North Atlantic deep-sea benthic biodiversity unveiled through sponge natural sampler DNA

Gallego, Ramón; Arias, María Belén; Corral-Lou, Andrea; Díez-Vives, Cristina; Neave, Erika F.; Wang, Cai; Cárdenas, Paco; Steffen, Karin; Taboada, Sergio; Villamor, Adriana; Kenchington, Ellen; Mariani, Stefano; Riesgo, Ana

doi:10.1038/s42003-024-06695-4

Commun Biol

2024

DOI: 10.1038/s42003-024-06695-4

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North Atlantic deep-sea benthic biodiversity unveiled through sponge natural sampler DNA

Ramón Gallego,

María Belén Arias,

Andrea Corral-Lou

et al.

Abstract: The deep-sea remains the biggest challenge to biodiversity exploration, and anthropogenic disturbances extend well into this realm, calling for urgent management strategies. One of the most diverse, productive, and vulnerable ecosystems in the deep sea are sponge grounds. Currently, environmental DNA (eDNA) metabarcoding is revolutionising the field of biodiversity monitoring, yet complex deep-sea benthic ecosystems remain challenging to assess even with these novel technologies. Here, we evaluate the effectiv… Show more

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Environmental DNA Metabarcoding of Cephalopod Diversity in the Tyrrhenian Deep Sea

La Torre,

Cussigh,

Crobe

et al. 2024

JMSE

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The deep sea, the largest biome on Earth, is the least explored and understood. This lack of knowledge hampers our ability to understand and protect this important environment. In this study, water and sediment samples were collected at different depths in the central Mediterranean (224–780 m), specifically, within the Dohrn Canyon and the Palinuro Seamount, to investigate the diversity of cephalopods and establish a baseline knowledge of their distribution in these sites to preserve their habitats and estimate the impacts of human-driven environmental changes. Key taxa identified included Heteroteuthis sp., Loligo sp., and Histioteuthis sp., which were the most abundant across all sampling stations. A low overlap in species detection was observed between water and sediment samples, confirming previous findings that the typology of environmental matrices used in eDNA metabarcoding has a significant impact on the organisms detected and, therefore, the integrated use of different matrices to better represent local biodiversity is recommended. Furthermore, this study highlights the limitations posed by gaps in reference databases, particularly for deep-sea organisms, and addresses these by emphasising the need for improved multi-marker approaches and expanded reference databases to enhance the accuracy of eDNA-based biodiversity assessment.

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Environmental DNA Metabarcoding of Cephalopod Diversity in the Tyrrhenian Deep Sea

La Torre,

Cussigh,

Crobe

et al. 2024

JMSE

View full text Add to dashboard Cite

show abstract

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North Atlantic deep-sea benthic biodiversity unveiled through sponge natural sampler DNA

Cited by 1 publication

References 84 publications

Environmental DNA Metabarcoding of Cephalopod Diversity in the Tyrrhenian Deep Sea

Environmental DNA Metabarcoding of Cephalopod Diversity in the Tyrrhenian Deep Sea

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