(anura: dendrobaTidae) wiTh descripTion of larval variaTion and species disTincTion by larval morphology

This study re-describes the tadpoles of Hyloxalus subpunctatus (Anura: Dendrobatidae) based on larvae from the type locality and over most of its geographic range, including all stages of ontogenetic development. I describe tadpoles in the three developmental phases: (1) backriding tadpoles, (2) free-swimming tadpoles, (3) froglets or individuals in metamorphosis. The larval morphology showed at least two types of variation: ontogenetic variation and variation within each developmental phase. In back-riding tadpoles, the variation in labial tooth rows suggests a pattern of the labial tooth row formation. In free-swimming tadpoles there is variation in the disposition of marginal papillae, i.e., in the number of rows on the margin of the lips, but this variation has no effect on the general aspect of the tadpoles. Moreover, I compared the tadpoles of H. subpunctatus with tadpoles of potential sympatric species and populations previously identified as H. subpunctatus. Interspecific differences and larval characters were found that were useful in delimiting those species. Key-Words: Tadpoles; Larval differentiation; Ontogenetic variation; Sequence of labial tooth row formation.


IntroductIon
The diversity of larval morphology in the family Dendrobatidae (Dendrobatoidea of Grant et al., 2006) is unknown (Caldwell et al., 2002, Castillo-Trenn, 2004).For example, for the largest genus of dendrobatids, Hyloxalus with 58 species (Frost, 2011), there are only 25 species with described tadpoles (43.1% of the genus); and of the 25 tadpoles described in Hyloxalus, 64% of the descriptions are based on a single individual and 40% are based only on backriding stages (Table 1).Although other descriptions included free-swimming tadpoles, there has been little emphasis on variation and on details of morphology.Only eight Hyloxalus tadpoles (out of 21 reported for Colombia) are known and the available descriptions are very short, general, and unspecific.The situation reflects the scarce interest in tadpole biology and their morphology (external and internal) as a taxonomic tool or as source of potential phylogenetic characters.
The description of 19 (between back-riding and free-swimming tadpoles) larvae of Hyloxalus subpunctatus from the municipality of Bogotá, Colombia, by Stebbins & Hendrickson (1959) reports very general larval features that are common to all tadpoles of the genus Hyloxalus and do not allow the distinction of the tadpoles of H. subpunctatus from other species of the genus.Nevertheless, I reviewed a large series of tadpoles of H. subpunctatus that included all the developmental stages.Here, I present larval features in the free-living tadpoles, to permit the distinction of the tadpoles from those of other species (either species sympatric with H. subpunctatus or from populations previously identified as H. subpunctatus).Moreover, the larval morphology of H. subpunctatus shows different types of variation (e.g., ontogenetic variation), which are described herein.A re-description of the tadpoles of H. subpunctatus with variation and ontogenetic change is provided, highlighting characters useful for distinction and diagnosis of free-living larvae.

tadpoles
I reviewed a total of 347 tadpoles of H. subpunctatus: 143 back-riding tadpoles, i.e., tadpoles captured with the carrying adults (stages 25 to 27, Gosner, 1960), 196 free-swimming tadpoles (stages 26 to 41) and eight individuals in metamorphosis.Staging of tadpoles follows Gosner (1960).For identification of the tadpoles, I used tadpoles from localities where H. subpunctatus is the only dendrobatid found (e.g., the campus of the Universidad Nacional de Colombia, Bogotá), and I identified larval characters of this species; this allowed me to identify tadpoles of H. subpunctatus from other places.This characterization was then applied to samples for three other situations: (3) tadpoles from other highland populations of the country where H. subpunctatus is not expected but other species are known (for example, H. pulchellus).These three sets of tadpoles were compared or contrasted with my reference samples from the campus of the Universidad Nacional de Colombia in Bogotá.

description and variation
A composite description is provided, mainly based on free-swimming tadpoles (stages 25-41), since all morphological features are fully developed in those stages and with slight variation.Larval terminology follows Altig & McDiarmid (1999) and the format of the description and measurements follows Caldwell et al. (2002) and Castillo-Trenn (2004), except for the following measurements: nostril length (measured between the lateral edges of the nostril), nostril-snout distance (from the anterior edge of narial opening to the tip of snout), nostril-eye distance (from the posterior edge of the narial opening to the anterior edge of eye), internarial distance (between internal edges of the nostrils), eye diameter (only the eye, not the ocular orbit), spiracle height (height taken at base of the spiracle), upper jaw sheath length (measured from the tips of the lateral process), and lower jaw sheath length (measured from the tips of the edges).The taxonomy for the generic level follows Grant et al. (2006) and only one family, Dendrobatidae, is recognized, following Santos et al. (2009) and Pyron & Wiens (2011).
Measurements were taken from eleven tadpoles in stage 26, ten tadpoles in stage 36 and five in stage 40 to evaluate variation in proportions during ontogeny.Nevertheless, only the measurements and proportions in stage 36 are used in the description, because the range of the proportions is overlapped between stages and remains relatively stable throughout the larvae phase, i.e., between stages 25-41 (Table 2).Papillae were counted on the right side of the anterior labium and in a space of 1 mm on the posterior labium.Furthermore, for 194 larvae with stage of development between free-swimming tadpoles and metamorphic tadpoles the total length, body length and maximum tail height were taken.Measurements were taken with a caliper (0.01 mm) and with the ocular micrometer of a Wild M8 stereomicroscope (0.001 mm).All measurements are reported in millimeters (mm.).
Three phases of development are defined: (1) back-riding tadpoles, (2) free-swimming tadpoles, and (3) metamorphic tadpoles; ontogenetic variation and variation within each of the phases is described.Each phase is identifiable and defined by abrupt changes in larval morphology and changes in life habit (Anganoy-Criollo, 2010).The number of rows of marginal papillae varies among lips, among tadpoles of the same stage (random individual variation), and between stages of free-swimming tadpoles.This variation was evaluated as follows: first, the oral disc was divided for each lip (anterior and posterior) and by the position of the papillae on each lip; and second, the number of papillae rows was quantified as one row, one biseriated row, two rows and three or more rows of papillae (see Figure 3 in Sánchez, 2010).

comparisons
Free-swimming tadpoles of H. subpunctatus were compared with tadpoles of other potentially sympatric species (Rheobates palmatus and H. edwardsi) and other similar species that were previously confused within it (H.pulchellus; Cochran & Goin, [1970: 64] suggested that H. s. subpunctatus is in southern Colombia, but those populations are now considered
Body ovoid in dorsal view and depressed in lateral view (Fig. 2).Snout rounded in dorsal and lateral view.Lateral-line system symmetric on both sides of body, with infraorbital, supraorbital, postsupraorbital, longitudinal oral, and angular lines.Stitches on lateral lines rounded, separated by equal distances.Two pairs of rounded pale whitish spots on ventral region of body (= cumuli of neuromasts) of equal to variable size, the first pair of spots on angular line in ventral region and second pair on ventral body line near body-tail junction.Nostril large, dorsal on body with dorso-anterolateral direction, from rounded to slightly oval; nostril length 0.3-0.4(0.3 ± 0.1), 21-34% of eye diameter.Inner margin of the nostril with a thick fleshy ring and with low fleshy projection dorsally.Nostril located about midway between eyes and snout tip.Internarial distance 1.9-3.2(2.6 ± 0.3), 56-85% of interorbital distance and interorbital distance 2.6-5.3 (3.6 ± 0.8), 34-43% of body width.Eyes dorsal, directed dorsolaterally, eye diameter sub-equal to nostril-eye distance, eye diameter 1-1.6 (1.2 ± 0.2), 26-42% of interorbital distance.Spiracle sinistral, conical, directed posterodorsally, located below longitudinal midline and slightly posterior to vertical midline of body; snout-spiracular opening distance 6.9-11.4(8.7 ± 1.6) i.e., opening ending 52-66% of body length (from tip of snout).Spiracle length longer than (in early stages, < stage   3).Tail moderate, 54-66% total length.Caudal musculature thin and myotomes higher than (commonly) or as high as wide at body-tail junction, narrowing gradually until tip of tail; tail muscle height 38-53% body height.Dorsal fin height equal to ventral fin height and myotomes equal to or less than fin height at mid-tail.Dorsal fin originates at tailbody junction of equal height through tail or higher at mid-tail.Tip of tail rounded.Maximum tail height equal to the body height, from 5.6 to 10.4 (8.4 ± 1.4).
Oral disc positioned and directed anteroventrally, emarginate and surrounded by marginal papillae, except on anterior lip; without sub-marginal papillae (Fig. 4A).Oral disc width 2.4-4.0 mm (3.2 ± 0.4), 25-39% of body width.Anterior lip gap 1.4-2.4mm (2.1 ± 0.3), 45-71% of oral disc width.Marginal papillae disposed in rows on lips that vary by lip and stage from one row to three or more rows (see Table 3 and Figure 5     In back-riding tadpoles, body light brown to pale dark brown.Tail cream with light brown spots.In metamorphic tadpoles, dorsum dark brown with cream vertebral line; dorsolateral flanks light brown and flanks brown with slightly oblique lateral stripe from pale brown to pale cream, extended from groin to the eyelid and sometimes to the nostril.Anterior myotomes brown and posterior myotomes light brown with brown spots.Dorsal and ventral fins white with brown spots.Limbs pale brown, forelimbs with dark brown dots and hind limbs with diffuse to intense dark brown bands.Hands and feet pale cream with dark brown dots.

Variation
The variation is divided and described as ontogenetic changes and for each of the three different phases already defined (back-riding, free-swimming and metamorphic tadpoles; Fig. 6):

ontogenetic variation
Stitches and lateral lines are not visible in backriding tadpoles, but in free-swimming tadpoles, the stitches and lateral lines are visible and fully developed.In metamorphic tadpoles, the stitches are on the posteroventral region of the body and lateral lines on the posterior body and between the nostril and eyes there is a naso-ocular line.The narial opening is dorsolateral in back-riding tadpoles and dorsoanterolateral to anterolateral in free-swimming and in metamorphic tadpoles.There is a low fleshy rim around of the nostril in back-riding tadpoles, it is fully developed in free-swimming tadpoles and low or atrophied in metamorphic tadpoles.The spiracle opening is attached to skin of body and is higher than long in back-riding tadpoles and it is separated from the skin during the later stages of back-riding tadpoles to the beginning of metamorphosis.The spiracle is atrophied at metamorphosis.The dorsal fin height is the same throughout the tail in back-riding tadpoles, higher at mid-tail in free-swimming tadpoles, and after the beginning of metamorphosis is atrophied.Oral disc is ventral in back-riding tadpoles, anteroventral in free-swimming tadpoles and anterior on body after initiating metamorphosis (stages > 42).The oral disc is weakly emarginated in back-riding tadpoles, with evident emargination in free-swimming tadpoles, and without emargination in metamorphic tadpoles.The A-2 gap moderately long, 30-37% of oral disc width in back-riding tadpoles, 4-15% of oral disc width in free-swimming tadpoles, and in metamorphic tadpoles the labial tooth rows are atrophied (including A-2).There are 3 to 10 marginal papillae on anterior lip in back-riding tadpoles, from 10 to 24 in free-swimming tadpoles, and after the beginning of metamorphosis the papillae are atrophied.Jaw sheaths are not fully pigmented in back-riding tadpoles, fully pigmented in free-swimming tadpoles, and atrophied in metamorphosis.Denticles do not cover all ridges of the labial tooth rows in back-riding tadpoles, are on the entire length of ridges in free-swimming tadpoles, and in metamorphic tadpoles the labial tooth rows are  atrophied.A weak notch at middle of the free-edge of the upper jaw sheath, sometimes not visible in backriding tadpoles.

Variation within each phase of development
Variation among back-riding tadpoles: The tadpoles carried on the back of adults are in stage 25 (n = 23, 16.8%), stage 26 (n = 116, 81.1%) and in stage 27 (n = 3, 2.1%).The total length of all the back-riding tadpoles is 6.1-12.6 mm (9.1 ± 0.8) and the body length is 2.8-5.5 mm (3.5 ± 0.4).Coiling of intestines from central to sinistral; opening of the vent tube commonly dextral and rarely central.Oral disc with one row to one biseriated row of marginal papillae; labial tooth row formula from 0/0 to 2/2 in stage 25, 0/0 to 2/3 in stage 26 and 2/3 in stage 27 (Table 4).Back-riding tadpoles that are in stage 25 and that have labial tooth row formulae 0/0 and 1/2 with body wider at posterior body level, snout sub-acuminate in dorsal view and truncate in lateral view.Addition of the labial teeth on posterior tooth ridges (P-1 and P-2) from middle to lateral ends of the ridge.
Variation among free-swimming tadpoles: External morphology changes slightly in free-swimming tadpoles, but does not affect general morphology.The opening of the vent tube is central in one tadpole in stage 28, one in 30 and one in 36, and two tadpoles in stage 33.Tooth row length varies from having the same length in all posterior rows (P-1 = P-2 = P-3) to different lengths, P-2 being larger than P-1 and P-3, or P-1 equal to P-2.At stage 40, denticles on P-3 ridge do not cover the entire ridge.The papillae on the lips are disposed from a single row to three rows, but variation depends on the lip and on the stages as follow (Table 3, mode is reported): papillae on anterior lip and papillae on postero-lateral side of posterior lip in one row from stage 25 to 32, and in one biseriated row from stage 33 to 39; papillae on medial region of the posterior lip in one biseriated row from stage 25 to 26, two rows from stage 27 to 32, and in one row from stage 33 to 39 (Fig. 5).
Variation in metamorphic tadpoles: Froglets in stage 42 (n = 6) and 43 (n = 2).Total length 25.8-36 (29.8 ± 2) and body length 8.7-11.3(10.3 ± 0.5).The body is wider at cephalic region and the snout is slightly truncate in dorsal view.The vent tube, spiracle, oral disc, and keratinized structures such as the upper and lower jaw sheaths are atrophied; moreover, labial tooth row formula is 0/0 from stages 41 and the papillae are only on lateral sides of disc oral from stages 42.Froglets have some characters typical of the adults, such as basal toe webbing between toes II-III-IV, banded pattern on the legs, and a cream pale oblique lateral stripe (Fig. 6D).

comparisons with tadpoles of other dendrobatids
Tadpoles of four species of dendrobatids, formerly Colostethus sensu lato, inhabitant the Altiplano Cundiboyacense on Cordillera Oriental de Colombia, R. palmatus, H. vergeli, H. edwardsi and H. ruizi. Tadpoles of H. vergeli and H. ruizi are unknown and tadpoles R. palmatus (Dunn, 1944: under the name H. granuliventris, described tadpoles from base of the eastern flank of the Cordillera Oriental, Buenavista, Villavicencio, 1230 m) and of H. edwardsi (Lynch, 1982) were described briefly.Nevertheless, tadpoles of R. palmatus and H. edwardsi are available in Laboratorio de Anfibios, Instituto de Ciencias Naturales, Universidad Nacional de Colombia, Bogotá.
The tadpoles of H. subpunctatus differ from tadpoles of R. palmatus in the following ways: notch on upper jaw sheath absent (present in R. palmatus; Fig. 4C), lateral processes short (long in R. palmatus; Fig. 4C), shelf absent (present in R. palmatus), oral disc anteroventral on body (ventral in R. palmatus), caudal musculature slender at body-tail junction (robust in R. palmatus), stitches rounded (ovoid in R. palmatus), and nostril rounded (elliptic in R. palmatus) without fleshy projection (present in R. palmatus); from H. edwardsi in: notch on upper jaw sheath absent (present in H. edwardsi), lateral processes thin and short (thin and long in H. edwardsi), serrations on jaw sheath low (higher and evident in H. edwardsi), and spiracle located slightly posterior to middle body (located in the anterior first third of the body in H. edwardsi; data based on direct observation of ICN 6391 and original descriptions, see Lynch, 1982, figure 5).
The highland populations of southern Colombia (Puracé, Cauca) have been confused with H. subpunctatus (Cochran & Goin, 1970: 64) because adults shared some features such as complete oblique lateral  Coloma (1995), but differ from tadpoles sensu Edwards (1974) in the coloration pattern on the tail (spotted in tadpoles from southern Colombia and reticulate in tadpoles of H. pulchellus sensu Edwards, 1974).To date, the tadpoles of the populations from southern Colombia can be assigned to H. pulchellus, but the taxonomic status of these populations is doubtful (see comment in Coloma, 1995: 47, 49).Tadpoles of H. subpunctatus differ from tadpoles of H. pulchellus from southern Colombia in the following ways: notch on upper jaw sheath absent (present in H. pulchellus sensu Coloma, 1995), lateral processes thin and short (thin and large in H. pulchellus sensu Coloma, 1995.Fig. 4B), nostril round (ovoid in H. pulchellus sensu Coloma, 1995), and dorsal fin curved and higher at mid-tail (not curved and of equal height throughout entire tail in H. pulchellus sensu Coloma, 1995).Rivero & Serna (1989"1988") grouped the species with complete oblique lateral stripe, basal or absent toe webbing and Finger I longer than Finger II in their group IX.However, their groups are defined by combinations of characters present and variables between groups, and not by synapomorphies.In Colombia, group IX is represented by H. borjai, H. breviquartus, H. lehmanni, H. pinguis, H. ramosi, H. ranoides, H. sauli and C. yaguara and "Colostethus" ramirezi.Tadpoles of H. sauli have been described by Edwards (1974) and Duellman (1978), but the tadpoles of the other species are not known.Tadpoles of H. subpunctatus differ from tadpoles of H. sauli in the following ways: notch on upper jaw sheath absent (present), papillae abundant on anterior lip (reduced in H. sauli, see Edwards, 1974: figure 3C), and dorsal fin arises from body-tail junction (absent on the anterior first third of the tail in H. sauli).dIscusIon Knowledge of the tadpoles of dendrobatid frogs is limited due to the scarce number of tadpoles in amphibian collections (excepting back-riding tadpoles) and the apparent conservative morphology, reducing interest in larval morphology as a taxonomic tool.Moreover, most of the available descriptions are based on back-riding tadpoles or on one single freeliving tadpole, which does not permit assessment of variation.However, in free-swimming tadpoles of H. subpunctatus, the morphology is relatively stable, i.e., variation occurs but with slight modifications in the general pattern and their larval morphology differs from other tadpoles when the same semaphoront is compared.Cochran & Goin (1970) described two subspecies for H. subpunctatus (H.subpunctatus subpunctatus and H. subpunctatus walesi) and reported the subspecies H. s. subpunctatus from Villavicencio-Meta.In my revision of tadpoles from the Cordillera Oriental de Colombia, I found tadpoles of H. subpunctatus in the Departments of Boyacá, Cundinamarca, and southern Santander, between 2015 to 3850 meters (see Appendix A), and did not find geographic variation or inter-populational differences in the larval morphology.Therefore, based on larval morphology, there is no reason to justify two (sub)species in H. subpunctatus; moreover, tadpoles from lowlands of the eastern flank of the Cordillera Oriental de Colombia, deposited in the ICN amphibian collection from Villavicencio and neighboring localities, do not show characters similar to the larvae of H. subpunctatus (e.g., no notch on upper jaw sheath), and it is likely that these or at least some populations (previously reported as H. subpunctatus) correspond to H. ranoides.Stebbins & Hendrickson (1959) noted a peculiar small gap in the middle of the posterior lip in tadpoles of H. subpunctatus; however, all tadpoles observed of H. subpunctatus have papillae on posterior lip without a gap and it is likely that at least some larvae observed by them had an atrophied posterior lip.Tadpoles of the other species present near Bogotá, Colombia (Centrolene buckleyi, Dendropsophus labialis, Hyloscirtus bogotensis) that might be confused with tadpoles of H. subpunctatus do not have a gap on the posterior labium.Donnelly et al. (1990) proposed a labial tooth row formation sequence for Phyllobates lugubris, P-1, A-1, P-2, A-2 and P3.Interestingly, the variation present in labial tooth rows of back-riding tadpoles of H. subpunctatus (0/1 or 1/0, 1/1, 1/2, 2/2, 2/3; Table 4) would support the pattern detected in Phyllobates.However, the data are inadequate to determine the formation and appearance of P-1 before A-1 or vice-versa, and therefore the order is ambiguous.Nevertheless, the sequence of formation P-1 (first?), A-1 (second?), P-2, A-2 and P-3 is different from the typical and commonly accepted A-1, P-2, P-1, A-2 and P-3 for tadpoles with labial tooth row formulae 2/3 (Thibaudeau & Altig, 1988;Altig & McDiarmid, 1999), suggesting that the family Dendrobatidae has a sequence of labial tooth row formation distinct from other families.
Ontogenetic variation in number of marginal papillae was described for Allobates kingsburyi (Castillo-Trenn, 2004), but variation in the number of rows of papillae on the edge of lips through the stages has not been described.This feature (number of rows of papillae) was employed to differentiate species (e.g., Savage, 1968).The variation described in the number of rows of papillae in tadpoles of H. subpunctatus suggests that the disposition is not homogeneous and is independent of stages and on each lip, but the pattern in the number of papillae rows can be detected when large samples are available; otherwise caution must be taken.I suggest that variation in the number of papillae rows should be included in the description of tadpoles.
The tadpoles of H. subpunctatus present typical morphology of larvae of other species, formerly Colostethus sensu lato: body moderately depressed; snout rounded in lateral and dorsal view; nostril about midway between eyes and tip of snout; eyes and nostril on dorsum of the body and directed dorsolaterally; nostril with fleshy rim and fleshy projection; spiracle sinistral; vent tube short, conical and dextral to the ventral fin; caudal moderately robust; fins low and commonly of equal height; coiling of intestines not central in ventral view; oral disc emarginated, not umbelliform and without papillae on anterior lip; labial tooth row formula 2(2)/3[1] with A-2 gap short or narrow and upper jaw sheath with lateral processes defined.These species are now included in the genera Aromobates, Mannophryne, Rheobates (Aromobatidae of Grant et al., 2006), Colostethus and Hyloxalus (Dendrobatidae of Grant et al., 2006) and there are no differences at the familial or generic levels, but at species level there are differences.Grant et al. (2006: 158) mentioned, "that all species of Aromobatidae lack the ability to sequester alkaloids", which was a reason to justify the division of the dendrobatids in two families (Aromobatidae and Dendrobatidae); however, this datum is unknown for most of the species formerly included in Colostethus (sensu lato) (except C. panamensis and C. ucumari).Furthermore morphological synapomorphies or characters in adults or larvae that support both families of dendrobatids are unknown.
In addition to the characters mentioned above, a notch in the middle upper jaw sheath is commonly present in species of Hyloxalus (see Fig. 4B and 4C) and in the tadpoles of other dendrobatids of the genera Anomaloglossus, Ameerega, Aromobates, Colostethus, Epipedobates, Mannophryne, Rheobates, Silverstoneia, and some Allobates and Phyllobates (Sánchez, in prep., and personal observation of author).However, the notch is absent in free-swimming tadpoles of H. subpunctatus.The absence also has been described in other tadpoles of Hyloxalus such as H. azureiventris (Lötters et al., 2000), H. chlorocraspedus (Caldwell, 2005), and H. sylvaticus (Duellman & Wild, 1993).Moreover, tadpoles of Adelphobates, Dendrobates, Oophaga, Ranitomeya, and some Allobates and Phyllobates lack the notch (Sánchez, in prep., and personal observation of the author).Considered that the absence or presence of the notch are states of a same characters, until otherwise is proved (Hennig, 1968), then the absence or present of the notch in middle upper jaw sheath is phylogenetically polymorphic within Hyloxalus and is interpreted as convergent when the relationships for dendrobatids proposed by Grant et al. (2006) are considered. Grant et al. (2006) proposed three characterstates in larval caudal coloration: vertical stripes (state 0), scattered melanophores clumped to form irregular blotches (1) and evenly pigmented (2).The variation detected in the coloration of the tail in tadpoles of H. subpunctatus shows that states 1 and 2 are not independent, since both states are present in stages of the same semaphoront (free-swimming tadpoles) of H. subpunctatus and herein is interpreted as inter-population variation.Furthermore, presence or absence of the lateral line system and the associated stitches (character 98 of Grant et al., 2006) in one semaphoront must be taken with caution; apparently, variation (i.e., presence or absence) is due to the effects of fixation, preservation, and observation methods.
As a result of my early studies on dendrobatid larvae, at the inter-specific level, the major larval differences are found in the upper jaw sheath, pattern and shape of stitches, nostrils and their ornamentation, caudal musculature, and fins.However, the available descriptions are so generalized that details of these anatomical points cannot be detected in those descriptions.I suggest that within the descriptions of dendrobatid tadpoles, these characters and the conditions present in the tadpoles of each species be included as additional data of larval morphology to distinguish between species.resuMen En este estudio se redescriben los renacuajos de la rana nodriza venenosa Hyloxalus subpunctatus (Anura: Dendrobatidae) con base en material larvario proveniente de la localidad tipo y de la mayoría de su rango de distribución, y se incluye toda la secuencia de estadios de desarrollo ontogenético.Describo los renacuajos en las tres fases de desarrollo: (1) renacuajos de la espalda del adulto, (2) renacuajos nadadores libres y (3) renacuajos o individuos metamórficos.Dos tipos de variación hay en la morfología larval de esta rana: variación ontogenética y variación dentro de cada fase de desarrollo.En renacuajos de espalda, la variación en hileras dentales labiales sugiere un patrón de variación de formación de hileras dentales labiales.En los renacuajos de vida libre hay variación en la disposición de las papilas marginales, es decir en el número de hileras sobre los márgenes de los labios, pero la variación no tiene efectos sobre el aspecto general de los renacuajos.Además, comparé los renacuajos de H. subpunctatus con los renacuajos de especies potencialmente simpátricas y con renacuajos de poblaciones previamente identificadas como H. subpunctatus y encontré diferencias inter-específicas y caracteres larvarios útiles para delimitar estas especies.

APPendIx A tadpoles examined
The following reports the locality, the collection number, the number of tadpoles (n) and the range of the stages Gosner (1960), for each lot of tadpoles.(*) Designed back-riding tadpoles.

FIgure 1 :
FIgure 1: Variation in total length (tl), body length (bl) and maximum tail height (Mth) in the free-swimming tadpoles of Hyloxalus subpunctatus.Bars represent standard deviation, and the numbers on TL are the number of individuals employed for the three measurements.Stages refer to Gosner (1960).
Dorsum and flanks of free-swimming tadpoles from light brown to dark brown or pale cream.Spiracle and vent tube translucent.Translucent skin of the venter from pale white to dark brown with light to dark brown dots.When visible, intestines dark brown to black.Caudal coloration from translucent cream to dark brown, anterior more intense than posterior; dorsal and ventral fins translucent, dorsal fin with brown spots and ventral fin with few light brown spots.Eyes black and region surrounding the eyes cream.Papillae of the oral disc cream with light brown stippling.

FIgure 5 :
FIgure 5: Pattern of variation in the number of marginal papillae rows against Gosner's (1960) stages in free-swimming tadpoles of Hyloxalus subpunctatus.Values represent the mode in each stage; see Table 3 for the size sample.Conventions: (A) papillae on anterior lip, (b) papillae on postero-lateral side of posterior lip and (c) papillae on medial region of the posterior lip; (1) one row, (2) one biseriated row, (3) two rows and (4) three or more rows of papillae.

tAble 1 :
List of the descriptions of the tadpoles of species of Hyloxalus showing type of tadpole employed for the description, stage(s) and number of tadpoles (n).Legends: (?) signifies undetermined or not specified in literature; (*) description based on back-riding tadpoles and (**) free-swimming tadpoles.

tAble 2 :
Range in variation of proportions (in percentage) for 11 tadpoles in stage 26, 10 tadpoles in stage 36 and 5 tadpoles in stages 40 of the tadpoles of Hyloxalus subpunctatus.Abbreviations:

tAble 3 :
Variation in the number of marginal papilla rows in the free-swimming tadpoles of Hyloxalus subpunctatus.Variation is reported as the range, average ± standard error, and the mode.Conventions: (A) papillae on anterior lip, (b) papillae on postero-lateral side of posterior lip and (c) papillae on middle of posterior lip; (1) one row, (2) one biseriated row, (3) two rows and (4) three or more rows of papillae.Stages refer toGosner (1960).

tAble 4 :
Variation in labial tooth row formulae in back-riding tadpoles of Hyloxalus subpunctatus (n = 99).Data are number of tadpoles for each formula.