Your search keyword '"Berumen, Michael"' showing total 25 results

1. Diversity, functional redundancy, and vulnerability of reef fish communities of the Saudi Arabian coast, in the northern Red Sea

Author

Pombo-Ayora, Lucía, Peinemann, Viktor N., Cochran, Jesse E.M., Eweida, Ameer A., Marshall, Paul A., and Berumen, Michael L.

Published

2024

2. Fine-scale spatial and temporal trends in Red Sea coral reef research

Author

Cochran, Jesse E.M., Kattan, Alexander, Langner, Ute, Knochel, Anna M., Carvalho, Susana, Coker, Darren J., Fitzgerald, Lucy, Ford, Kiana, Justo, Micaela S.S., Hardenstine, Royale S., McIvor, Ashlie J., Peinemann, Viktor Nunes, Pombo-Ayora, Lucia, Predragovic, Milica, Rich, Walter A., Scott, Kirsty, Shchepanik, Hailey, Tanabe, Lyndsey K., Tietbohl, Matthew D., Williams, Collin T., and Berumen, Michael L.

Published

2024

3. Stylophora under stress: A review of research trends and impacts of stressors on a model coral species

Author

Meziere, Zoe, Rich, Walter A., Carvalho, Susana, Benzoni, Francesca, Morán, Xosé Anxelu G., and Berumen, Michael L.

Published

2022

4. Fish growth trajectory tracking using Q-learning in precision aquaculture

Author

Chahid, Abderrazak, N'Doye, Ibrahima, Majoris, John E., Berumen, Michael L., and Laleg-Kirati, Taous-Meriem

Published

2022

5. Red Sea fish market assessments indicate high species diversity and potential overexploitation

Author

Shellem, Claire T., Ellis, Joanne I., Coker, Darren J., and Berumen, Michael L.

Published

2021

6. Morphology and genetic investigation of flatfish interspecies hybrids (Pleuronectes platessa X Platichthys flesus) from the Baltic Sea

Author

He, Song, Mork, Jarle, Larsen, William B., Møller, Peter R., and Berumen, Michael L.

Published

2020

7. Acoustic backscatter at a Red Sea whale shark aggregation site

Author

Hozumi, Aya, Kaartvedt, Stein, Røstad, Anders, Berumen, Michael L., Cochran, Jesse E.M., and Jones, Burton H.

Published

2018

8. The prevalence of benthic dinoflagellates associated with ciguatera fish poisoning in the central Red Sea

Author

Catania, Daniela, Richlen, Mindy L., Mak, Yim Ling, Morton, Steve L., Laban, Elizabeth H., Xu, Yixiao, Anderson, Donald M., Chan, Leo Lai, and Berumen, Michael L.

Published

2017

9. Fish market surveys indicate unsustainable elasmobranch fisheries in the Saudi Arabian Red Sea

Author

Spaet, Julia L.Y. and Berumen, Michael L.

Published

2015

10. Species delineation and hybrid identification using diagnostic nuclear markers for Plectropomus leopardus and Plectropomus maculatus

Author

He, Song, Harrison, Hugo B., and Berumen, Michael L.

Published

2018

11. Microplastic in the gastrointestinal tract of fishes along the Saudi Arabian Red Sea coast.

Author

Baalkhuyur, Fadiyah M., Bin Dohaish, El-Jawaher A., Elhalwagy, Manal E.A., Alikunhi, Nabeel M., AlSuwailem, Abdulaziz M., Røstad, Anders, Coker, Darren J., Berumen, Michael L., and Duarte, Carlos M.

Subjects

PLASTIC marine debris, FISH digestive organs, GASTROINTESTINAL system, POLYETHYLENE

Abstract

This study assesses the presence of microplastic litter in the contents of the gastrointestinal tract of 26 commercial and non-commercial fish species from four difference habitats sampled along the Saudi Arabian coast of the Red Sea. A total of 178 individual were examined for microplastics. In total, 26 microplastic fragments were found. Of these, 16 being films (61.5%) and 10 being fishing thread (38.5%). FTIR analysis revealed that the most abundant polymers were polypropylene and polyethylene. The grouper ( Epinephelus spp.) sampled at Jazan registered the highest number of ingested microplastics. This fish species is benthic and feeds on benthic invertebrates. Although differences in the abundance of microplastic ingestion among species were not statistically significant, a significant change was observed when the level of ingestion of microplastics particles was compared among the habitats. The higher abundance of microplastics particles may be related to the habitats of fish and the presence of microplastics debris near the seabed. The results of this study represent a first evidence that microplastic pollution represents an emerging threat to Red Sea fishes, their food web and human consumers. [ABSTRACT FROM AUTHOR]

Published

2018

12. Productivity and sea surface temperature are correlated with the pelagic larval duration of damselfishes in the Red Sea.

Author

Robitzch, Vanessa S.N., Lozano-Cortés, Diego, Kandler, Nora M., Salas, Eva, and Berumen, Michael L.

Subjects

POMACENTRIDAE, FISH larvae, OCEAN temperature, PELAGIC fishes

Abstract

We examined the variation of pelagic larval durations (PLDs) among three damselfishes, Dascyllus aruanus , D. marginatus , and D. trimaculatus , which live under the influence of an environmental gradient in the Red Sea. PLDs were significantly correlated with latitude, sea surface temperature (SST), and primary production (CHLA; chlorophyll a concentrations). We find a consistent decrease in PLDs with increasing SST and primary production (CHLA) towards the southern Red Sea among all species. This trend is likely related to higher food availability and increased metabolic rates in that region. We suggest that food availability is a potentially stronger driver of variation in PLD than temperature, especially in highly oligotrophic regions. Additionally, variations in PLDs were particularly high among specimens of D. marginatus , suggesting a stronger response to local environmental differences for endemic species. We also report the first average PLD for this species over a broad geographic range (19.82 ± 2.92 days). [ABSTRACT FROM AUTHOR]

Published

2016

13. Regional variation in the structure and function of parrotfishes on Arabian reefs.

Author

Hoey, Andrew S., Feary, David A., Burt, John A., Vaughan, Grace, Pratchett, Morgan S., and Berumen, Michael L.

Subjects

PARROTFISHES, REEF fishes, SPECIES distribution, FISH diversity

Abstract

Parrotfishes (f. Labridae) are a unique and ubiquitous group of herbivorous reef fishes. We compared the distribution and ecosystem function (grazing and erosion) of parrotfishes across 75 reefs in Arabia. Our results revealed marked regional differences in the abundance, and taxonomic and functional composition of parrotfishes between the Red Sea, Arabian Sea, and Arabian Gulf. High densities and diversity of parrotfishes, and high rates of grazing (210% year − 1 ) and erosion (1.57 kg m − 2 year − 1 ) characterised Red Sea reefs. Despite Arabian Sea and Red Sea reefs having broadly comparable abundances of parrotfishes, estimates of grazing (150% year − 1 ) and erosion (0.43 kg m − 2 year − 1 ) were markedly lower in the Arabian Sea. Parrotfishes were extremely rare within the southern Arabian Gulf, and as such rates of grazing and erosion were negligible. This regional variation in abundance and functional composition of parrotfishes appears to be related to local environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2016

14. Molecular biodiversity of Red Sea demosponges.

Author

Erpenbeck, Dirk, Voigt, Oliver, Al-Aidaroos, Ali M., Berumen, Michael L., Büttner, Gabriele, Catania, Daniela, Guirguis, Adel Naguib, Paulay, Gustav, Schätzle, Simone, and Wörheide, Gert

Subjects

BIODIVERSITY, DEMOSPONGIAE, CORAL reef ecology, MOLECULAR genetics

Abstract

Sponges are important constituents of coral reef ecosystems, including those around the Arabian Peninsula. Despite their importance, our knowledge on demosponge diversity in this area is insufficient to recognize, for example, faunal changes caused by anthropogenic disturbances. We here report the first assessment of demosponge molecular biodiversity from Arabia, with focus on the Saudi Arabian Red Sea, based on mitochondrial and nuclear ribosomal molecular markers gathered in the framework of the Sponge Barcoding Project. We use a rapid molecular screening approach on Arabian demosponge collections and analyze results in comparison against published material in terms of biodiversity. We use a variable region of 28S rDNA, applied for the first time in the assessment of demosponge molecular diversity. Our data constitutes a solid foundation for a future more comprehensive understanding of sponge biodiversity of the Red Sea and adjacent waters. [ABSTRACT FROM AUTHOR]

Published

2016

15. Colony size-frequency distribution of pocilloporid juvenile corals along a natural environmental gradient in the Red Sea.

Author

Lozano-Cortés, Diego F. and Berumen, Michael L.

Subjects

CORAL communities, SPECIES distribution, TURBIDITY, PARROTFISHES

Abstract

Coral colony size-frequency distributions can be used to assess population responses to local environmental conditions and disturbances. In this study, we surveyed juvenile pocilloporids, herbivorous fish densities, and algal cover in the central and southern Saudi Arabian Red Sea. We sampled nine reefs with different disturbance histories along a north–south natural gradient of physicochemical conditions (higher salinity and wider temperature fluctuations in the north, and higher turbidity and productivity in the south). Since coral populations with negatively skewed size-frequency distributions have been associated with unfavorable environmental conditions, we expected to find more negative distributions in the southern Red Sea, where corals are potentially experiencing suboptimal conditions. Although juvenile coral and parrotfish densities differed significantly between the two regions, mean colony size and size-frequency distributions did not. Results suggest that pocilloporid colony size-frequency distribution may not be an accurate indicator of differences in biological or oceanographic conditions in the Red Sea. [ABSTRACT FROM AUTHOR]

Published

2016

16. Homogeneity of coral reef communities across 8 degrees of latitude in the Saudi Arabian Red Sea.

Author

Roberts, May B., Jones, Geoffrey P., McCormick, Mark I., Munday, Philip L., Neale, Stephen, Thorrold, Simon, Robitzch, Vanessa S.N., and Berumen, Michael L.

Subjects

CORAL communities, BIOGEOGRAPHY, FISH diversity, BENTHIC animals

Abstract

Coral reef communities between 26.8°N and 18.6°N latitude in the Saudi Arabian Red Sea were surveyed to provide baseline data and an assessment of fine-scale biogeography of communities in this region. Forty reefs along 1100 km of coastline were surveyed using depth-stratified visual transects of fish and benthic communities. Fish abundance and benthic cover data were analyzed using multivariate approaches to investigate whether coral reef communities differed with latitude. A total of 215 fish species and 90 benthic categories were recorded on the surveys. There were no significant differences among locations in fish abundance, species richness, or among several diversity indices. Despite known environmental gradients within the Red Sea, the communities remained surprisingly similar. The communities do, however, exhibit subtle changes across this span of reefs that likely reflect the constrained distributions of several species of reef fish and benthic fauna. [ABSTRACT FROM AUTHOR]

Published

2016

17. Interaction effects of crude oil and nutrient exposure on settlement of coral reef benthos.

Author

Hulver, Ann Marie, Steckbauer, Alexandra, Ellis, Joanne I., Aylagas, Eva, Roth, Florian, Kharbatia, Najeh, Thomson, Timothy, Carvalho, Susana, Jones, Burton H., and Berumen, Michael L.

Subjects

CORAL reefs & islands, CORALS, PETROLEUM, OIL spills, COMMUNITIES, CORAL reef restoration, CORAL bleaching

Abstract

Anthropogenic stressors increasingly cause ecosystem-level changes to sensitive marine habitats such as coral reefs. Intensification of coastal development and shipping traffic can increase nutrient and oil pollution on coral reefs, yet these two stressors have not been studied in conjunction. Here, we simulate a disturbance scenario exposing carbonate settlement tiles to nutrient and oil pollution in a full-factorial design with four treatments: control, nutrients, oil, and combination to examine community structure and net primary productivity (NPP) of pioneer communities throughout 28 weeks. Compared to the control treatment oil pollution decreased overall settlement and NPP, while nutrients increased turf algae and NPP. However, the combination of these two stressors resulted in similar community composition and NPP as the control. These results indicate that pioneer communities may experience shifts due to nutrient enrichment, and/or oil pollution. However, the timing and duration of an event will influence recovery trajectories requiring further study. [Display omitted] • Pioneer community structure is affected by exposure to nutrient and oil pollution. • Nutrient enrichment promotes growth of groups detrimental to coral recruitment. • Toxicity of oil pollution prevents settlement on coral reefs. • Nutrient and oil interaction causes sub-lethal effects on pioneer communities. [ABSTRACT FROM AUTHOR]

Published

2022

18. Implications of nest relocation for morphology and locomotor performance of green turtle (Chelonia mydas) hatchlings.

Author

Tanabe, Lyndsey K., Steenacker, Marion, Rusli, Mohd Uzair, and Berumen, Michael L.

Subjects

GREEN turtle, ANIMAL clutches, MORPHOLOGY, BIRD nests, ADULTS, SEA turtles, INVOLUNTARY relocation, DEATH rate

Abstract

Sea turtle scute abnormalities are observed in higher proportion in hatchlings compared to adults, suggesting that hatchlings with a non-modal scute pattern (NMSP) have a lower chance of surviving to adulthood. In this study, we collected 732 newly emerged hatchlings from Redang Island, Malaysia, and compared their scute classification, size, and mass to fitness correlates (self-righting ability, crawling speed, and swimming speed). We investigated the proportion of hatchlings from each nest with NMSP to determine if there was a correlation with incubation duration or clutch relocation. We found relocated clutches at Chagar Hutang Turtle Sanctuary had a significantly shorter incubation duration with a higher proportion of NMSP compared to in situ clutches. Hatchlings' mass were significantly heavier from in situ clutches compared to relocated clutches, although there were no significant differences of hatchling speed based on scute classification or clutch type. The difference of hatchling mass between in situ and relocated clutches could affect predation and mortality rates on recently emerged hatchlings. These findings have important conservation implications, suggesting that relocation should only be implemented on clutches with a high potential to be disrupted or with a low chance of survival if left in situ. Our findings highlight the need for a standard procedure when clutch relocation is used as a conservation strategy. Relocation should replicate natural nest dimensions by duplicating both nest width and depth, and clutches should be relocated to similar shade conditions as the natural nest. [Display omitted] • We assessed the effects of clutch relocation (a conservation technique) on hatchling quality. • Relocated clutches had a shorter incubation duration compared to in situ clutches. • Hatchlings from relocated clutches had more non-modal scute patterns, which might affect their survival to adulthood. • Hatchlings from in situ clutches were significantly heavier than hatchlings from relocated clutches. • Relocation may not be an ideal management approach; if used, nest shape and depth should duplicate the in situ nest. [ABSTRACT FROM AUTHOR]

Published

2021

19. Using species connectivity to achieve coordinated large-scale marine conservation efforts in the Red Sea.

Author

Gajdzik, Laura, Green, Alison L., Cochran, Jesse E.M., Hardenstine, Royale S., Tanabe, Lyndsey K., and Berumen, Michael L.

Subjects

MARINE biodiversity, MARINE resources conservation, MARINE parks & reserves, KEYSTONE species, WILDLIFE conservation, SPECIES

Abstract

In the face of increasing anthropogenic threats, coastal nations need to reach common ground for effective marine conservation. Understanding species' connectivity can reveal how nations share resources, demonstrating the need for cooperative protection efforts. Unfortunately, connectivity information is rarely integrated into the design of marine protected areas (MPAs). This is exemplified in the Red Sea where biodiversity is only nominally protected by a non-cohesive network of small-sized MPAs, most of which are barely implemented. Here, we showcase the potential of using connectivity patterns of flagship species to consolidate conservation efforts in the Red Sea. We argue that a large-scale MPA (LSMPA) would more effectively preserve Red Sea species' multinational migration routes. A connectivity-informed LSMPA approach provides thus one avenue to unite coastal nations toward acting for the common good of conservation and reverse the global decline in marine biodiversity. • The Red Sea is under increasing human threats but is not cohesively protected • Paucity of connectivity information used to create existing marine protected areas • Migration routes and aggregation sites of marine species connect multiple nations • Transboundary connectivity patterns require coordinated, large-scale protection • Connectivity can unite the Red Sea's nations toward concerted marine conservation efforts [ABSTRACT FROM AUTHOR]

Published

2021

20. Corrigendum to "Microplastic in the gastrointestinal tract of fishes along the Saudi Arabian Red Sea coast" [Mar. Pollut. Bull. 131 (Part A) (2018) 1‐808].

Author

Baalkhuyur, Fadiyah M., Bin Dohaish, El-Jawaher A., Elhalwagy, Manal E.A., Alikunhi, Nabeel M., AlSuwailem, Abdulaziz M., Røstad, Anders, Coker, Darren J., Berumen, Michael L., and Duarte, Carlos M.

Subjects

MARINE pollution, MARINE resources conservation, FISH diseases

Published

2019

21. Ongoing decline of shark populations in the Eastern Red Sea.

Author

Spaet, Julia L.Y., Nanninga, Gerrit B., and Berumen, Michael L.

Subjects

*SHARKS, *WILDLIFE management, *CHONDRICHTHYES, *UNDERWATER cameras

Abstract

Information on the abundance and diversity of Red Sea elasmobranchs is notoriously scarce, even though sharks are among the most profitable fisheries of the region. Effective conservation would ideally entail baselines on pristine conditions, yet no such data is available for the Red Sea. To collect distribution and abundance data on Red Sea elasmobranchs, we conducted a dedicated longline and Baited Remote Underwater Video system (BRUVs) sampling program along the entire Red Sea coast of Saudi Arabia over the course of two years. Both survey techniques were opportunistically employed at central and southern Saudi Arabian (SA) Red Sea reef systems. In addition, BRUVs were employed in the northern SA Red Sea and at selected reef systems in Sudan. Shark catch per unit effort (CPUE) data for BRUVs and longline surveys were compared to published data from non-Red Sea reef systems. This comparison revealed CPUE estimates several orders of magnitude lower for both survey methods in the SA Red Sea compared to other reef systems around the world. Catch per unit effort values of BRUVs on Sudanese reefs on the contrary were within the range of estimates from various locations where sharks are considered common. We argue that decades of heavy fishing pressure on Red Sea marine resources has significantly altered the community structure of SA Red Sea reefs. There is an urgent need to establish effective management strategies for species of highest conservation concern. Our results have the potential to be used as a baseline, if such management strategies were to be established. [ABSTRACT FROM AUTHOR]

Published

2016

22. Phytoplankton phenology indices in coral reef ecosystems: Application to ocean-color observations in the Red Sea.

Author

Racault, Marie-Fanny, Raitsos, Dionysios E., Berumen, Michael L., Brewin, Robert J.W., Platt, Trevor, Sathyendranath, Shubha, and Hoteit, Ibrahim

Subjects

*PHYTOPLANKTON, *CORAL reefs & islands, *ECOSYSTEMS, *SOCIOECONOMICS, *REMOTE sensing

Abstract

Phytoplankton, at the base of the marine food web, represent a fundamental food source in coral reef ecosystems. The timing (phenology) and magnitude of the phytoplankton biomass are major determinants of trophic interactions. The Red Sea is one of the warmest and most saline basins in the world, characterized by an arid tropical climate regulated by the monsoon. These extreme conditions are particularly challenging for marine life. Phytoplankton phenological indices provide objective and quantitative metrics to characterize phytoplankton seasonality. The indices i.e. timings of initiation, peak, termination and duration are estimated here using 15 years (1997–2012) of remote sensing ocean-color data from the European Space Agency (ESA) Climate Change Initiative project (OC-CCI) in the entire Red Sea basin. The OC-CCI product, comprising merged and bias-corrected observations from three independent ocean-color sensors (SeaWiFS, MODIS and MERIS), and processed using the POLYMER algorithm (MERIS period), shows a significant increase in chlorophyll data coverage, especially in the southern Red Sea during the months of summer NW monsoon. In open and reef-bound coastal waters, the performance of OC-CCI chlorophyll data is shown to be comparable with the performance of other standard chlorophyll products for the global oceans. These features have permitted us to investigate phytoplankton phenology in the entire Red Sea basin, and during both winter SE monsoon and summer NW monsoon periods. The phenological indices are estimated in the four open water provinces of the basin, and further examined at six coral reef complexes of particular socio-economic importance in the Red Sea, including Siyal Islands, Sharm El Sheikh, Al Wajh bank, Thuwal reefs, Al Lith reefs and Farasan Islands. Most of the open and deeper waters of the basin show an apparent higher chlorophyll concentration and longer duration of phytoplankton growth during the winter period (relative to the summer phytoplankton growth period). In contrast, most of the reef-bound coastal waters display equal or higher peak chlorophyll concentrations and equal or longer duration of phytoplankton growth during the summer period (relative to the winter phytoplankton growth period). The ecological and biological significance of the phytoplankton seasonal characteristics are discussed in context of ecosystem state assessment, and particularly to support further understanding of the structure and functioning of coral reef ecosystems in the Red Sea. [ABSTRACT FROM AUTHOR]

Published

2015

23. Model predictive control paradigms for fish growth reference tracking in precision aquaculture.

Author

Chahid, Abderrazak, N'Doye, Ibrahima, Majoris, John E., Berumen, Michael L., and Laleg-Kirati, Taous Meriem

Subjects

*FISH growth, *PREDICTION models, *WEIGHT gain, *NILE tilapia, FISH weight

Abstract

In precision aquaculture, the primary goal is to maximize biomass production while minimizing production costs. This objective can be achieved by optimizing factors that have a strong influence on fish growth, such as feeding rate, temperature, and dissolved oxygen. This paper provides a comparative study of four model predictive control (MPC) strategies for fish growth reference tracking under a representative bioenergetic growth model in precision aquaculture. We propose to evaluate four candidate MPC formulations for fish growth reference tracking based on the receding horizon. The first MPC formulation tracks a desired fish growth trajectory while penalizing the feed ration, temperature, and dissolved oxygen. The second MPC optimization strategy directly optimizes the feed conversion ratio (FCR), which is the ratio between food quantity and fish weight gain at each sampling time. This FCR-like optimization strategy minimizes the feed while maximizing the predicted growth state's deviation from the given reference growth trajectory. The third MPC formulation includes a tradeoff between the growth rate trajectory tracking, the dynamic energy, and food cost. The last MPC formulation aims to maximize the fish growth rate while minimizing the costs. Numerical simulations that integrate a realistic bioenergetic fish growth model of Nile tilapia (Oreochromis niloticus) are illustrated to examine the comparative performance of the four proposed optimal control strategies. A sensitivity analysis is conducted to study the robustness of these MPC strategies with respect to the effect of the prediction horizon, the regularization term, and the additive input disturbances to the process. The obtained results show great potential and flexibility to meet the fish farmers' needs depending on the type of fish, selling price, culture duration, and feed cost. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2021

24. Fish-mediated nutrient flows from macroalgae habitats to coral reefs in the Red Sea.

Author

Dunne, Aislinn F., Tietbohl, Matthew D., Nuber, Clara, Berumen, Michael, and Jones, Burton H.

Subjects

*CORAL reefs & islands, *CORALS, *CORAL reef fishes, *MARINE algae, *HABITATS, *NITROGEN excretion

Abstract

Macroalgae canopies are common in tropical coastlines, and can be feeding grounds for coral reef fishes. We investigated whether fish transfer algal material from Sargassum -dominated macroalgae habitats to coral reefs by collecting gut contents of two herbivorous fish species (Naso elegans and N. unicornis) from coral reefs in the central Red Sea. On inshore reefs close to macroalgae canopies, Sargassum accounted for up to 41% of these species' gut contents while almost no Sargassum was found in the stomachs of fish on offshore reefs farther from macroalgae canopies. Using consumption and excretion rates from literature, we estimate that these fish consume up to 6.0 mmol C/m2 reef/day and excrete up to 10.8 μmol N/m2 reef/day and 1.0 μmol P/m2 reef/day across inshore reefs as a result of Sargassum consumption. Examining fish-mediated connections between habitats illuminates the role of fish as a vector of nutrition to nutrient-poor coral reefs. • Diets & communities of Naso elegans and N. unicornis were measured on Red Sea reefs. • Fish on inshore reefs had Sargassum algae from neighboring habitats in their guts. • We estimate fish nitrogen and phosphorus excretion from Sargassum onto reefs. • Macroalgae can subsidize coral reefs with nutrients via fish feeding and movement. [ABSTRACT FROM AUTHOR]

Published

2023

25. Morphological and ecological trait diversity reveal sensitivity of herbivorous fish assemblages to coral reef benthic conditions.

Author

Pombo-Ayora, Lucía, Coker, Darren J., Carvalho, Susana, Short, George, and Berumen, Michael L.

Subjects

*CORAL reef fishes, *CORALS, *BIOLOGICAL extinction, *CORAL reefs & islands, *ECOSYSTEM health, *SOCIAL surveys

Abstract

Herbivorous fishes play a critical role in the maintenance of coral reefs through grazing and cropping of various benthic algae types. Herbivorous fish assemblages are sensitive to changes in the reef environment and are often targeted by local fisheries. This can lead to a decline in ecosystem functions if key groups are reduced. The present study investigates the morphological and ecological trait diversity of herbivorous reef fish assemblages in habitats differing in relative benthic coverage: i) coral-dominated, ii) algae-dominated, and iii) an intermediate habitat. Trait diversity for conspicuous herbivorous fishes was measured using three trait diversity indices: trait richness, trait divergence, and trait evenness. These indices were derived from in situ community surveys and feeding observations, morphological assessment of feeding mechanics from locally collected specimens, and ecological information obtained from published data. Trait diversity, reflected in higher trait evenness and lower trait richness, was lower within algae-dominated habitats than coral-dominated habitats, suggesting that algae-dominated habitats may be compromised by the lack of essential functions provided by key species. These groups reduce algal biomass and may help facilitate the survival and growth of corals, which in turn can increase coral cover. Algae-habitats were dominated with species known to consume macroalgae (rabbitfish and surgeonfish), appearing to provide essential feeding and habitat resources. These species include browsers and croppers that are fundamental in reducing algal biomass and may help facilitate the survival and growth of corals, which in turn can promote reef health. However, this habitat lacked parrotfishes known to remove turf algae and sediments, an essential function for clearing benthic space for coral settlement and other key benthic invertebrates. This study identified several species with overlapping functional roles in the coral-dominated and intermediate habitats. Still, species that were not redundant showed high trait complementarity, suggesting that their removal may result in the loss of unique functions. Importantly, we show that algae-dominated habitats supported high numbers of juvenile fishes especially in species targeted by local artisanal fishers. We also showed that the loss of trait diversity is greater than the loss of species diversity through the comparison of taxonomic and trait β-diversity, further emphasizing the importance of trait diversity analysis in understanding ecosystem health and maintenance. Image 1 • Coral-dominated habitats sustain a more trait diverse herbivorous fish assemblage. • Trait redundancy in herbivorous fish is reduced in less complex habitats. • Macroalgae zones provide important habitat for grazing species. • Low trait redundancy across all habitats indicate that all herbivorous species are primary conservation targets. • Loss of traits are greater than the loss of species in degraded habitats. [ABSTRACT FROM AUTHOR]

Published

2020