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Killer whales (Orcinus orca) in Angolan and Gulf of Guinea waters, tropical West Africa

Published online by Cambridge University Press:  17 June 2010

Caroline R Weir*
Affiliation:
Ketos Ecology, 4 Compton Road, West Charleton, Kingsbridge, Devon TQ7 2BP, UK Department of Zoology, School of Biological Sciences, University of Aberdeen, Tillydrone Avenue, Aberdeen, AB24 2TZ, UK
Tim Collins
Affiliation:
Wildlife Conservation Society, Ocean Giants Program, Global Conservation, 2300 Southern Boulevard, Bronx, NY 10460USA Indian Ocean Research and Conservation Association, PO Box 2531, CPO 111, Oman
Inês Carvalho
Affiliation:
Faculdade de Ciências do Mar e Ambiente—Universidade do Algarve, Campus Gambelas, Faro, Portugal American Museum of Natural History, Sackler Institute for Comparative Genomics, 79th Street and Central Park West, New York, NY 10024, USA
Howard C. Rosenbaum
Affiliation:
Wildlife Conservation Society, Ocean Giants Program, Global Conservation, 2300 Southern Boulevard, Bronx, NY 10460USA American Museum of Natural History, Sackler Institute for Comparative Genomics, 79th Street and Central Park West, New York, NY 10024, USA
*
Correspondence should be addressed to: C.R. Weir, Ketos Ecology, 44 Lord Hay's Grove, Old Aberdeen, Aberdeen, AB24 1WS, UK email: [email protected]
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Abstract

Killer whales Orcinus orca are considered to be relatively uncommon in tropical waters. Few sightings have been reported from the west coast of Africa due to a paucity of survey coverage. We present data on 32 killer sightings from tropical waters off Angola (N = 18), Gabon (N = 7), São Tomé (N = 6) and Cameroon (N = 1), comprising a combination of dedicated survey sightings (N = 21) and reliable anecdotal records (n = 11). Killer whales were reported from coastal waters, the shelf edge and deep, oceanic areas. Sightings indicate a probable year-round occurrence of killer whales within the region. Mean group size was 5.6 animals. There was no difference in group size between sightings in waters >200 m deep and those on the continental shelf. No photo-identification matches were found between Angola, Gabon and São Tomé. Re-sightings of two individuals occurred annually in São Tomé during 2002–2004. Killer whales had external appearance consistent with the Type A nominate species form. Antagonistic encounters were recorded between killer whales and humpback whales Megaptera novaeangliae off Angola, Gabon and Cameroon, and with sperm whales Physeter macrocephalus off Angola. Predation on ocean sunfish Mola mola was recorded in São Tomé, and possible predation on sharks was recorded twice in Gabon.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2010

INTRODUCTION

Killer whales (Orcinus orca Linnaeus, 1758) are distributed throughout the world's oceans, being concentrated towards higher latitudes in cold temperate and sub-polar waters (Dahlheim & Heyning, Reference Dahlheim, Heyning, Ridgway and Harrison1999; Forney & Wade, Reference Forney, Wade, Estes, Brownell, DeMaster, Doak and Williams2006). Although considered relatively less numerous in tropical waters, there are records verifying the widespread occurrence of killer whales throughout tropical regions (e.g. Katona et al., Reference Katona, Beard, Girton and Wenzel1988; Ilangakoon et al., Reference Ilangakoon, Mahendra and Subasinghe1992; Fertl et al., Reference Fertl, Acevedo Gutierrez and Darby Forbes1996; O'Sullivan & Mullin, Reference O'Sullivan and Mullin1997; Guerrero Ruiz et al., Reference Guerrero Ruiz, Gendron and Urban1998; Dahlheim & Heyning, Reference Dahlheim, Heyning, Ridgway and Harrison1999; Visser & Bonoccorso, Reference Visser and Bonoccorso2003; Baird et al., Reference Baird, McSweeney, Bane, Barlow, Salden, Antoine, LeDuc and Webster2006; Forney & Wade, Reference Forney, Wade, Estes, Brownell, DeMaster, Doak and Williams2006).

Knowledge of killer whales along the west coast of Africa in the South Atlantic is limited largely to temperate regions. There are records for the coasts of north-west Africa (DeKeyser, Reference DeKeyser1955; Cadenat, Reference Cadenat1959; Aloncle, Reference Aloncle1964; Dupuy & Maigret, Reference Dupuy and Maigret1976; Bayed & Beaubrun, Reference Bayed and Beaubrun1987; Hammond & Lockyer, Reference Hammond and Lockyer1988; Maigret, Reference Maigret1990; Jefferson et al., Reference Jefferson, Curry, Leatherwood and Powell1997; Robineau & Vely, Reference Robineau and Vely1998) including the Cape Verde Islands (Reiner et al., Reference Reiner, Dos Santos and Wenzel1996; Hazevoet & Wenzel, Reference Hazevoet and Wenzel2002), and from the coasts of Namibia and South Africa in the southern hemisphere (Rice & Saayman, Reference Rice and Saayman1987; Findlay et al., Reference Findlay, Best, Ross and Cockroft1992). However, records from tropical waters within the Gulf of Guinea south to Angola are scarce, consisting only of occasional reports from Liberia (Hammond & Lockyer, Reference Hammond and Lockyer1988), the Côte d'Ivoire (Cadenat, Reference Cadenat1959; Hammond & Lockyer, Reference Hammond and Lockyer1988; Anon, 2000), Ghana (Hammond & Lockyer, Reference Hammond and Lockyer1988; Jefferson et al., Reference Jefferson, Curry, Leatherwood and Powell1997), Annobón Island (Equatorial Guinea: Reeves & Mitchell, Reference Reeves and Mitchell1988; Anon, 2000) and Gabon (Reeves & Mitchell, Reference Reeves and Mitchell1988).

Records kept during Antarctic whaling operations between November and May provide limited information on the offshore distribution of killer whales in the temperate/tropical south-east Atlantic. Budylenko (Reference Budylenko1981) reports small groups of killer whales off northern Namibia during December and February, while Mikhalev et al. (Reference Mikhalev, Ivashin, Savusin and Zelenaya1981) report a single record well offshore Gabon during November.

The paucity of sighting records of killer whales off tropical West Africa is reflected by a lack of information on basic aspects of their ecology, life-history and morphology. A variety of forms and ecotypes of killer whales have been described worldwide, based primarily on morphology, behaviour, genetics and dietary specialization of different populations (Hoelzel et al., Reference Hoelzel, Dahlheim and Stern1998; Ford et al., Reference Ford, Ellis, Barrett-Lennard, Morton, Palm and Balcomb1999; Baird, Reference Baird, Mann, Connor, Tyack and Whitehead2000; Pitman & Ensor, Reference Pitman and Ensor2003). These forms are particularly well studied in the north-east Pacific where whales have been broadly defined into fish-eating and mammal-eating groups (Ford et al., Reference Ford, Ellis, Barrett-Lennard, Morton, Palm and Balcomb1999; Baird, Reference Baird, Mann, Connor, Tyack and Whitehead2000; Jones, Reference Jones2006). In Antarctica, killer whales have similarly been divided into Types A, B and C according to the relative size and shape of the eye patch, the presence or absence of a dorsal cape, habitat preferences and prey specializations (Pitman & Ensor, Reference Pitman and Ensor2003). Different forms occur throughout the known range of killer whales, and both the distribution and the ecotype exhibited by particular groups appears to relate to dietary specialization upon favoured prey species, which includes an extensive list of marine mammal, fish, cephalopod, bird and marine turtle species (Jefferson et al., Reference Jefferson, Stacey and Baird1991).

Here we provide details of killer whale sightings from Angola, Gabon and São Tomé located in tropical waters on the west coast of Africa, an area for which killer whale occurrence is largely unrecognized (IUCN, 2008). Information on the distribution, seasonality, group composition, behaviour and morphology of killer whales in this region is described.

MATERIALS AND METHODS

Killer whale sightings were collected from three separate study areas off West Africa (Figure 1). Cetacean surveys off northern Angola were conducted concurrently with geophysical seismic surveys. Dedicated cetacean research surveys were carried out off Gabon and the offshore island of São Tomé. Anecdotal records from Angola, Gabon and Cameroon were also reported to the authors.

Fig. 1. Location of the three dedicated study areas off West Africa.

Angola

Dedicated marine mammal surveys were conducted off northern Angola (latitude 5–11°S; Figure 2) in association with four geophysical seismic exploration operations carried out between 1 August 2004 and 28 July 2007. Most data were from water depths of 1000–3000 m but limited effort occurred throughout the wider area from the coast to 4000 m depth. A total of 5664.1 hours of dedicated survey data were collected, comprising: (1) 288-days of marine mammal observation between 1 August 2004 and 15 May 2005; (2) a 44-day period of observation between 10 August and 27 September 2005; (3) 30-days of observation between 30 December 2005 and 28 January 2006; and (4) 217-days of observation between 28 November 2006 and 28 July 2007.

Fig. 2. Location of survey effort (2004–2007) and killer whale records off Angola from dedicated surveys (square) and anecdotal sightings (cross).

The same three experienced observers (C.W. and two other biologists) carried out the survey work using standardized methodology. A single observer situated at eye height of between 11 and 20 m, used 10 × 42 binoculars to scan 360° around the vessel for cetaceans throughout daylight hours and in all weather conditions, while the vessel was travelling at 4–5 knots. Effort logs (comprising position, water depth, airgun activity and environmental data including Beaufort sea state) were completed for every watch. For marine mammal sightings the position, species, group size and composition, behaviour, water depth and associated environmental data (sea state, swell height and visibility) were recorded. Digital photographs were taken where possible using a 100–400 mm lens.

Anecdotal records of killer whales off Angola were provided by observers on platforms including the coast, sports fishing vessels, fishery research vessels and seismic survey ships. These records were reported predominantly from central Angola (Figure 2).

Gabon and São Tomé

Dedicated cetacean surveys off Gabon and São Tomé focused on seasonal aggregations of breeding humpback whales Megaptera novaeangliae during the winter months, and both used similar methodology. Gabonese survey bases included Port Gentil, Iguela, the Nyanga River and Mayumba (Figure 3), most of which are characterized by a gently sloping continental shelf that reaches 200 m depth approximately 50 km offshore. The exception is Port Gentil located on the peninsula of Cap Lopez, where the continental shelf edge is only 10 km offshore. The volcanic island of São Tomé is situated about 300 km north-west of mainland Gabon (Figure 1), and has pronounced seabed relief with a narrow (<3 km) continental shelf dropping off steeply over 10 km into deep water (2000 m).

Fig. 3. Location of survey effort (2001–2006; effort not available for 2000) and killer whale records off Gabon from dedicated surveys (square) and anecdotal sightings (cross).

Surveys off Gabon and São Tomé were carried out using small (6–9 m) boats. In Gabon, surveys were typically conducted by three researchers (led by T.C.) and a boat pilot, while the São Tomé surveys involved a minimum of two dedicated cetacean observers (led by I.C.) and a boat pilot. The survey routes taken were weather-dependent and no attempt was made to evenly distribute the effort. An effort log (position, research activity and environmental data) was completed throughout each survey. During cetacean encounters the vessel detoured to approach the animal(s) to collect data on species, group size and composition, and behaviour. Survey effort therefore comprised both dedicated survey effort and encounter time (where research effort was focused on a particular group of animals and other species were only noted opportunistically). Photographs were taken with 35 mm film or digital SLR cameras fitted with autofocus lenses in the 70–300 mm range.

A total of 2018.3 hours of dedicated survey effort was collected off Gabon between 2000 and 2006, with most effort occurring off Iguela and Mayumba during 2001–2006 (Figure 3). All data were collected in the winter and spring months between July and October (90.1% of effort occurred during August and September). Survey effort was mostly limited to shelf waters, with over 99% of effort occurring in water depths of <100 m (Figure 3). Anecdotal records from Port Gentil were provided by a reliable observer based on sports fishing vessels.

A total of 499.9 hours of dedicated search effort (203 boat surveys) was collected around São Tomé between August 2002 and October 2005, primarily in shelf and shelf edge habitat (Figure 4). Due to the varying location of the survey base, during 2002 and 2003 survey work was concentrated around southern São Tomé, while during 2004 and 2005 most effort occurred around the northern region. The majority of data (59.2%) were collected during September and October, with only around half that coverage (10.7–14.4% each) during January, August and November and a small amount (4.1%) during December 2002.

Fig. 4. Location of survey effort (2002–2005) and killer whale records off São Tomé during dedicated surveys.

Photo-identification

Photographic methods were used to identify individual killer whales in each study area, based primarily on nicks and notches along the trailing edge of the dorsal fin (Hammond et al., Reference Hammond, Mizroch and Donovan1990; Würsig & Jefferson, Reference Würsig and Jefferson1990). Animals were photographed on an opportunistic basis and no attempt was made to ensure that every animal within each group was photographed. A catalogue of identifiable individuals was developed within each study area, and a single researcher (T.C.) then compared killer whale images between the three study areas. Images were not graded for quality but were simply assessed by eye to determine whether the features were clear enough to facilitate potential matches.

Humpback whale fluke analysis

Humpback whale fluke images from the 2000 to 2004 Gabonese photo-identification catalogue were analysed for the presence of killer whale tooth rake scars. All images were rated for quality (including photographic, orientation and distinctiveness quality factors). Incidence of killer whale scarring was assessed according to Steiger et al. (Reference Steiger, Calambokidis, Straley, Herman, Cerchio, Salden, Urbán, Jacobsen, von Ziegesar, Balcomb, Gabriele, Dahlheim, Uchida, Ford, de Guevara, Yamaguchi and Barlow2008), who defined a rake mark as a ‘set of three or more parallel lines or marks in close proximity’.

RESULTS

There have been 31 confirmed sightings of killer whales from Angola, Gabon and São Tomé (Table 1), and a single anecdotal record from Cameroon. Most sightings have been recorded since 2001 corresponding with the onset of dedicated survey work in the region, but anecdotal reports dating back to 1991 testify to a long-term presence of killer whales off tropical West Africa. Several other anecdotal records from the region were omitted from this paper due to lack of details.

Table 1. Summary of killer whale Orcinus orca records in the study area, 1991–2008.

Spatial distribution

Nine killer whale groups (depths of 969–2609 m) were recorded during dedicated deep-water surveys off northern Angola (Figure 2). A further 9 anecdotal sightings were documented in 1991–2008, occurring from Cabinda south to Benguela (Figure 2). Most anecdotal records were from the continental shelf, with single records from deep (2500 m) and shelf edge (345 m) waters. It is noteworthy that the nine dedicated and two anecdotal killer whale sightings reported from seismic vessels off Angola occurred only when the airguns were either off, or were active at very low volume (during either an airgun test or a soft start). It is therefore possible that killer whales avoided the survey vessel during periods of active airgun use (as was shown for another delphinid species, the Atlantic spotted dolphin Stenella frontalis, during some of these surveys; Weir, Reference Weir2008a) and may therefore have been under-recorded in Angolan waters.

Six killer whale sightings occurred during dedicated survey work in Gabon. Five were located off Iguela and one off Cap Lopez (Figure 3). The records occurred over a depth-range of 10–400 m, with four groups recorded in water depths of less than 50 m. A single anecdotal record occurred off Cap Lopez in approximately 100 m water depth. Six killer whale sightings were recorded around São Tomé. Four occurred around the island of Rolas in the south and there were single sightings on the east and north-west coasts (Figure 4). Four sightings occurred in shelf edge habitat (270–790 m), and there were single sightings from the shelf (55 m) and deep-water (>1200 m). A single anecdotal record off Cameroon occurred around 35 km south of the coast (approximate position 04°11′N 08°26′E) in about 30 m depth.

Analysis of the combined dataset reveals that killer whales off West Africa inhabited waters from 10 to 2609 m, and may therefore be considered as widespread over the larger study area.

Temporal occurrence

The month of the sighting was available for 31 of the West African records. The seasonal distribution of dedicated and anecdotal sightings indicates a probable year-round occurrence of killer whales within the larger region (Figure 5).

Fig. 5. Seasonality of survey effort, killer whale sighting rate and anecdotal records off: (A) Angola (N = 17); (B) Gabon (N = 7); and (C) São Tomé (N = 6).

In Angola, year-round dedicated survey effort produced most (89%) sightings during the spring and summer months, and sighting rate was highest in the November to January period (Figure 5A). Anecdotal records from (predominantly coastal) Angolan waters occurred in six widely spread months of the year suggesting that this species may be present year-round at least in shelf waters.

Off Gabon and São Tomé, the majority of survey effort occurred between August and October, corresponding with the humpback whale breeding season. Off Gabon, sightings occurred in July (1), August (3) and September (2), clearly reflecting survey effort (Figure 5B). A single anecdotal record also occurred in August. However, sightings off São Tomé were distributed in November (1), December (4) and January (1), rather than during the period of peak survey effort (Figure 5C). The relatively high number of sightings during December 2002 reflects repeated encounters on successive dates with a single group of killer whales (as supported by photo-identification match data).

Group size

Using the combined dataset the mean best estimate of killer whale group size off West Africa was 5.56 animals (range = 1–17, SD = 3.48, N = 32). The mean group size was similar between regions, comprising 4.9 animals (SD = 3.23, N = 18) in Angola, 6.0 animals (SD = 5.16, N = 7) in Gabon and 6.2 animals (SD = 1.33, N = 6) in São Tomé. There was no significant difference between killer whale group size in waters >200 m deep (x = 5.53, SD = 2.15, N = 17) and on the continental shelf (x = 5.60, SD = 4.64, N = 15) (Mann–Whitney U = 103.0, N = 32, P = 0.370).

Behavioural observations

Many of the killer whale groups recorded off West Africa were simply observed travelling with steady surfacing sequences. However, about one-third (N = 12) of the records involved observations of killer whale in (direct or indirect) association with other species as summarized in Table 2. Of these, five involved co-occurrence with humpback whales, three involved sperm whales Physeter macrocephalus, two involved sharks and there were single observations with Bryde's whale Balaenoptera cf. brydei and ocean sunfish Mola mola (Table 2). In most cases, killer whales either travelled past other species without obvious interaction (N = 2) or the nature of the interaction with killer whales could not be clearly ascertained (N = 5).

Table 2. Summary of killer whale Orcinus orc a observations off West Africa, 1991–2008, involving multi-species associations.

However, five encounters were considered antagonistic in nature, two of which involved humpback whales. The first of these occurred off Gabon on 3 September 2003, when a group of three to four killer whales circled a pair of adult humpback whales for over an hour. One humpback whale was seen to repeatedly tail-lob and tail swipe. The humpback pair always dived together, with the killer whales circling above and then diving to follow. No direct interactions were observed, but the pattern persisted until the observations ceased due to deteriorating sea conditions. The second interaction involved video footage provided by oil industry divers from a platform off Cameroon, showing a group of ten killer whales harassing a humpback whale and its young calf for over 6.5 hours. The humpbacks swam within metres of the platform in an apparent evasive attempt, and appeared to perceive the killer whales as a threat. The adult humpback was observed thrashing its tail through the water although whether this was directed at the boat containing the divers or at the killer whales was unclear. The outcome of the interaction is not known.

Off Angola, a group of five killer whales was observed harassing a large school of 18–20 sperm whales for over an hour (after which they were lost from sight while still interacting). Blood-filled spray was observed twice as sperm whales rolled vigorously in the water. Throughout the interaction, the sperm whales showed no obvious defensive formation (i.e. rosette formation), but remained crowded together and blowing frequently with all animals usually orientated in the same direction facing the killer whales and moving steadily forwards. A further relevant record involves a neonate (with umbilicus still attached) sperm whale calf stranded at Sette Cama, Gabon (Figure 6) on 27 March 2005. The calf was fresh, bleeding profusely from the mouth and showed signs of significant bruising. Tooth rakes on the tail flukes were consistent with known scarring patterns from killer whales (e.g. Best et al., Reference Best, Canham and MacLeod1984; Visser, Reference Visser1999a), although false killer whales Pseudorca crassidens (Palacios & Mate, Reference Palacios and Mate1996) and short-finned pilot whales Globicephala macrorhynchus (Weller et al., Reference Weller, Würsig, Whitehead, Norris, Lynn, Davis, Clauss and Brown1996) have also been reported in antagonistic interactions with sperm whales.

Fig. 6. Tail flukes of a stranded sperm whale calf in Gabon, showing tooth rake marks possibly originating from killer whales.

The remaining two aggressive encounters involved direct interaction between killer whales and prey. The first of these involved a juvenile killer whale photographed pushing a small live shark (possibly a copper shark Carcharhinus brachyurus) along the surface off Gabon. It is unclear whether the killer whales subsequently consumed this shark. The second encounter comprised a predation event observed off São Tomé during January 2003, when an adult–calf pair of killer whales was observed feeding on an ocean sunfish at the surface.

Morphology

The killer whales observed off Angola, Gabon and São Tomé presented similar external appearance (Figure 7) The animals exhibited the typical black and white coloration of killer whales worldwide, lacking a defined dorsal cape but having a variable pale grey ‘saddle’ behind the dorsal fin. The eye patch on West African animals was generally oval in shape, medium-sized, and orientated parallel to the body axis.

Fig. 7. Morphological appearance of killer whales from: (A) Angola; (B) Gabon; and (C) São Tomé.

Photo-identification

Photography of individual killer whales resulted in the identification of six animals in Angola, 14 animals in Gabon and 13 animals around São Tomé. No re-sights were recorded within Angolan or Gabonese waters, although one killer whale group recorded off Iguela in Gabon during August 2005 was reported by a local boat pilot to have been present in the region for at least two weeks. In São Tomé, the same group of killer whales was involved in at least four of the six encounters. Two animals from this group were first identified together from photographs in 2002 and were subsequently re-photographed in 2004; one of these individuals was also photographed in 2003. There were no matches of individuals between the study areas.

Humpback whale fluke analysis

A total of 17.3% (N = 682; scarring incidence = 118) of humpback whale flukes photographed off Gabon showed evidence of killer whale tooth rake marks using the category 1–3 scars defined by Steiger et al. (Reference Steiger, Calambokidis, Straley, Herman, Cerchio, Salden, Urbán, Jacobsen, von Ziegesar, Balcomb, Gabriele, Dahlheim, Uchida, Ford, de Guevara, Yamaguchi and Barlow2008). Although not distinguished between, it is possible that some of the scars recorded were caused by false killer or pilot whales rather than killer whales.

DISCUSSION

A review by Forney & Wade (Reference Forney, Wade, Estes, Brownell, DeMaster, Doak and Williams2006) suggests that killer whale densities increase by 1–2 orders of magnitude between the tropics and the highest sampled latitudes in the Arctic and Antarctic. Nevertheless, although relatively scarce in tropical waters, the 32 sightings reported here from a relatively poorly-studied area in tropical West Africa suggest that the species is a regular component of the cetacean fauna of this region. Reports of 94 killer whale sightings from similar latitudes in the Pacific Ocean (Visser & Bonoccorso, Reference Visser and Bonoccorso2003) indicate that killer whales may not be as uncommon in some low latitude tropical waters as previously thought.

Spatio-temporal occurrence

Killer whales were found to be widely dispersed off West Africa, inhabiting coastal, shelf and oceanic waters and also occurring in proximity to the offshore island of São Tomé which is separated from the Gabon mainland by 240 km and over 2000 m water depth. It is currently unclear whether individual killer whale groups routinely inhabit all water depths, or whether there are distinct offshore and inshore populations as found in the north-east Pacific (Baird, Reference Baird, Mann, Connor, Tyack and Whitehead2000). The absence of definite matches of individual whales between the three study areas is inconclusive given the small sample size and poor quality of many images. Some killer whales are known to travel very wide distances, for example, individuals repeatedly travelled linear distances of 2660 km between California and south-east Alaska in the eastern Pacific (Baird, Reference Baird, Mann, Connor, Tyack and Whitehead2000), and movements between Angola, Gabon and São Tomé would be well within their capability.

Repeated sightings of the same group of killer whales around São Tomé suggest at least a regular seasonal use of that area by a particular group of whales. Although killer whales have been recorded off São Tomé and Gabon in most months that have been surveyed, there are currently no survey data available for the January to June period to indicate whether their occurrence in these areas is genuinely seasonal or whether they are present year-round. In Angola, offshore survey effort was collected throughout the year, yet on-effort killer whale sightings occurred primarily between September and January. However, anecdotal records from Angola suggest that killer whales do occur in most months of the year, at least in coastal waters.

Mikhalev et al. (Reference Mikhalev, Ivashin, Savusin and Zelenaya1981) suggested that southern hemisphere killer whales might spend the austral summer months feeding in Antarctica but depart to lower latitudes in February and March to spend the winter. Of the three Antarctic killer whale forms described by Pitman & Ensor (Reference Pitman and Ensor2003), Type A whales appeared to depart from Antarctic waters during the winter and move northwards into temperate waters and possibly beyond. The movements of Types B and C are less well understood, but a group of killer whales sighted in New Zealand waters bore morphological similarities to Antarctic killer whales (Visser, Reference Visser1999b), and a definite record of one of these two Types is known from tropical waters south of Tahiti (Pitman & Ensor, Reference Pitman and Ensor2003). The external appearance of tropical West African killer whales is consistent with the Type A ‘nominate’ killer whale form described by Pitman & Ensor (Reference Pitman and Ensor2003), lacking a dorsal cape and showing a medium-sized eye patch. Although a migration of Antarctic killer whales as far north as the Gulf of Guinea seems unlikely, the influence of the cold water Benguela Current extends along the coast of West Africa as far as northern Angola and these productive waters could feasibly attract killer whales from other seasonally less profitable regions. However, as Type A whales occur worldwide, it is also plausible that the killer whales observed in the study area routinely inhabit this region without demonstrating extensive seasonal movements.

Killer whale prey off West Africa

Killer whale groups are known to make spatio-temporal movements in response to the movements of specific prey, for example fish migration (Nottestad & Axelsen, Reference Nottestad and Axelsen1999), pinniped breeding (Baird & Dill, Reference Baird and Dill1995; Iñíguez, Reference Iñíguez2001) and cetacean migration (Goley & Straley, Reference Goley and Straley1994). However, evidence of killer whale diet in tropical areas is lacking. The larger Gulf of Guinea region contains rich fisheries, and densities of turtles and elasmobranchs, all of which comprise known diet of killer whales in other areas (Jefferson et al., Reference Jefferson, Stacey and Baird1991). In the western tropical Pacific, Visser & Bonoccorso (Reference Visser and Bonoccorso2003) documented killer whales feeding upon hammerhead sharks Sphyrna lewini, grey reef sharks Carcharhinus amblyrhynchos, manta rays Manta birostris and other fish species, but considered that mammalian prey was also a likely, though currently unrecorded, source of food. Yukhov et al. (1975, cited in Mikhalev et al., Reference Mikhalev, Ivashin, Savusin and Zelenaya1981) examined the stomach contents of killer whales from warm and temperate zones of the southern hemisphere and concluded that they fed mostly on dolphins and pinnipeds. Marine mammals are also a known prey source in tropical waters off the Galapagos Islands (Brennan & Rodriguez, Reference Brennan and Rodriguez1994) and Costa Rica (Pitman et al., Reference Pitman, Fearnbach, LeDuc, Gilpatrick, Ford and Ballance2007). Our data indicate a regular occurrence of killer whales between the Gulf of Guinea and Angola, which raises questions over their diet in this tropical region.

Although pinnipeds are largely absent from the Gulf of Guinea, Cape fur seals Arctocephalus pusillus frequently occur in seasonally high numbers along the coast of southern Angola to the south of Luanda (personal observation) and could feasibly attract killer whales. Several cetacean species that occur throughout the study area are already confirmed prey of killer whales, including pantropical spotted dolphins Stenella attenuata (Pitman et al., Reference Pitman, O'Sullivan and Mase2003), short-beaked common Delphinus delphis and common bottlenose dolphins Tursiops truncatus (Visser, Reference Visser1999a), humpback whales (Whitehead & Glass, Reference Whitehead and Glass1985; Florez-Gonzalez et al., Reference Florez-Gonzalez, Capella and Rosenbaum1994), Bryde's whales (Silber et al., Reference Silber, Newcomer and Perez Cortes1990) and sperm whales (Pitman et al., Reference Pitman, Balance, Mesnick and Chivers2001).

Of particular interest during several observations off Angola and Gabon was the simultaneous presence of killer whales with humpback and sperm whales. Actual predation was not documented during any of these interactions, although the outcomes of the encounters were not observed. However, repeated harassment of humpback and sperm whales is indicative of at least some form of agonistic interaction between these species and killer whales. The 17.3% incidence of presumed killer whale scarring on humpback whale flukes photographed off Gabon is also testimony to regular interaction between these species, although it is likely that at least some of this scarring occurs on the Antarctic feeding grounds where agonistic encounters between the species are also reported (Pitman & Ensor, Reference Pitman and Ensor2003). Humpback whales migrate annually during the austral winter to breeding grounds along the west coast of Africa. Killer whale predation of humpback whales on their tropical breeding grounds has been recorded elsewhere (e.g. Florez-Gonzalez et al., Reference Florez-Gonzalez, Capella and Rosenbaum1994; Paterson & Paterson, Reference Paterson and Paterson2001; Baird et al., Reference Baird, McSweeney, Bane, Barlow, Salden, Antoine, LeDuc and Webster2006) and it is plausible that killer whales purposefully exploit this predictable, seasonally available prey source. It has been suggested that the lengthy migrations undertaken by some baleen whale species to tropical breeding grounds are an adaptive response to avoid predation by killer whales on young calves (Corkeron & Connor, Reference Corkeron and Connor1999; Paterson & Paterson, Reference Paterson and Paterson2001; Pitman et al., Reference Pitman, Fearnbach, LeDuc, Gilpatrick, Ford and Ballance2007), based on the lower densities of killer whales in tropical waters compared with higher latitude feeding grounds. However, our data indicate that killer whales are certainly present on humpback whale breeding grounds off West Africa during the breeding season.

The co-occurrence of three offshore killer whale sightings with sperm whales off Angola was also notable, with at least one of these encounters resulting in an apparent predatory attempt. The behaviour of both killer and sperm whales observed during this interaction was similar to that described by Arnbom et al. (Reference Arnbom, Papastavrou, Weilgart and Whitehead1987) off the Galapagos Islands, with the exception of the much smaller killer whale group size off Angola. Indications of apparent killer whale involvement in the stranding of a sperm whale calf in Gabon suggest that agonistic interactions between these species also occur in other areas of West Africa. Although Jefferson et al. (Reference Jefferson, Stacey and Baird1991) concluded that killer whales are not a serious threat to sperm whales other authors have clearly demonstrated the vulnerability of sperm whales to killer whale predation in the Pacific Ocean (e.g. Arnbom et al., Reference Arnbom, Papastavrou, Weilgart and Whitehead1987; Brennan & Rodriguez, Reference Brennan and Rodriguez1994; Pitman et al., Reference Pitman, Balance, Mesnick and Chivers2001) and Indo-Pacific region (Best et al., Reference Best, Canham and MacLeod1984; Visser, Reference Visser1999a). However, the absence of killer whale sightings in deep water off Angola during the peak period of sperm whale occurrence between March and May (Weir, Reference Weir2008b), suggests that sperm whales may not be the primary target for killer whales in the area.

Observations of killer whales preying upon ocean sunfish and possibly sharks off Gabon and São Tomé indicate that (at least some) killer whales in the region are unlikely to be marine mammal specialists. Baird et al. (Reference Baird, McSweeney, Bane, Barlow, Salden, Antoine, LeDuc and Webster2006) suggested that killer whales occupying tropical low-productive areas should exhibit low dietary specialization and opportunistically take a wide range of prey species. Although speculative at this stage, observations of killer whales in tropical West Africa concur with Baird et al. (Reference Baird, McSweeney, Bane, Barlow, Salden, Antoine, LeDuc and Webster2006) and suggest that a range of prey species are taken by the species as a whole, although group-specific dietary specialization cannot be excluded.

To conclude, killer whales may be considered a regular component of the cetacean community off Angola and the Gulf of Guinea. However, more survey work is required throughout the region to clarify their status and biology off tropical West Africa.

ACKNOWLEDGEMENTS

C.W. is grateful to Roger Ballard-Tremeer, Bruce Bennett, Paul Fisher, Nathan Gricks, David Hatcher, Miguel Morais, Iain Nicolson, Chris Pierpoint, Jan Schmidt and the crews of the ‘Geco Triton’, ‘Sea Trident’, ‘Remus’, ‘Ramform Viking’ and ‘Ramform Vanguard’. Seismic survey work was sponsored by BP Exploration (Angola) Ltd and their partners in Blocks 18 and 31 during 2004/2005, ExxonMobil and their partners in Block 15 during January 2006 and Total (Angola) and their partners in Block 32 from November 2006 until July 2007. T.C. and H.C.R. were supported by the Wildlife Conservation Society, and thank The Gabon Ministry of Water and Forests for their ongoing support. The Société de Conservation et Dévelopement (SCD) provided significant logistical support at Iguela. Data from Gabon were collected by: Cristina Pomilla, Solange Ngouessono, Francois Horent, Carla Freitas, Nick Mbadinga, Simon Elwen and Tom Jefferson. Funding was provided by: The Flora Family Foundation, The Gordon and Betty Moore Foundation, Edith McBean, The Eppley Foundation for Research, Susan and Ron Briggs, Carl Anderson, Jerry and Madeleine Cohen, Pamela and Renke Thye, Beverly Spector, Kevin Harvey, Wendy Breck, Project Aware, The Busch Gardens Conservation Fund and The Lerner Gray Fund for Marine Research. Killer whale images from Cameroon were provided by Olivier Vacher. I.C. is grateful to Francisco Reiner, Cristina Brito, Cristina Picanço, Maria Pimentel and the boats crews, especially Herbert Maia. This study had the support of Projecto Delfim—Centro Português de Estudo dos Mamíferos Marinhos, Rolas Islands Resort, Paulo Pimentel, Projet Espèces Phares from RAPAC (Réseau des Aires Protégées d'Afrique Centrale), and Foundation for Science and Technology fellowship (SFRH/BD/18049/2004), Portugal. We thank the referees for making useful comments on this manuscript.

References

REFERENCES

Aloncle, H. (1964) Premières observations sur les petits cétacés des côtes Marocaines. Bulletin de L'Institute des Pêches Maritime du Maroc 12, 2142.Google Scholar
Anon (2000) Report on ‘The conservation and management of small cetaceans of the coast of Africa’, Conakry, 8–12 May 2000. Submitted to Tenth Meeting of the CMS Scientific Council, Edinburgh, Scotland, 2–4 May 2001. [Translation by W.F. Perrin, February 2001.]Google Scholar
Arnbom, T.V., Papastavrou, V., Weilgart, L.S. and Whitehead, H. (1987) Sperm whales react to an attack by killer whales. Journal of Mammalogy 68, 450453.CrossRefGoogle Scholar
Baird, R.W. (2000) The killer whale: foraging specializations and group hunting. In Mann, J., Connor, R., Tyack, P. and Whitehead, H. (eds) Cetacean societies: field studies of dolphins and whales. Chicago: University of Chicago Press, pp. 127153.Google Scholar
Baird, R.W. and Dill, L.M. (1995) Occurrence and behavior of transient killer whales: seasonal and pod-specific variability, foraging behavior, and prey handling. Canadian Journal of Zoology 73, 13001311.CrossRefGoogle Scholar
Baird, R.W., McSweeney, D.J., Bane, C., Barlow, J., Salden, D.R., Antoine, L.R., LeDuc, R.G. and Webster, D.L. (2006) Killer whales in Hawaiian waters: information on population identity and feeding habits. Pacific Science 60, 523530.CrossRefGoogle Scholar
Bayed, A. and Beaubrun, P.C. (1987) Les Mammifères Marin du Maroc: inventaire préliminaire. Mammalia 51, 437446.CrossRefGoogle Scholar
Best, P.B., Canham, P.A.S. and MacLeod, N. (1984) Patterns of reproduction in sperm whales, Physeter macrocephalus. Reports of the International Whaling Commission 6, 5179.Google Scholar
Brennan, B. and Rodriguez, P. (1994) Report of two orca attacks on cetaceans in the Galápagos. Noticias de Galápagos 54, 2829.Google Scholar
Budylenko, G.A. (1981) Distribution and some aspects of the biology of killer whales in the South Atlantic. Reports of the International Whaling Commission 31, 523525.Google Scholar
Cadenat, J. (1959) Rapport sur les petits cétacés ouest-africains. Bulletin d'Institut Fondamental d'Afrique Noire 21, 13671409.Google Scholar
Corkeron, P.J. and Connor, R.C. (1999) Why do baleen whales migrate? Marine Mammal Science 15, 12281245.CrossRefGoogle Scholar
Dahlheim, M.E. and Heyning, J.E. (1999) Killer whale Orcinus orca (Linnaeus, 1758). In Ridgway, S.H. and Harrison, R. (eds) Handbook of marine mammals, Volume 6, The second book of dolphins and the porpoises. San Diego, CA: Academic Press, pp. 281321.Google Scholar
DeKeyser, P.L. (1955) Les mammifères de l'Afrique Noire Française. Initiations Africaines, Volume I. Dakar: Institut Fondamental d'Afrique Noire.Google Scholar
Dupuy, A.R. and Maigret, J. (1976) Les mammifères marins des côtes du Sénégal. 1. Bilan des observations signalées entre 1960 et 1976. Bulletin d'Institut Fondamental d'Afrique Noire 38, 921928.Google Scholar
Fertl, D., Acevedo Gutierrez, A. and Darby Forbes, L. (1996) A report of killer whales (Orcinus orca) feeding on a carcharhinid shark in Costa Rica. Marine Mammal Science 12, 606611.CrossRefGoogle Scholar
Findlay, K.P., Best, P.B., Ross, G.J.B. and Cockroft, V.G. (1992) The distribution of small odontocete cetaceans off the coasts of South Africa and Namibia. South African Journal of Marine Science 12, 237270.CrossRefGoogle Scholar
Florez-Gonzalez, L., Capella, J.J. and Rosenbaum, H.C. (1994) Attack of killer whales (Orcinus orca) on humpback whales (Megaptera novaeangliae) on a South American Pacific breeding ground. Marine Mammal Science 10, 218222.CrossRefGoogle Scholar
Ford, J.K.B., Ellis, G.M., Barrett-Lennard, L.G., Morton, A.B., Palm, R.S. and Balcomb, K.C. (1999) Dietary specialization in two sympatric populations of killer whales (Orcinus orca) in coastal British Columbia and adjacent waters. Canadian Journal of Zoology 76, 14561471.CrossRefGoogle Scholar
Forney, K.A. and Wade, P. (2006) Worldwide distribution and abundance of killer whales. In Estes, J.A., Brownell, R.L., DeMaster, D.P., Doak, D.F. and Williams, T.M. (eds) Whales, whaling and ocean ecosystems. Berkeley: University of California Press, pp. 125.Google Scholar
Goley, P.D. and Straley, J.M. (1994) Attack on gray whales (Eschrichtius robustus) in Monterey Bay, California, by killer whales (Orcinus orca) previously identified in Glacier Bay, Alaska. Canadian Journal of Zoology 72, 15281530.CrossRefGoogle Scholar
Guerrero Ruiz, M., Gendron, D. and Urban, R.J. (1998) Distribution, movements and communities of killer whales (Orcinus orca) in the Gulf of California, Mexico. Reports of the International Whaling Commission 48, 537543.Google Scholar
Hammond, P.S. and Lockyer, C. (1988) Distribution of killer whales in the eastern North Atlantic. Rit Fiskideildar 11, 2441.Google Scholar
Hammond, P.S., Mizroch, S.A. and Donovan, G.P. (1990) Individual recognition of cetaceans: use of photo-identification and other techniques to estimate population parameters. Reports of the International Whaling Commission Special Issue 12. Cambridge: International Whaling Commission.Google Scholar
Hazevoet, C.J. and Wenzel, F.W. (2002) Whales and dolphins (Mammalia, Cetacea) of the Cape Verde Islands, with special reference to the humpback whale Megaptera novaeangliae (Borowski, 1781). Contributions in Zoology 69, 197211.CrossRefGoogle Scholar
Hoelzel, A.R., Dahlheim, M. and Stern, S.J. (1998) Low genetic variation among killer whales (Orcinus orca) in the eastern North Pacific and genetic differentiation between foraging specialists. Journal of Heredity 89, 121128.CrossRefGoogle ScholarPubMed
Ilangakoon, A., Mahendra, W.P. and Subasinghe, H.A.K. (1992) On rare cetacean species off Sri Lanka, including the killer whale Orcinus orca (Linn.) (Delphinidae: Cetacea). Journal of the Bombay Natural History Society 89, 363365.Google Scholar
Iñíguez, M.A. (2001) Seasonal distribution of killer whales (Orcinus orca) in Northern Patagonia, Argentina. Aquatic Mammals 27, 154161.Google Scholar
IUCN (2008) 2008 IUCN Red List of Threatened Species. <www.iucnredlist.org>. Accessed 2 January 2009..+Accessed+2+January+2009.>Google Scholar
Jefferson, T.A., Stacey, P.J. and Baird, R.W. (1991) A review of killer whale interactions with other marine mammals: predation to co-existence. Mammal Review 4, 151180.CrossRefGoogle Scholar
Jefferson, T.A., Curry, B.E., Leatherwood, S. and Powell, J.A. (1997) Dolphins and porpoises of West Africa: a review of records (Cetacea: Delphinidae, Phocoenidae). Mammalia 61, 87108.CrossRefGoogle Scholar
Jones, I.M. (2006) A Northeast Pacific offshore killer whale (Orcinus orca) feeding on a Pacific halibut (Hippoglossus stenolepis). Marine Mammal Science 22, 198200.CrossRefGoogle Scholar
Katona, S.K., Beard, J.A., Girton, P.E. and Wenzel, F. (1988) Killer whales (Orcinus orca) from the Bay of Fundy to the Equator, including the Gulf of Mexico. Rit Fiskideildar 11, 205224.Google Scholar
Maigret, J. (1990) Observations d'orques Orcinus orca Linné 1758 sur les côtes nord ouest africaines. Bulletin d'Institut Fondamental d'Afrique Noire 47, 190197.Google Scholar
Mikhalev, Y.A., Ivashin, M.V., Savusin, V.P. and Zelenaya, F.E. (1981) The distribution and biology of killer whales in the southern hemisphere. Reports of the International Whaling Commission 31, 551565.Google Scholar
Nottestad, L. and Axelsen, B.E. (1999) Herring schooling manoeuvres in response to killer whale attacks. Canadian Journal of Zoology 77, 15401546.CrossRefGoogle Scholar
O'Sullivan, S. and Mullin, K.D. (1997) Killer whales (Orcinus orca) in the northern Gulf of Mexico. Marine Mammal Science 13, 141147.CrossRefGoogle Scholar
Palacios, D.M. and Mate, B.R. (1996) Attack by false killer whales (Pseudorca crassidens) on sperm whales (Physeter macrocephalus) in the Galápagos Islands. Marine Mammal Science 12, 582587.CrossRefGoogle Scholar
Paterson, R.A. and Paterson, P. (2001) A presumed killer whale (Orcinus orca) attack on humpback whales (Megaptera novaeangliae) at Point Lookout, Queensland. Memoirs of the Queensland Museum 42, 436.Google Scholar
Pitman, R.L. and Ensor, P. (2003) Three forms of killer whales (Orcinus orca) in Antarctic waters. Journal of Cetacean Research and Management 5, 131139.Google Scholar
Pitman, R.L., Balance, L.T., Mesnick, S.L. and Chivers, S. (2001) Killer whale predation on sperm whales: observations and implications. Marine Mammal Science 17, 494507.CrossRefGoogle Scholar
Pitman, R.L., O'Sullivan, S. and Mase, B. (2003) Killer whales (Orcinus orca) attack a school of pantropical spotted dolphins (Stenella attenuata) in the Gulf of Mexico. Aquatic Mammals 29, 321324.CrossRefGoogle Scholar
Pitman, R.L., Fearnbach, H., LeDuc, R., Gilpatrick, Jr. J.W., Ford, J.K.B. and Ballance, L.T. (2007) Killer whales prey on a blue whale calf on the Costa Rica Dome: genetics, morphometrics, vocalizations and composition of the group. Journal of Cetacean Research and Management 9, 151157.Google Scholar
Reeves, R.R. and Mitchell, E. (1988) Killer whale sightings and takes by American pelagic whalers in the North Atlantic. Rit Fiskideildar 11, 723.Google Scholar
Reiner, F., Dos Santos, M.E. and Wenzel, F.W. (1996) Cetaceans of the Cape Verde Archipelago. Marine Mammal Science 12, 434443.CrossRefGoogle Scholar
Rice, F.H. and Saayman, G.S. (1987) Distribution and behavior of killer whales Orcinus orca off the coasts of Southern Africa. Investigations on Cetacea 20, 231250.Google Scholar
Robineau, D. and Vely, M. (1998) Les cétacés des côtes de Mauritanie (Afrique du Nord-Oest). Particularités et variations spatio-temporelles de repartition: role des facteurs océanographiques. Revue d'Ecologie (la Terre et la Vie) 53, 123152.CrossRefGoogle Scholar
Silber, G.K., Newcomer, M.W. and Perez Cortes, M.H. (1990) Killer whales Orcinus orca attack and kill a Bryde's whale Balaenoptera edeni. Canadian Journal of Zoology 68, 16031606.CrossRefGoogle Scholar
Steiger, G.H., Calambokidis, J., Straley, J.M., Herman, L.M., Cerchio, S., Salden, D.R., Urbán, J., Jacobsen, J.K., von Ziegesar, O., Balcomb, K.C., Gabriele, C.M., Dahlheim, M.E., Uchida, S., Ford, J.K.B., de Guevara, P.L., Yamaguchi, M. and Barlow, J. (2008) Geographic variation in killer whale attacks on humpback whales in the North Pacific: implications for predation pressure. Endangered Species Research 4, 247256.CrossRefGoogle Scholar
Visser, I.N. (1999a) A summary of interactions between orca (Orcinus orca) and other cetaceans in New Zealand waters. New Zealand Natural Sciences 24, 101112.Google Scholar
Visser, I.N. (1999b) Antarctic orca in New Zealand waters? New Zealand Journal of Marine and Freshwater Research 33, 515520.CrossRefGoogle Scholar
Visser, I.N. and Bonoccorso, F.J. (2003) New observations and a review of killer whale (Orcinus orca) sightings in Papua New Guinea waters. Aquatic Mammals 29, 150172.CrossRefGoogle Scholar
Weir, C.R. (2008a) Overt responses of humpback whales (Megaptera novaeangliae), sperm whales (Physeter macrocephalus), and Atlantic spotted dolphins (Stenella frontalis) to seismic exploration off Angola. Aquatic Mammals 34, 7183.CrossRefGoogle Scholar
Weir, C.R. (2008b) Occurrence and distribution of cetaceans off northern Angola, 2004–2005. Journal of Cetacean Research and Management 9, 225239.Google Scholar
Weller, D.W., Würsig, B., Whitehead, H., Norris, J.C., Lynn, S.K., Davis, R.W., Clauss, N. and Brown, P. (1996) Observations of interaction between sperm whales and short-finned pilot whales in the Gulf of Mexico. Marine Mammal Science 12, 588593.CrossRefGoogle Scholar
Whitehead, H. and Glass, C. (1985) Orcas (killer whales) attack humpback whales. Journal of Mammalogy 66, 183185.CrossRefGoogle Scholar
Würsig, B. and Jefferson, T. (1990) Methods of photo-identification for small cetaceans. Reports of the International Whaling Commission Special Issue 12, 4352.Google Scholar
Figure 0

Fig. 1. Location of the three dedicated study areas off West Africa.

Figure 1

Fig. 2. Location of survey effort (2004–2007) and killer whale records off Angola from dedicated surveys (square) and anecdotal sightings (cross).

Figure 2

Fig. 3. Location of survey effort (2001–2006; effort not available for 2000) and killer whale records off Gabon from dedicated surveys (square) and anecdotal sightings (cross).

Figure 3

Fig. 4. Location of survey effort (2002–2005) and killer whale records off São Tomé during dedicated surveys.

Figure 4

Table 1. Summary of killer whale Orcinus orca records in the study area, 1991–2008.

Figure 5

Fig. 5. Seasonality of survey effort, killer whale sighting rate and anecdotal records off: (A) Angola (N = 17); (B) Gabon (N = 7); and (C) São Tomé (N = 6).

Figure 6

Table 2. Summary of killer whale Orcinus orca observations off West Africa, 1991–2008, involving multi-species associations.

Figure 7

Fig. 6. Tail flukes of a stranded sperm whale calf in Gabon, showing tooth rake marks possibly originating from killer whales.

Figure 8

Fig. 7. Morphological appearance of killer whales from: (A) Angola; (B) Gabon; and (C) São Tomé.