Petersius conserialis Hilgendorf, 1894

Petersius conserialis Hilgendorf, 1894 View in CoL

Figures 1–4 View FIGURE 1 View FIGURE 2 View FIGURE 3 View FIGURE 4 , table 1

Petersius conserialis Hilgendorf, 1894: 173 View in CoL [original type locality: “ Kinganiflusse in Deutsch-Ostafrika ”

(= Kingani River in German East Africa), Tanzania].

Pfeffer, 1896: 44 [short description].

Boulenger, 1909: 233–234 [morphometrics; meristic, data from types].

Myers, 1929: 5 [key to genera; notes; restriction of genus Petersius View in CoL ].

Hoedeman, 1951: 5 [key to genera and species].

Poll, 1967: 28 [description; morphometrics; meristic data; distribution; figures of specimen and dentition].

Matthes, 1975: 171 [key to freshwater fishes; Tanzania].

Géry, 1977: 50 [remarks].

Paugy, 1984: 140–183 [synonym list, genus, species] Ibarra and Stewart, 1987: 64 [catalog of types, FMNH].

Géry, 1995: 40 [key, comments on cranial fontanel].

Murray and Stewart, 2002: 1892 [osteology; phylogeny].

Zanata and Vari, 2005: 100, 117 [character description; morphological phylogeny].

Zarske, 2011: 64 [catalog of types; description of ZMB types of Petersius View in CoL ].

Dueck, 2020: 55–99 [ontogeny; osteology].

DIAGNOSIS: As for Petersius .

DESCRIPTION: Morphometric data summarized in table 1. Medium-sized species (maximum observed size 137.0 mm SL), with general appearance as in figure 1. Body moderately elongate, dorsal head profile concave from snout to supraoccipital, convex to dorsal-fin origin, slightly convex along dorsal-fin base to adipose fin, and slightly concave from adipose fin to origin of caudal fin. Ventral body profile convex from anterior tip of lower jaw to end of anal-fin base, slightly concave to caudal fin. Caudal peduncle longer than deep. Adipose eyelid weakly developed, restricted to thin band immediately anterior to orbit. Snout shorter than orbital diameter. Nostrils closely aligned, anterior nostril circular, posterior nostril semi lunate.

Lower jaw slightly prognathous, mouth superior, horizontally aligned with dorsal margin of pupil. Teeth in both jaws pluricuspid and incisiform with reduced buccal shelves. Dentary with 4* (21) outer row teeth, median tooth frequently with five cusps, second and third teeth with seven cusps, fourth tooth markedly smaller than adjacent tooth. Inner row of conical teeth proximate to dentary symphysis absent in all specimens (fig. 2E). Contralateral premaxillae separated by anteromedial process of mesethmoid and without interdigitations connecting medial surfaces (fig. 3C). Premaxilla with two rows of pluricuspid teeth. Outer premaxillary row usually with 2* (13) tricuspid teeth, but number variable 0 (2), 1 (3), or 3 (3), even variable contralaterally in a few specimens. Regardless of number, outer row premaxillary teeth always implanted above and between inner row teeth (i.e., alternating). Inner premaxillary row with 4* (21) teeth, each with 7 cusps. Series of cutting-edge cusps of inner row premaxillary teeth located along buccal (vs. lingual) face of each tooth (fig. 3C, see also Discussion). Four replacement teeth in both premaxillary and dentary replacement trenches. Maxilla edentulous, ascending process elongate and pointed, without terminal bifurcation (fig. 2F).

Distal margin of dorsal fin straight, second unbranched and first branched fin rays longest. Dorsal-fin rays ii,8* (21), first unbranched ray very short. Distal margin of pectoral fin straight or slightly rounded. Adpressed pectoral fin reaching or surpassing pelvic-fin origin. Pectoralfin rays ii,13 (10), ii,14 (8), or ii,15* (3). Pelvic fin pointed, adpressed pelvic fin reaching two to four scales short of anal-fin origin. Pelvic-fin rays ii,7 (1), ii,8 (6), ii,9* (13), or ii,10 (1). Caudal fin forked. Adipose fin present, tall with narrow base. Anal fin emarginate, anteriormost branched rays more than twice length of ultimate ray. Anal-fin rays iii,18* (9), iii,19 (11), or iii,20 (1), first unbranched ray very short.

Lateral line scales from supracleithrum to hypural joint 30 (3), 31* (6), 32 (5), or 33 (7). Anteriormost 6 scales of lateral line descending steeply to below midlateral line. Last 3–4 pored scales slightly ascending to midlateral body plane. Scales posterior to hypural joint 2 (10) or 3* (11). Scales in transverse series from lateral line to dorsal-fin origin 6.5 (9) or 7.5* (12). Scales in transverse series from lateral line to pelvic-fin origin 2* (10) or 2.5 (11). Middorsal series from supraoccipital tip to dorsal-fin origin 13 (1), 14 (8), 15* (8), 16 (2), or 17 (1). Circumpeduncular scales 10* (20) or 11 (1). Axial scale present, extending over basal third of pelvic fin. First gill arch with 11* (20) or 12 (1) epibranchial rakers and 18 (1), 19 (1), 20* (6), 21 (12), or 23 (1) rakers on ceratobranchial and hypobranchial arches. Total vertebrae 36 (1) or 37 (21). Supraneurals 8 (12), first supraneural associated with fourth vertebra.

ADDITIONAL OSTEOLOGICAL FEATURES: Supraoccipital distinctively shaped with steep anterodorsal convexity at junction of parietals and supraoccipital followed by dorsomedial concavity on surface of the crest (fig. 2A). Three pairs of posttemporal fossae present (fig. 2 A, B). Median posttemporal fossae located entirely within epioccipital. Dorsal posttemporal fossae (bounded by the supraoccipital, parietals, and epioccipitals) somewhat smaller than ventral posttemporal fossae (bounded by the epioccipitals and pterotics). Exoccipital foramen well developed. Dorsomedial cranial fontanel present, size correlated with developmental stage. In juveniles smaller than 60 mm SL, fontanel extends anteriorly from posterior region of frontal to anterior margin of supraoccipital. In larger specimens, fontanel is restricted to a small, ovoid opening extending just in front of frontoparietal ridge to anterior margin of supraoccipital (fig. 2C, G). Circumorbital series complete, in adults forming an uninterrupted ring around orbit, in juveniles (ca. 40–60 mm SL) supraorbital separated from 6th infraorbital by wide gap (fig. 2D, H). Supraorbital elongate, slightly sigmoid, and without ventral process. Syntype FMNH 54287 with supraorbital segmented into two elements (fig. 2D). Anterior element in contact with antorbital, posterior element contacts 6th infraorbital. All other examined specimens with a single ossification of supraorbital. Whether a bipartite supraorbital represents an autapomorphy of an isolated lineage from Ruvu River or is an individual anomaly cannot be determined without detailed examination of remaining syntypes. Second infraorbital with a pronounced, sigmoid-shaped process on the dorsal margin (fig. 2D, H see also Discussion).

COLORATION: In preservation, overall body coloration brownish yellow, darker dorsally than ventrally, often with overlay of silver iridescence (fig. 1). Small, vertically elongated humeral blotch of pigmentation around fourth and fifth scale of midlateral surface of body, faint in most specimens but more evident in larger individuals. Faint deep-lying longitudinal stripe along midlateral surface from supracleithrum to anterior margin of caudal peduncle. Posterior region of caudal peduncle with blotch of dark pigmentation, circular to ovoid in shape extending to proximal margin of middle caudal-fin rays. Distal caudal-fin lobes with dark margins. Adipose fin outlined by small dark chromatophores, more so on dorsal margin.

In life overall body coloration iridescent silver, darker dorsally (fig. 4). Humeral and caudal blotch visible but overlain by silver iridescence. Dorsal, caudal, and anal fins yellowish to dark orange, distal margin of caudal fin darker. Adipose fin yellowish. Pectoral and pelvic fins hyaline; first unbranched pectoral-fin ray slightly darker.

SEXUAL DIMORPHISM: Specimen FMNH 54287 was the single male analyzed, clearly identified by the pronounced sexual dimorphism typical of many alestids. The specimen has the fifth through ninth rays of the anal fin expanded and forming a distinct median anal-fin lobe (fig. 1A). Females have straight-edged anal fin with no median lobe (figs. 1B, 4).

ECOLOGY: Petersius conserialis has been collected in sandy river courses and floodplain lakes with bushy shorelines with forested or grassy margins. The species was found recently (2018) in a seasonally flooded area of the Rufiji River in shallow water with submerged vegetation (Fraser Gear, personal commun.). Petersius conserialis appears to be endemic to lowland regions, with the highest elevation point at Mkalinzu sands of the Rufiji River at approximately 95–100 m asl (CMN-FI 1981-0174.4). The lowest altitudinal record (5 m asl) is at the type locality of Mtoni Fort approximately 10 km from the Ruvu River mouth in the Indian Ocean. The alestids Alestes stuhlmannii , Brycinus affinis , B. imberi , B. lateralis , Hemigrammopetersius barnardi , and Hydrocynus vittatus were collected in sympatry in the Rufiji River basin (CMNFI records; www.fishnet2.net).

DISTRIBUTION AND CONSERVATION: Hilgendorf (1894) described Petersius conserialis based on five specimens collected in eastern Tanzania. The original description mentioned “Kinganiflusse in Deutsch-Ostrafrika,” and subsequent authors indicated the type locality as the Kingani River at Dunda ( Boulenger, 1909; Poll, 1967; Zarske, 2011). The Kingani River is an alternative name for the southern Ruvu River, with annotations of Stuhmann’s 1890 expedition indicating Dunda near the current Mtoni Fort, west of Bagamoyo, eastern Tanzania ( Turner et al., 2021). Thus, we herein consider the type locality of Petersius conserialis as the Ruvu River near Mtoni Fort, approximately 06° 28′ 04.8″S 38° 50′ 31.2″E, Magomeni, Tanzania.

Petersius conserialis is seemingly endemic to lowland regions of the Rufiji and Ruvu rivers in the Pwani Region of eastern Tanzania (fig. 5). Within the Rufiji basin the species has been reported from lakes Lugongwe, Chemchem, Siwandu, Ruwe, Tagalala, and Nzerakera. Although the Ruvu River is apparently in good condition, the Rufiji basin has been affected by loss of hydrological connectivity, sediment trapping, and construction of hydropower dams ( Hamerlynck et al., 2011; Duvail et al., 2014), which are likely to impact some populations of P. conserialis .

TAXONOMIC REMARKS: Following the ICZN Recommendation 74G, lectotypes should not be designated for curatorial convenience. Therefore, we do not designate lectotype and paralectotypes keeping the syntype series unaltered. Noteworthy, one of the syntypes from ZMB 13535 was sent to Carnegie Museum in 1910, and posteriorly to FMNH 54287.

MATERIALS EXAMINED: Petersius conserialis , all from Pwani Region, Tanzania: FMNH 54287, syntype of Petersius conserialis , 99.0 mm SL, Kingani at Dunda, Stuhlmann (approximate locality: Ruvu River, Magomeni, 06° 28′ 04.8″S 38° 50′ 31.2″E), 1µCT scan. – CMN-FI 1981-0177.4, 9, 37.0–49.4 mm SL, Lake Siwandu (Nzerakera), northwest corner, internal delta region of upper Rufiji River floodplain, Mwaseni, 7° 40′ 00″S 38° 07′ 00″E, 17 Jul 1979, Hopson et al., 1µCT scan. – CMN-FI 1981-0194.4, 1, 55.0 mm SL, Rufiji River, north shore, at Ndundu ferry landing, Ikwiriri, 08° 02′ 00″S 39° 02′ 00″E, 31 Jul 1979, Hopson et al. – CMN-FI 1981-0196.7, 6, 51.1–70.0 mm SL, Rufiji River, south bank near Utete, muddy creek below Rubada camp and courthouse, Utete, 07° 58′ 00″S 38° 47′ 00″E, 01 Aug 1979, Hopson et al., 1µCT scan. – CMN-FI 1981-0201.1, 4, 106.0–137.0 mm SL, Lake Ruwe, 2 km southeast of Mkongo, south shore, northern Rufiji River floodplain, Mkongo, 07° 53′ 00″S 38° 46′ 00″E, 28 Jul 1979, Bernacsek et al.

COMPARATIVE MATERIALS EXAMINED: Alestes macrophthalmus: AMNH 217360, Malagarazi River, Tanzania. – AMNH 245441, 1µCT scan, Sangha River at Senga Bato, Republic of Congo. – Alestopeterius dentex: AMNH 226449, 1C&S, Niger River, Benin. – Alestopetersius caudalis: AMNH 263304, Congo River, Boma, Democratic Republic of Congo. – Alestopetersius hilgendorfi: AMNH 244114, 1µCT scan, Yenge River at Boyenga, Democratic Republic of Congo. – Arnoldichthys spilopterus: AMNH 233398, Lower Niger River, Nigeria. – AMNH 216017, 1µCT scan, New Calabar River, Nigeria. – Bathyaethiops atercrinis: AMNH 253502, 2C&S, 1µCT scan, Lekoumou River, Republic of Congo. – Bathyaethiops greeni: AMNH 252261, Salonga National Park, Democratic Republic of Congo. – Bathyaethiops breuseghemi: AMNH 269023, 1µCT scan, Lulua River, Democratic Republic of Congo. – Brachypetersius altus: AMNH 252504, Kwilu River, Democratic Republic of Congo. – AMNH 259243, 2µCT scan, Mai Ndombe River, Democratic Republic of Congo. – Brachypetersius notospilus: AMNH 253967, 1µCT scan, Lebayi River, Republic of Congo. – Brycinus macrolepidotus: AMNH 239507, 1C&S, Congo River, Brazzaville, Republic of Congo. – AMNH 270775, 1µCT scan, Niger River at Mafou, Guinea. – Brycinus nurse: AMNH 227279, Gambella, Ethiopia. – AMNH 230623, Ouandja River, Central African Republic. – AMNH 215629, 1µCT scan, Bahr El Ghazal, Sudan. – Brycinus taeniurus: AMNH 262981, 2µCT scan Gniabale River, Gabon. – Bryconaethiops microstoma: AMNH 238290, 2C&S, Malebo Pool, Brazzaville, Republic of Congo. – AMNH 263324, Boma, Congo River, Democratic Republic of Congo. – AMNH 253823, 1µCT scan, Kwilu River, Democratic Republic of Congo. – Bryconaethiops boulengeri: AMNH 240415, 1µCT scan, Odzala National Forest, Republic of Congo. – Bryconalestes longipinnis: AMNH 258383, Noumbi River, Republic of Congo. – AMNH 59626, 1µCT scan, Gola north forest reserve, Sierra Leone. – Bryconalestes . tholloni: AMNH 253925, 1 µCT scan, Kouilou-Niari at Loudima, Republic of Congo. – Clupeocharax schoutedeni: AMNH , 242487, 1µCT scan, Lac Ndekengelo, Bandudu, Democratic Republic of Congo. – AMNH 242485, 1µCT scan, Lac Ikenge, Democratic Republic of Congo. – Hemigrammopetersius barnardi: AMNH 50825, Tanzania. – Hydrocynus forskahlii: AMNH 238308, Kasai River, Bandundu, Democratic Republic of Congo. – AMNH 238305, 1µCT scan, Kasai River, Democratic Republic of Congo. – Hydrocynus vittatus: AMNH 238297, 1C&S, Fimi River, Bandundu, Democratic Republic of Congo. – Ladigesia roloffi: AMNH 50886, Sierra Leone. – AMNH 233394, 2µCT scan, Aquarium material. – Lepidarchus adonis: AMNH 261317, 2µCT scan, Guinea. – Micralestes humilis: AMNH 245464, Lengoue River, Sangha, Republic of the Congo. – AMNH 240814, 1µCT scan, Luilaka River, Democratic Republic of Congo,. – M. holargyreus: AMNH 263359, 1µCT scan, Congo River at Boma, Democratic Republic of Congo. – M. pabrensis: AMNH 57427, 2C&S, Volta River, Ghana. – AMNH 50831, 2µCT scan, no locality data. – Nannopetersius ansorgii: AMNH 258095, Kouilou, Republic of the Congo. – AMNH 263093, 2µCT scan, Lake Tchibanji, Republic of Congo. – Nannopetersius lamberti: AMNH 238370, 1µCT scan, Foulakari River, Republic of Congo. – Phenacogrammus aurantiacus: AMNH 274780, 2µCT scan, Ndzaa River, Democratic Republic of Congo. – Phenocogrammus concolor: AMNH 276321, 2µCT scan, Ndzaa River, Democratic Republic of Congo. – Phenacogrammus deheyni: AMNH 252208, 1µCT scan, Bionga Bionga, Democratic Republic of Congo. – Phenacogrammus flexus: AMNH 276320, 2µCT scan, Ndzaa River, Democratic Republic of Congo. – Phenacogrammus interruptus: AMNH 239467, 2C&S, Congo River, Brazzaville, Republic of the Congo. – AMNH 256217, Kwilu River, Democratic Republic of Congo. – AMNH 274784, 2µCT scan, Lomomo River, Democratic Republic of Congo. – Phenacogrammus major: AMNH 236514, 1µCT scan, Pont So’o, Cameroon. – Phenacogrammus polli: AMNH 240818, 1C&S, Salonga National Park, Democratic Republic of Congo. – AMNH 240816, 1µCT scan, Luilaka River, Democratic Republic of Congo. – Phenacogrammus urotaenia: AMNH 253971, 2µCT scan, Lebayi River, Republic of Congo. – Rhabdalestes aeratis: AMNH 242479, 2µCT scan, Lac Besako, Democratic Republic of Congo. – Rhabdalestes septentrionalis: AMNH 275205, Kodiwol, Gaoual, Guinea. – AMNH 254042, 1µCT scan, Liberia. – Rhabdalestes yokai: AMNH 274862, 2µCT scan, Kouyou River, Republic of Congo. – Tricuspidalestes caeruleus: AMNH 252193, 1µCT scan, Ta’Simon a Bouagui, Democratic Republic of Congo.