Issue |
Aquat. Living Resour.
Volume 36, 2023
|
|
---|---|---|
Article Number | 21 | |
Number of page(s) | 11 | |
DOI | https://doi.org/10.1051/alr/2023017 | |
Published online | 25 July 2023 |
- Albert L, Olivier F, Jolivet A, Chauvaud L, Chauvaud S. 2022. Insights into the behavioural responses of juvenile thornback ray Raja clavata to alternating and direct current magnetic fields. J Fish Biol 100: 645–659. [CrossRef] [PubMed] [Google Scholar]
- Alonso-Fernández A, Mucientes G, Villegas-Ríos D. 2022. Discard survival of coastal elasmobranchs in a small-scale fishery using acoustic telemetry and recapture data. Estuarine Coast Shelf Sci 276: 108037. [CrossRef] [Google Scholar]
- Alós J, Aarestrup K, Abecasis D, Afonso P, Alonso‐Fernandez A, Aspillaga E, Barcelo‐Serra M, Bolland J, Cabanellas‐Reboredo M, Lennox R, McGill R, Özgül A, Reubens J, Villegas‐Ríos D. 2022. Toward a decade of ocean science for sustainable development through acoustic animal tracking. Glob Change Biol 28: 5630–5653. [CrossRef] [PubMed] [Google Scholar]
- Arístegui J, Alvarez-Salgado XA, Barton ED, Figueiras FG, Hernández-León S, Roy C, Santos AMP. 2004. Oceanography and fisheries of the Canary Current/Iberian region of the Eastern North Atlantic (18a, E). The global coastal ocean: Interdisciplinary regional studies and syntheses 14: 879. [Google Scholar]
- Bañón Díaz R, Quinteiro Fernández R, Juncal Caldas LM,Campelos Álvarez JM, Gancedo Baranda A, Lamas Rodríguez F, Morales de la Fuente C, Ribó Landín J. 2008. Composición, distribución y abundancia de rayas (Elasmobranchii: Rajidae) en aguas costeras de Galicia. Foro Dos Recursos Mariños e Da Acuicultura Das Rías Galegas 10: 325–331. [Google Scholar]
- Bohaboy EC, Cass-Calay SL, Patterson WF. 2022. Fine-scale movement of northern Gulf of Mexico red snapper and gray triggerfish estimated with three-dimensional acoustic telemetry. Sci Rep 12: 14274. [CrossRef] [PubMed] [Google Scholar]
- Broullón E., Franks PJS, Fernández Castro B, Gilcoto M, Fuentes‐Lema A, Pérez‐Lorenzo M, Fernández E, Mouriño‐Carballido B. 2023. Rapid phytoplankton response to wind forcing influences productivity in upwelling bays. Limnol Oceanogr Lett. [Google Scholar]
- Cabral S. 2014. Raja spp. spatial dynamics in the Arrábida Marine Park (Msc Thesis). University of Algarve. [Google Scholar]
- Calenge C. 2006. The package “adehabitat” for the R software: a tool for the analysis of space and habitat use by animals. Ecol Model 197: 516–519. [CrossRef] [Google Scholar]
- Chevolot M, Ellis JR, Hoarau G, Rijnsdorp AD, Stam WT, Olsen JL. 2006. Population structure of the thornback ray (Raja clavata L.) in British waters. J Sea Res 56: 305–316. [CrossRef] [Google Scholar]
- Chevolot MSCOM. 2006. Assessing genetic structure of thornback ray, Raja clavata: a thorny situation? (PhD Thesis). University of Groningen. [Google Scholar]
- Collins AB, Heupel MR, Simpfendorfer CA. 2008. Spatial distribution and long-term movement patterns of Cownose Rays Rhinoptera bonasus within an estuarine river. Estuar Coasts 31: 1174–1183. [CrossRef] [Google Scholar]
- Cooke SJ, Bergman JN, Twardek WM, Piczak ML, Casselberry GA, Lutek K, Dahlmo LS, Birnie‐Gauvin K, Griffin LP, Brownscombe JW, Raby GD, Standen EM, Horodysky AZ, Johnsen S, Danylchuk AJ, Furey NB, Gallagher AJ, Lédée EJI., Midwood JD, Gutowsky LFG. 2022. The movement ecology of fishes. J Fish Biol 101: 756–779. [CrossRef] [PubMed] [Google Scholar]
- Crossin GT, Heupel MR, Holbrook CM, Hussey NE, Lowerre-Barbieri SK, Nguyen VM, Raby GD, Cooke SJ. 2017. Acoustic telemetry and fisheries management. Ecol Appl 27: 1031–1049. [CrossRef] [PubMed] [Google Scholar]
- Di Lorenzo M, Calò A, Di Franco A, Milisenda G, Aglieri G, Cattano C, Milazzo M, Guidetti P. 2022. Small-scale fisheries catch more threatened elasmobranchs inside partially protected areas than in unprotected areas. Nat Commun 13. [PubMed] [Google Scholar]
- Dormann CF. 2007. Assessing the validity of autologistic regression. Ecol Modell 207: 234–242. [CrossRef] [Google Scholar]
- Dulvy NK, Fowler SL, Musick JA, Cavanagh RD, Kyne PM, Harrison LR, Carlson JK, Davidson LN, Fordham SV, Francis MP, Pollock CM, Simpfendorfer CA, Burgess GH, Carpenter KE, Compagno LJ, Ebert DA, Gibson C, Heupel MR, Livingstone SR, Sanciangco JC. 2014. Extinction risk and conservation of the world's sharks and rays. eLife 3: e 00590. [CrossRef] [Google Scholar]
- Dulvy NK, Metcalfe JD, Glanville J, Pawson MG, Reynolds JD. 2000. Fishery stability, local extinctions, and shifts in community structure in skates. Conserv Biol 14: 283–293. [CrossRef] [Google Scholar]
- Dulvy NK, Pacoureau N, Rigby CL, Pollom RA, Jabado RW, Ebert DA, Finucci B, Pollock CM, Cheok J, Derrick DH, Herman KB, Sherman CS, VanderWright WJ, Lawson JM, Walls RHL, Carlson JK, Charvet P, Bineesh KK, Fernando D, Ralph GM. 2021. Overfishing drives over one-third of all sharks and rays toward a global extinction crisis. Curr Biol 31. [Google Scholar]
- Ellis J. 2016. Raja clavata. IUCN Red List of Threatened Species. [Google Scholar]
- Ellis JR, Pawson MG, Shackley SE. 1996. The comparative feeding ecology of six species of shark and four species of ray (Elasmobranchii) in the north-east atlantic. J Mar Biol Assoc UK 76: 89–106. [CrossRef] [Google Scholar]
- Espinoza M, Farrugia TJ, Lowe CG. 2011. Habitat use, movements and site fidelity of the gray smooth-hound shark (Mustelus californicus Gill 1863) in a newly restored southern California estuary. J Exp Mar Biol Ecol 401: 63–74. [CrossRef] [Google Scholar]
- Elston C, Cowley PD, von Brandis RG, Lea J. 2022. Stingray habitat use is dynamically influenced by temperature and tides. Front Mar Sci 8. [CrossRef] [Google Scholar]
- FAO. 2021. Fishery and Aquaculture Statistics . Global Capture Production 1950–2019 (FishstatJ). Quebec City, QC, Canada: 1; FAO. [Google Scholar]
- Farias I, FigueiredoI, Moura T, Serrano Gordo L, Neves A, Serra-Pereira B. 2006. Diet comparison of four ray species (Raja clavata, Raja brachyura, Raja montaguiand, Leucoraja naevus) caught along the Portuguese continental shelf. Aquat Liv Resour 19: 105–114. [CrossRef] [EDP Sciences] [Google Scholar]
- Figueiredo I, Maia C, Lagarto N, Serra-Pereira B. 2020. Bycatch estimation of Rajiformes in multispecies and multigear fisheries. Fish Res 232: 105727. [CrossRef] [Google Scholar]
- Gilmour ME, Adams J, Block BA, Caselle JE, Friedlander AM, Game ET, Hazen EL, Holmes ND, Lafferty KD, Maxwell SM, McCauley DJ, Oleson EM, Pollock K, Shaffer SA, Wolff NH, Wegmann A. 2022. Evaluation of MPA designs that protect highly mobile megafauna now and under climate change scenarios. Glob Ecol Conserv 35: e02070. [CrossRef] [Google Scholar]
- Hays GC, Bailey H, Bograd SJ, Bowen WD, Campagna C, Carmichael RH, Casale P, Chiaradia A, Costa DP, Cuevas E, Nico de Bruyn PJ, Dias MP, Duarte CM, Dunn DC, Dutton PH, Esteban N, Friedlaender A,Goetz KT, Godley BJ, Halpin PN. 2019. Translating marine animal tracking data into conservation policy and management. Trends Ecol Evolut 34: 459–473. [CrossRef] [Google Scholar]
- Heupel M, Simpfendorfer C. 2014. Importance of environmental and biological drivers in the presence and space use of a reef‑associated shark. Mar Ecol Progr Ser 496: 47–57. [CrossRef] [Google Scholar]
- Heupel MR, Simpfendorfer CA. 2002. Estimation of mortality of juvenile blacktip sharks, Carcharhinus limbatus, within a nursery area using telemetry data. Can J Fish Aquat Sci 59: 624–632. [CrossRef] [Google Scholar]
- Hunter E, Buckley AA, Stewart C, Metcalfe JD, 2005. Repeated seasonal migration by a thornback ray in the southern north sea. J Mar Biol Assoc UK 85: 1199–1200. [CrossRef] [Google Scholar]
- Hunter E, Buckley AA, Stewart C, Metcalfe JD. 2005. Migratory behaviour of the thornback ray, Raja clavata, in the southern north sea. J Mar Biol Assoc UK 85: 1095–1105. [CrossRef] [Google Scholar]
- Hussey NE, Kessel ST, Aarestrup K, Cooke SJ, Cowley PD, Fisk AT, Harcourt RG, Holland KN, Iverson SJ, Kocik JF, Flemming JEM, Whoriskey FG. 2015. Aquatic animal telemetry: a panoramic window into the underwater world. Science 348. [CrossRef] [Google Scholar]
- ICES. 2022. Working Group on Elasmobranch Fishes (WGEF). ICES Scientific Reports. Report. https://doi.org/10.17895/ices.pub.21089833.v1 [Google Scholar]
- IUCN Red List of Threatened Species [WWW Document]. 2023. IUCN Red List of Threatened Species. URL https://www. iucnredlist.org/search/stats?query=Skates & searchType=species (accessed 4.14.22). [Google Scholar]
- Joppa LN, O'Connor B, Visconti P, Smith C, Geldmann J, Hoffmann M, Watson JEM, Butchart SHM, Virah-Sawmy M, Halpern BS, Ahmed SE, Balmford A, Sutherland WJ, Harfoot M, Hilton-Taylor C, Foden W, Minin ED, Pagad S, Genovesi P, Hutton J. 2016. Filling in biodiversity threat gaps. Science 352: 416–418. [CrossRef] [PubMed] [Google Scholar]
- Last P, Naylor G, Séret B, White W, Stehmann M, de Carvalho M. 2016. Rays of the World. CSIRO Publishing. [Google Scholar]
- Lédée EJI. 2015. Improving understanding of spatial ecology through network analysis of acoustic monitoring data (PhD Thesis). James Cook University. [Google Scholar]
- Leeb K, Villegas‐Ríos D, Mucientes G, Garci M, Gilcoto M, Alonso‐Fernández A. 2021. Drivers of spatial behaviour of the endangered undulate skate, Raja undulata. Aquat Conserv 31: 3466–3479. [CrossRef] [Google Scholar]
- Lennox RJ, Aarestrup K, Cooke SJ, Cowley PD, Deng ZD, Fisk AT, Harcourt RG, Heupel M, Hinch SG, Holland KN, Hussey NE, Iverson SJ, Kessel ST, Kocik JF, Lucas MC, Flemming JM, Nguyen VM, Stokesbury MJW, Vagle S, VanderZwaag DL. 2017. Envisioning the future of aquatic animal tracking: technology, science, and application. BioScience 67: 884–896. [CrossRef] [Google Scholar]
- Li Z, Wood SN. 2019. Faster model matrix crossproducts for large generalized linear models with discretized covariates. Stat Comput 30: 19–25. [Google Scholar]
- Licandeo RR, Lamilla JG, Rubilar PG, Vega RM. 2006. Age, growth, and sexual maturity of the yellownose skate Dipturus chilensis in the south-eastern Pacific. J Fish Biol 68: 488–506. [CrossRef] [Google Scholar]
- Lowerre-Barbieri SK, Kays R, Thorson JT, Wikelski M. 2019. The ocean's movescape: fisheries management in the bio-logging decade (2018- 2028). ICES J Mar Sci 76: 477–488. [CrossRef] [Google Scholar]
- MacKeracher T, Diedrich A, Simpfendorfer CA. 2018. Sharks, rays and marine protected areas: a critical evaluation of current perspectives. Fish Fisheries 20: 255–267. [Google Scholar]
- Maia C, Serra-Pereira B, Erzini K, Figueiredo I. 2015. How is the morphology of the oviducal gland and of the resulting egg capsule associated with the egg laying habitats of Rajidae species? Environ Biol Fishes 98: 2037–2048. [CrossRef] [Google Scholar]
- Mcphie RP, Campana SE. 2009. Reproductive characteristics and population decline of four species of skate (Rajidae) off the eastern coast of Canada. J Fish Biol 75: 223–246. [CrossRef] [PubMed] [Google Scholar]
- Meyer C, Holland K, Papastamatiou Y. 2007. Seasonal and diel movements of giant trevally Caranx ignobilis at remote Hawaiian atolls: implications for the design of Marine Protected Areas. Mar Ecol Progr Ser 333: 13–25. [CrossRef] [Google Scholar]
- Morales JM, Moorcroft PR, Matthiopoulos J, Frair JL,Kie JG, Powell RA, Merrill EH, Haydon DT. 2010. Building the bridge between animal movement and population dynamics. Philos Trans Royal Soc B: Biol Sci 365: 2289–2301. [CrossRef] [PubMed] [Google Scholar]
- Morfin M, Simon J, Morandeau F, Baulier L, Méhault S, Kopp D. 2019. Using acoustic telemetry to estimate post-release survival of undulate ray Raja undulata (Rajidae) in northeast Altantic. Ocean Coast Manag 178: 104848. [CrossRef] [Google Scholar]
- Nathan R, Getz WM, Revilla E, Holyoak M, Kadmon R, Saltz D, Smouse PE. 2008. A movement ecology paradigm for unifying organismal movement research. Proc Natl Acad Sci 105: 19052–19059. [CrossRef] [PubMed] [Google Scholar]
- Neat F, Pinto C, Burrett I, Cowie L, Travis J, Thorburn J, Gibb F, Wright PJ. 2014. Site fidelity, survival and conservation options for the threatened flapper skate (Dipturus cf. intermedia). Aquat Conserv 25: 6–20. [Google Scholar]
- Papadopoulo K, Villegas-Ríos D, Mucientes G, Hillinger A, Alonso-Fernández A. 2023. Drivers of behaviour and spatial ecology of the small spotted catshark (Scyliorhinus canicula). Aquat Conserv 1–15. [Google Scholar]
- Papastamatiou YP, Friedlander AM, Caselle JE, Lowe CG. 2010. Long-term movement patterns and trophic ecology of blacktip reef sharks (Carcharhinus melanopterus) at Palmyra Atoll. J Exp Mar Biol Ecol 386: 94–102. [CrossRef] [Google Scholar]
- Pardo SA, Kindsvater HK, Reynolds JD, Dulvy NK. 2016. Maximum intrinsic rate of population increase in sharks, rays, and chimaeras: the importance of survival to maturity. Can J Fish Aquat Sci 73: 1159–1163. [CrossRef] [Google Scholar]
- Payne N, Gillanders B, Webber D, Semmens J. 2010. Interpreting diel activity patterns from acoustic telemetry: the need for controls. Mar Ecol Progr Ser 419: 295–301. [CrossRef] [Google Scholar]
- Powell RA. 2000 Animal home ranges and territories and home range estimators. Research techniques in animal ecology: controversies and consequences. New York, NY: Columbia University Press, pp. 65−103. [Google Scholar]
- Prontuario instalaciones [WWW Document]. 2022. http://www.puertos.es. URL https://www.puertos.es/es-es [Google Scholar]
- Queiroz N, Humphries NE, Couto A, Vedor M, da Costa I, Sequeira AMM, Mucientes G, Santos AM, Abascal FJ, Abercrombie DL, Abrantes K, Acuña-Marrero D, Afonso AS, Afonso P, Anders D, Araujo G, Arauz R, Bach P, Barnett A, Bernal D. 2019. Global spatial risk assessment of sharks under the footprint of fisheries. Nature 572: 461–466. [CrossRef] [PubMed] [Google Scholar]
- Santos R, Medeiros-Leal W, Novoa-Pabon A, Crespo O, Pinho M. 2021. Biological Knowledge of Thornback Ray (Raja clavata) from the Azores: improving scientific information for the effectiveness of species-specific management measures. Biology 10: 676. [CrossRef] [PubMed] [Google Scholar]
- Shaw AK. 2020. Causes and consequences of individual variation in animal movement. Movement Ecol 8: 12. [CrossRef] [Google Scholar]
- Simpson SJ, Humphries NE, Sims DW. 2020. The spatial ecology of Rajidae from mark-recapture tagging and its implications for assessing fishery interactions and efficacy of Marine Protected Areas. Fish Res 228: 105569. [CrossRef] [Google Scholar]
- Sousa I, Baeyaert J, Gonçalves JMS, Erzini K. 2019. Preliminary insights into the spatial ecology and movement patterns of a regionally critically endangered skate (Rostroraja alba) associated with a marine protected area. Mar Freshw Behav Physiol 52: 283–299. [CrossRef] [Google Scholar]
- Stehmann M. 1995. A record of Raja clavata, the Eastern Atlantic Thornback Skate, from the southern Madagascar Ridge at Walters Shoal (Elasmobranchii, Rajidae). J Ichthyol 35: 63–73. [Google Scholar]
- Thieurmel B, Elmarhraoui A. 2022. Package "suncalc" Title Compute Sun Position, Sunlight Phases, Moon Position and Lunar Phase. Available from: https://cran.r-project.org/web/packages/suncalc/index.html [accessed 16 April 2023]. [Google Scholar]
- Trenkel VM, Charrier G, Lorance P, Bravington MV. 2022. Close-kin mark-recapture abundance estimation: practical insights and lessons learned. ICES J Mar Sci 79: 413–422. [CrossRef] [Google Scholar]
- Villegas-Ríos D, Alós J, March D, Palmer M, Mucientes G, Saborido-Rey F. 2013. Home range and diel behavior of the ballan wrasse, Labrus bergylta, determined by acoustic telemetry. J Sea Res 80: 61–71. [CrossRef] [Google Scholar]
- Villegas‐Ríos D, Freitas C, Moland E, Thorbjørnsen SH, Olsen EM. 2020. Inferring individual fate from aquatic acoustic telemetry data. Methods Ecol Evol 11: 1186–1198. [CrossRef] [Google Scholar]
- Villegas-Ríos D, Réale D, Freitas C, Moland E, Olsen EM. 2017. Individual level consistency and correlations of fish spatial behaviour assessed from aquatic animal telemetry. Animal Behav 124: 83–94. [CrossRef] [Google Scholar]
- Walker P, Howlett G, Millner R. 1997. Distribution, movement and stock structure of three ray species in the North Sea and eastern English Channel. ICES J Mar Sci 54: 797–808. [CrossRef] [Google Scholar]
- Warwick-Evans V, Ratcliffe N, Lowther AD, Manco F, Ireland L, Clewlow HL, Trathan PN. 2018. Using habitat models for chinstrap penguins Pygoscelis antarcticato advise krill fisheries management during the penguin breeding season. Divers Distrib 24: 1756–1771. [CrossRef] [Google Scholar]
- Whitehead PJP, Baucho ML, Hureau JC, Nielsen J, Tortonese E. 1986. Fishes of the North-eastern Atlantic and the Mediterranean. First edition, UNESCO. [Google Scholar]
- Williams-Grove L, Szedlmayer S. 2016. Acoustic positioning and movement patterns of red snapper, Lutjanus campechanus, around artificial reefs in the northern Gulf of Mexico. Mar Ecol Progr Ser 553: 233–251. [CrossRef] [Google Scholar]
- Wood SN, Goude Y, Shaw S. 2014. Generalized additive models for large data sets. J Royal Stat Soc: Ser C (Applied Statistics) 64: 139–155. [Google Scholar]
- Wood SN, Li Z, Shaddick G, Augustin NH. 2017. Generalized additive models for Gigadata: modeling the U.K. black smoke network daily data. J Am Stat Assoc 112: 1199–1210. [CrossRef] [Google Scholar]
- Xunta de Galicia, Conselleira de Medio Ambiente,Territorio y Vivienda. (27/12/2018). DECRETO 177/2018, de 27 de diciembre, por el que se aprueba el Plan rector de uso y gesti on del Parque Nacional MarítimoTerrestre de las Islas Atlánticas de Galicia. Diario Oficial de Galicia, Num. 34: 9778. Available at: https://www.xunta.gal/dog/Publicados/2019/20190218/AnuncioG0532-280119-0002_es.html [Accessed 23 May 2022]. [Google Scholar]
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