In the last 50 yr, shark populations showed steep declines in the Mediterranean Sea. The IUCN lists most Mediterranean species as threatened (55%), while considering 27.5% of them Data Deficient. Here, sharks are currently one of the rarest and more elusive groups of ani- mals, and data from fisheries and scientific monitoring still insufficiently support robust abun- dance and distribution assessments. New technologies can fill this data gap by linking people and scientists through new monitoring strategies. SharkPulse, an international collaborative project, aims at creating a large world database of shark occurrence records by mining images on the web, social networks, and private archives. Here we analyzed 1186 sharkPulse records from the Medi- terranean Sea. We collected records to characterize spatio-temporal patterns on 37 species, high- lighting distribution changes for 5, and, by using generalized linear models, estimating trends in sighting for the most abundant species. With 273 records, Hexanchus griseus had the most sight- ing records since the beginning of the series. We identified pupping areas and aggregation sites for immature Prionace glauca and Isurus oxyrinchus; pinpointed strongholds of the Critically Endangered Squatina squatina to focus conservation efforts; and identified broader than previ- ously reported regional distribution ranges for Alopias superciliosus, Dalatias licha, Heptranchias perlo, H. griseus, Oxynotus centrina, and P. glauca. We confirmed that fishing is still the major threat for Mediterranean sharks and call for a greater effort in controlling the emerging patterns with efficient conservation effort indexes. If properly standardized, opportunistic data can effi- ciently and cost-effectively advance our understanding of shark abundance, distribution, and conservation status.
New technologies can support data collection on endangered shark species in the Mediterranean Sea / Bargnesi, F; Moro, S; Leone, A; Giovos, I; Ferretti, F. - In: MARINE ECOLOGY PROGRESS SERIES. - ISSN 0171-8630. - 689:(2022), pp. 57-76. [10.3354/meps14030_c]
New technologies can support data collection on endangered shark species in the Mediterranean Sea
Moro, S;
2022
Abstract
In the last 50 yr, shark populations showed steep declines in the Mediterranean Sea. The IUCN lists most Mediterranean species as threatened (55%), while considering 27.5% of them Data Deficient. Here, sharks are currently one of the rarest and more elusive groups of ani- mals, and data from fisheries and scientific monitoring still insufficiently support robust abun- dance and distribution assessments. New technologies can fill this data gap by linking people and scientists through new monitoring strategies. SharkPulse, an international collaborative project, aims at creating a large world database of shark occurrence records by mining images on the web, social networks, and private archives. Here we analyzed 1186 sharkPulse records from the Medi- terranean Sea. We collected records to characterize spatio-temporal patterns on 37 species, high- lighting distribution changes for 5, and, by using generalized linear models, estimating trends in sighting for the most abundant species. With 273 records, Hexanchus griseus had the most sight- ing records since the beginning of the series. We identified pupping areas and aggregation sites for immature Prionace glauca and Isurus oxyrinchus; pinpointed strongholds of the Critically Endangered Squatina squatina to focus conservation efforts; and identified broader than previ- ously reported regional distribution ranges for Alopias superciliosus, Dalatias licha, Heptranchias perlo, H. griseus, Oxynotus centrina, and P. glauca. We confirmed that fishing is still the major threat for Mediterranean sharks and call for a greater effort in controlling the emerging patterns with efficient conservation effort indexes. If properly standardized, opportunistic data can effi- ciently and cost-effectively advance our understanding of shark abundance, distribution, and conservation status.File | Dimensione | Formato | |
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