aggressive, defensive behavior makes them distinctly vulnerable to predation. Relatedly, individual fishes that suffer from debilitating conditions, such as heavy parasite loads, appear to realize relatively stronger levels of prey release with reduced predator density. Studying the effects of predators on coral reefs remains a timely pursuit, and we argue that efforts to focus on the specifics of vulnerability to predation among potential prey and other context-specific dimensions of mortality hold promise to expand our knowledge.

Published
2022

9. Island Ocean Connections: Exploring Land-Sea Linkages in the Context of Invasive Mammal Management

Author

Becker, Penny, Sandin, Stuart, Becker, Ceiba, Erazo, Natalia, Fisher, Robert, Friedlander, Alan, Fukami, Tadashi, Graham, Nick, Gruner, Daniel, Holmes, Nick, Holthuizen, Wieteke, Jones, Holly, Rios, Mariela, Sechrest, Wes, Semmens, Brice, Thornton, Hazel, Vega Thurber, Rebecca, and Wails, Christy

Abstract

Island Conservation (IC) and Scripps Institution of Oceanography (SIO), UC San Diego, co-convened a meeting of practitioners and researchers to assess the Global Links for Island Marine Restoration(GLIMR). These global experts in the diverse fields of island restoration, invasive species management, and wildlife conservation, were assembled and worked for eight months to evaluate the state of the knowledge of land-sea linkages in the context of invasive species management and island restoration. The result is this white paper synthesis of the science and research recommendations and a manuscript that will be submitted to a peer-reviewed journal. The intended audiences for this endeavor include island communities, governments, conservation and sustainable development non-governmental organizations, scientists, and funders. Throughout the report, readers will find that the key takeaways, identified by the authors, are represented in blue italics. This study was made possible by the generous support from the IC Board of Directors, the Center for Marine Biodiversity and Conservation at SIO, the Nature Conservancy California Chapter, the Leo Model Foundation, and the Archie Arnold Trust.

Published
2022

10. Diel population and functional synchrony of microbial communities on coral reefs.

Author

Kelly, Linda Wegley, Nelson, Craig E, Haas, Andreas F, Naliboff, Douglas S, Calhoun, Sandi, Carlson, Craig A, Edwards, Robert A, Fox, Michael D, Hatay, Mark, Johnson, Maggie D, Kelly, Emily LA, Lim, Yan Wei, Macherla, Saichetana, Quinlan, Zachary A, Silva, Genivaldo Gueiros Z, Vermeij, Mark JA, Zgliczynski, Brian, Sandin, Stuart A, Smith, Jennifer E, and Rohwer, Forest

Subjects
Alteromonas, Halomonas, Psychrobacter, Roseobacter, Organic Chemicals, RNA, Ribosomal, Ecosystem, Environmental Monitoring, Photoperiod, Pacific Ocean, Coral Reefs, Microbiota, RNA, Ribosomal
Abstract

On coral reefs, microorganisms are essential for recycling nutrients to primary producers through the remineralization of benthic-derived organic matter. Diel investigations of reef processes are required to holistically understand the functional roles of microbial players in these ecosystems. Here we report a metagenomic analysis characterizing microbial communities in the water column overlying 16 remote forereef sites over a diel cycle. Our results show that microbial community composition is more dissimilar between day and night samples collected from the same site than between day or night samples collected across geographically distant reefs. Diel community differentiation is largely driven by the flux of Psychrobacter sp., which is two-orders of magnitude more abundant during the day. Nighttime communities are enriched with species of Roseobacter, Halomonas, and Alteromonas encoding a greater variety of pathways for carbohydrate catabolism, further illustrating temporal patterns of energetic provisioning between different marine microbes. Dynamic diel fluctuations of microbial populations could also support the efficient trophic transfer of energy posited in coral reef food webs.

Published
2019

12. Ecological assessment of the marine ecosystems of Barbuda, West Indies: Using rapid scientific assessment to inform ocean zoning and fisheries management.

Author

Ruttenberg, Benjamin, Caselle, Jennifer E, Estep, Andrew J, Johnson, Ayana Elizabeth, Marhaver, Kristen L, Richter, Lee J, Sandin, Stuart A, Vermeij, Mark JA, Smith, Jennifer E, Grenda, David, and Cannon, Abigail

Subjects
Animals, Marine Biology, Conservation of Natural Resources, Ecosystem, Biodiversity, Fisheries, Oceans and Seas, Antigua and Barbuda, General Science & Technology
Abstract

To inform a community-based ocean zoning initiative, we conducted an intensive ecological assessment of the marine ecosystems of Barbuda, West Indies. We conducted 116 fish and 108 benthic surveys around the island, and measured the abundance and size structure of lobsters and conch at 52 and 35 sites, respectively. We found that both coral cover and fish biomass were similar to or lower than levels observed across the greater Caribbean; live coral cover and abundance of fishery target species, such as large snappers and groupers, was generally low. However, Barbuda lacks many of the high-relief forereef areas where similar work has been conducted in other Caribbean locations. The distribution of lobsters was patchy, making it difficult to quantify density at the island scale. However, the maximum size of lobsters was generally larger than in other locations in the Caribbean and similar to the maximum size reported 40 years ago. While the lobster population has clearly been heavily exploited, our data suggest that it is not as overexploited as in much of the rest of the Caribbean. Surveys of Barbuda's Codrington Lagoon revealed many juvenile lobsters, but none of legal size (95 mm carapace length), suggesting that the lagoon functions primarily as nursery habitat. Conch abundance and size on Barbuda were similar to that of other Caribbean islands. Our data suggest that many of the regional threats observed on other Caribbean islands are present on Barbuda, but some resources-particularly lobster and conch-may be less overexploited than on other Caribbean islands. Local management has the potential to provide sustainability for at least some of the island's marine resources. We show that a rapid, thorough ecological assessment can reveal clear conservation opportunities and facilitate rapid conservation action by providing the foundation for a community-driven policymaking process at the island scale.

Published
2018

13. Mercury levels of yellowfin tuna (Thunnus albacares) are associated with capture location.

Author

Nicklisch, Sascha CT, Bonito, Lindsay T, Sandin, Stuart, and Hamdoun, Amro

Subjects
Animals, Tuna, Humans, Mercury, Methylmercury Compounds, Water Pollutants, Chemical, Environmental Monitoring, Capture location, Global assessment, Pollution, Yellowfin tuna, Environmental Sciences
Abstract

Mercury is a toxic compound to which humans are exposed by consumption of fish. Current fish consumption advisories focus on minimizing the risk posed by the species that are most likely to have high levels of mercury. Less accounted for is the variation within species, and the potential role of the geographic origin of a fish in determining its mercury level. Here we surveyed the mercury levels in 117 yellowfin tuna caught from 12 different locations worldwide. Our results indicated significant variation in yellowfin tuna methylmercury load, with levels that ranged from 0.03 to 0.82 μg/g wet weight across individual fish. Mean mercury levels were only weakly associated with fish size (R2

Published
2017

14. Geographic Differences in Persistent Organic Pollutant Levels of Yellowfin Tuna.

Author

Nicklisch, Sascha CT, Bonito, Lindsay T, Sandin, Stuart, and Hamdoun, Amro

Subjects
Animals, Tuna, Water Pollutants, Chemical, Environmental Monitoring, Water Pollution, Chemical, Water Pollutants, Chemical, Water Pollution, Medical and Health Sciences, Environmental Sciences, Toxicology
Abstract

BackgroundFish are a source of persistent organic pollutants (POPs) in the human diet. Although species, trophic level, and means of production are typically considered in predicting fish pollutant load, and thus recommendations of consumption, capture location is usually not accounted for.ObjectivesYellowfin tuna (Thunnus albacares) are harvested from across the world's oceans and are widely consumed. Here, we determined geographic variation in the overall mass, concentration, and composition of POPs in yellowfin and examined the differences in levels of several POP congeners of potential relevance to human health.MethodsWe sampled dorsal muscle of 117 yellowfin tuna from 12 locations worldwide, and measured POP levels using combined liquid or gas chromatography and mass spectrometry according to U.S. Environmental Protection Agency standard procedures.ResultsPOP levels varied significantly among sites, more than 36-fold on a mass basis. Individual fish levels ranged from 0.16 to 138.29 ng/g wet weight and lipid-normalized concentrations from 0.1 to 12.7 μM. Levels of 10 congeners that interfere with the cellular defense protein P-glycoprotein, termed transporter interfering compounds (TICs), ranged from 0.05 to 35.03 ng/g wet weight and from 0.03 to 3.32 μM in tuna lipid. Levels of TICs, and their individual congeners, were strongly associated with the overall POP load. Risk-based analysis of several carcinogenic POPs indicated that the fish with the highest levels of these potentially harmful compounds were clustered at specific geographic locations.ConclusionsCapture location is an important consideration when assessing the level and risk of human exposure to POPs through ingestion of wild fish. https://doi.org/10.1289/EHP518.

Published
2017

15. Variability and host density independence in inductions-based estimates of environmental lysogeny.

Author

Knowles, Ben, Bailey, Barbara, Boling, Lance, Breitbart, Mya, Cobián-Güemes, Ana, Del Campo, Javier, Edwards, Rob, Felts, Ben, Grasis, Juris, Haas, Andreas F, Katira, Parag, Kelly, Linda Wegley, Luque, Antoni, Nulton, Jim, Paul, Lauren, Peters, Gregory, Robinett, Nate, Sandin, Stuart, Segall, Anca, Silveira, Cynthia, Youle, Merry, and Rohwer, Forest

Subjects
Bacteria, Bacteriophages, DNA Damage, Environment, Ecosystem, Lysogeny, Virus Replication, Symbiosis, Microbiology, Medical Microbiology
Abstract

Temperate bacterial viruses (phages) may enter a symbiosis with their host cell, forming a unit called a lysogen. Infection and viral replication are disassociated in lysogens until an induction event such as DNA damage occurs, triggering viral-mediated lysis. The lysogen-lytic viral reproduction switch is central to viral ecology, with diverse ecosystem impacts. It has been argued that lysogeny is favoured in phages at low host densities. This paradigm is based on the fraction of chemically inducible cells (FCIC) lysogeny proxy determined using DNA-damaging mitomycin C inductions. Contrary to the established paradigm, a survey of 39 inductions publications found FCIC to be highly variable and pervasively insensitive to bacterial host density at global, within-environment and within-study levels. Attempts to determine the source(s) of variability highlighted the inherent complications in using the FCIC proxy in mixed communities, including dissociation between rates of lysogeny and FCIC values. Ultimately, FCIC studies do not provide robust measures of lysogeny or consistent evidence of either positive or negative host density dependence to the lytic-lysogenic switch. Other metrics are therefore needed to understand the drivers of the lytic-lysogenic decision in viral communities and to test models of the host density-dependent viral lytic-lysogenic switch.

Published
2017

16. Porites superfusa mortality and recovery from a bleaching event at Palmyra Atoll, USA

Author

Furby, Kathryn Anne, Smith, Jennifer Ellen, and Sandin, Stuart Adrian

Subjects
Environmental Sciences, Biological Sciences, Ecology, Environmental Management, Good Health and Well Being, Climate change, Coral bleaching, Population dynamics, ENSO, Coral regrowth, Coral recovery, Medical and Health Sciences
Abstract

BackgroundThe demography of a coral colony is not a binary trajectory of life and death. Based on the flexibility afforded by colonial organization, most reef-building corals employ a variety of dynamic survival strategies, including growth and shrinkage. The demographic flexibility affects coral size, shape and reproductive output, among other factors. It is thus critical to quantify the relative importance of key dynamics of recruitment, mortality, growth and shrinkage in changing the overall cover of coral on a reef.MethodsUsing fixed photographic quadrats, we tracked the patterns of change in the cover of one common central Pacific coral, Porites superfusa, before and after the 2009 ENSO event.ResultsCoral colonies suffered both whole and partial colony mortality, although larger colonies were more likely to survive. In subsequent years, recruitment of new colonies and regrowth of surviving colonies both contributed to the modest recovery of P. superfusa.DiscussionThis study is unique in its quantitative comparisons of coral recruitment versus regrowth during periods of areal expansion. Our data suggest that recovery is not limited simply to the long pathway of settlement, recruitment and early growth of new colonies but is accelerated by means of regrowth of already established colonies having suffered partial mortality.

Published
2017

17. Underwater Object Detection Under Domain Shift

Author

Walker, Joseph L., Zeng, Zheng, Wu, Chengchen L., Jaffe, Jules S., Frasier, Kaitlin E., and Sandin, Stuart S.

Abstract

There is increasing interest in using deep learning–based object recognition algorithms to automate the labeling of image data collected from marine surveys. However, underwater object detection is a particularly challenging problem due to changes in scattering and absorption of light, and spotty data collection efforts, which rarely capture the broad variability. Using deep learning–based object detection systems for long-term or multisite marine surveying is further complicated by shifting data distributions between training and testing stages. Using data from the 100 Island Challenge, we investigate how object detection performance is impacted by changes in site characteristics and imaging conditions. We demonstrate that the combined use of data augmentation and unsupervised domain adaptation techniques can mitigate performance drops in the presence of domain shift. The proposed methodologies are broadly applicable to observational data sets in marine and terrestrial environments where a single algorithm needs to adapt to and perform comparably across changing conditions.

Published
2024
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19. Metabolomics of reef benthic interactions reveals a bioactive lipid involved in coral defence

Author

Quinn, Robert A, Vermeij, Mark JA, Hartmann, Aaron C, d'Auriac, Ines Galtier, Benler, Sean, Haas, Andreas, Quistad, Steven D, Lim, Yan Wei, Little, Mark, Sandin, Stuart, Smith, Jennifer E, Dorrestein, Pieter C, and Rohwer, Forest

Subjects
Animals, Anthozoa, Biological Evolution, Coral Reefs, Lipids, Metabolomics, Models, Biological, Platelet Activating Factor, Rhodophyta, Symbiosis, Transcriptome, metabolomics, coral, platelet activating factor, mass spectrometry, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences
Abstract

Holobionts are assemblages of microbial symbionts and their macrobial host. As extant representatives of some of the oldest macro-organisms, corals and algae are important for understanding how holobionts develop and interact with one another. Using untargeted metabolomics, we show that non-self interactions altered the coral metabolome more than self-interactions (i.e. different or same genus, respectively). Platelet activating factor (PAF) and Lyso-PAF, central inflammatory modulators in mammals, were major lipid components of the coral holobionts. When corals were damaged during competitive interactions with algae, PAF increased along with expression of the gene encoding Lyso-PAF acetyltransferase; the protein responsible for converting Lyso-PAF to PAF. This shows that self and non-self recognition among some of the oldest extant holobionts involve bioactive lipids identical to those in highly derived taxa like humans. This further strengthens the hypothesis that major players of the immune response evolved during the pre-Cambrian.

Published
2016

20. Global marine pollutants inhibit P-glycoprotein: Environmental levels, inhibitory effects, and cocrystal structure.

Author

Nicklisch, Sascha CT, Rees, Steven D, McGrath, Aaron P, Gökirmak, Tufan, Bonito, Lindsay T, Vermeer, Lydia M, Cregger, Cristina, Loewen, Greg, Sandin, Stuart, Chang, Geoffrey, and Hamdoun, Amro

Subjects
Animals, Tuna, Humans, Mice, Hydrocarbons, Chlorinated, Pesticides, Crystallography, X-Ray, Environmental Monitoring, Water Pollution, Chemical, Binding Sites, Protein Conformation, Mexico, Oceans and Seas, Halogenated Diphenyl Ethers, ATP Binding Cassette Transporter, Subfamily B, Hydrocarbons, Chlorinated, Crystallography, X-Ray, Water Pollution, Chemical, ATP Binding Cassette Transporter, Subfamily B, P-Glycoproteins, Prevention, Climate-Related Exposures and Conditions
Abstract

The world's oceans are a global reservoir of persistent organic pollutants to which humans and other animals are exposed. Although it is well known that these pollutants are potentially hazardous to human and environmental health, their impacts remain incompletely understood. We examined how persistent organic pollutants interact with the drug efflux transporter P-glycoprotein (P-gp), an evolutionarily conserved defense protein that is essential for protection against environmental toxicants. We identified specific congeners of organochlorine pesticides, polychlorinated biphenyls, and polybrominated diphenyl ethers that inhibit mouse and human P-gp, and determined their environmental levels in yellowfin tuna from the Gulf of Mexico. In addition, we solved the cocrystal structure of P-gp bound to one of these inhibitory pollutants, PBDE (polybrominated diphenyl ether)-100, providing the first view of pollutant binding to a drug transporter. The results demonstrate the potential for specific binding and inhibition of mammalian P-gp by ubiquitous congeners of persistent organic pollutants present in fish and other foods, and argue for further consideration of transporter inhibition in the assessment of the risk of exposure to these chemicals.

Published
2016

24. Revisiting the life history of yellowtail jack (Seriola dorsalis) in the Southern California Bight: new evidence for ontogenetic habitat shifts and regional differences in a changing environment

Author

Ben-Aderet, Noah, Johnston, Erin M., Cravey, Richard, and Sandin, Stuart A.

Subjects
Fishes, Fishing (Recreation), Zoology and wildlife conservation
Abstract

Across their global distribution, carangid fish species are highly prized as both game and food fish. Prominent among this group are the several species in the genus Seriola, whose members [...]

Published
2020
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26. Can we measure beauty? Computational evaluation of coral reef aesthetics

Author

Haas, Andreas F, Guibert, Marine, Foerschner, Anja, Co, Tim, Calhoun, Sandi, George, Emma, Hatay, Mark, Dinsdale, Elizabeth, Sandin, Stuart A, Smith, Jennifer E, Vermeij, Mark JA, Felts, Ben, Dustan, Phillip, Salamon, Peter, and Rohwer, Forest

Subjects
Environmental Sciences, Ecology, Environmental Management, Biological Sciences, Life Below Water, Image analysis, Coral reef, Aesthetics, Machine learning, Reef degradation, Medical and Health Sciences
Abstract

The natural beauty of coral reefs attracts millions of tourists worldwide resulting in substantial revenues for the adjoining economies. Although their visual appearance is a pivotal factor attracting humans to coral reefs current monitoring protocols exclusively target biogeochemical parameters, neglecting changes in their aesthetic appearance. Here we introduce a standardized computational approach to assess coral reef environments based on 109 visual features designed to evaluate the aesthetic appearance of art. The main feature groups include color intensity and diversity of the image, relative size, color, and distribution of discernable objects within the image, and texture. Specific coral reef aesthetic values combining all 109 features were calibrated against an established biogeochemical assessment (NCEAS) using machine learning algorithms. These values were generated for ∼2,100 random photographic images collected from 9 coral reef locations exposed to varying levels of anthropogenic influence across 2 ocean systems. Aesthetic values proved accurate predictors of the NCEAS scores (root mean square error < 5 for N ≥ 3) and significantly correlated to microbial abundance at each site. This shows that mathematical approaches designed to assess the aesthetic appearance of photographic images can be used as an inexpensive monitoring tool for coral reef ecosystems. It further suggests that human perception of aesthetics is not purely subjective but influenced by inherent reactions towards measurable visual cues. By quantifying aesthetic features of coral reef systems this method provides a cost efficient monitoring tool that targets one of the most important socioeconomic values of coral reefs directly tied to revenue for its local population.

Published
2015

28. Local genomic adaptation of coral reef-associated microbiomes to gradients of natural variability and anthropogenic stressors

Author

Kelly, Linda W, Williams, Gareth J, Barott, Katie L, Carlson, Craig A, Dinsdale, Elizabeth A, Edwards, Robert A, Haas, Andreas F, Haynes, Matthew, Lim, Yan Wei, McDole, Tracey, Nelson, Craig E, Sala, Enric, Sandin, Stuart A, Smith, Jennifer E, Vermeij, Mark JA, Youle, Merry, and Rohwer, Forest

Subjects
Genetics, Biotechnology, Human Genome, Life Below Water, Adaptation, Physiological, Bacteria, Coral Reefs, Gene Transfer, Horizontal, Metagenome, Microbiota, Pacific Ocean, Water Pollution, microbial biogeography, marine bacteria, metabolic potential
Abstract

Holobionts are species-specific associations between macro- and microorganisms. On coral reefs, the benthic coverage of coral and algal holobionts varies due to natural and anthropogenic forcings. Different benthic macroorganisms are predicted to have specific microbiomes. In contrast, local environmental factors are predicted to select for specific metabolic pathways in microbes. To reconcile these two predictions, we hypothesized that adaptation of microbiomes to local conditions is facilitated by the horizontal transfer of genes responsible for specific metabolic capabilities. To test this hypothesis, microbial metagenomes were sequenced from 22 coral reefs at 11 Line Islands in the central Pacific that together span a wide range of biogeochemical and anthropogenic influences. Consistent with our hypothesis, the percent cover of major benthic functional groups significantly correlated with particular microbial taxa. Reefs with higher coral cover had a coral microbiome with higher abundances of Alphaproteobacteria (such as Rhodobacterales and Sphingomonadales), whereas microbiomes of algae-dominated reefs had higher abundances of Gammaproteobacteria (such as Alteromonadales, Pseudomonadales, and Vibrionales), Betaproteobacteria, and Bacteriodetes. In contrast to taxa, geography was the strongest predictor of microbial community metabolism. Microbial communities on reefs with higher nutrient availability (e.g., equatorial upwelling zones) were enriched in genes involved in nutrient-related metabolisms (e.g., nitrate and nitrite ammonification, Ton/Tol transport, etc.). On reefs further from the equator, microbes had more genes encoding chlorophyll biosynthesis and photosystems I/II. These results support the hypothesis that core microbiomes are determined by holobiont macroorganisms, and that those core taxa adapt to local conditions by selecting for advantageous metabolic genes.

Published
2014

29. Sequencing at sea: challenges and experiences in Ion Torrent PGM sequencing during the 2013 Southern Line Islands Research Expedition

Author

Lim, Yan Wei, Cuevas, Daniel A, Silva, Genivaldo Gueiros Z, Aguinaldo, Kristen, Dinsdale, Elizabeth A, Haas, Andreas F, Hatay, Mark, Sanchez, Savannah E, Wegley-Kelly, Linda, Dutilh, Bas E, Harkins, Timothy T, Lee, Clarence C, Tom, Warren, Sandin, Stuart A, Smith, Jennifer E, Zgliczynski, Brian, Vermeij, Mark JA, Rohwer, Forest, and Edwards, Robert A

Subjects
Life Below Water, Genomics, Sequencing, Expeditions, Metagenomics, Environmental microbiology, Coral reef, Vibrio, Biological Sciences, Medical and Health Sciences
Abstract

Genomics and metagenomics have revolutionized our understanding of marine microbial ecology and the importance of microbes in global geochemical cycles. However, the process of DNA sequencing has always been an abstract extension of the research expedition, completed once the samples were returned to the laboratory. During the 2013 Southern Line Islands Research Expedition, we started the first effort to bring next generation sequencing to some of the most remote locations on our planet. We successfully sequenced twenty six marine microbial genomes, and two marine microbial metagenomes using the Ion Torrent PGM platform on the Merchant Yacht Hanse Explorer. Onboard sequence assembly, annotation, and analysis enabled us to investigate the role of the microbes in the coral reef ecology of these islands and atolls. This analysis identified phosphonate as an important phosphorous source for microbes growing in the Line Islands and reinforced the importance of L-serine in marine microbial ecosystems. Sequencing in the field allowed us to propose hypotheses and conduct experiments and further sampling based on the sequences generated. By eliminating the delay between sampling and sequencing, we enhanced the productivity of the research expedition. By overcoming the hurdles associated with sequencing on a boat in the middle of the Pacific Ocean we proved the flexibility of the sequencing, annotation, and analysis pipelines.

Published
2014

30. POSER: an oPen sOurce Simulation platform for tEaching and tRaining underwater photogrammetry.

Author

Menna, Fabio, McAvoy, Scott, Nocerino, Erica, Tanduo, Beatrice, Giuseffi, Louise, Calantropio, Alessio, Chiabrando, Filiberto, Teppati Losè, Lorenzo, Lingua, Andrea Maria, Sandin, Stuart, Edwards, Clinton, Zgliczynski, Brian, Rissolo, Dominique, and Kuester, Falko

Subjects
REFRACTION (Optics), PHOTOGRAMMETRY, MARINE ecology, UNDERWATER archaeology, LEARNING by doing (Economics)
Abstract

Underwater photogrammetry presents unique challenges due to the optical properties of water that, if not correctly taken into account, might affect the quality of the survey and the related 2D and 3D products. It is recognized nowadays the importance to train newcomers to underwater surveying, and extend and consolidate the knowledge of best practices for underwater data acquisition. Starting from this consideration, we propose the development of POSER, a 3D simulation framework designed to facilitate the teaching of underwater imaging principles. The project, an ISPRS Educational and Capacity Building Initiative, is built upon the open-source platform Blender, incorporating realistic modelling of the physical properties of water, including light refraction, scattering, and absorption phenomena, to simulate underwater surveying conditions. We foster a learning-by-doing approach, providing users with ready-to-use application scenarios inspired by real-life case studies. They will cover a range of application fields, from marine ecology to archaeology and subsea metrology, and allow users to address the complexities of underwater surveying practices. This paper introduces POSER to the community, presenting its educational vocation and describing its constituent components. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Gravity of human impacts mediates coral reef conservation gains

Author

Cinner, Joshua E., Maire, Eva, Huchery, Cindy, MacNeil, M. Aaron, Graham, Nicholas A. J., Mora, Camilo, McClanahan, Tim R., Barnes, Michele L., Kittinger, John N., Hicks, Christina C., D’Agata, Stephanie, Hoey, Andrew S., Gurney, Georgina G., Feary, David A., Williams, Ivor D., Kulbicki, Michel, Vigliola, Laurent, Wantiez, Laurent, Edgar, Graham J., Stuart-Smith, Rick D., Sandin, Stuart A., Green, Alison, Hardt, Marah J., Beger, Maria, Friedlander, Alan M., Wilson, Shaun K., Brokovich, Eran, Brooks, Andrew J., Cruz-Motta, Juan J., Booth, David J., Chabanet, Pascale, Gough, Charlotte, Tupper, Mark, Ferse, Sebastian C. A., Sumaila, U. Rashid, Pardede, Shinta, and Mouillot, David

Published
2018

33. Considering the rates of growth in two taxa of coral across Pacific islands

Author

Sandin, Stuart A., primary, Edwards, Clinton B., additional, Pedersen, Nicole E., additional, Petrovic, Vid, additional, Pavoni, Gaia, additional, Alcantar, Esmeralda, additional, Chancellor, Kendall S., additional, Fox, Michael D., additional, Stallings, Brenna, additional, Sullivan, Christopher J., additional, Rotjan, Randi D., additional, Ponchio, Federico, additional, and Zgliczynski, Brian J., additional

Published
2020
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35. Snapshot Assessment Protocol (SnAP): Guidelines, Tools, and Tips for RapidlyCharacterizing Small-Scale Fisheries.

Author

Whitty, Tara S, Bassett, Hannah R., Bonito, Lindsay T., Johnson, Ayana E, Edwards, Clinton, Palaretti, Cristiane, Moniz, Taylor, and Sandin, Stuart

Subjects
artisanal fisheries, sustainable small-scale fisheries
Abstract

Recognizing the need for improved coordination, the Small-scale and Artisanal Fisheries Research Network (SAFRN), at the Scripps Institution of Oceanography’s Center for Marine Biodiversity and Conservation (CMBC), was established in 2010 by graduate students as an interdisciplinary hub of students, researchers, and faculty studying small-scale fisheries (SSF). Our goals are to: enhance communication and collaboration across disciplines, projects, and sectors; share research guidelines and methodologies; and connect research to meaningful management actions.SAFRN has developed the Snapshot Assessment Protocol (SnAP), an interdisciplinary, standardized toolkit for describing SSF holistically, including ecological, social, cultural, economic, and governance-related aspects of these fisheries and the related communities. SnAP is a key part of our 2011-2012 project, “Coordinating Research for Sustaining Artisanal Fisheries”, funded by the Waitt Foundation.

Published
2013

36. Benthic communities at two remote Pacific coral reefs: effects of reef habitat, depth, and wave energy gradients on spatial patterns

Author

Williams, Gareth J, Smith, Jennifer E, Conklin, Eric J, Gove, Jamison M, Sala, Enric, and Sandin, Stuart A

Subjects
Environmental Sciences, Biological Sciences, Ecology, Environmental Management, Coral, Macroalgae, Zonation, Wave exposure, Kingman Reef, Palmyra Atoll, Spatial clustering, Wave impacts, Benthic competition, Medical and Health Sciences
Abstract

Kingman Reef and Palmyra Atoll in the central Pacific are among the most remote coral reefs on the planet. Here we describe spatial patterns in their benthic communities across reef habitats and depths, and consider these in the context of oceanographic gradients. Benthic communities at both locations were dominated by calcifying organisms (54-86% cover), namely hard corals (20-74%) and crustose coralline algae (CCA) (10-36%). While turf algae were relatively common at both locations (8-22%), larger fleshy macroalgae were virtually absent at Kingman (

Published
2013

40. Trophic Classifications of Reef Fishes from the Tropical U.S. Pacific (Version 1.0)

Author

Sandin, Stuart A and Williams, Ivor

Abstract

List of fish taxa identified across surveys of the coral reef ecosystems of the U.S. Pacific islands. Taxa are organized alphabetically by family, and alphabetically within family by lowest identified level (typically species). Trophic classifications are provided in coarse groups based on major diet items integrated across the life stages of each species. The four groups are Primary Consumer (including herbivores and detritivores), Secondary Consumer (including invertivores, corallivores, and omnivores), Planktivores (primarily consuming zooplankton), and Piscivores (including species with fish as the dominant diet item).

Published
2010

44. Closing the gap between existing large‐area imaging research and marine conservation needs.

Author

McCarthy, Orion S., Contractor, Kanisha, Figueira, Will F., Gleason, Arthur C. R., Viehman, T. Shay, Edwards, Clinton B., and Sandin, Stuart A.

Subjects
MARINE resources conservation, CORAL reef conservation, CORAL reefs & islands, TECHNOLOGICAL innovations, CORALS, CORAL bleaching, CORAL reef restoration
Abstract

Copyright of Conservation Biology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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45. Small-scale oxygen distribution patterns in a coral reef

Author

Candy, Adam S., primary, Taylor Parkins, Shannara K., additional, Van Duyl, Fleur C., additional, Mueller, Benjamin, additional, Arts, Milou G. I., additional, Barnes, Will, additional, Carstensen, Marie, additional, Scholten, Yun J. H., additional, El-Khaled, Yusuf C., additional, Wild, Christian, additional, Wegley Kelly, Linda, additional, Nelson, Craig E., additional, Sandin, Stuart A., additional, Vermeij, Mark J. A., additional, Rohwer, Forest L., additional, Picioreanu, Cristian, additional, Stocchi, Paolo, additional, and Haas, Andreas F., additional

Published
2023
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46. Biogeochemistry, metabolomics, and metagenomics of Florida's Coral Reef from sampling conducted over 15 days in June 2019

Author

Apprill, Amy, Kujawinski, Elizabeth, Muller, Erinn, Sandin, Stuart, Weber, Laura, Clark, Abigail, Kido Soule, Melissa C., Longnecker, Krista, Zgliczynski, Brian, Sullivan, Chris, Becker, Cynthia Carroll, Apprill, Amy, Kujawinski, Elizabeth, Muller, Erinn, Sandin, Stuart, Weber, Laura, Clark, Abigail, Kido Soule, Melissa C., Longnecker, Krista, Zgliczynski, Brian, Sullivan, Chris, and Becker, Cynthia Carroll

Abstract

Dataset: Reef biogeochemistry, metabolomics, and metagenomics, This comparative 'omics dataset was collected over 15 days in June 2019 along Florida's Coral Reef. We assessed 85 reefs for the prevalence of stony coral tissue loss disease (SCTLD), nutrients (total organic carbon (TOC), total organic nitrogen (TON), inorganic nutrients), and abundances of microbial functional groups (Prochlorococcus, Synechococcus, picoeukaryotes, and heterotrophic microbes (unpigmented bacteria and archaea)), from reef depth waters. At 45 of the reefs, high-resolution photomosaics were used to examine the composition of benthic organisms. At 13 geographically dispersed reefs, we collected seawater (1.7 liters in biological triplicates) for both targeted and untargeted metabolomics analyses. Seawater (2 liters in duplicate) was collected at 26 sites, including the 13 examined for metabolomics, for taxonomic (bacteria and archaea 16S ribosomal RNA gene) and functional (shotgun metagenome) microbiome analyses, and chlorophyll. Given the stony coral tissue loss disease outbreak, we also targeted healthy and diseased coral tissue and near-coral seawater for taxonomic microbiome (16S rRNA gene) analysis (11 sites). Significance: Microorganisms and the dissolved metabolites they process are central to the functioning of ocean ecosystems. These 'invisible' ocean components are poorly understood in biodiverse and productive coral reef ecosystems, where they contribute to nutrient cycling and signaling cues between reef organisms. Microbes and dissolved metabolites offer a new means to examine reef features and have applications for conservation, monitoring, and restoration efforts in these changing ecosystems. For a complete list of measurements, refer to the full dataset description in the supplemental file 'Dataset_description.pdf'. The most current version of this dataset is available at: https://www.bco-dmo.org/dataset/890979, NSF Division of Ocean Sciences (NSF OCE) OCE-1736288

Published
2023

47. Experiments in optical data collection, processing, and analysis for ocean science

Author

Runyan, Hugh, Sandin, Stuart A1, Kuester, Falko, Runyan, Hugh, Runyan, Hugh, Sandin, Stuart A1, Kuester, Falko, and Runyan, Hugh

Abstract

Improving oceanographic data collection involves two components: improving instrumentation, and improving the processing and analysis of resulting measurements. While advancing technology has improved and expanded data collection, processing these data has become a significant problem for under-resourced academic labs, rendering much of these data underutilized. The experiments described in this dissertation are contributions to the effort of improving data processing in oceanography. Chapter 1 examines parametrization of particle size distribution measurements in the Arctic, collected during decades of field expeditions by Dariusz Stramski, Rick Reynolds, and others. Experiments suggest that the commonly-used Junge-type power law model for parametrizing particle size distributions is insufficient, and cumulative distribution functions may offer a superior alternative. Particle size directly physically affects light, so the particle size distribution affects the signals of optical instruments. These results will increase the utility of satellite imagery, both by assisting the measurement of particle size from satellites, and by improving understanding of the impact of different seawater characteristics on optical signals. Chapter 2 discusses cutting-edge, technology-enabled survey image and 3D model techniques for studying coral reefs. The report focuses on lessons learned by the Sandin/Kuester labs from a decade of experience. Improving and standardizing data collection in the field allows research groups to pool datasets and compare results. Pooled databases are valuable for developing processing and analytical tools like neural networks, make those tools useful to more research groups, and enable ecological analysis at larger scales. Chapters 3 and 4 evaluate neural-network-assisted tools that can expedite taxonomic labeling of survey image products such as orthoprojections and pointclouds. Chapter 3 contains the first published investigation of 3D coral pointclo

Published
2023

48. Small-scale oxygen distribution patterns in a coral reef

Author

Candy, Adam S., Taylor Parkins, Shannara K., Van Duyl, Fleur C., Mueller, Benjamin, Arts, Milou G.I., Barnes, Will, Carstensen, Marie, Scholten, Yun J.H., El-Khaled, Yusuf C., Wild, Christian, Wegley Kelly, Linda, Nelson, Craig E., Sandin, Stuart A., Vermeij, Mark J.A., Rohwer, Forest L., Picioreanu, Cristian, Stocchi, Paolo, Haas, Andreas F., Candy, Adam S., Taylor Parkins, Shannara K., Van Duyl, Fleur C., Mueller, Benjamin, Arts, Milou G.I., Barnes, Will, Carstensen, Marie, Scholten, Yun J.H., El-Khaled, Yusuf C., Wild, Christian, Wegley Kelly, Linda, Nelson, Craig E., Sandin, Stuart A., Vermeij, Mark J.A., Rohwer, Forest L., Picioreanu, Cristian, Stocchi, Paolo, and Haas, Andreas F.

Abstract

One mechanism giving fleshy algae a competitive advantage over corals during reef degradation is algal-induced and microbially-mediated hypoxia (typically less than 69.5 µmol oxygen L−1). During hypoxic conditions oxygen availability becomes insufficient to sustain aerobic respiration in most metazoans. Algae are more tolerant of low oxygen conditions and may outcompete corals weakened by hypoxia. A key question on the ecological importance of this mechanism remains unanswered: How extensive are local hypoxic zones in highly turbulent aquatic environments, continuously flushed by currents and wave surge? To better understand the concert of biological, chemical, and physical factors that determine the abundance and distribution of oxygen in this environment, we combined 3D imagery, flow measurements, macro- and micro-organismal abundance estimates, and experimentally determined biogenic oxygen and carbon fluxes as input values for a 3D bio-physical model. The model was first developed and verified for controlled flume experiments containing coral and algal colonies in direct interaction. We then developed a three-dimensional numerical model of an existing coral reef plot off the coast of Curaçao where oxygen concentrations for comparison were collected in a small-scale grid using fiberoptic oxygen optodes. Oxygen distribution patterns given by the model were a good predictor for in situ concentrations and indicate widespread localized differences exceeding 50 µmol L-1 over distances less than a decimeter. This suggests that small-scale hypoxic zones can persist for an extended period of time in the turbulent environment of a wave- and surge- exposed coral reef. This work highlights how the combination of three-dimensional imagery, biogenic fluxes, and fluid dynamic modeling can provide a powerful tool to illustrate and predict the distribution of analytes (e.g., oxygen or other bioactive substances) in a highly complex system.

Published
2023

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