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Petrocephalus sauvagii Boulenger 1887

Authors :
Lavoué, Sébastien
Sullivan, John P.
Arnegard, Matthew E.
Publication Year :
2010
Publisher :
Zenodo, 2010.

Abstract

Petrocephalus sauvagii (Boulenger, 1887) Mormyrus (Petrocephalus) sauvagii Boulenger (1887): 149. Mormyrus sauvagii Steindachner (1895): 69. Petrocephalus sauvagii Boulenger (1898): 19 - Taverne (1972): 162 - Gosse (1984): 113. [Odzala field identification: Petrocephalus sp. 8, OTU 8] Images. Fig. 10 A, photo of a live specimen from Odzala, Fig. 10 B, photo of a preserved specimen from Odzala and Fig. 14, drawing of the holotype (BMNH 1887.1.13.3) from Boulenger (1909 ���1916). Photo of the holotype in Harder (2000). Type material. Holotype, BMNH 1887.1. 13.3 "in the creeks of the Lower Congo and the tributary streams, without more precision, unknown coll." Other specimens. We examined six specimens from Odzala and four additional specimens from the Lower Niger River (specimen list provided in the section "additional material examined"). Diagnosis. We prepared the following diagnosis using all the specimens of P. sauvagii that we examined, regardless their geographic origins. Petrocephalus sauvagii is distinguished from all other Petrocephalus species in Central Africa by the following combination of characteristics. Very wide mouth (HL/MW ��� 3.7, range = 2.7���3.7) associated with a characteristic head shape when viewed from below. Twenty-four to 30 teeth in the upper jaw and 30���34 in the lower jaw. Anal fin with at least 32 branched rays (range = 32���38). Dorsal fin with at least 25 branched rays (range = 25���30). Mouth sub-terminal; ratio between the head length and the mouth position as large as 7.4 (range = 5.5���7.4). Pigmentation pattern with two melanin markings, sometimes of weak intensity or even scarcely visible: (1) an irregularly round black mark below the anterior base (first to fourth rays) of the dorsal fin; and (2) an ovoid blackish mark, often irregularly shaped, at the base of the caudal fin, extending onto the upper and lower fleshy lobes of the fin. EOD of normal polarity, with two main phases followed by a third, smaller phase. Description. Table 8 provides morphometric ratios and meristic data for the holotype, six non-type specimens from Odzala and four non-type specimens from the Lower Niger River. However, the following description corresponds only to the six Odzala specimens we examined, except where separate reference is made to the holotype. Petrocephalus sauvagii is the largest Petrocephalus species occurring in the Odzala assemblage (maximum SL observed in Odzala = 189.0 mm, holotype = 146.7 mm). Body ovoid, longer than high (2.7 ��� SL /H ��� 3.4, average = 3.0, holotype = 2.9) and laterally compressed. Head length between 3.5 and 3.7 times in standard length (average = 3.6, holotype = 3.7). Eye small (4.1 ��� HL/ED ��� 4.5, average = 4.3, holotype = 4.6). Snout very short (6.3 ��� HL/SNL ��� 9.9, average = 8.0, holotype = 6.7) and round. Mouth distinctively large (3.1 ��� HL/MW ��� 3.7, average = 3.3, holotype = 3.1), sub-terminal (5.5 ��� HL/MP ��� 7.4, average = 6.6, holotype = 4.9), opening just under the anterior half of the eye. Dentition consisting of many small bicuspid teeth, 24���30 (median = 26, holotype = 26) in a single row in the upper jaw, 30���34 (median = 32, holotype = 30) in a single row in the lower jaw. Dorsal and anal fins originate in the posterior half of the body (1.5 ��� SL / PDD ��� 1.6 and 1.5 ��� SL /PAD ��� 1.7). Pre-dorsal distance equal to, or slightly greater than, preanal distance (1.0 ��� PDD /PAD ��� 1.1). Anal fin with 33���38 branched rays (median = 35, holotype = 34). Dorsal fin with 26���30 branched rays (median = 28, holotype = 27). Scales cover the body, except for the head. Lateral line visible and complete with 38���41 (median = 39, holotype = 36) pored scales along its length. Twelve to 16 scales (median 14, holotype = 14) between the anterior base of the anal fin and the lateral line. Caudal peduncle relatively thin (2.3 ��� CPL/CPD ��� 3.1, average = 2.6, holotype = 2.7). Twelve scales around the caudal peduncle. Skin on head thick, becoming opaque with formalin fixation, with Knollenorgan electroreceptors organized into three relatively small rosettes. Holotype Specimens Specimens from (m) from Odzala Lower Niger (n= 6) (n= 4) Min���Max Mean Std���Dev Min���Max Mean Std���Dev Live coloration (Fig. 10 A). Body uniformly white-silver with metallic iridescence. Two characteristic melanin markings are present, sometimes with very weak intensity in large individuals: (1) an irregular round mark below the anterior base (first to fourth rays) of the dorsal fin; (2) an ovoid blackish mark, often irregular in shape, centered at the base of the caudal fin and extending onto the upper and lower fleshy lobes of this fin. The fins themselves (caudal fins and others) are translucent. Distribution (Fig. 1). Petrocephalus sauvagii is the only species of Petrocephalus known to occur in both the Congo and Niger basins. There is no record of this species occurring in the Lower Guinea province. The holotype was collected from " the creeks of the Lower Congo and the tributary streams " without more precision being given on the exact locality (Boulenger, 1887). In Odzala, we collected P. sauvagii at several localities along the main course of the L��koli River and, exclusively at night, in some small tributary creeks flowing through savannah. Electric organ discharge (Fig. 10 C). EOD recordings are only available for three individuals. Thus, generalizations about the EOD features of this species must be made with caution. EOD waveforms of all three individuals are of somewhat short duration for the genus (range = 0.232 ��� 0.273 msec), but they are, nevertheless, very similar to EODs of several other Petrocephalus species. Statistics for waveform landmarks and other EOD measurements for P. sauvagii are provided by Lavou�� et al. (2008), who demonstrated histologically that the electrocytes of this species are type NPp. Remarks. We noticed some morphological differences between allopatric specimens of P. sauvagii from the Niger and Congo basins. Specimens from the Niger basin possess fewer anal fin rays (32���33 versus 33��� 38), a longer snout (HL/SNL = 5.5���6.8 versus 6.3���9.9) and a greater interorbital width (HL/IOW = 2.6���2.7 versus 3.5���4.2) than Odzala specimens.<br />Published as part of Lavou��, S��bastien, Sullivan, John P. & Arnegard, Matthew E., 2010, African weakly electric fishes of the genus Petrocephalus (Osteoglossomorpha: Mormyridae) of Odzala National Park, Republic of the Congo (L��koli River, Congo River basin) with description of five new species, pp. 1-52 in Zootaxa 2600 on pages 29-32, DOI: 10.5281/zenodo.197589<br />{"references":["Boulenger, G. A. (1887) On new fishes from the lower Congo. Annals and Magazine of Natural History, 19, 148 - 149.","Steindachner, F. (1895) Die Fische Liberia's. Notes from the Leyden Museum, 16, 1 - 96.","Boulenger, G. A. (1898) A revision of the genera and species of fishes of the family Mormyridae. Proceedings of the Zoological Society of London, 1898, 775 - 821.","Taverne, L. (1972) Osteologie des genres Mormyrus Linne, Mormyrops Muller, Hyperopisus Gill, Myomyrus Boulenger, Stomatorhinus Boulenger et Gymnarchus Cuvier. Considerations generales sur la systematique des Poissons de l'ordre des Mormyriformes. Annales du Musee Royal de l'Afrique Centrale, Sciences Zoologiques, 200, 1 - 194.","Boulenger, G. A. (1909 - 1916) Catalogue of the Freshwater Fishes of Africa in the British Museum (Natural History). Wheldon and Wesley, London, 4 volumes.","Harder, W. (2000) Mormyridae and other Osteoglossomorpha. World Biodiversity database, CD - ROM series, ETI BioInformatics, Amsterdam.","Lavoue, S., Arnegard, M. E., Sullivan, J. P. & Hopkins, C. D. (2008) Petrocephalus of Odzala offer insights into evolutionary patterns of signal diversification in the Mormyridae, a family of weakly electrogenic fishes from Africa. Journal of Physiology - Paris, 102, 322 - 339."]}

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....1d8819cfa8d8723cd8070fc6f11ccbbd
Full Text :
https://doi.org/10.5281/zenodo.6202207