A machine learning model and biometric transformations to facilitate European oyster monitoring

Pineda-Metz, Santiago E A; Merk, Verena; Pogoda, Bernadette

doi:10.1002/aqc.3912

Cited by 4 publications

(2 citation statements)

References 43 publications

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“…Thus, the development, application and continued improvement of nondestructive (non-invasive), and at the same time scientifically robust and efficient monitoring methods is of great importance (Pineda-Metz, Merk & Pogoda, 2023). This study strengthens the understanding that there is not one ideal biodiversity monitoring method, but that a combination of sampling techniques will achieve the most complete species inventories.…”

Section: Discussionsupporting

confidence: 60%

“…Furthermore, it is relevant under respective national conservation laws, or as a mitigation measure to compensate for destructive interventions in marine ecosystems, such as construction of offshore wind farms and laying of offshore cables (Pogoda et al, 2020b; Pogoda et al, this issue). Thus, the development, application and continued improvement of non‐destructive (non‐invasive), and at the same time scientifically robust and efficient monitoring methods is of great importance (Pineda‐Metz, Merk & Pogoda, 2023). This study strengthens the understanding that there is not one ideal biodiversity monitoring method, but that a combination of sampling techniques will achieve the most complete species inventories.…”

Section: Discussionmentioning

confidence: 99%

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Setting the stones to restore and monitor European flat oyster reefs in the German North Sea

Pineda-Metz

Colsoul

Niewöhner

et al. 2023

Aquatic Conservation

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Ecological restoration includes specific technical phases over the course of an ecosystem recovery process. In the marine environment and for oyster reef restoration, the installation and implementation of pilot reefs close the gap between feasibility studies with small‐scale experiments and designated upscaling for marine conservation measures. Against this background, this study presents the design, planning and installation of the first pilot oyster reef in offshore sublittoral regions of the North Sea. The work was conducted as part of marine protected area management in the Natura 2000 site Borkum Reef Ground in the German Bight, in the area of historical offshore oyster grounds. It includes logistical considerations, material selection, methodology for reef base construction and deployment of European flat oysters Ostrea edulis as spat‐on‐shell, young and adult single seed oysters, and spat‐on‐reef, as well as the development of an efficient monitoring approach for reef‐associated biodiversity. Native Oyster Restoration Alliance monitoring methodologies, such as underwater visual census and seabed images were selected, tested and successfully adapted for the pilot oyster reef and study site. The evaluation and optimization of offshore sublittoral oyster reef monitoring are presented here, and biodiversity metrics are put into perspective with data from recent and historical studies. Results show a few mobile fauna species (e.g., fish and decapods) as first colonizers after reef construction. One year later, biodiversity increased due to a larger number of invertebrate and fish species. However, the pilot oyster reef community still represents an early recolonization stage, with lower biodiversity than historical records. This study presents a proof of concept for the design, planning and construction of an offshore oyster reef and indicates stages in the recovery process. Strategies to optimize and to complement reef‐monitoring in challenging environments are discussed, emphasizing additional molecular and functional analyses for future assessments.

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Section: Discussionsupporting

confidence: 60%

Section: Discussionmentioning

confidence: 99%

Setting the stones to restore and monitor European flat oyster reefs in the German North Sea

Pineda-Metz

Colsoul

Niewöhner

et al. 2023

Aquatic Conservation

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Filtration Behaviour of Ostrea edulis: Diurnal Rhythmicity Influenced by Light Cycles, Body Size and Water Temperature

Fabra,

Morrall,

Helmer

et al. 2024

Estuaries and Coasts

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Despite the existing studies on oyster physiology, it is a concern that, by ignoring the diurnal rhythmicity of feeding activities, the current knowledge on oyster filtration might be unrepresentative of their real filtration capacity. In the present study, the diurnal and nocturnal fluctuations of Ostrea edulis clearance rate were investigated for the first time under laboratory conditions, also considering the combined effects of water temperature and oyster size. A positive correlation was found between the mean clearance rate (CRm) and body size for both length and wet weight, with an average of 0.5 L h−1 and 0.1 L h−1 of water filtered by large and small adult oysters respectively during the 24-h experiment. A positive significant correlation between mean clearance rate and water temperature was found only for large oysters, suggesting further studies utilising temperature ranges closer to O. edulis thermal optimum are required to clarify the influence of temperature on oyster filtration activities across different size classes. The results of this study also showed a discontinuous ingestion of food by O. edulis throughout 24-h intervals, with higher values of clearance rate observed during hours of darkness at most temperatures for both size classes. This suggests photoperiod may have a potential influence on O. edulis filtration. Providing a better understanding of O. edulis filtration behaviour, these findings have implications for ecological restoration, aquaculture, and comparative studies on oyster bioenergetics and physiology, with direct applications to the development of predictive models and the assessment of ecosystem services provided by O. edulis habitat.

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Deriving biomass conversion factors for southern temperate benthic fauna; analytical methods matter

Nitschke,

Baring,

Kar

et al. 2024

Estuarine, Coastal and Shelf Science

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A machine learning model and biometric transformations to facilitate European oyster monitoring

Cited by 4 publications

References 43 publications

Setting the stones to restore and monitor European flat oyster reefs in the German North Sea

Setting the stones to restore and monitor European flat oyster reefs in the German North Sea

Filtration Behaviour of Ostrea edulis: Diurnal Rhythmicity Influenced by Light Cycles, Body Size and Water Temperature

Deriving biomass conversion factors for southern temperate benthic fauna; analytical methods matter

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