Arxius de Miscel·lània Zoològica. Volume 18 (2020) Pages: 113-121

New records of two uncommon species, Calappa tuerkayana Pastore, 1995 (Decapoda, Calappidae) and Parasquilla ferrussaci (Roux, 1828) (Stomatopoda, Parasquillidae), from the Strait of Sicily (central Mediterranean Sea)

Sardo, G., Geraci, M. L., Scannella, D., Falsone, F., Vitale, S.

DOI: https://doi.org/10.32800/amz.2020.18.0113

Download

PDF

Keywords

Shamefaced crabs, Mantis shrimp, Trawl fisheries, Spatial distribution, Crustacean

Cite

Sardo, G., Geraci, M. L., Scannella, D., Falsone, F., Vitale, S., 2020. New records of two uncommon species, Calappa tuerkayana Pastore, 1995 (Decapoda, Calappidae) and Parasquilla ferrussaci (Roux, 1828) (Stomatopoda, Parasquillidae), from the Strait of Sicily (central Mediterranean Sea). Arxius de Miscel·lània Zoològica, 18: 113-121, DOI: https://doi.org/10.32800/amz.2020.18.0113

Reception date:

18/06/2020

Acceptation date:

15/09/2020

Publication date:

21/09/2020

Share

Visits

1720

Downloads

372

Abstract

New records of two uncommon species, Calappa tuerkayana Pastore, 1995 (Decapoda, Calappidae) and Parasquilla ferrussaci (Roux, 1828) (Stomatopoda, Parasquillidae), from the Strait of Sicily (central Mediterranean Sea)

The shamefaced crab Calappa tuerkayana Pastore, 1995 and the mantis shrimp Parasquilla ferussaci (Roux, 1828) are two crustacean species rarely reported in the Mediterranean Sea. In December 2018, two specimens of C. tuerkayana and one specimen of P. ferussaci were collected on a soft bottom at about 132 and 145 m depth during a trawl survey off Mazara del Vallo harbour (Strait of Sicily). This note reports the northernmost record of C. tuerkayana in the Strait of Sicily and confirms the occurrence of P. ferussaci in the same area. An update of the spatial distribution of these crustacean species in the Mediterranean Sea is also presented.

Key words: Shamefaced crabs, Mantis shrimp, Trawl fisheries, Spatial distribution, Crustacean

Resumen

Nuevos registros de dos especies raras, Calappa tuerkayana Pastore, 1995 (Decapoda, Calappidae) y Parasquilla ferrussaci (Roux, 1828) (Stomatopoda, Parasquillidae), del canal de Sicilia (Mediterráneo central)

El cangrejo calápido Calappa tuerkayana (Pastore, 1995) y la galera Parasquilla ferussaci (Roux, 1828) son dos especies de crustáceos escasamente reportadas en el mar Mediterráneo. En noviembre de 2018 se recolectaron dos ejemplares de C. tuerkayana y un ejemplar de P. ferussaci (Roux, 1828) en un estudio realizado mediante pesca de arrastre en aguas de Mazara del Vallo (canal de Sicilia), sobre un fondo blando a una profundidad aproximada de 132 y 145 m, respectivamente. Este trabajo refiere el registro más septentrional de C. tuerkayana en el canal de Sicilia y confirma la presencia de P. ferussaci en esta misma área. Presenta asimismo una actualización de la distribución de estas especies de crustáceos en el mar Mediterráneo.

Palabras clave: Calappidae, Galeras, Pesca de arrastre, Distribución espacial, Crustáceos

Resum

Nous registres de dues espècies rares, Calappa tuerkayana Pastore, 1995 (Decapoda, Calappidae) i Parasquilla ferrussaci (Roux, 1828) (Stomatopoda, Parasquillidae), del canal de Sicília (Mediterrani central).

El cranc calàpid Calappa tuerkayana (Pastore, 1995) i la galera Parasquilla ferussaci (Roux, 1828) són dues espècies de crustacis escassament reportades al mar Mediterrani. El mes de novembre de 2018 es van recol·lectar dos exemplars de C. tuerkayana i un exemplar de P. ferussaci (Roux, 1828) en un estudi fet mitjançant pesca d’arrossegament en aigües de Mazara del Vallo (canal de Sicília), sobre un fons tou a una profunditat aproximada de 132 i 145 m, respectivament. Aquest treball refereix el registre més septentrional de C. tuerkayana al canal de Sicília i confirma la presència de P. ferussaci en aquesta mateixa àrea. També presenta una actualització de la distribució d’aquestes espècies de crustacis al mar Mediterrani.

Paraules clau: Calappidae, Galeres, Pesca d’arrossegament, Distribució espacial, Crustacis

Introduction

Crustacean species are among the most economically important seafood products (Okpala et al., 2016; Scannella et al., 2017; Vitale et al., 2018a, 2018b) but some species within the Decapods and Stomatopods have little or no commercial significance and their biology and distribution are poorly understood (Swaby and Potts, 1990). In particular, little is known about the geographical distribution of the shamefaced crab Calappa tuerkayana Pastore, 1995 and the mantis shrimp Parasquilla ferussaci (Roux, 1828). C. tuerkayana is a decapod of the genus Calappa Weber, 1795. This genus consists of 46 species (WoRMS, 2020) distributed along the soft bottoms of tropical and subtropical shallow waters (Garcia, 2002; Spanò et al., 2004; Dulčić and Tutman, 2012). In particular, three species of this calappid crab genus have been recorded in the Strait of Sicily, namely: C. granulata (Linnaeus, 1758), C. rosea Jarocki, 1825 and C. tuerkayana Pastore, 1995. Among these, C. granulata is the most common and widely distributed species (Pipitone et al., 2018) whereas C. tuerkayana and C. rosea are uncommon species with only few specimens recorded in the Sicily-Malta channel (Pipitone et al., 2018) and eastward of Kerkenah Island (Spanò et al., 2004), respectively. Essentially, C. tuerkayana has a carapace not much wider than long, with the antero-lateral edge nearly even and the postero-lateral edge that has 7-8 thorny processes, increasing in size in a backward direction (Pastore, 1995). This crab species can be differentiated from granulata and C. rosea by the pigmentation of the carapace, which is rust-coloured with red bands on epigastric, urogastric and cardiac regions, and deep carapace grooves on either side of the epigastric-cardiac-urogastric region (Pastore, 1995; Pipitone and Vaccaro, 2011; Spanò et al., 2004). On the other hand, P. ferussaci is a stomatopod belonging to the genus Parasquilla (Manning, 1995). This mantis shrimp is considered a rare species (Irmak et al., 2008; Corsini-Foka and Pancucci-Papadopoulou, 2012) recorded in the Eastern Atlantic from the Gulf of Guinea to the Gulf of Cadiz and the northern coasts of Portugal as well as the Mediterranean Sea (Irmak et al., 2008; Kapiris and Apostolidis in Zenodos et al., 2015). In particular, P. ferussaci is characterized by a carapace that narrows markedly anteriorly, lacking carinae, except for reflected marginals and a short irregular posterior portion of each lateral carina, while the telson is broader than long, with three pairs of marginal teeth (Manning, 1977), and lacking the two dark brown oval spots surrounded by a white ring, similar to eyes, typical of Squilla mantis. Importantly, P. ferussaci seems to be the only species of genus Parasquilla recorded in the Strait of Sicily. The present note reports a new record of C. tuerkayana and confirms the occurrence of P. ferussaci in the Strait of Sicily, providing an up-to-date geographical distribution of these uncommon species in the Mediterranean basin.

Material and methods

On December 2018, two specimens of C. tuerkayana (trawl haul point: 37º 33′ 634” N, 12º 24′ 193” E) and one specimen of P. ferussaci (trawl haul point: 37º 28′ 915” N, 12º 27′ 43” E) were collected during an experimental trawl survey within the Research flagship project (RITMARE) off Mazara del Vallo harbour (Strait of Sicily) at about 132 and 145 m depth (fig. 1), respectively.

Fig. 1. Maps with known distribution of Calappa tuerkayana (A) and Parasquilla ferussaci (B) in the Mediterranean. Specific records include: blue circles (Pipitone et al., 2018); triangles in blue (Irmak et al., 2008), violet (Colmenero, 2009), red (Steudel and Dounas, 1994), green (Corsini-Foka and Pancucci-Papadopoulou, 2012), yellow (Castriota et al., 2004) and orange (Kapiris and Apostolidis, 2015). Red stars indicate the records of current study. Fig. 1. Mapas en los que se indica la distribución conocida de Calappa tuerkayana (A) y Parasquilla ferussaci (B) en el Mediterráneo. Incluyen los registros específicos siguientes: círculos azules (Pipitone et al., 2018), triángulos azules (Irmak et al., 2008), triángulo violeta (Colmenero, 2009), triángulo rojo (Steudel y Dounas, 1994), triángulo verde (Corsini-Foka y Pancucci-Papadopoulou, 2012), triángulo amarillo (Castriota et al., 2004) y triángulo naranja (Kapiris y Apostolidis, 2015). Las estrellas rojas indican los registros de este estudio.

 

Thereafter, specimens (fig. 2) were transported to the laboratory of IRBIM-CNR in Mazara del Vallo where biometric data were collected. Specifically, individuals were photographed, weighed (accuracy 0.1 g) and measured. Measurements were carapace length (CL, distance between the centre of the anterior interorbital margin and the centre of the posterior margin, excluding the rostral plate for P. ferussaci) and carapace width (CW, maximal distance between the posterior anterolateral spines, carapace at its widest point for P. ferussaci) using callipers to the lowest millimetre. Total length (TL, distance between the anterior edge of the rostral plate and posterior extremity of the telson) was recorded only for the single individual of P. ferussaci. The specimens of C. tuerkayana were identified according to the descriptions provided by Pastore (1995) and d’Udekem d’Acoz (2001) whereas the specimen of P. ferussaci was identified according to Manning (1977). The sexual maturity of P. ferussaci was defined according to Mori et al. (1998). Furthermore, according to the available literature, an up-to-date geographical distribution of these uncommon species in the Mediterranean basin was mapped using Quantum GIS software (QGIS, 2020).

Fig. 2. C. tuerkayana Pastore, 1995: A, dorsal view; B, posterior view of carapace. P. ferussaci (Roux, 1828): C, dorsal view. Fig. 2.. C. tuerkayana Pastore, 1995: A, vista dorsal; B, vista posterior del caparazón. P. ferussaci (Roux, 1828): C, vista dorsal.

 

Table 1 shows biometric data from measurements of C. tuerkayana and P. ferussaci specimens. Visual identification showed that both individuals of C. tuerkayana are males, of 42 and 31 mm CW and 37 and 27 mm CL, respectively (fig. 2A, 2B). The morphology of both individuals of C. tuerkayana was in agreement with the description presented by Pastore (1995) and d’Udekem d’Acoz (2001). As for weight, specimens of C. tuerkayana weighed 25 and 11 g, respectively. Regarding P. ferussaci, the specimen was a male with 23 mm of CL, 119 mm of TL and weighed 12 g (fig. 2C). The specimen of P. ferussaci was ascribed as a mature male; according to Mori et al. (1998), the estimated size at which P. ferussaci reaches first maturity is 20 mm CL whereas the morphological characteristics were in agreement with the description provided by Manning (1977).

Table 1. Basic biometric measures of Calappa tuerkayana and Parasquilla ferussaci collected in the Strait of Sicily: CL, carapace length; CW, carapace width; TL, total length; W, weight. Tabla 1. Medidas biométricas básicas de Calappa tuerkayana y Parasquilla ferussaci recolectados en el canal de Sicilia: CL, longitud del caparazón; CW, ancho del caparazón; TL, longitud total; W, peso.

Discussion

Although the general appearance of C. tuerkayana may seem similar to other congeneric species, the features which allow its recognition can be found in the colour, morphology of the body, and the size of the specimens (Garcia, 2002; Spanò et al., 2004). Thus, the biometric measures and morphology of both specimens of the current study differed from the general characters of C. granulata. Specifically, the carapace of C. granulata is wider and the shell tubercula are flatter than those of C. tuerkayana. Moreover, the specimens of C. tuerkayana in the current study showed a carapace coloration with a crimson pattern and paler beige areas , chelae were brownish and the ventral area appears reddish-coloured whereas the colour patterns of C. granulata carapace is yellowish with scarlet spots are arranged regularly (Garcia, 2002). Indeed, the fresh specimens allowed a detailed description of the colour patterns of the individuals, providing a better distinction from other species of the genus Calappa. Little is known about habitat and geographical distribution of C. tuerkayana within the Mediterranean Sea. Specifically, the few previous studies reported the occurrence of C. tuerkayana on coarse detritus bottoms off western Libya (Pipitone et al., 2018), soft bottoms of Monte Argentario (Vignoli et al., 2004), and seagrass meadows of Ustica Island (Pipitone and Vaccaro, 2011) at a depth ranging from 10 up to 105 m. Moreover, the record in the Balearic Islands (Garcia, 2002) represents the westernmost occurrence of C. tuerkayana in the Mediterranean Sea while in the Levantine basin it is unreported (fig. 2A). The specimens of C. tuerkayana caught on the soft bottoms of the Adventure bank at a depth of 132 m confirmed this crab species as eurybathic and fitted well with the pattern of distribution in the central Mediterranean Sea showed by Pipitone et al. (2018). In particular, the C. tuerkayana specimens in the current study represented the northernmost as well as the deepest record of this species in the Strait of Sicily.

Regarding P. ferussaci, the biological knowledge of this crustacean species is scanty as little information is available regarding size at maturity, sexual dimorphism, growth (Mori et al., 1998) and feeding strategy (i.e. epibenthic predator) (Colmenero et al., 2009; Kapiris and Apostolidis in Zenotos et al., 2015). The distribution of P. ferussaci in the Mediterranean Sea takes place on the sandy/muddy habitats along the continental shelf and slope of the western basin (fig. 2B) at depths around 50 up to 700 m (Abelló et al., 1993-1994; Colmenero et al., 2009; Kapiris and Apostolidis in Zenotos et al., 2015). In addition, the records of this rare species on the soft bottoms of the Aegean Sea and eastern coasts of Rhodes Island at depths between 50 and 200 m suggest that its occurrence can extend to the Levantine basin of the Mediterranean Sea (Irmak et al., 2008; Corsini-Foka and Pancucci-Papadopuolou, 2012; Kapiris and Apostolidis in Zenotos et al., 2015). To the best of our knowledge, the first record of P. ferussaci in the Strait of Sicily was reported in the Talbot bank by Pipitone and Tumbiolo (1992) (fig. 2A) and no other specimens have since been recorded. The present specimen was caught in a fishing ground locally known as ‘Gigibau’, a few miles away from Talbot bank. In particular, Gigibau is an area of about 500 km2 with a depth range of between 100 and 170 m, 10 nautical miles (SW) from Mazara del Vallo equally characterized by two different biocenoses namely: coastal detritus (DC) and coastal terrigenous mud (VTC) (Garofalo et al., 2004). Our record confirms the occurrence of this species eighteen years after its last record in an area of the Strait of Sicily where fishing activity targeting the deep-water rose shrimp is high (Parapenaeus longirostris Lucas, 1846) (Russo et al., 2019; Sardo et al., 2020). The present study contributes to improving the extant spatial distribution knowledge of these uncommon species in the Mediterranean Sea. However, the occurrence of C. tuerkayana and P. ferussaci species in the Mediterranean Sea might be underestimated. Indeed, according to Pipitone et al. (2018) and Spanò et al. (2004), the habitat of C. tuerkayana overlaps that of other congeneric species with very similar morphology; new molecular evidence indicates that C. tuerkayana could represent the juvenile stage of C. granulata (Marco-Herrero et al., 2015). Regarding P. ferussaci, the paucity of records, as already supposed for other rare species, might be explained either by the absence of commercial interest (i.e. discarded species) (Swaby and Potts, 1990), and by a lack of adequate sampling methods (Falsone et al., 2017) and ad hoc research project (Geraci et al., 2019). Finally, closer collaboration with commercial fishing activities is of increasing priority to improve knowledge about the spatial distribution and the biological features of this rare crustacean species.

Acknowledgements

Funding support from the Research flagship project RITMARE is thankfully appreciated.

References

Abelló, P., Pretus, J. L., Corbera, J., 1993-1994. Occurrence and distribution of some stomatopod crustaceans in the western Mediterranean. Miscel·lània Zoològica, 17: 107-113.
Castriota, L., Falautano, M., Romeo, T., Florio, J., Pelusi, P., Finoia, M. G., Andaloro, F., 2004. Crustacean fishery with bottom traps in an area of the southern Tyrrhenian Sea: species composition, abundance and biomass. Mediterranean Marine Science, 5(2): 15-22.
Colmenero, A. I., Raso, J. G., Abelló, P., 2009. New records of Parasquilla ferussaci (Roux, 1830) (Crustacea, Stomatopoda) from the Eastern Atlantic and Western Mediterranean. Arxius de Miscel·lània Zoològica, 7: 72-77, Doi: 10.32800/amz.2009.07.0072
Corsini-Foka, M., Pancucci-Papadopoulou, M. A., 2012. Inventory of Crustacea Decapoda and Stomatopoda from Rhodes island (Eastern Mediterranean Sea), with emphasis on rare and newly recorded species. Journal of Biological Research, 18: 359-371.
d’Udekem d’Acoz, C., 2001. Remarks on the genera Balssia Kemp, 1922 and Acanthonyx Latreille, 1828 in the Azores, and first record of Calappa tuerkayana Pastore, 1995 (Crustacea, Decapoda) in the Atlantic Ocean. Arquipelago, 18A: 53-59.
Dulčić, J., Tutman, P., 2012. Northernmost record of the shamefaced crab Calappa granulata (Linnaeus, 1767) (Brachyura, Calappidae) in the Mediterranean area. Crustaceana, 85(4-5): 601-606, Doi: 10.1163/156854012X636751
Falsone, F., Geraci, M. L., Scannella, D., Okpala, C. O. R., Giusto, G. B., Bosch-Belmar, M., Bono, G., 2017. Occurrence of two rare species from order Lampriformes: Crestfish Lophotus lacepede (Giorna, 1809) and scalloped ribbonfish Zu cristatus (Bonelli, 1819) in the northern coast of Sicily, Italy. Acta Adriatica, 58(1): 137–146, Doi: 10.32582/aa.58.1.11
Garcia, L., 2002. Presència de Calappa tuerkayana Pastore, 1995 (Decapoda: Brachyura: Calappidae) en el Mediterrani Occidental. Presence of Calappa tuerkayana Pastore, 1995 (Decapoda: Brachyura: Calappidae) on the Western Mediterranean Sea. Bolletí de la Societat d’Història Natural de les Balears, 45: 217-223.
Garofalo, G., Gristina, M., Toccaceli, M., Giusto, G. B., Rizzo, P., Sinacori, G., 2004. Geostatistical modelling of biocenosis distribution in the Strait of Sicily. GIS/Spatial Analyses in Fishery and Acquatic Science, 2: 241-250.
Geraci, M. L., Di Lorenzo, M., Falsone F., Scannella, D., Di Maio, F., Colloca, F., Vitale, S., Serena, F., 2019. The occurrence of Norwegian skate, Dipturus nidarosiensis (Elasmobranchii: Rajiformes: Rajidae), in the Strait of Sicily, central Mediterranean. Acta Ichthyologica et Piscatoria, 49(2): 203-208, Doi: 10.3750/aiep/02566
Irmak, E., Özcan, T., Katağan, T., , 2008. First record of Parasquilla ferussaci (Roux, 1828) (Stomatopoda, Parasquillidae) from the Turkish coasts. Crustaceana, 81(10): 1254-1257, Doi: 10.1163/156854008X374577
Kapiris, K., Apostolidis, C., 2015. First record of Parasquilla ferussaci (Roux, 1830) (Stomatopoda, Pseudosquillidae) in the Northern Aegean Sea. In:  New Mediterranean Biodiversity Records (April 2015): 271 (Zenetos et al., Eds.). Mediterranean Marine Science, 16(1): 266-284, Doi: 10.12681/mms.1292
Manning, R. B., 1977. A monograph of the West African Stomatopod Crustacea. Atlantide Report, 12: 25-181.
Marco-Herrero, E., Abelló, P., Drake, P., García-Raso, J. E., González-Gordillo, J. I., Guerao, G., Palero, F., Cuesta, J. A., 2015. Annotated checklist of brachyuran crabs (Crustacea: Decapoda) of the Iberian Peninsula (SW Europe). Scientia Marina, 79(2): 243-256, Doi: 10.3989/scimar.04161.27A
Mori, M., Comes, A., De Ranieri, S., 1998. Relative growth and diet of Parasquilla ferussaci (Roux) (Crustacea, Stomatopoda). Bollettino dei Musei e degli Istituti Biologici dell’Universitá di Genova, 62–63: 47-56.
Okpala, C. O. R., Bono, G., Geraci, M. L., Sardo, G., Vitale, S., Schaschke, C. J., 2016. Lipid oxidation kinetics of ozone-processed shrimp during iced storage using peroxide value measurements. Food Bioscience, 16: 5-10, Doi: 10.1016/j.fbio.2016.07.005
Pastore, M., 1995. The genus Calappa in the Ionian Sea. Oebalia, 21: 187-196. Pipitone, C., Tumbiolo, M. L., 1992. Decapod and stomatopod crustaceans from the trawlable bottoms of the Sicilian Channel (Central Mediterranean Sea). Crustaceana, 65(3): 358-364, Doi: 10.1163/156854093X00784
Pipitone, C., Vaccaro, A. M., 2011. Crustacea Decapoda from Ustica (southern Tyrrhenian Sea): species distribution in different habitats and sampling approach. In: Atti IX Colloquium Crustacea Mediterranea: 413-434 (D. Pessani, T. Tirelli, C. Froglia, Eds.). Torino, 2-6 September 2008, Italy.
Pipitone, C., Insacco, G., Massi, D., Zava, B., 2018. New records of Calappa tuerkayana Pastore, 1995 (Brachyura, Calappidae) from the central Mediterranean. Acta Adriatica: International Journal of Marine Sciences, 59(2): 213-217, Doi: 10.32582/aa.59.2.6
QGIS Development Team, 2020. QGIS Geographic Information System. Open Source Geospatial Foundation Project, http://qgis.osgeo.org
Russo, T., Carpentieri, P., D’Andrea, L., De Angelis, P., Fiorentino, F., Franceschini, S., Garofalo, G., Labanchi, L., Parisi, A., Scardi, M., Cataudella, S., 2019. Trends in effort and yield of trawl fisheries: a case study from the Mediterranean Sea. Frontiers in Marine Science, 6: 153, Doi: 10.3389/fmars.2019.00153
Sardo, G., Okpala, C. O. R., Geraci, M. L., Fiorentino, F., Vitale, S., 2020. The effects of different artificial light wavelengths on some behavioural features of juvenile pelagic Atlantic horse mackerel, Trachurus trachurus (Actinopterygii: Perciformes: Carangidae). Acta Ichthyologica et Piscatoria, 50(1), Doi: 10.3750/AIEP/02709
Scannella, D., Falsone, F., Geraci, M. L., Froglia, C., Fiorentino, F., Giusto, G. B., Zava, B., Insacco, G., Colloca, F., 2017. First report of Northern brown shrimp Penaeus aztecus Ives, 1891 in Strait of Sicily. BioInvasions Record, 6(1): 67–72,  Doi: 10.3391/bir.2017.6.1.11
Spanò, N., Bono, G., Ragonese, S., 2004. On the occurrence of the shamefaced crabs Calappa granulata and C. rissoana (Decapoda: Brachyura) in the Strait of Sicily (central Mediterranean Sea). Vie et milieu, 54(4): 249-250.
Steudel, C., Dounas, C., 1994. Stomatopod Crustacea from the island of Crete. Crustaceana, 66(2): 252-254, Doi: https://doi.org/10.1163/156854094X00747
Swaby, S. E, Potts, G. W., 1990. Rare marine fishes-identification and conservation. Journal of Fish Biology, 37(Suppl. A): 133–143.
World Register of Marine Species (WoRMS), 2020. Calappa Weber, 1795. Downloaded at: http://www.marinespecies.org/aphia.php?p=taxdetails&id=106873 [Accessed on 27 July 27 2020].
Vignoli, V., Caruso, T., Falciai, L., 2004. Decapoda Brachyura from Monte Argentario (Mediterranean Sea, central Tyrrhenian). Crustaceana, 77: 177-186, https://www.jstor.org/stable/20105695
Vitale, S., Enea, M., Milisenda, G., Gancitano, V., Geraci, M. L., Falsone, F., Bono, G., Fiorentino, F., Colloca, F., 2018a. Modelling the effects of more selective trawl nets on the productivity of European hake (Merluccius merluccius) and deep-water rose shrimp (Parapenaeus longirostris) stocks in the Strait of Sicily. Scientia Marina, 82(S1): 199-208, Doi: 10.3989/scimar.04752.03A
Vitale, S., Milisenda, G., Gristina, M., Baiata, P., Bonanomi, S., Colloca, F., Gancitano, V., Scannella, D., Fiorentino, F., Sala, A., 2018b. Towards more selective Mediterranean trawl fisheries: are juveniles and trash excluder devices effective tools for reducing undersized catches? Scientia Marina, 82(S1): 215-223, Doi: 10.3989/scimar.04751.28A
Ζenetos, Α., Akel, E., Apostolidis, C., Bilecenoglu, M., Bitar, G., Buchet, V., Chalari, N., Corsini-Foka, M., Crocetta, F., Dogrammatzi, A., Drakulić, M., Fanelli, G., Giglio, G., Imsiridou, A., Kapiris, K., Pkarachle, P., Kavadas, S., Kondylatos, G., Lefkaditou, E., Lipej, L., Mavrič, B., Minos, G., Moussa, R., Pancucci-Papadopoulou, M., Prato, E., Renda, W., Ríos, N., Rizkalla, S., Russo, F., Servonnat, M., Siapatis, A., Sperone, E., Theodorou, J., Tiralongo, F., Tzovenis, I., 2015. New Mediterranean Biodiversity Records (April 2015). Mediterranean Marine Science, 16(1): 266-284, Doi: 10.12681/mms.1292

 


Content appears on: