The Use of Microbial Coatings, Nutrients and Chemical Defense Systems in Oyster Restoration

The Use of Microbial Coatings, Nutrients and Chemical Defense Systems in Oyster Restoration

AbstractMany oyster species are keystone species that help mitigate shoreline erosion, provide habitats for juvenile fishes, and improve water quality. A number of human-driven factors have led to a decline in their populations worldwide. This article focuses on the chemistry of a novel substrate (n...

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Veröffentlicht in:Marine Technology Society journal 2019-07, Vol.53 (4), p.39-54
Hauptverfasser: Manning, Thomas J., Lane, Weldon, Williams, Richard Darren, Cowan, Matt, Diaz, Marcus, Slaton, Christopher Adam, MacKey, Konnor, Patel, Pavan, Plummer, Sydney, Butler, Brittany, Baker, Tess
Format: Artikel
Sprache:eng
Schlagworte:
Algae
Biofilms
Chemical defense
Coastal erosion
Colonization
Concrete
Keystone Species
Marine molluscs
Microorganisms
Mineral nutrients
Nutrient
Nutrients
Organic chemistry
Oyster Restoration
Oysters
Predators
Restoration
Shellfish
Spat
Spat Settlement
Substrates
Water quality
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Zusammenfassung:AbstractMany oyster species are keystone species that help mitigate shoreline erosion, provide habitats for juvenile fishes, and improve water quality. A number of human-driven factors have led to a decline in their populations worldwide. This article focuses on the chemistry of a novel substrate (nutrient-enriched concrete, or NEC) used to induce settlement and colonization of wild diploid oyster spat and is divided into four sections: (1) composition of the bulk material used for oyster restoration, (2) nutrients added to stimulate growth of bacterial and or algal biofilms, (3) nutrients included for the recently settled oyster spat, and (4) the potential use of natural chemical defense systems to control predators and competing marine life. The goal is to develop a material that can be manufactured and used on a large scale.
ISSN:0025-3324
1948-1209
DOI:10.4031/MTSJ.53.4.2