Ziphius cavirostris (Mediterranean subpopulation) 

Scope: Global
Language: English

Translate page into:

Taxonomy [top]

Kingdom Phylum Class Order Family
Animalia Chordata Mammalia Cetartiodactyla Ziphiidae

Scientific Name: Ziphius cavirostris (Mediterranean subpopulation)
Parent Species:
Common Name(s):
English Cuvier’s Beaked Whale
French Baleine de Cuvier, Ziphius
Spanish Zifio de Cuvier

Assessment Information [top]

Red List Category & Criteria: Data Deficient ver 3.1
Year Published: 2012
Date Assessed: 2006-03-05
Needs updating
Assessor(s): Cañadas, A.
Reviewer(s): Aguilar, A., Bearzi, G., Birkun, A., Donovan, G., Fortuna, C., Gaspari, S., Hammond, P., Natoli, A., Notarbartolo di Sciara, G., Perrin , W., Reeves, R., de Stephanis, R. & Taylor, B.L.
Appropriate data on distribution, population structure and abundance in the Mediterranean basin are lacking, except for a very limited areas. Also, the species’ biology is very poorly known. The status of Cuvier’s Beaked Whale in the Mediterranean is therefore impossible to assess on the currently available evidence.

Geographic Range [top]

Range Description:Cuvier’s Beaked Whales inhabit both the western and eastern basins of the Mediterranean (Notarbartolo di Sciara 2002). Much of the current knowledge of this species in the Mediterranean has come from stranding data. Strandings have been reported in Albania, Algeria, Croatia, Egypt, France, Greece, Israel, Italy, Malta, Spain and Turkey (Podestà et al. 2006). Appropriate data on distribution in the Mediterranean basin are lacking, except for a very limited areas.
Countries occurrence:
Albania; Algeria; Croatia; France; Gibraltar; Greece; Israel; Italy; Monaco; Spain; Turkey
FAO Marine Fishing Areas:
Mediterranean and Black Sea
Additional data:
Range Map:Click here to open the map viewer and explore range.

Population [top]


Strandings have been reported in Albania, Algeria, Croatia, Egypt, France, Greece, Israel, Italy, Malta, Spain and Turkey, totalling 316 animals (Podestà et al. 2006). Twenty-six percent of the total animals recorded stranded in the Mediterranean have been in mass strandings involving three or more animals (Podestà et al. 2006). Strandings have been particularly numerous along the Ligurian and Ionian coasts, but it is important not to infer too much about species distribution or relative abundance from strandings data alone. Strandings data are subject to a variety of types of bias.

Cuvier’s Beaked Whales seem to be relatively abundant in the eastern Ligurian Sea, off southwestern Crete and the Alboran Sea, especially over and around canyons (D’Amico et al. 2003, Frantzis et al. 2003, Ballardini et al. 2005, Scalise et al. 2005). They appear to be regular although less abundant inhabitants of the western Ligurian Sea (41 sightings in 16 years, Tethys Research Institute, unpublished data; 4.2% of 814 sightings during 10,000 km on effort from 1996–2000, Azzellino et al. 2008). Cuvier’s beaked whales have been described as regular inhabitants of the Hellenic Trench (Frantzis et al. 2003), the southern Adriatic Sea based on frequency of strandings (Holcer et al. 2003) and the eastern section of the Alborán Sea (Cañadas et al. 2005). They also occur in the central Tyrrhenian Sea (Marini et al. 1992) and in Spanish Mediterranean waters (Gannier 1999, Raga and Pantoja 2004, M. Castellote pers. comm.). They have been reported both from strandings and sightings in Israeli, Palestinian and Syrian waters (Aharoni 1944; Saad and Othman 2008; D. Kerem, pers. comm.). No information is available for the remaining areas of the Mediterranean.

There are two abundance estimates for this species in small portions of the Mediterranean Sea. In the Gulf of Genova (eastern Ligurian Sea) mark-recapture analysis (2002–2008) yielded an estimate of 96–100 animals (left and right side identifications respectively) from an open population (Rosso et al. 2009). In the northern Alboran Sea, spatial modelling of line transect data (1992–2007) yields an abundance estimate of 102 animals with a CV=32.1% (corrected for availability bias from a D-tagged animal in the Alboran Sea) (Oedekoven et al. 2009). Abundance estimates for the whole Alboran Sea and the northern Tyrrhenian Sea will be available in 2010 after analysis of the Sirena08 and MED09 survey cruises. Therefore, much better information will be available, and a reassessment is recommended for then. Preliminary inspection of the data highlights a relatively high density (compared to other areas of the world) of Cuvier´s Beaked Whales in the Alboran Sea (44 groups, 89 individuals in 846 km on survey effort, for an encounter rate of 19.5 individuals per 100 km of effort; unpublished data).

There are no data on trends for this species in the Mediterranean.

There are areas, especially in the southern portions of the basin, where Cuvier’s Beaked Whales have not been recorded from either strandings or sightings. However, it must be borne in mind that their long dive times, usually inconspicuous appearance at the surface and typical avoidance of vessels make them difficult to spot (Heyning 1989). In addition, sighting effort and the efficiency of stranding networks vary throughout the Mediterranean: many areas have little or no effort to make and record sightings or to detect strandings. Therefore, a comprehensive basin-wide survey and an efficient basin-wide stranding network are needed before reaching firm conclusions about presence and absence. It is nevertheless possible, based  on available data, to identify at least some areas as good habitat, and probably hot-spots, for Cuvier’s Beaked Whales, such as the eastern Ligurian Sea, the eastern Alborán Sea and the Hellenic Trench. The species is probably also common in several other unexplored areas.

Only two haplotypes were found in the Mediterranean (n = 12) and those haplotypes were found nowhere else (Dalebout et al. 2005). Because samples from this species are relatively rare, there are no samples from the area in the Atlantic closest to the Mediterranean. Until such sample are gathered and show otherwise, the current best evidence suggests that the low haplotypic diversity together with haplotypes found only in the Mediterranean meet the subpopulation definition of less than a migrant per year (Dalebout et al. 2005). There have been 23,004 km of effort from 1999 to 2006 (all seasons) in the Straits of Gilbraltar in conditions where Ziphius could be sighted (Beaufort three or less) with no sightings (de Stephanis et al. 2007). This is consistent with little movement through this area. The current best available data, genetic and lack of sightings, suggests that the definition for subpopulation is met. Future acoustic monitoring in the Straits could better resolve this question.
Current Population Trend:Unknown
Additional data:

Habitat and Ecology [top]

Habitat and Ecology:

Cuvier’s Beaked Whale is a predominantly oceanic species often associated with steep slope habitat and a marked preference for submarine canyons and escarpments (D’Amico et al. 2003, MacLeod 2005, Podestá et al. 2006). In the Alborán Sea, Cuvier’s Beaked Whales are encountered in areas of 600 m depth and 40 m km-1 of slope, especially around the 1,000 m isobath in an area of steep canyons off southern Almería, SE Spain (Cañadas et al. 2002, Cañadas et al. 2005). In the Hellenic Trench, Cuvier’s Beaked Whales are sighted in areas of between 500 and 1,500 m depth; it is not known if they are also present farther offshore over the abyssal plain (Frantzis et al. 2003). They seem to be present over all steep topographic features of the Aegean Plateau (Frantzis et al. 2003). In the eastern Ligurian Sea (Gulf of Genoa) they are especially abundant around canyons (D’Amico et al. 2003). In this area, Scalise et al. (2005) reported a mean depth at encounters of 1,358 m (range = 641–2545, se = 514) and a mean slope of 77.1 m km-1 (range = 3–256.5, se = 57). In the same area, cruises organised by SACLANTCEN encountered Cuvier’s Beaked Whales in waters 500–2,600 m deep, with a peak encounter rate in waters 1,000–1,500 m deep over steep slopes (M. Carron, pers. comm.). In the western Ligurian Sea, sightings have been in waters of an average of 1,722 m deep (range = 795–2,500, se = 276) (Azzellino et al. 2008).

Mean group size is fairly constant across the whole basin where data have been collected, ranging from 2.2 to 2.6 individuals (Cañadas et al. 2005, Ballardini et al. 2005, Scalise et al. 2005), except in the western Ligurian Sea with a mean of four (sd = 2) (Azzellino et al. 2008). Social organization is unknown, although the intermediate levels of mtDNA diversity observed in Cuvier’s Beaked Whales suggest that social groups are unlikely to be strongly matrifocal (Dalebout et al. 2005).

Cuvier’s Beaked Whale is mainly teuthophagic. The most common prey species in the Mediterranean are from the family Histioteuthidae (MacLeod 2005 and references therein), which are oceanic and meso- or bathypelagic, inhabiting depths of around 1000 m, with a preference for escarpments. Fish may also be an important component of their diet (MacLeod 2005).

Threats [top]

Major Threat(s):

Owing to their offshore occurrence and tendency to feed on deep-sea squid, Cuvier’s Beaked Whales are probably little exposed to human activities that occur in coastal waters (tourism, many types of fisheries, etc.). However, the few studies carried out on this species highlight one main threat: certain forms of man-made underwater noise. This threat affects the species world-wide and it has been responsible for some of the observed mortality in the Mediterranean. Military sonars and possibly high-energy sounds from other anthropogenic sources have repeatedly resulted in the stranding and death of Cuvier’s Beaked Whales. The implications of this mortality at the population level are uncertain. Two other concerns are bycatch in drift gillnets and the ingestion of plastic debris (e.g. Kovacic et al. 2009).

Recent atypical mass strandings of beaked whales have been linked to high-powered navy sonar and seismic exploration (e.g. Frantzis 1998, Jepson et al. 2003, Fernández et al. 2005). Deployment of military sonar has led to strandings of beaked whales suffering from chronic and acute tissue damage due to the in vivo formation of gas bubbles, possibly the result of decompression sickness (Jepson et al. 2003, Fernández et al. 2005). Cuvier’s Beaked Whale is the species most commonly involved in these atypical mass strandings (Brownell et al. 2005). Of 224 recorded stranding events of Cuvier’s Beaked Whales in the Mediterranean, 15 involved two animals (9.8% of the total) and 12 involved three or more animals (totalling 80 animals; 26.1% of the total) (Podestà et al. 2006). Four of these strandings were definitely associated with naval activity so far: 1) Valencia, Spain in February 1996 (Filadelfo et al. 2009), 2) Kyparissiakos Gulf, Greece in May 1996 (Frantzis 1998), 3) Ionian Islands, Greece in October 1997 (Frantzis 2004, Filadelfo 2009), 4) Algerian coasts, in 2001 (Filadelfo et al. 2009). In the other cases, either no appropriate data were collected or the analyses were inadequate for assessing the potential association (Podestà et al. 2006). An atypical mass stranding of four Cuvier’s Beaked Whales occurred in SE Spain in January 2006. This event was coincident in time and space with military manoeuvres of NATO (Draft EIS/OEIS 2007), and necropsies of the animals showed “Gas and Fat Embolic Syndrome”, previously associated with anthropogenic acoustic activities, most probably anti-submarine active mid-frequency sonar used during the military naval exercises (Jepson et al. 2003; Fernandez et al. 2004, 2005; Cox et al. 2006). The Mediterranean Sea is a militarily strategic area and is also of increasing interest for hydrocarbon exploration and exploitation. All military or geological or oceanographic activities involving high-intensity noise carried out in the proximity of Cuvier’s Beaked Whales are of concern.

Although the population-level implications of the use of military sonar are uncertain, there is evidence suggesting that they could be at least locally significant. A photo-identification study that preceded and followed the Bahamas mass stranding showed that previously photo-identified, resident beaked whales either left the area or died, since they were never re-captured (photographically) after the event (Balcomb and Claridge 2001). In the Mediterranean Sea, no surveys had been conducted in the Kyparissiakos Gulf before the mass stranding following a naval military sonar exercise (Frantzis 1998). However, strandings of Cuvier´s beaked whales had been common in that area (average rate of one per semester) and have become extremely rare (none or only one) in the nine years since the event. Two international surveys that covered the Kyparissiakos Gulf (IFAW 2003 and MVO in 2004) as well as a survey that has crossed the same area twice yearly since 2002 have failed to record any sightings of Cuvier´s Beaked Whales.

Cuvier’s Beaked Whales are occasionally taken incidentally in driftnets in the Mediterranean Sea. DUring the MED09 survey in the Alboran Sea, a Cuvier´s Beaked Whale was found alive recently (probably) entangled in a driftnet (and two Moroccan driftnetters were spotted a few miles away). After several hours of attempts, it was not possible to approach the animal close enough to release it from the net.

In a study of cetacean by-catch by the Spanish Mediterranean long-lining fleet, only one unidentified beaked whale was found entangled (released alive) out of 798 sets (CPUE).

Fourteen Cuvier’s Beaked Whales were reported as having been captured intentionally between 1972 and 1982 – 11 in French and three in Spanish waters, all shot and one also harpooned (Northridge 1994). No pingers are in use in this area to avoid beaked whales bycatch.

With regard to plastic debris, two stranded animals in Greece had stomachs full of pieces of plastic bags (A. Frantzis, pers. comm.), as did a stranded animal in Croatia (Holcer et al. 2003). Poncelet et al. (1999) described a considerable amount of plastic debris in the stomach of a Cuvier’s Beaked Whale washed ashore on the French Atlantic coast. Together with pilot whales (and some other teuthophagous species), Cuvier’s Beaked Whale seems to be attracted by plastic debris that may be mistaken for squid.

Climate change effects on prey might be a potential threat but we don't know whether the net effects will be positive or negative. No competition with fisheries is reported in the Mediterranean, where cephalopods fisheries are not very important (e.g. squids represent less than 1% of the catches in the Spanish waters of the Alboran Sea,

Conservation Actions [top]

Conservation Actions:

One probable hot-spot for Cuvier’s Beaked Whales in the Mediterranean, the eastern section of the Ligurian Sea, is included within the Pelagos Sanctuary created by Italy, France and Monaco. However, no management or conservation measures have been taken as yet specifically for this species.

A SPAMI (Specially Protected Area of Mediterranean Importance) under the Barcelona Convention has been proposed for the northern half of the Alborán Sea and Gulf of Vera in southern Spain (Cañadas et al. 2005), but it has not yet been designated or even evaluated by the Spanish administration. This proposed area includes another of the probable hot-spots for Cuvier’s beaked whales: the deep waters off southern Almería. The Hydrographic Office of the Spanish Navy has agreed not to use active sonar in that area (C. Gamundi, Subdirector of the Hydrographic Office of the Spanish Navy, pers. comm.).

The Second Meeting of the Parties to ACCOBAMS adopted Resolution 2.16 on ‘Assessment and Impact Assessment of Man-made Noise’ (ACCOBAMS 2004). In this Resolution, and by recommendation of the Scientific Committee of ACCOBAMS, Parties are urged to ‘to take a special care and, if appropriate, to avoid any use of man made noise in habitat of vulnerable species and in areas where marine mammals or endangered species may be concentrated, and undertake only with special caution and transparency any use of man made noise in or nearby areas believed to contain habitat of Cuvier’s Beaked Whales (Ziphius cavirostris), within the ACCOBAMS area’. Parties are also urged to facilitate national and international research on this subject, to provide protocols/guidelines developed by military authorities with respect to use of sonar in the context of threats to cetaceans, and to consult with any profession conducting activities known to produce underwater sound with the potential to cause adverse effects on cetaceans, recommending that extreme caution be exercised in the ACCOBAMS area. Resolution 2.16 also encourages ‘the development of alternative technologies and require the use of best available control technologies and other mitigation measures in order to reduce the impacts of man-made noise sources in the Agreement area’. The Scientific Committee of ACCOBAMS therefore has been charged to develop a common set of guidelines for conducting activities known to produce underwater sound with the potential to cause adverse effects on cetaceans. These guidelines are expected to be presented to the Third Meeting of the Parties in 2007.

Classifications [top]

9. Marine Neritic -> 9.1. Marine Neritic - Pelagic
suitability:Suitable  major importance:Yes
10. Marine Oceanic -> 10.1. Marine Oceanic - Epipelagic (0-200m)
suitability:Suitable  major importance:Yes
10. Marine Oceanic -> 10.2. Marine Oceanic - Mesopelagic (200-1000m)
suitability:Suitable  major importance:Yes
1. Land/water protection -> 1.2. Resource & habitat protection
2. Land/water management -> 2.3. Habitat & natural process restoration
5. Law & policy -> 5.2. Policies and regulations

In-Place Research, Monitoring and Planning
In-Place Land/Water Protection and Management
In-Place Species Management
In-Place Education
5. Biological resource use -> 5.4. Fishing & harvesting aquatic resources -> 5.4.3. Unintentional effects: (subsistence/small scale) [harvest]
♦ timing:Ongoing    
→ Stresses
  • 2. Species Stresses -> 2.1. Species mortality

5. Biological resource use -> 5.4. Fishing & harvesting aquatic resources -> 5.4.4. Unintentional effects: (large scale) [harvest]
♦ timing:Ongoing    
→ Stresses
  • 2. Species Stresses -> 2.1. Species mortality

6. Human intrusions & disturbance -> 6.2. War, civil unrest & military exercises
♦ timing:Ongoing    
→ Stresses
  • 2. Species Stresses -> 2.1. Species mortality

9. Pollution -> 9.1. Domestic & urban waste water -> 9.1.3. Type Unknown/Unrecorded
♦ timing:Ongoing    
→ Stresses
  • 2. Species Stresses -> 2.1. Species mortality

9. Pollution -> 9.2. Industrial & military effluents -> 9.2.3. Type Unknown/Unrecorded
♦ timing:Ongoing    
→ Stresses
  • 2. Species Stresses -> 2.1. Species mortality

1. Research -> 1.5. Threats
1. Research -> 1.6. Actions

Bibliography [top]

ACCOBAMS. 2004. Report of the Second Meeting of the Parties to ACCOBAMS. Palma de Mallorca, Spain.

Aharoni, I. 1944. Animals hitherto unknown to or little known from Palestine. Bulletin of the Zoological Society of Egypt 6: 40-41.

Azzellino, A, Gaspari, S., Airoldi, S. and Nani, B. 2008. Habitat use and preferences of cetaceans along the continental slope and the adjacent pelagic waters in the western Ligurian Sea. Deep-Sea Research Part I 55: 296-323.

Balcomb, K. C. and Claridge, D. E. 2001. A mass stranding of cetaceans caused by naval sonar in the Bahamas. Bahamas Journal of Science 8(2): 2-12.

Ballardini M, Pusser T., Nani B. 2005. Photo-identification of Cuvier’s beaked whale (Ziphius cavirostris) in the Northern Ligurian Sea. 19th Annual Conference of the European Cetacean Society. La Rochelle, France.

Cañadas, A., Sagarminaga, R., and García-Tiscar, S. 2002. Cetacean distribution related with depth and slope in the Mediterranean waters off southern Spain. Deep Sea Research I 49(11): 2053-2073.

Cañadas, A., Sagarminaga, R., de Stephanis, R., Urquiola, E. and Hammond, P.S. 2005. Habitat selection models as a conservation tool: proposal of marine protected areas for cetaceans in Southern Spain. Aquatic Conservation: Marine and Freshwater Ecosystems 15:495-521..

Centro Studi Cetacei. 1998. Cetacei spiaggiati lungo le coste italiane. XII. Rendiconto 1997. Atti. Soc. Ital. Sci. Nat. Museo civ. Stor. Nat. Milano 139(2): 213-226.

Cox, T. M., Ragen, T. J., Read, A. J., Vos, E., Baird, R. W., Balcomb, K., Barlow, J., Caldwell, J., Cranford, T., Crum, L., D'Amico, A., D'Spain, A., Fernández, J., Finneran, J., Gentry, R., Gerth, W., Gulland, F., Hildebrand, J., Houser, D., Hullar, T., Jepson, P. D., Ketten, D., Macleod, C. D., Miller, P., Moore, S., Mountain, D., Palka, D., Ponganis, P., Rommel, S., Rowles, T., Taylor, B., Tyack, P., Wartzok, D., Gisiner, R., Mead, J. and Benner, L. 2006. Understanding the impacts of anthropogenic sound on beaked whales. Journal of Cetacean Research and Management 7(3): 177-187.

Dalebout, M. L., Robertson, K. M., Frantzis, A., Engelhaupt, D., Mignucci-Giannoni, A. A., Rosario-Delestre, R. J. and Baker, C. S. 2005. Worldwide structure of mtDNA diversity among Cuvier's beaked whales (Ziphius cavirostris): Implications for threatened populations. Molecular Ecology 14: 3353-3371.

D’Amico A., Bergamasco A., Zanasca P., Carniel S., Nacini E., Portunato N., Teloni, V., Mori C., Barbanti R. 2003. Qualitative correlation of marine mammals with physical and biological parameters in the Ligurian Sea. Journal of Oceanic Engineering 28(1): 29-43.

de Stephanis R. 2007. Estrategias de alimentación de los diferentes grupos de Calderón común (Globicephala melas) en el Estrecho de Gibraltar. Implicaciones para su conservación. PhD Thesis, Universidad de Cádiz.

Fernández, A., Arbelo, M., Deaville, R., Patterson, I.A.P., Castro, P., Baker, J.R., Degollada, E., Ross, H.M., Herráez, P., Pocknell, A.M., Rodríguez, F., Howie, F.E., Espinosa, A., Reid, R.J., Jaber, J.R., Martin, V., Cunninghan, A.A., and Jepson, P.D. 2004. Beaked Whales, Sonar and Decompression Sickness. Nature 10: 1038.

Fernández, A., Edwards, J. F., Rodriguez, F., Espinosa, A., De Los Monteros, Herraez, P., Castro, P., Jaber, J. R., Martin, V. and Arebelo, M. 2005. "Gas and fat embolic syndrome" involving a mass stranding of beaked whales (family Ziphiidae) exposed to anthropogenic sonar signals. Veterinary Pathology 42: 446-457.

Filadelfo, R., Mintz, J., Michlovich E., D’Amico, A., Tyack, P.L., Ketten, D.R. 2009. Correlating Military Sonar Use with Beaked Whale Mass Strandings: What Do the Historical Data Show? Aquatic Mammals 35(4): 435-444.

Frantzis, A. 1998. Does acoustic testing strand whales? Nature 392(5): 29.

Frantzis, A., Alexiadrou, P., Paximadis, G., Politi, E., Gannier, A. and Corsini-Foka, M. 2003. Current knowledge of the cetacean fauna of the Greek seas. Journal of Cetacean Research and Management 5(3): 219-232.

Gannier A. 1999. Etude de la distribution des cétacés en mer d’Alborán et en mer des Baléares. Unpublished report to the Centre de recherche sur les Cetacés (Marineland) and the Groupe de Recherche sur les Cétacés (Antibes) – October 1999:26pp.

Heyning, J. E. 1989. Cuvier's beaked whale Ziphius cavirostris G. Cuvier, 1823. In: S. H. Ridgway and R. Harrison (eds), Handbook of marine mammals, pp. 289-308. Academic Press.

Holcer D., Notarbartolo di Sciara G., Fortuna C. M., Onofri V., Lazar B., Tvrtkovic N. 2003. The occurrence of Cuvier's beaked whale (Ziphius cavirostris) in Croatian Adriatic waters. Proceedings of the 8th Croatian Biological Congress: 255-256. Croatia.

IUCN. 2012. IUCN Red List of Threatened Species (ver. 2012.1). Available at: (Accessed: 19 June 2012).

Jepson, P. D., Arebelo, M., Deaville, R., Patterson, I. A. P., Castro, P., Baker, J. R., Degollada, E., Ross, H. M., Herraez, P., Pocknell, A. M., Rodriguez, F., Howie, F. E., Espinosa, A., Reid, R. J., Jaber, J. R., Martin, V., Cunningham, A. A. and Fernandez, A. 2003. Gas-bubble lesions in stranded cetaceans. Nature 425: 575-576.

Kovacic, I. , Gomercic, T., Gomercic, H. and Gomercic, M.D. 2009. Cephalopod prey of Cuvier's beaked whale, Ziphius cavirostris, from the Adriatic Sea. 23rd Annual Conference of the European Cetacean Society. Istambul, Turkey.

MacLeod C.D. 2005. Niche partitioning, distribution and competition in North Atlantic beaked whales. PhD Thesis. University of Aberdeen.

Northridge S.P. 1994. World review of interactions between marine mammals and fisheries. Fisheries Technical paper 251. Food and Agriculture Organization of the United Nations, Rome.

Notarbartolo di Sciara G. 2002. 2002. Cetacean species occurring in the Mediterranean and Black Seas. In: G. Notarbartolo di Sciara (ed.), Cetaceans of the Mediterranean and Black Seas: state of knowledge and conservation strategies. Section 3. A report to the ACCOBAMS Interim Secretariat, ACCOBAMS Interim Secretariat, Monaco.

Oedekoven, C.S. Cañadas, A. and Hammond, P.S. 2009. Estimating beaked whale abundances in the northern Alboran Sea using spatial models. 18th Biennial Conference on the Biology of Marine Mammals. Quebec City.

Podesta, M., A. D'Amico, G. Pavan, A. Drougas, A. Komnenou, N. Portunato. 2006. A review of Cuvier's beaked whale strandings in the Mediterranean Sea. Journal of Cetacean Research and Management 7(3): 251-262.

Podestá M., Bortolotto A. 1997. Il Progetto Spiaggiamenti del Centro Studi Cetacei: analisi dei risultati di 11 anni di attività. Natura – Soc. It. Sci. nat. Museo civ. Stor. Nat. Milano 90(2): 145-158.

Poncelet E., Van Canneyt O., Boubert J.J. 1999. Considerable amount of plastic debris in the stomach of a Cuvier's beaked whale (Ziphius cavirostris) washed ashore on the French Atlantic coast. 13th Biennial Conference of the Society for Marine Mammalogy. Maui, Hawaii, USA.

Raga, J.A. and Pantoja, J. 2004. Proyecto Mediterráneo. Zonas de especial interés para la conservación de los cetáceos en el Mediterráneo español. Minsterio de Medio Ambiente. Organismo Autónomo Parques Nacionales, Madrid.

Rosso, M., Aurelie, M. and Wurtz, Mauritzio. 2009. Population size and residence patterns of Cuvier's beaked whale (Ziphius cavirostris) in the Genova canyon, north-western Mediterranean Sea. 18th Biennial Conference on the Biology of Marine Mammals. Quebec City.

Saad, A. & Othman, A. 2008. National overviews on the current status of cetacean-fisheries conflicts including bycatch and depredation: Syria. International workshop on bycatch within the ACCOBAMS area. (FAO HQs), Rome.

Scalise S., Moulins A., Rosso M., Corsi A., Würtz M. 2005. First results on Cuvier’s beaked whale distribution in the Ligurian Sea related to depth and depth gradient. 34th Annual Symposium of the European Association for Aquatic Mammals. Riccione, Italy.

Valeiras, J. and Camiñas, J. A. 2001. Captura accidental de mamíferos marinos en las pesquerías españolas de palangre de pez espada y túnidos en el Mediterráneo. II Simposium de la Sociedad Española de Cetáceos. SEC. Noviembre, Valsain, Segovia.)..

Citation: Cañadas, A. 2012. Ziphius cavirostris (Mediterranean subpopulation). The IUCN Red List of Threatened Species 2012: e.T16381144A16382769. . Downloaded on 22 June 2018.
Disclaimer: To make use of this information, please check the <Terms of Use>.
Feedback: If you see any errors or have any questions or suggestions on what is shown on this page, please provide us with feedback so that we can correct or extend the information provided