High bycatch rate of the coral Cladocora caespitosa offsets the low discards ratio in Thermaikos Gulf gillnet fishery


KONSTANTINOS GANIAS
https://orcid.org/0000-0002-4035-9216
AIKATERINI ZAFEIRIADOU
MARIA GARAGOUNI
CHRYSSANTHI ANTONIADOU
Resumen

While hanging nets may have fewer overall environmental impacts than towed gears, they still catch unwanted species and sizes, which are then discarded. Gillnets are one of the most common types of nets used in Mediterranean small-scale fisheries, with commercial catches and discards containing a diverse range of fish and invertebrate species. In this study, the catch profile of gillnets in the Thermaikos Gulf (NE Mediterranean) was analyzed with a focus on the discarding of species with unfavorable conservation status, such as the Mediterranean-endemic scleractinian coral Cladocora caespitosa, which is listed as endangered due to declining population sizes. Our survey was conducted over two seasons (May to October in 2020 and 2021) and included 69 fishing trials under realistic fishing conditions. In general, gillnets exhibited a relatively low discards ratio (17.2%; 7.1% when only fish were considered) and a low prevalence and capture intensity of endangered or threatened species; during the entire survey, only one chondrichthyan was captured (1 specimen of Raja radula), while only two out of 54 fish species were of vulnerable IUCN status. These advantages were offset in part by the high catchability of C. caespitosa colonies, which occurred in 61% of hauls and accounted for 53% of total invertebrate biomass and 30% of total discarded biomass. The likelihood of hauling living colonies of C. caespitosa was higher when fishing over known coral beds (81% vs. 43%), and the overall probability of hauling C. caespitosa in any state was 18% higher over coral beds, suggesting that gillnets frequently detach colonies from the seafloor, which are then dispersed over a larger area as fragments with probably low survival potential. Our findings highlight the importance of identifying C. caespitosa beds so that fishermen avoid setting their nets in these areas, provided that they are well-informed and educated about the ecological significance of this endemic, threatened, and ecologically important species.

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Bavestrello, G., Cerrano, C., Zanzi, D., Cattaneo-Vietti, R., 1997. Damage by fishing activities to the Gorgonian coral Paramuricea clavata in the Ligurian Sea. Aquatic Conservation, 7, 253-262.
Buhl-Mortensen, L., Vanreusel, A., Gooday, A.J., Levin, L.A., Priede, I.G. et al., 2010. Biological structures as a source of habitat heterogeneity and biodiversity on the deep ocean margins: biological structures and biodiversity. Marine Ecology, 31 (1), 21-50.
Chefaoui, R.M., Casado-Amezúa, P., Templado, J., 2017 Environmental drivers of distribution and reef development of the Mediterranean coral Cladocora caespitosa. Coral Reefs, 36, 1195-1209.
Dias, V., Oliveira F., Boavida, J., Serrão E.A., Gonçalves, J. M. et al., 2020. High coral bycatch in bottom-set gillnet coastal fisheries reveals rich coral habitats in Southern Portugal. Frontiers in Marine Science, 7, 603438.
Erzini, K., Gonçalves, J.M.S., Bentes, L., Moutopoulos, D.K., Casal, J.A.H. et al., 2006. Size selectivity of trammel nets in southern European small-scale fisheries. Fisheries Research, 79 (1-2), 183-201.
Garrabou, J., Coma, R., Bensoussan, N., Bally, M., Chevaldonné, P. et al., 2009. Mass mortality in Northwestern Mediterranean rocky benthic communities: effects of the 2003 heat wave. Global Change Biology, 15 (5), 1090-1103.
Garrabou, J., Gómez-Gras, D., Medrano, A., Cerrano, C., Ponti, M. et al., 2022. Marine heatwaves drive recurrent mass mortalities in the Mediterranean Sea. Global Change Biology, 28, 5708-5725.
Garagouni, M., Avgerinou, G., Mouchlianitis, F.A., Minos, G., Ganias, K., 2022. Questionnaire and experimental surveys show that dolphins cause substantial losses to a gillnet fishery in the eastern Mediterranean Sea. ICES Journal of Marine Science, 79, 2552-2561.
Garagouni, M., Ganias, K., 2023. Prey selection patterns of bottlenose dolphins depredating bottom-set gillnets in the Northern Aegean. Marine Ecology Progress Series, 710, 125-135.
Ganias, K., Christidis, G., Kompogianni, I.F., Simeonidou, X., Voultsiadou, E. et al., 2021. Fishing for cuttlefish with traps and trammel nets: A comparative study in Thermaikos Gulf, Aegean Sea. Fisheries Research, 234, 105783.
Georgiadis, M., Papatheodorou, G., Tzanatos, E., Geraga, M., Ramfos, A. et al., 2009. Coralligène formations in the eastern Mediterranean Sea: Morphology, distribution, mapping and relation to fisheries in the southern Aegean Sea (Greece) based on high-resolution acoustics. Journal of Experimental Marine Biology and Ecology, 368 (1), 44-58.
Ingrosso, G., Abbiati, M., Badalamenti, F., Bavestrello, G., Belmonte, G. et al., 2018. Mediterranean Bioconstructions Along the Italian Coast. Advances in Marine Biology, 79, 61-136.
Jiménez, C., Hadjioannou, L., Petrou, A., Nikolaidis, A., Evriviadou, M. et al., 2016. Mortality of the scleractinian coral Cladocora caespitosa during a warming event in the Levantine Sea (Cyprus). Regional Environmental Change, 16, 1963-1973.
Kersting, D.K., Linares, C., 2019. Living evidence of a fossil survival strategy raises hope for warming-affected corals. Science Advances, 5, eaax2950.
Kersting, D.K., Casado, C., López-Legentil, S., Linares, C., 2013. Unexpected patterns in the sexual reproduction of the Mediterranean scleractinian coral Cladocora caespitosa. Marine Ecology Progress Series, 486, 165-171.
Kersting, D.K., Casado-Amezua, P., Goffredo, S., 2022. Cladocora caespitosa. The IUCN Red List of Threatened Species e.T133142A165739749.
Koukouras, A., Kühlmann, D., Voultsiadou, E., Vafidis, D., Dounas, C. et al., 1998. The macrofaunal assemblage associated with the scleractinian coral Cladocora caespitosa (L.) in the Aegean Sea. Annales de l’Institute Océanographique, 74, 97-114.
Kružić, P., Benković, L., 2008. Bioconstructional features of the coral Cladocora caespitosa (Anthozoa, Scleractinia) in the Adriatic Sea (Croatia). Marine Ecology, 29, 125-139.
Kružić, P., Požar-Domac, A., 2003. Banks of the coral Cladocora caespitosa (Anthozoa, Scleractinia) in the Adriatic Sea. Coral Reefs, 22, 536-536.
Lirman, D., 2000. Fragmentation in the branching coral Acropora palmata (Lamarck): growth, survivorship, and reproduction of colonies and fragments. Journal of Experimental Marine Biology and Ecology, 251, 41-57.
López-Márquez, V., Lozano-Martín, C., Hadjioannou, L., Acevedo, I., Templado, J. et al., 2021. Asexual reproduction in bad times? The case of Cladocora caespitosa in the eastern Mediterranean Sea. Coral Reefs, 40, 663-677.
Mouchlianitis, F.-A., Garagouni, M., Ganias, K., Minos, G., 2022. Catching size and reproductive state of the most common fishes caught by gillnets in the small-scale fishery of Thermaikos Gulf. Proceedings of the 18th Ichthyologists Conference, Mesologgi, Greece 3-6 Novermber 2022, 175-179.
Otero, M.M., Numa, C., Bo, M., Orejas, C., Garrabou, J. et al., 2017. Overview of the conservation status of Mediterranean anthozoans. IUCN, Malaga, Spain. 73 pp.
Pitacco, V., Chatzigeorgiou, G., Mikac, B., Lipej, L., 2021. Ecological patterns of polychaete assemblages associated with the Mediterranean stony coral Cladocora caespitosa (Linnaeus, 1767): a comparison of sites in two biogeographic zones (Adriatic and Aegean Sea). Mediterranean Marine Science, 22, 532-551.
Shester, G.G., Micheli, F., 2011 Conservation challenges for small-scale fisheries: Bycatch and habitat impacts of traps and gillnets. Biological Conservation, 144, 1673-1681.
Suuronen, P., Chopin, F., Glass, C., Løkkeborg, S., Matsushita, Y. et al., 2012. Low impact and fuel efficient fishing- Looking beyond the horizon. Fisheries Research, 119- 120, 135-146.
Tzanatos, E., Georgiadis, M., Peristeraki, P., 2020. Small-Scale Fisheries in Greece: Status, Problems, and Management. p. 125-150. In: Pascual-Fernández, J., Pita, C., Bavinck, M. (Eds). Small-Scale Fisheries in Europe: Status, Resilience and Governance. MARE Publication Series, vol 23., Springer, Cham.
Tzanatos, E., Somarakis, S., Tserpes, G., Koutsikopoulos, C., 2007. Discarding practices in a Mediterranean small-scale fishing fleet (Patraikos Gulf, Greece). Fisheries Management and Ecology, 14 (4), 277-285.
Uhlmann, S.S., Broadhurst, M.K., 2015. Mitigating unaccounted fishing mortality from gillnets and traps. Fish and Fisheries, 16 (2), 183-229.
Vafidis, D., Koukouras, A., Voultsiadou-Koukoura, E., 1997. Actiniaria, Corallimorpharia, and Scleractinia (Hexacorallia, Anthozoa) of the Aegean Sea, with a checklist of the eastern Mediterranean and Black Sea species. Israel Journal of Zoology, 43 (1), 55-70.
Villasante, S., Antelo, M., Christou, M., Fauconnet, L., Frangoudes, K. et al., 2019. The implementation of the landing obligation in small-scale fisheries of southern European Union countries. p. 89-108. In: Uhlmann, S., Ulrich, C., Kennelly, S. (Eds). The European Landing Obligation: Reducing discards in complex multi-species and multi-jurisdictional fisheries. Springer, Cham.
Voultsiadou, E., Fryganiotis, C., Porra, M., Damianidis, P., Chintiroglou, C., 2011. Diversity of Invertebrate Discards in Small and Medium Scale Aegean Sea Fisheries. The Open Marine Biology Journal, 5, 73-81.
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