Some Like it Hot: The Ecology, Ecosystem Benefits and Restoration Potential of Oyster Reefs in Tropical Waters

Richardson, Marina A.; Zhang, Ya; Connolly, Rod M.; Gillies, Chris L.; McDougall, Carmel

doi:10.3389/fmars.2022.873768

Cited by 14 publications

(11 citation statements)

References 108 publications

(176 reference statements)

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“…Given the global extent of oysters, we were surprised to find few suitable predation studies for species other than C. virginica. More research is needed to determine the global applicability of our findings, particularly for oyster reefs beyond North America and in the tropics (Richardson et al, 2022). Additionally, due to low sample sizes or multi-collinearity, we were unable to examine the effects of several factors that have been suggested to affect oyster predation rates, such as abiotic conditions (dissolved oxygen, elevation, flow velocity, inundation period, salinity; Ruesink, 2007;Knights et al, 2012), biotic factors (parasites, pathogens, and competitors;Carroll et al, 2021), and landscape characteristics (reef size and shape, distance to other habitats; Micheli and Peterson, 1999;Carroll et al, 2015).…”

Section: Future Directionsmentioning

confidence: 99%

Meta-analysis reveals controls on oyster predation

Tedford

Castorani

2022

Front. Mar. Sci.

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Predators can have strong roles in structuring communities defined by foundation species. Accumulating evidence shows that predation on reef-building oysters can be intense and potentially compromise efforts to restore or conserve these globally decimated foundation species. However, understanding the controls on variation in oyster predation strength is impeded by inconsistencies in experimental methodologies. To address this challenge, we conducted the first meta-analysis to quantify the magnitude, uncertainty, and drivers of predator effects on oysters. We synthesized 384 predator-exclusion experiments from 49 peer-reviewed publications over 45 years of study (1977 to 2021). We characterized geographic and temporal patterns in oyster predation experiments, determined the strength of predator effects on oyster mortality and recruitment, and assessed how predation varies with oyster size, environmental conditions, the predator assemblage, and experimental design. Predators caused an average 4.3× increase in oyster mortality and 46% decrease in recruitment. Predation increased with oyster size and varied with predator identity and richness. Unexpectedly, we found no effects of latitude, tidal zone, or tidal range on predation strength. Predator effects differed with experiment type and tethering method, indicating the importance of experimental design and the caution warranted in extrapolating results. Our results quantify the importance of predation for oyster populations and suggest that consideration of the drivers of oyster predation in restoration and conservation planning may hasten recovery of these lost coastal foundation species.

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Section: Future Directionsmentioning

confidence: 99%

Meta-analysis reveals controls on oyster predation

Tedford

Castorani

2022

Front. Mar. Sci.

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“…Consequently, interest in restoration as a tool to initiate or accelerate the recovery of habitats that have been degraded or lost is growing. In the marine realm, restoration has somewhat lagged behind terrestrial systems, although advances have been made in multiple habitat types including mangrove forests (Kamali and Hashim, 2011), seagrass meadows (Bull et al, 2004;Marion and Orth, 2010;van Katwijk et al, 2016;Unsworth et al, 2019), coral reefs (Rinkevich, 2005;Young et al, 2012;Boström-Einarsson et al, 2020), oyster reefs (Brumbaugh and Coen, 2009;Richardson et al, 2022), and more recently kelp forests (Westermeier et al, 2016;Fredriksen et al, 2020;Graham et al, 2021;Earp et al, 2022;Miller and Shears, 2022;Eger et al, 2022a).…”

Section: Introductionmentioning

confidence: 99%

An assessment of the utility of green gravel as a kelp restoration tool in wave-exposed intertidal habitats

Earp,

Smale,

Catherall

et al. 2024

J. Mar. Biol. Ass.

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Kelp forests are being degraded and/or lost in many regions, and as such, interest in active kelp restoration approaches to reinstate forests is growing. ‘Green gravel’ is a promising new kelp restoration technique that involves seeding small rocks with kelp zoospores, rearing the gametophyte and juvenile sporophyte stages in aquaria before outplanting them at restoration sites. However, to be considered a viable approach to kelp forest restoration, the efficacy of this technique needs to be assessed across a range of environmental contexts and kelp species. Here, we aimed to understand the utility of green gravel as a kelp restoration technique for wave-exposed intertidal shores. Two substrate types – gravel and cobbles – were seeded with Saccharina latissima, reared in the aquarium and outplanted at two sites along the northeast coast of England. Outplanted rocks were monitored for retention, and the density and length of S. latissima. Juvenile sporophytes persisted on both rock types, although declines in density and variations in length were observed over time. Substrate retention was low, with gravel more likely to be removed from restoration sites compared to cobbles, and all outplanted rocks were lost after eight months. While our initial testing of the green gravel restoration technique on wave-exposed shores was not successful, our results provide important insights for developing/refining the technique and a baseline for comparison for future efforts. However, prior to commencing large-scale kelp restoration in wave-exposed areas using green gravel, further testing of the technique and comparisons with other restoration approaches are needed.

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“…Globally, tropical regions contain over four times more reef-building species of oysters than temperate regions [ 6 ]. Molecular techniques are required for accurate identification, however, as shell morphology is highly variable which has resulted in species being visually misidentified [ 7 , 8 ].…”

Section: Introductionmentioning

confidence: 99%

The development of multiplex PCR assays for the rapid identification of multiple Saccostrea species, and their practical applications in restoration and aquaculture

Richardson,

Nenadic,

Wingfield

et al. 2024

BMC Ecol Evo

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Background The ecology and biology of oysters (Ostreidae) across the tropics is poorly understood. Morphological plasticity and shared characteristics among oysters have resulted in the misidentification of species, creating challenges for understanding basic species-specific biological information that is required for restoration and aquaculture. Genetic barcoding has proven essential for accurate species identification and understanding species geographic ranges. To reduce the costs of molecular species identification we developed multiplex assays using the cytochrome c oxidase subunit I (COI or cox1) barcoding gene for the rapid identification of five species of oysters within the genus Saccostrea that are commonly found in Queensland, Australia: Saccostrea glomerata, Saccostrea lineage B, Saccostrea lineage F, Saccostrea lineage G, and Saccostrea spathulata (lineage J). Results Multiplex assays were successful in species-specific amplification of targeted species. The practical application of these primers was tested on wild spat collected from a pilot restoration project in Moreton Bay, Queensland, with identified species (S. glomerata, lineage B and lineage G) validated by Sanger sequencing. DNA sampling by extraction of oyster pallial fluid was also tested on adult oysters collected from the Noosa estuary in Queensland to assess whether oysters were able to be identified non-destructively. DNA concentrations as low as 1 ng/ μL still amplified in most cases, allowing for identification, and mortality at 6 weeks post pallial fluid collection was low (3 out of 104 sampled oysters). Conclusion These multiplex assays will be essential tools for species identification in future studies, and we successfully demonstrate their practical application in both restoration and aquaculture contexts in Queensland. The multiplex assays developed in this study outline easily replicable methods for the development of additional species-specific primer sets for the rapid identification of other species of Saccostrea found across the Indo-Pacific, which will be instrumental in unravelling the taxonomic ambiguities within this genus in tropical regions.

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Some Like it Hot: The Ecology, Ecosystem Benefits and Restoration Potential of Oyster Reefs in Tropical Waters

Cited by 14 publications

References 108 publications

Meta-analysis reveals controls on oyster predation

Meta-analysis reveals controls on oyster predation

An assessment of the utility of green gravel as a kelp restoration tool in wave-exposed intertidal habitats

The development of multiplex PCR assays for the rapid identification of multiple Saccostrea species, and their practical applications in restoration and aquaculture

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