Playing “hide and seek” with the Mediterranean monk seal: a citizen science dataset reveals its distribution from molecular traces (eDNA)

Valsecchi, Elena; Tavecchia, Giacomo; Boldrocchi, Ginevra; Coppola, Emanuele; Ramella, Denise; Conte, Livia; Blasi, Monica Francesca; Bruno, Antonia; Galli, Paolo

doi:10.1038/s41598-023-27835-6

Cited by 10 publications

(15 citation statements)

References 43 publications

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“…eDNA studies rely on DNA fragments released in the environment (soil, water, air) from faeces, mucus, skin cells, or other sources of organism DNA to infer the presence of a target species (Taberlet et al, 2012;Harrison, Sunday & Rogers, 2019;Prié et al, 2020;Pascher, Švara & Jungmeier, 2022). The application of molecular-based techniques targeting eDNA has proven to be particularly useful for detecting rare and elusive species in aquatic environments (Hinlo et al, 2018;Valsecchi et al, 2022;Valsecchi et al, 2023), including the Eurasian otter (Lutra lutra) (Jamwal et al, 2021). However, the efficiency of eDNA approaches for the detection of otters has not yet been tested in areas where the species is rare and occurs in extreme conditions, such as Himalayan rivers.…”

Section: Introductionmentioning

confidence: 99%

Environmental DNA revealed high accuracy in detection of the Eurasian otter in Himalaya

Jamwal,

Bruno,

Galimberti

et al. 2023

Aquatic Conservation

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A precise framework of species occurrence and distribution trends is crucial for conservation measures. Traditional survey methods are often labour‐intensive and time‐consuming, and they can be ineffective in detecting the presence of rare and elusive taxa, especially in harsh environments. The effectiveness and feasibility of an environmental DNA (eDNA)‐based approach was tested to detect the occurrence of the semiaquatic Eurasian otter (Lutra lutra) in six rivers in the Trans‐Himalaya, comparing the results with those obtained from a traditional field survey. Water samples were collected and filtered on‐site at 15 locations, from 2,660 to 3,819 m a.s.l. Otter scats were actively searched for at the same locations in a 900 m buffer along the river bank. Fifteen environmental parameters were recorded at each sampling site. After eDNA extraction and target quantitative realt‐time polymerase chain reaction (qPCR) assay, statistical analyses were run to explore the relationship between environmental factors and the presence/absence of otters at each site. Otter DNA was found at 73% of sites, whereas traditional field survey results showed that 53% of sites were positive for otters. Results from principal component analysis showed that the sites avoided by otters, as measured through eDNA, were clearly segregated along PC1 and PC2, with both axes explaining 57% of the cumulative variance. The best‐performing generalized linear model suggested that the occurrence of otter eDNA was influenced by channel width, surface velocity, nitrate level, total dissolved solids, and average water depth. The results of this study highlight that, compared with traditional field surveys, eDNA‐based methods increased the detection of positive sites by 20%, thus demonstrating their reliability for monitoring the presence of otters in the study area and providing new insights into the ecology of this species in the Indian Trans‐Himalaya.

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Section: Introductionmentioning

confidence: 99%

Environmental DNA revealed high accuracy in detection of the Eurasian otter in Himalaya

Jamwal,

Bruno,

Galimberti

et al. 2023

Aquatic Conservation

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“…eDNA can expand the spatiotemporal scope of marine mammal monitoring where visual or acoustic monitoring are infeasible, i.e., at night or in adverse weather conditions and for cetaceans that vocalise infrequently or have unknown vocalisations (Baumgartner et al, 2019;Valsecchi et al, 2021). To date, single species eDNA approaches have improved our understanding of several rare or threatened species, i.e., dwarf sperm whales (Kogia sima) and Mediterranean monk seals (Monachus monachus) (Juhel et al, 2021;Valsecchi et al, 2023), and species that are challenging to detect with conventional survey techniques, i.e., beaked whales Hooker et al, 2019). They have also provided insights into population genetics, with important management consequences (Parsons et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

“…To date, single species eDNA approaches have improved our understanding of several rare or threatened species, i.e. , dwarf sperm whales ( Kogia sima ) and Mediterranean monk seals ( Monachus monachus ) (Juhel et al, 2021; Valsecchi et al, 2023), and species that are challenging to detect with conventional survey techniques, i.e. , beaked whales (Boldrocchi et al, 2023; Hooker et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Environmental DNA reveals fine scale spatial and temporal variation of prey species for marine mammals in a Scottish marine protected area

Boyse,

Robinson,

Beger

et al. 2023

Preprint

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Marine mammal foraging grounds are popular focal points for marine protected area (MPA) implementation, but may be temporally dynamic, requiring continuous monitoring to infer prey availability and abundance. Marine mammal distributions are assumed to be driven by their prey in foraging areas, but limited understanding of prey distributions often prevents us from exploring how shifting prey availability impacts both seasonal and long-term marine mammal distributions. Environmental DNA (eDNA) metabarcoding could enhance understanding of marine mammal habitat use in relation to their prey through simultaneous monitoring of both. However, eDNA applications focused on marine mammals or predator-prey dynamics have been limited to date. In this study, we assess spatiotemporal changes in the availability and abundance of minke whale (Balaenoptera acutorostrata) prey species in a newly established MPA, employing eDNA metabarcoding. We recovered 105 molecular operational taxonomic units (OTUs) from marine vertebrates using two primer sets targeting 12S and 16S genes, along with 112 OTUs from a broader eukaryotic primer set targeting 18S rRNA. Overall, key forage fish prey species, sandeels and clupeids, were the most abundant teleost fishes detected, although their availability varied temporally and with distance from shore. We also found clear spatial partitioning between coastal bottlenose dolphins and the more pelagic minke whales and harbour porpoises, paralleling availability of their main prey species. Other species of conservation interest were also detected including the critically endangered European eel (Anguilla anguilla), blue fin tuna (Thunnus thynnus), and the invasive pink salmon (Oncorhynchus gorbuscha). This study demonstrates the application of eDNA to detect spatiotemporal trends in the occurrence and abundance of cetacean predators and their prey, furthering our understanding of fine-scale habitat use within MPAs. Future, long-term monitoring of predator-prey dynamics with eDNA could improve our ability to predict climate-induced shifts in foraging grounds and enhance rapid responses with appropriate management actions.

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“…The identification of areas critical for species survival is essential for effective wildlife conservation, particularly when focusing on species of concern (Ambal et al, 2012; Stokes et al, 2015; Valsecchi et al, 2023). Threatened marine vertebrates are challenging to study as they are often rare or elusive, resulting in insufficient knowledge on their occurrence and distribution, which impedes management and limits effective conservation (Boldrocchi and Storai, 2021; Kiszka et al, 2007; Smith et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Surface-sourced eDNA to track deep-diver cetaceans: the study case of Cuvier’s beaked whale (Ziphius cavirostris) at Caprera Canyon and surrounding areas (Western Mediterranean Sea)

Boldrocchi,

Conte,

Galli

et al. 2023

Preprint

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Among cetaceans, the Cuvier’s beaked whale is considered an extreme diver, very challenging to be studied with standard monitoring methods due to its elusive behaviour and a preference for deep offshore waters. These limitations seem to be mitigated by the use of new molecular methodologies capable of intercepting small traces of DNA left in the environment (eDNA) by marine organisms. Moreover, the collection of water from the superficial layer of the sea represents a perfect case study for the targeting of marine mammals, as the constraints imposed by their nature implies periodic and frequent surfacing. Therefore, we designed and tested a taxon-specific primer set to infer the Cuvier’s beaked whale presence, with the aims of 1) examining the effectiveness of the eDNA technique to detect the presence of deep-diving cetacean in open waters, using the Cuvier’s beaked whale as case study; 2) providing data on the spatiotemporal occurrence of this species within the Canyon of Caprera; and 3) assessing the species occurrence in central northern Mediterranean Sea based on molecular traces. Results from this study demonstrated that collection of superficial waters is a valid approach to monitor deep-diving cetacean species, without the need for complementary visual survey monitoring. Specifically, this study provides evidence of the regular presence of the Cuvier’s beaked whale in the Canyon of Caprera, with a preference for bathymetry in the range of 700-1000 m. This study also showed a potential inshore movement of this species during fall, which is possibly related to migration of its cephalopod prey or a shift in prey preferences. Overall, the data presented here are particularly relevant in the optic of proposing the Caprera Canyon as anImportant Marine Mammal Area(IMMA) in the Mediterranean Sea. At a wider level, this study also showed that the stronger positive signals were recorded in sampling stations located on submarine canyon systems, demonstrating the importance of these areas as elective habitats for the Cuvier’s beaked whale, thus the pivotal priority to their conservation.

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Playing “hide and seek” with the Mediterranean monk seal: a citizen science dataset reveals its distribution from molecular traces (eDNA)

Cited by 10 publications

References 43 publications

Environmental DNA revealed high accuracy in detection of the Eurasian otter in Himalaya

Environmental DNA revealed high accuracy in detection of the Eurasian otter in Himalaya

Environmental DNA reveals fine scale spatial and temporal variation of prey species for marine mammals in a Scottish marine protected area

Surface-sourced eDNA to track deep-diver cetaceans: the study case of Cuvier’s beaked whale (Ziphius cavirostris) at Caprera Canyon and surrounding areas (Western Mediterranean Sea)

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