Lewison, R. L., Crowder, L. B., Read, A. J. & Freeman, S. A. Understanding impacts of fisheries bycatch on marine megafauna. Trends Ecol. Evol. 19.11, 598–604 (2004).
Google Scholar
Lewison, R. L. et al. Global patterns of marine mammal, seabird, and sea turtle bycatch reveal taxa-specific and cumulative megafauna hotspots. Proc. Natl. Acad. Sci. USA 111.14, 5271–5276 (2014).
Google Scholar
Davies, R. W. D., Cripps, S. J., Nickson, A. & Porter, G. Defining and estimating global marine fisheries bycatch. Mar. Policy 33.4, 661–672 (2009).
Google Scholar
Oliver, S., Braccini, M., Newman, S. J. & Harvey, E. S. Global patterns in the bycatch of sharks and rays. Mar. Policy 54, 86–97 (2015).
Google Scholar
Ortuño Crespo, G. & Dunn, D. C. A review of the impacts of fisheries on open-ocean ecosystems. ICES J. Mar. Sci. 74.9, 2283–2297 (2017).
Google Scholar
Wallace, B. P., Heppell, S. S., Lewison, R. L., Kelez, S. & Crowder, L. B. Impacts of fisheries bycatch on loggerhead turtles worldwide inferred from reproductive value analyses. J. Appl. Ecol. 45.4, 1076–1085 (2008).
Dulvy, N. K. et al. Extinction risk and conservation of the world’s sharks and rays. eLife 3, 2–34 (2014).
Google Scholar
Lotze, H. K., Mills Flemming, J. & Magera, A. M. Critical factors for the recovery of marine mammals. Conserv. Biol. 31.6, 1301–1311 (2017).
Google Scholar
Carpentieri, P., Nastasi, A., Sessa, M. & Srour, A. Incidental catch of vulnerable species in Mediterranean and Black Sea fisheries – A review. Studies and Reviews No. 101 (General Fisheries Commission for the Mediterranean). Rome, FAO, 2021.
European Parliament, Council of the European Union. Council Regulation No. 199/2008 of 25 February 2008 concerning the establishment of a Community framework for the collection, management and use of data in the fisheries sector and support for scientific advice regarding the Common Fisheries Policy, OJ L 60/1, 5.3.2008, 1–12 (European Council, 2008).
Savoca, M. S. et al. Comprehensive bycatch assessment in US fisheries for prioritizing management. Nat. Sustain. 3.6, 1–9 (2020).
Bearzi, G. Interactions between cetacean and fisheries in the Mediterranean Sea. Cetaceans of the Mediterranean and Black Seas: state of knowledge and conservation strategies. (ACCOBAMS Secretariat, Monaco, 2002).
Casale, P. Sea turtle by-catch in the Mediterranean. Fish Fish. 12.3, 299–316 (2011).
Google Scholar
Ferretti, F., Myers, R. A., Serena, F. & Lotze, H. Loss of large predatory sharks from the Mediterranean Sea. Conserv. Biol. 22.4, 952–964 (2008).
Google Scholar
Dulvy, N. K., Allen, D. J., Ralph, G. M. & Walls, R. H. L. The conservation status of sharks, rays and chimaeras in the Mediterranean Sea (IUCN, Malaga, Spain, 2016).
FAO. Monitoring the incidental catch of vulnerable species in Mediterranean and Black Sea fisheries: Methodology for data collection. FAO Fisheries and Aquaculture Technical Paper No. 640. (Rome, FAO, 2019).
Mazzoldi, C., Sambo, A. & Riginella, E. The Clodia database: a long time series of fishery data from the Adriatic Sea. Sci. Data 1.1, 1–8 (2014).
Fortibuoni, T. et al. Fish and fishery historical data since the 19th century in the Adriatic Sea, Mediterranean. Sci. Data 4.1, 1–13 (2017).
Mancusi, C. et al. MEDLEM database, a data collection on large Elasmobranchs in the Mediterranean and Black seas. Mediterr. Mar. Sci. 21.2, 276–288 (2020).
Pulcinella, J. et al. Institute for Biological Resources and Marine Biotechnologies (IRBIM), Italian National Institute for Environmental Protection and Research (ISPRA). Monitored bycatch of Mustelus mustelus, Squalus acanthias, Myliobatis aquila, Pteroplatytrygon violacea and Caretta caretta in mid-water pair trawl fishery in the northern Adriatic Sea, from 2006-2017 (2020).
Cardinale, M., Osio, G. C. & Scarcella, G. Mediterranean Sea: a failure of the European fisheries management system. Front. Mar. Sci 4, 72 (2017).
Google Scholar
Lotze, H. K., Coll, M. & Dunne, J. Historical changes in marine resources, food-web structure and ecosystem functioning in the Adriatic Sea. Ecosystems 14.2, 198–222 (2011).
Google Scholar
Giani, M. et al. Recent changes in the marine ecosystems of the northern Adriatic Sea. Estuar. Coast. Shelf Sci. 115, 1–13 (2012).
Google Scholar
Romano, B. & Zullo, F. The urban transformation of Italy’s Adriatic coastal strip: Fifty years of unsustainability. Land Use Policy 38, 26–36 (2014).
Google Scholar
Holcer, D. & Fortuna, C.M. Status and conservation of cetaceans the Adriatic Sea. (UNEP-MAP-RAC-SPA. Malaga, 2014).
Ferretti, M. Technological evolution of pelagic trawl fishery in the Adriatic, Italy. (FAO Fisheries Reports FAO, 1981).
Fortuna, C. M. et al. Bycatch of cetaceans and other species of conservation concern during pair trawl fishing operations in the Adriatic Sea (Italy). Chem. Ecol. 26.S1, 65–76 (2010).
Google Scholar
La Mesa, G., Annunziatellis, A., Filidei, E. Jr & Fortuna, C. M. Bycatch of myliobatid rays in the central Mediterranean Sea: the influence of spatiotemporal, environmental, and operational factors as determined by generalized additive modelling. Mar. Coast. Fish 8.1, 382–394 (2016).
Google Scholar
Bonanomi, S., Pulcinella, J., Fortuna, C. M., Moro, F. & Sala, A. Elasmobranch bycatch in the Italian Adriatic pelagic trawl fishery. PLoS One 13.1, e0191647 (2018).
Google Scholar
Pulcinella, J. et al. Bycatch of loggerhead turtle (Caretta caretta) in the Italian Adriatic midwater pair trawl fishery. Front. Mar. Sci. 6, 365 (2019).
Google Scholar
R Core Team R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org/ (2016).
James, D. A., DebRoy, S. & Horner, M. J. Package ‘RMySQL’. R documentation. http://cran.rproject.org/web/packages/RMySQL/RMySQL.Pdf (2012).
Bonanomi, S. et al. Bycatch of marine megafauna collected on board midwater pair trawlers in the Adriatic Sea between 2006 and 2019. Marine Data Archive https://doi.org/10.14284/483 (2021).
Open Geospatial Consortium OGC, 2017. GeoPackage Implementations [WWW Document]. OGC implementations. URL https://www.GeoPackage.org/implementations.html.
Ferretti, F., Crowder, L. B. & Micheli, F. Marine Historical Ecology in Conservation: Applying the Past to Manage for the Future Vol. (ed. Kittinger, J. N., McClenachan, L., Gedan, K. B. & Blight L. K.) Ch. 4 (California Univ. Press, 2014).
Brodziak, J. & Walsh, W. A. Model selection and multimodel inference for standardizing catch rates of bycatch species: a case study of oceanic whitetip shark in the Hawaii-based longline fishery. Can. J. Fish. Aquat. Sci. 70.12, 1723–1740 (2013).
Google Scholar
Orio, A. et al. Modelling indices of abundance and size-based indicators of cod and flounder stocks in the Baltic Sea using newly standardized trawl survey data. ICES J. Mar. Sci. 74.5, 1322–1333 (2017).
Google Scholar
McClenachan, L., Ferretti, F. & Baum, J. K. From archives to conservation: why historical data are needed to set baselines for marine animals and ecosystems. Conserv. Lett. 5.5, 349–359 (2012).
Google Scholar
Wickham, H. The tidyverse. R package ver, 1(1), 1 (2017).
Bivand, R. et al. rgdal: bindings for the geospatial data abstraction library 2017. R package version 0.8-13 (2018).
Pebesma, E. J. Simple features for R: Standardized support for spatial vector data. R J. 10(1), 439 (2018).
Google Scholar
Wickham, H. ggplot2: Elegant graphics for data analysis (2nd ed.). New York, NY: Springer (2016).
Hijmans, R. J., Williams, E. & Vennes, C. The” geosphere” package (Version 1.2. 1) 2010.
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