Corydoras caramater, Tencatt & Couto & Santos & Sousa, 2024

Corydoras caramater , new species

urn:lsid:zoobank.org:act:55EEBC8C-5ED8-4FB3-A330-60474CEF52CD

( Figs. 1-13, 16; Tab. 1)

Holotype. MNRJ 54621 View Materials , 49.3 mm SL, Brazil, Pará , Senador José Porfírio , rio Bacajaí, rio Xingu basin, 03°53’30”S 51°43’13”W, 11 Jul 2014, A. Gonçalves & D. Bastos. GoogleMaps

Paratypes. All from Brazil, Pará , Senador José Porfírio , rio Xingu basin, except when noted. CITL 929 , 5 of 6, 35.7–45.3 mm SL, 1 of 6 c&s, 45.3 mm SL, rio Bacajaí , 03°41’20”S 51°45’08”W, 12 Jul 2014, A. Gonçalves & D. Bastos. CPUFMT 8150, 2, 35.2–40.7 mm SL, rio Bacajaí , 03°48’47”S 51°41’07”W, 9 Jul 2014, A. Gonçalves & D. Bastos. INPA 60241 View Materials , 3 View Materials , 33.8–44.4 mm SL, rio Bacajaí , 03°49’02”S 51°41’04”W, 11 Jul 2014, A. Gonçalves & D. Bastos. MZUSP 129261 View Materials , 4 View Materials , 36.9–39.8 mm SL, rio Bacajaí , 03°39’22”S 51°45’40”W, 12 Jul 2014, A. Gonçalves & D. Bastos. LIA 148 View Materials , 2 View Materials , 39.9 View Materials –44.0 mm SL, rio Bacajaí , 03°36’19”S 51°46’05”W, 16 Oct 2013, A. Gonçalves. LIA 299 View Materials , 4 View Materials , 30.6–36.5 mm SL, 1 c&s, 39.1 mm SL, rio Bacajaí , 03°53’39”S 51°43’28”W, 11 Jul 2014, A. Gonçalves & D. Bastos. LIA 370 View Materials , 3 View Materials , 34.6–40.5 mm SL, rio Bacajaí , 03°50’23”S 51°40’42”W, 11 Jul 2014, A. Gonçalves & D. Bastos. LIA 530 View Materials , 4 View Materials , 28.6–39.8 mm SL, rio Bacajaí , 03°41’56”S 51°44’23”W, 11 Jul 2014, A. Gonçalves & D. Bastos. LIA 672 View Materials , 1 View Materials , 27.2 mm SL, rio Bacajaí , 03°38’41”S 51°45’13”W, 12 Jul 2014, A. Gonçalves & D. Bastos. LIA 864 View Materials , 1 View Materials , 36.5 mm SL, Vitória do Xingu , igarapé tributary of the rio Xingu , 03°19’29”S 51°47’20”W, 6 Oct 2014, D. Bastos & R. Oliveira. LIA 893 View Materials , 2 View Materials , 33.8–43.5 mm SL, Vitória do Xingu , igarapé tributary of the rio Xingu , 03°15’57”S 51°43’50”W, 5 Oct 2014, D. Bastos & R. Oliveira. LIA 970 View Materials , 2 View Materials , 38.5–46.8 mm SL, Anapu, igarapé tributary of the rio Bacajá , 03°40’18”S 51°29’13”W, 3 Oct 2014, D. Bastos & R. Oliveira. LIA 1073 View Materials , 8 View Materials , 34.3 View Materials –43.0 mm SL, 2 c&s, 35.9–41.6 mm SL, Anapu, igarapé tributary of the rio Bacajá , 03°40’18”S 51°29’13”W, 3 Oct 2014, D. Bastos & R. Oliveira. LIA 1996 View Materials , 29 View Materials , 30.1–44.8 mm SL, Vitória do Xingu , igarapé tributary of the rio Xingu , 03°15’57”S 51°43’50”W, 26 Jul 2014, D. Bastos & A. Martins. LIA 2257 View Materials , 1 View Materials , 43.7 mm SL, Anapu, igarapé tributary of the rio Xingu , 03°05’12”S 51°38’04”W, 20 Jul 2014, D. Bastos & A. Martins. LIA 3393 View Materials , 2 View Materials , 37.5–50.8 mm SL, Anapu, igarapé tributary of the rio Xingu , 03°05’12”S 51°38’04”W, 1 Oct 2015, R. Oliveira. LIA 5416 View Materials , 4 View Materials , 39.9–46.4 mm SL, Anapu, igarapé tributary of the rio Xingu, 03°05’12”S 51°38’04”W, 10 Jan 2015, R. Oliveira. LIA 6511 View Materials , 3 View Materials , 36.9–41.3 mm SL, Anapu, igarapé tributary of the rio Xingu, 03°05’12”S 51°38’04”W, 26 Aug 2016, T. Bernardi and J. Arcanjo. LIA 8170 View Materials , 1 View Materials , 38.1 mm SL, Anapu, igarapé Mosquito, 03°41’11”S 51°28’28”W, 7 Aug 2021, A. Ribeiro & P. Rocha. NUP 24841, 2, 29.3–44.6 mm SL, collected with the holotype GoogleMaps .

Non-type specimens. All from Brazil, Pará, Jacareacanga, ca. 06°12’S 57°45’W, 3–11 Jul 2023. CPUMT 8148 , 13 of 14, 19.9–45.1 mm SL, 1 c&s of 14, 44.1 mm SL, igarapé Limãozinho, M. A. Pinheiro, W. M. Ohara & L. F. C. Tencatt. CPUFMT 8149 , 1 , 49.9 mm SL, rio Pacu , local fishermen GoogleMaps .

Diagnosis. Corydoras caramater can be distinguished from its congeners, except for the species within the lineage 1 sensu Alexandrou et al. (2011), by the presence of the following features: branch of the temporal sensory canal at sphenotic, which gives rise to the supraorbital canal, with two pores (vs. one pore); upper tooth plate of branchial arch with three or four series of teeth (vs. two series); and area at the corner of the mouth, ventral to the maxillary barbel, with a small fleshy flap (vs. fleshy flap absent); from the lineage 1 species, except for C. amapaensis Nijssen, 1972 , C. blochi Nijssen, 1971 , C. cortesi Castro, 1987 , C. desana Lima & Sazima, 2017, C. pastazensis Weitzman, 1963 , C. saramaccensis Nijssen, 1970 , C. septentrionalis Gosline, 1940 , C. serratus Sands, 1995 , C. solox Nijssen & Isbrücker, 1983 , and C. simulatus Weitzman & Nijssen, 1970 , by having a dark brown or black patch transversally crossing the orbit, forming a mask-like blotch, which can be variably diffuse (vs. mask-like blotch absent); it differs from C. cortesi , C. desana , C. pastazensis , C. septentrionalis , and C. simulatus by the absence of a distinct color pattern along midline of flank (vs. midline of flank with moderate- to large-sized, conspicuous dark brown or black blotches in C. desana , C. pastazensis , C. septentrionalis , and C. simulatus ; with a longitudinal dark brown or black stripe in C. cortesi ); from C. amapaensis , C. serratus and C. solox , it differs by having dorsolateral body plates only with small, irregular, rounded or vertically elongated dark brown or black blotches; ground color of plates typically dusky but not forming large, conspicuous black patches (vs. midventral portion of dorsolateral body plates on region between middle portion of dorsal fin and caudal-fin base typically with large, conspicuous dark brown or black longitudinally elongated blotch or stripe; dark stripe variably diffuse, in C. amapaensis ; wide, dark brown or black longitudinal stripe from predorsal region to caudal-fin base or, alternatively, dorsolateral body plates around anterior portion of dorsal-fin base with dark brown or black patch in C. serratus ; region between anterior portion of dorsal fin and caudal-fin base with wide, longitudinal dark brown or black stripe in C. solox ); from C. blochi and C. saramaccensis by the absence of a relatively large, conspicuous dark patch on anterior portion of dorsal fin (vs. anterior portion of dorsal fin with a conspicuous concentration of dark brown or black chromatophores, forming a relatively large, conspicuous patch). Additionally, Corydoras caramater can be distinguished from C. geoffroy Lacépède, 1803 , C. amapaensis , C. septentrionalis , and C. solox by having a triangular fleshy flap at the corner of mouth, ventrally to maxillary barbel, not forming an elongated barbel-like structure (vs. fleshy flap at corner of mouth elongated, forming a barbel-like structure).

Description. Morphometric data in Tab. 1. Head laterally compressed with acutely convex dorsal profile, roughly triangular in dorsal view. Snout well developed, conical; conspicuously pointed in some specimens. Head profile slightly concave from tip of snout to anterior nares; nearly straight in some specimens; ascending nearly straight or slightly convex from this point to dorsal-fin origin; region of frontal fontanel slightly concave in some specimens. Profile slightly convex along dorsal-fin base. Postdorsal-fin body profile slightly concave to adipose-fin spine, concave from this point to caudal-fin base. Ventral profile of body nearly straight from isthmus to pectoral girdle, and slightly convex from this point until pelvic girdle. Profile nearly straight or slightly convex from pelvic girdle to base of first anal-fin ray, ascending concave until caudal-fin base. Body roughly elliptical in cross section at pectoral girdle, gradually becoming more compressed toward caudal fin. Highest body depth at vertical through anterior origin of dorsal fin.

Eye rounded, located dorsolaterally on head. Orbit delimited anteriorly by lateral ethmoid, anterodorsally by frontal, posterodorsally by sphenotic, posteroventrally by infraorbital 2, and anteroventrally by infraorbital 1 ( Figs. 3, 4A). Anterior and posterior nares close to each other, only separated by flap of skin. Anterior naris tubular. Posterior naris close to anterodorsal margin of orbit, separated from it by distance similar to naris diameter. Mouth small, subterminal, width similar to bony orbit diameter. Maxillary barbel typically well developed, slightly surpassing anteroventral limit of gill opening; ranging from poorly developed, distant from anteroventral limit of gill opening, to moderately developed, nearly reaching anteroventral limit of gill opening in some specimens; base of barbel with fleshy flap on its dorsolateral portion ( Fig. 5). Outer mental barbel with similar size or slightly longer than maxillary barbel. Inner mental barbel fleshy, base of each counterpart slightly separated from each other. Area at mouth corner, ventral to maxillary barbel, with small, roughly triangular fleshy flap ( Fig. 5). Small rounded papillae covering entire surface of all barbels, upper and lower lips, snout and isthmus.

Mesethmoid long; anterior tip well developed, larger than 50% of bone length; posterior portion relatively narrow, entirely covered by thick layer of skin; posterior portion slightly narrower in specimen CPUMT 8148, 44.1 mm SL ( Figs. 4B, 6). Nasal capsule typically delimited anterodorsally by mesethmoid, posterodorsally by frontal, and ventrally by lateral ethmoid; nasal capsule delimited dorsally by frontal and ventrally by lateral ethmoid in specimen CPUMT 8148, 44.1 mm SL. Nasal slender, laterally curved, inner margin with poorly- to moderately-developed laminar expansion, typically contacting only frontal; outer margin with poorly-developed laminar expansion, not contacting lateral ethmoid; strongly reduced laminar expansion in some specimens ( Figs. 3, 4, 6). Lateral ethmoid deep in lateral view, conspicuously expanded anteriorly, with anterodorsal expansion contacting only mesethmoid, and anteroventral expansion connected to lateroventral process of mesethmoid; anterodorsal expansion contacting mesethmoid and frontal in CPUMT 8148, 44.1 mm SL ( Fig. 3A). Frontal elongated, narrow, width less than half of entire length; anterior projection relatively short, size generally smaller than nasal length; moderately developed in some specimens, with size similar to nasal length; anterior projection long, with size larger than nasal length in specimen CPUMT 8148, 44.1 mm SL. Frontal fontanel large, slender, and somewhat ellipsoid; posterior tip extension clearly surpassing anterior margin of parieto-supraoccipital ( Figs. 3, 6). Sphenotic somewhat trapezoid, contacting parieto-supraoccipital dorsally, pterotic-extrascapular posteriorly, second infraorbital posteroventrally and frontal anteriorly ( Figs. 3, 6). Pterotic-extrascapular roughly pipe-shaped, with posterodorsal portion contacting first lateral-line ossicle, posteroventral margin contacting cleithrum, and anteroventral margin contacting opercle and infraorbital 2; posterodorsal expansion almost entirely covering lateral opening of swimbladder capsule, leaving slender area on its dorsal margin covered only by thick layer of skin ( Figs. 3, 6). Parieto-supraoccipital wide, posterior process long and contacting nuchal plate; region of contact between posterior process and nuchal plate covered by thick layer of skin ( Fig. 6).

Two laminar infraorbitals with minute odontodes. Infraorbital 1 large, ventral laminar expansion ranging from moderately to well developed; anterior portion with laminar expansion ranging from moderately developed, slightly surpassing middle portion of nasal capsule, to well-developed, reaching anterior margin of nasal capsule; inner laminar expansion strongly reduced ( Figs. 3, 6, 7A). Infraorbital 2 small, widened dorsally, with posterior laminar expansion ranging from moderately to well developed; posteroventral margin contacting posterodorsal ridge of hyomandibula, posterodorsal edge contacting sphenotic and pterotic-extrascapular; inner laminar expansion strongly reduced ( Figs. 3, 6, 7B). Posterodorsal ridge of hyomandibula close to its articulation with opercle slender, exposed, and bearing small odontodes ( Figs. 3, 7C). Dorsal ridge of hyomandibula between pterotic-extrascapular and opercle entirely or almost entirely covered by posterodorsal portion of infraorbital 2; entirely covered by thick layer of skin in some specimens. Interopercle partially covered by thick layer of skin, with posterior portion exposed and bearing odontodes; subtriangular, anterior projection moderately developed ( Figs. 3, 7C). Preopercle elongated, relatively slender; minute odontodes on external surface ( Figs. 3, 7C). Opercle dorsoventrally elongated, width slightly smaller than half of its entire length; free margin convex, posterodorsal portion with smoothly concave area in some specimens; without serrations and covered by small odontodes

( Figs. 3, 7C).

Four branchiostegal rays decreasing in size posteriorly. Hypobranchial 1 deep, with mesial expansion poorly to well ossified; hypobranchial 2 somewhat triangular, tip ossified and directed towards anterior portion, posterior margin cartilaginous; ossified portion ranging from strongly reduced to poorly developed, with cartilaginous portion at least twice of its size in smaller specimens ( LIA 299, 39.1 mm SL; LIA 1073, 35.9–41.6 mm SL) ( Fig. 8A); ossified portion well developed in larger specimens ( CPUMT 8148, 44.1 mm SL; CITL 929, 45.3 mm SL), around twice size of cartilaginous portion ( Fig. 8C). Five ceratobranchials with expansions increasing posteriorly; ceratobranchial 1 with strongly reduced process on anterior margin of mesial portion; ceratobranchial 3 with continuous laminar expansion on postero-lateral margin; ceratobranchial 5 toothed on posterodorsal surface, with 28 to 31(4) teeth aligned in one row. Four epibranchials with similar size; epibranchial 2 slightly larger than others, with small pointed process on laminar expansion of posterior margin; epibranchial 3 with roughly triangular uncinate process on laminar expansion of posterior margin; process variably bent mesially. Two wide pharyngobranchials (3 and 4); pharyngobranchial 3 with roughly triangular laminar expansion on posterior margin; expansion typically notched. Upper tooth plate roughly oval, 46 to 60(4) teeth aligned in three or four rows on posteroventral surface; rows slightly apart from each other ( Fig. 8B).

Lateral-line canal reaching cephalic laterosensory system through pterotic-extrascapular, branching twice before reaching sphenotic: pterotic branch, with single pore, preoperculomandibular branch conspicuously reduced, with single pore opening close to postotic main canal; postotic main canal widens just posterior to pterotic branch. Sensory canal continuing through pterotic-extrascapular, reaching sphenotic as temporal canal, which splits into two branches: one branch giving rise to infraorbital canal, other branch connecting to frontal through supraorbital canal, with one and two pores, respectively. Supraorbital canal branched, running through nasal bone. Epiphyseal branch relatively long; pore opening close to frontal fontanel. Nasal canal with three openings, first on posterior edge, second on posterolateral portion and typically fused with first pore, and third on anterior edge; second opening variably absent. Infraorbital canal running through entire infraorbital 2, extending to infraorbital 1 and opening into two or three pores. Preoperculomandibular branch giving rise to preoperculomandibular canal, which runs through entire preopercle with three openings, leading to pores 3, 4, and 5, respectively; pore 3 opening at posterodorsal ridge of hyomandibula in some specimens.

Dorsal fin subtriangular, located just posterior to second or third dorsolateral body plate. Dorsal-fin rays II,7(1), II,7,i(1), II,8*(16), posterior margin of dorsal-fin spine with four to 11 strongly reduced to poorly-developed serrations, perpendicularly directed or antrorse; serrations restricted to distal half of spine; small odontodes on anterior and lateral surfaces of spine ( Fig. 9A). Nuchal plate well developed, almost entirely exposed, with minute odontodes. Spinelet short; spine well developed, with adpressed distal tip reaching or slightly surpassing posterior origin of dorsal-fin base. Pectoral fin roughly triangular, its origin just posterior to gill opening. Pectoral-fin rays I,9,i(2), I,10*(11), I,10,i(3), I,11(2), posterior margin of pectoral spine with 13 to 19 conical serrations along almost its entire length, absent around origin of spine; most serrations well developed and retrorse; serrations close to origin of spine conspicuously less developed; some serrations variably perpendicularly directed; small odontodes on anterior, dorsal and ventral surfaces of spine ( Fig. 9B). Anteroventral portion of cleithrum exposed; posterolateral portion of scapulocoracoid moderately developed, exposed, with anterior portion slightly expanded anteriorly, not in contact with anteroventral portion of cleithrum. Opening of axillary gland sensu Kiehl et al. (2006) apparently reduced to narrow slit just posterior to pectoral-fin spine base.

Pelvic fin oblong, located just below second or third ventrolateral body plate, and at vertical through second or third dorsal-fin branched rays. Pelvic-fin rays i,5*(18). Anterior internal process of basipterygium well developed and conspicuously laterally expanded, with nearly vertically placed dorsal lamina; anterior external process laminar, well developed, slightly to moderately expanded posteriorly; dorsal ischiac process well developed, with anterior laminar expansion moderately expanded anteriorly, and posterior laminar expansion slightly to moderately expanded posteriorly; anterior and posterior laminar expansions of ischiac process roughly triangular or rounded; ventral ischiac process clearly smaller than dorsal process, roughly triangular, bent anteriorly

( Fig. 10). Adipose fin roughly triangular, separated from base of last dorsal-fin ray by six or seven dorsolateral body plates. Anal fin subtriangular, located just posterior to 12 th or 13 th ventrolateral body plates, and at vertical through adipose-fin spine base or region of adipose-fin membrane. Anal-fin rays ii,5,i(3), ii,6*(15). Caudal fin bilobed, with dorsal lobe typically larger than ventral lobe; some specimens with dorsal lobe clearly smaller than ventral lobe, apparently by undergoing regeneration. Caudal-fin rays i,12,i*(18), with four or five dorsal and ventral procurrent rays; small cartilage between upper principal and procurrent caudal-fin rays (presumably opisthural cartilage (Monod, 1968; McDowall, 1999)) ( Fig. 11).

Four to six laterosensory canals on trunk; first ossicle tubular, second ossicle laminar, third, fourth, fifth and sixth lateral-line canals, if present, encased in third, fourth, fifth and sixth dorsolateral body plates, respectively. Body plates with minute odontodes scattered over exposed area, with conspicuous line of odontodes confined to posterior margins. Dorsolateral body plates 25(16), 26*(2). Ventrolateral body plates 22(16), 23*(2). Dorsolateral body plates along dorsal-fin base 6*(9), 7(9). Dorsolateral body plates between adipose- and caudal-fin 8(3), 9(14), 10*(1). Preadipose platelets 3(1), 4(15), 5*(2). Ventral surface of trunk between posteroventral margin of cleithrum and pelvic-fin origin laterally delimited by first and second ventrolateral body plates; ventral portion of first ventrolateral body plate ranging from slightly to moderately expanded anteriorly. Small platelets covering base of caudal-fin rays. Small platelets disposed dorsally and ventrally between junctions of lateral plates on posterior portion of caudal peduncle. Anterior margin of orbit, above region of junction between frontal and lateral ethmoid, ventral and anterodorsal margins of nasal capsule, lateral surface of head below infraorbital 1, and lateral and dorsal portions of snout with numerous small platelets bearing odontodes; region around tip of snout typically devoid of platelets; region around nasal capsule and dorsal and lateral surfaces of snout with few platelets in specimen ( CPUMT 8148, 44.1 mm SL). Ventral surface of head and trunk with small irregular platelets bearing odontodes; ventral surface of head variably lacking platelets on its anterior portion, with more numerous and concentrated platelets on its posterior portion, becoming gradually fewer and sparser towards posterior portion of trunk; mesial portion of ventral surface of trunk close pelvic fins and/or region around pectoral-fin origin with concentration of platelets in some specimens.

Vertebral count 22(1), 23(3); ribs 5(4); first pair conspicuously large, its middle portion closely connected to first ventrolateral body plate; its tip not connected to anterior external process of basipterygium. Parapophysis of complex vertebra well developed.

Coloration in alcohol. Overall color pattern of body in Figs. 1–2. Ground color of body pale- to brownish yellow or beige. Top of head dark brown. Dorsal and lateral surface of head, and lateral surface of cleithrum covered by dark brown or black chromatophores, not forming small blotches; elongated dark patch transversally crossing orbit, forming typical mask-like blotch, which is generally diffuse. Dorsolateral body plates with conspicuous concentration of dark brown or black chromatophores, forming small, irregular, rounded or vertically elongated dark brown or black blotches, which are roughly transversally aligned on plates; series of blotches on middle or posterior portion of dorsolateral body plates. Ventrolateral body plates with conspicuous concentration of dark brown or black chromatophores, forming small, irregular, rounded or vertically elongated dark brown or black blotches, which are roughly transversally aligned on plates; series of blotches typically restrict to dorsal half of ventrolateral body plates and placed on its middle portion. Blotches on lateral body plates more evident on anterior portion of trunk; posterior margin of body plates typically with dark brown or black chromatophores, forming thin dark lines along border of plates. Dorsal-fin with dark brown or black chromatophores, more concentrated on spine and rays, and typically forming small, diffuse dark blotches, which are roughly longitudinally or obliquely aligned. Pectoral and pelvic fins with dark brown or black chromatophores, not forming dark blotches; pelvic fin with scarce chromatophores in some specimens. Adipose fin with conspicuous concentrations of dark brown or black chromatophores, typically forming small, diffuse dark blotches, especially on its spine. Anal fin with dark brown or black chromatophores, which are more concentrated on rays, typically forming small, diffuse dark blotches roughly aligned transversally; blotches generally more evident on middle portion of fin. Caudal fin with conspicuous concentrations of dark brown or black chromatophores, mostly on rays, forming numerous, small, diffuse dark blotches, which are roughly aligned transversally; in some specimens, caudal-fin blotches slightly more evident than blotches in remaining fins.

Coloration in life. Similar to color pattern of preserved specimens, but with light yellowish orange ground color of body, especially on anterodorsal portion of trunk. Mask-like blotch variably more evident. Body covered by greenish yellow iridescent coloration ( Figs. 12, 13).

Sexual dimorphism. As well-documented in Corydoradinae (see Britto, 2003; Nijssen, Isbrücker, 1980b; Spadella et al., 2017), male specimens of C. caramater present a genital papilla, which is somewhat tubular in shape.

Geographical distribution. Corydoras caramater is currently known from the basins of the rivers Bacajá and Bacajaí and other small tributaries of the right margin of the rio Xingu draining the region of the Volta Grande do Xingu, and also from tributaries of the rio Tapajós basin in the region of Jacareacanga, Pará State, Brazil ( Fig. 14).

Ecological notes. In both rivers Xingu and Tapajós basins, C. caramater was captured from small streams to the main channel of smaller rivers ( Fig. 15). In the igarapé Limãozinho ( LFCT, pers. obs.), a tributary of the rio Tapajós basin, the new species was mostly observed in shallow sites (up to about 30 cm deep), with width ranging

from 1 to 3 m, slow to moderate water current, and substrate mostly composed by fine sand and gravel, with areas of leaf litter and submerged branches/logs, as well as aquatic macrophytes. In this same site, the new species was observed shoaling together with two undescribed mimetic congeners (see Alexandrou et al. (2011) for a broader discussion on mimicry in Corydoradinae ), Corydoras sp. CW101 (less abundant) and CW102 (most abundant), with the new species occurring in intermediate abundance when compared to both of them. Additionally, the new species was also captured with another undescribed congener in the igarapé Limãozinho, Corydoras sp. CW193. The new species was observed in the igarapé Sonrizal ( Fig. 15C), rio Tapajós basin, in a similar habitat as described for the igarapé Limãozinho, except for its larger width (about 10 m) and depth (about 1.5 m). In the igarapé Sonrizal, the new species was observed in syntopy with the following congeners: Corydoras sp. C 151, C152, CW66, CW174, and CW176. Similarly to the observed in the igarapé Limãozinho, C. caramater was found in syntopy with Corydoras sp. CW101 and CW102.

Etymology. The specific epithet caramater is formed by the junction of two words derived from the Latin ‘cara’, which means dear, beloved, and ‘mater’, meaning mother. This is a small tribute to these strong women, who work hard and are still responsible, often alone, for tenderly raising their children. The name especially honors Miriam Tencatt, Jéssica Mendonça (mother and wife of LCFT, respectively), Ireide da Silva Pinto (mother of OLPC), Vanda Santos (in memorian), Roberta Murta-Fonseca (mother and wife of SAS, respectively), and Edina Melo de Sousa (mother of LMS), but extends to all caring mothers around the world. A noun in apposition.

Conservation status. Corydoras caramater is currently known from the Bacajá and Bacajaí river basins and other small tributaries of the right margin of the rio Xingu draining to Volta Grande do Xingu, plus tributaries of the rio Tapajós basin in the region of Jacareacanga, all in Pará, Brazil. Considering the type-locality region (rio Bacajaí), the negative effects to the ichthyofauna caused by the implementation of the Belo Monte hydroelectric complex must be closely monitored (see Keppeler et al., 2022). Regarding the rio Tapajós basin population, the region of Jacareacanga is

widely known by its intense gold-mining activities, which are often illegal, causing a wide range of negative impacts on nature (see de Bakker et al., 2021; Bandeira Junior, Carvalho, 2023). Although such negative impacts are known and worrying, there is no available evidence that they constitute a threat to the new species as a whole. Additionally, considering our findings, the Extent of Occurrence ( EOO) was estimated at about 30.000 km 2, which represents a relatively large area. Therefore, according to the International Union for Conservation of Nature ( IUCN) categories and criteria ( IUCN Standards and Petitions Subcommittee, 2022), Corydoras caramater would be classified as Least Concern ( LC).

Remarks. Corydoras caramater was bred under aquarium conditions by Hans Evers,

who documented its ontogenetic development from 8.0 mm to 24.0 mm TL, showing

general changes in external morphology and color pattern ( Fig. 16). Specimen with 8.0

mm TL in early flexion stage ( Fig. 16A) presents head slightly depressed, with short

and conspicuously rounded snout; barbels relatively short and with well-developed

papillae, which will gradually become less developed along individual’s growth; eye

large; median fin fold present, extending from post-cephalic region to genital opening;

caudal-fin rays distinct, fin not detached from fin fold; dorsal, anal, pelvic and adipose

fins not distinct; caudal-fin asymmetrical, dorsal portion distinctly longer than ventral;

pectoral fin roughly rounded; body plates absent; dark brown or black chromatophores

conspicuously more concentrated on anterior portion of trunk, forming a large dark

patch; body covered by greenish yellow iridescent coloration.

Specimen with 10.0 mm TL in early post-flexion stage ( Fig. 16B) displays slightly more pronounced snout, clearly more developed barbels, and reduction of median fold, with dorsal and caudal fins partially distinct; hypural plates visible by transparency; dorsal-fin rays distinct; pectoral fin slightly more developed; pelvic-fin fold partially detached; anal and adipose fins indistinct; slightly more pigmented body, with longitudinal series of diffuse dark blotches along midline of flank. Specimens with 13.0 and 16.0 mm TL, respectively, in early juvenile stage ( Figs. 16C, D), showing the gradual development of snout, which becomes more pronounced and pointed along individual’s growth; complete absorption of median fold; pelvic, adipose and anal fins distinct; caudal fin bilobed, with ventral lobe clearly less developed than dorsal lobe; beginning of formation of lateral body plates; body gradually more pigmented, with continuous reduction of dark patch on anterior portion of trunk; roughly longitudinal series of diffuse dark blotches along dorsal and ventral portions of flanks; oblique dark stripe from anteroventral margin of orbit to upper lip lateral area, which is initially diffuse, turning more evident afterwards, and then gradually vanishing along individual’s growth; caudal fin with somewhat transversal slender dark bars, gradually becoming more defined.

Juvenile specimen with 19.0 mm TL ( Fig. 16E) with more developed lateral bony plates; caudal-fin ventral lobe well developed; body densely covered by dark brown or black chromatophores, forming small irregular dark blotches; longitudinal series of blotches on flanks diffuse. Color pattern and general external morphology of juvenile specimen with 24 mm TL ( Fig. 16F) similar to fully growth specimens, but with slender body and slightly more diffuse coloration.