taxonID	type	description	language	source
1B3FFF58FF9BFFAA67A2FB6AFDE3FB59.taxon	description	http: // zoobank. org / 026 F 9922 - 541 B- 466 C-B 25 E- 34739 C 18 C 1 BD (Figs. 1 – 10, 33 a – d, j, k, 36 part) Description and diagnosis. On average smaller than its congeners (forewing length 14 - 16 mm), wings rounder and of similar shape in both sexes, dorsally unspotted brown, ventrally with postmedian eyespots typically very small, nearly equal to each other in size, five on forewing and six on hindwing (some may be vestigial, especially on forewing), hindwing eyespots 2, 5 & 6 (counting from costa) developed best, usually black, yellow-ringed and pupillated with pale metallic blue. Recognized by a well-expressed and wavy (sinuous) submarginal line placed at some distance from the two thinner marginal lines, hindwing 6 th eyespot on this line, 1 st eyespot usually replaced by a white dot (sometimes a patch of cream-white scales overlays a small eyespot), making such specimens identifiable by this character. These cream-white scales forming the dot are different from iridescent scales that pupillate eyespots. Median lines are darker at veins in some specimens, which is another character atypical for Hermeuptychia. Male genitalia distinctive (Fig. 33 a – d): uncus narrow, in dorsal view lanceolate, widest near the distal third, apex truncated, nearly straight (not strongly bent ventrad) in lateral view, without carina; saccus long and narrow, about as long as vinculum; valva nearly straight, only slightly concave ventrad in the middle, without a deep notch, dorsally narrows gradually towards cucullus, then more abruptly past the base of cucullus, which narrows further to a point, slightly upturned; aedeagus as long as valva, not expanded at its base. Female genitalia (Fig. 33 j, k) with antrum small comparatively to other species, weakly sclerotized, obcordate in shape, widest near its distal third, in dorso-ventral dimension thin and appears flattened, not cup-like as in most congeners. Barcode sequence of the holotype: Sample NVG- 2307, GenBank accession OK 641921, 658 base pairs: AACTTTATATTTTATTTTTGGTATTTGAGCAGGAATAATTGGAACATCATTAAGTTTAATTATTCGAATGGAATTAGGTAATCCAGGATTTTTAATTGGGGATGATCAAATTTATAATACT ATTGTAACAGCTCACGCTTTTATTATAATTTTTTTTATAGTAATACCTATTATAATTGGAGGATTTGGTAATTGACTTATCCCCTTAATATTAGGAGCTCCTGATATAGCCTTCCCACGTA TAAATAATATAAGATTTTGATTATTACCCCCATCTTTAATTTTATTAATTTCTAGTAGTATTGTAGAAAATGGAAGTGGAACAGGATGAACAGTTTATCCCCCTCTTTCATCTAATATTGC TCATAGAGGATCATCGGTTGATTTAGCAATTTTTTCTCTTCATTTAGCTGGAATTTCTTCAATTTTAGGAGCTATTAATTTTATTACAACAATTATTAATATACGAATTAATAATATATCT TATGATCAAATACCTTTATTTATCTGAGCTGTAGGAATCACAGCTCTTCTTTTACTTCTTTCCTTACCCGTTTTAGCGGGAGCTATTACTATACTTCTTACCGACCGTAATTTAAATACAT CATTTTTTGACCCCGCAGGAGGAGGTGATCCTATTTTATACCAACATCTATTT	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF9BFFAA67A2FB6AFDE3FB59.taxon	materials_examined	Type material. Holotype: ♂, has four rectangular printed labels: three white [GTM. ElProgreso. 002 | Morazan | DurdenCJ 90010 A 07], [DNA sample ID: | NVG- 2307 | c / o Nick V. Grishin], [NVG 140403 - 35] and one red [HOLOTYPE ♂ | Hermeuptychia | sinuosa Grishin]. The locality label stands for Guatemala: El Progreso, Morazan, above k 99, leg. C. J. Durden, 10 - Jan- 1990. NVG 140403 - 35 is a genitalia preparation number, genitalia vial placed on the same pin with the specimen. The holotype is illustrated in Figs. 1 – 2 (genitalia Fig. 33 a – d) and is currently in the University of Texas at Austin collection, Austin, TX, USA [TMMC]. Paratypes: 4 ♂♂ and 3 ♀♀, all from Mexico: ♀ Colima, Mar- 1922, BMNH (E) # 834698, ♂ Morelos, Cuernavaca, BMNH (E) # 834699, ♂ Guerrero, Nov- 1916, BMNH (E) # 806416, ♀ Guerrero, Sierra de Guerrero, " Dec. 12 " [probably 12 - Dec-?], DNA sample NVG- 2981, genitalia NVG 141101 - 12 [USNM], ♂ Oaxaca, Chiltepec, 2 - Nov- 1969, RLR, DNA sample NVG- 14112 H 06, ♀ Veracruz, Catemaco, Dos Amates, 23 - Sep- 1972, RLR, DNA sample NVG- 14112 H 07, ♂ no data label [likely from one of the two " RLR " localities above], DNA sample NVG- 14112 H 05. Type locality. Guatemala: El Progreso, Morazán.	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF9BFFAA67A2FB6AFDE3FB59.taxon	etymology	Etymology. The name refers to the sinuous submarginal dark line on wings beneath. The name is a feminine adjective.	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF9BFFAA67A2FB6AFDE3FB59.taxon	distribution	Distribution. In addition to the type locality in Guatemala, this species is widely distributed in Mexico (Colima, Morelos, Guerrero, Oaxaca, Veracruz).	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF9BFFAA67A2FB6AFDE3FB59.taxon	discussion	Comments. This species was at times identified as Hermeuptychia lupita (Reakirt, [1867]) (type locality Mexico: Veracruz) (Warren et al. 2016), which is incorrect, as also pointed out by Viloria (2021). Facies of Hermeuptychia sinuosa sp. n. do not agree with the original description of Neonympha lupita. In particular, the former species is smaller (wingspan <1.15 vs. 1.25 inches in N. lupita), and the wing pattern of the ventral side differs: the new species typically has more than 4 eyespots (1 forewing, 3 hindwing in N. lupita) and lacks additional (to the three median lines) " transverse lines " on the hindwing " towards the base " (Reakirt [1867]).	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF9DFFA967C2FB1AFA87F878.taxon	description	http: // zoobank. org / 7 FB 00257 - D 9 A 6 - 4 C 25 - 930 B- 78145 BF 3 AFAC (Figs. 11 – 18, 33 e – i, l, m, 36 part) Description and diagnosis. Belongs to the same species group with Hermeuptychia sosybius (Fabricius, 1793) and Hermeuptychia hermybius Grishin, 2014 as judged by the presence of large areas on the dorsal surface of the wings covered with androconia, morphology of the male genitalia and COI DNA barcodes that place this species as sister to the two others (Fig. 36). Due to wing pattern variation, identification by facies is challenging. Characterized by a postmedian area on the ventral hindwings distad of the distal median line and to the eyespots (sometimes beyond them) paler than the rest of the wing, and markedly paler than the discal area forming a (somewhat) darker band bordered by the two median lines. The forewings in most specimens show the same, but weaker, tendency of being paler towards the outer margin from the distal median line. Veins not paler than the background, as they frequently are in H. hermybius. Diagnosed by genitalia and COI barcodes. In male genitalia (Fig. 33 e – i), which are otherwise similar to H. hermybius, the uncus is narrower, lanceolate in dorsal view, being broadest near its basal third, rather than near or past its middle, not constricted before the truncated apex, the apex narrower as well. In the female genitalia (Fig. 33 l, m), the antrum is broader, nearly round, broadest near its middle, nearly symmetrical. The following combination of characters in the COI DNA barcode is proposed as diagnostic: T 5 C, T 247 C, T 484 C, T 580 C, T 583 C, and T 646 C, where the number refers to the sequence given below (from 1 to 658), the letter before the number is the expected ancestral base pair in this position and the letter after the number is the base pair in this new species. Barcode sequence of the holotype: Sample NVG- 2970, GenBank accession OK 641922, 658 base pairs: AACTCTATATTTTATTTTTGGTATCTGAGCAGGAATAATTGGTACATCATTAAGTTTAATTATCCGAATAGAATTAGGTAACCCAGGATTTTTAATTGGAGATGATCAAATTTATAATACT ATTGTTACAGCTCATGCTTTTATTATAATTTTTTTTATAGTAATACCTATTATAATTGGAGGATTTGGTAATTGACTTATTCCTTTAATATTAGGAGCTCCTGATATAGCTTTCCCACGTA TAAACAATATAAGATTTTGATTATTACCCCCATCTTTAATTTTATTAATTTCTAGTAGTATTGTAGAAAATGGAAGTGGAACAGGATGAACAGTTTATCCCCCTCTTTCATCTAATATTGC TCATAGAGGTTCTTCAGTAGATTTAGCAATTTTTTCTCTTCATTTAGCTGGAATTTCTTCAATTCTAGGAGCTATTAATTTTATTACAACAATTATTAATATACGAATTAATAATATATCC TATGATCAAATACCTTTATTTATTTGAGCTGTAGGAATTACAGCTCTTCTTTTACTTCTTTCATTACCTGTTTTAGCAGGAGCTATCACTATACTCCTCACTGATCGAAATTTAAATACAT CATTTTTTGATCCTGCAGGAGGAGGAGACCCTATTTTATACCAACATTTATTT	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF9DFFA967C2FB1AFA87F878.taxon	materials_examined	Type material. Holotype: ♂, has four rectangular labels: three white, one handwritten [April 7, 1961 ♂ | Acapulco | Mexico | Coll. by J. Legge], others printed [DNA sample ID: | NVG- 2970 | c / o Nick V. Grishin], [genitalia | NVG 141101 - 01 | Nick V. Grishin] and one red [HOLOTYPE ♂ | Hermeuptychia | occidentalis Grishin]. The holotype is illustrated in Figs. 11 – 12 (genitalia Fig. 33 e – h) and is in the National Museum of Natural History, Smithsonian Institution, Washington, DC, USA [USNM]. Paratypes: 2 ♂♂ and 1 ♀, from Mexico: ♂ Jalisco, near Pitillal, 3 - May- 1985, leg. Glenn R. Scott, DNA sample NVG- 2789; ♂ Morelos, Cuernavaca, Sep- 1897, E. A. Smyth collection, DNA sample NVG- 2979, genitalia NVG 14101 - 10 [USNM]; ♀ Guerrero, Acapulco, 7 - Apr- 1961, leg. J. Legge, DNA sample NVG- 2971, genitalia NVG 14101 - 02 [USNM]. Type locality. Mexico: Guerrero, Acapulco.	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF9DFFA967C2FB1AFA87F878.taxon	etymology	Etymology. The name refers to the western distribution of this species. The name is a feminine adjective.	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF9DFFA967C2FB1AFA87F878.taxon	distribution	Distribution. This species is known from southwestern Mexico (Jalisco, Morelos, Guerrero).	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF91FFA46743FF9AFA26FF33.taxon	description	Meaningful integrative taxonomic revision of Hermeuptychia, a genus of many confusingly similar cryptic species, requires clarity about its nomenclature. Such clarity can only be achieved when all relevant names are objectively defined by their primary type specimens, and these specimens are sequenced to provide DNA datasets necessary for a more definitive identification and comparisons. No extant primary type specimens are known for Hermeuptychia canthe (Hübner, [1811]). Although, as documented in the literature, most of Hübner types were likely lost (Hemming 1937; Calhoun 2018), N. V. G. searched for possible H. canthe syntypes in the collections of the Muséum National d'Histoire Naturelle, Paris, France (MNHP), the Natural History Museum, London, UK (BMNH) and the Museum für Naturkunde, Berlin, Germany (ZMHB). These searches were unsuccessful, leading us to believe that the syntypes are no longer extant, and we proceed herein with a neotype designation. There is an exceptional need to designate the neotype of H. canthe. Kept as a junior subjective synonym for decades, H. canthe was resurrected by Viloria (2021) who used the name as valid. To unambiguously establish the identity of this species necessary for further work on this very challenging genus, a neotype that facilitates DNA-based studies is required. We believe that it is not possible to discern the cryptic diversity of Hermeuptychia without DNA comparisons (Tan et al. 2021). The original illustrations of Oreas strigata canthe Hübner, [1811] are identifiable as a Hermeuptychia, probably from Suriname (Hemming 1937), largely brown unspotted dorsally, and ventrally with 5 eyespots on the forewing (including the one near the apex) and 6 on the hindwing (Figs. 29, 30). All the eyespots on the illustrations are approximately the same size, e. g. those in hindwing cells R 5 - M 1 and CuA 1 - CuA 2 are not larger than others. The distance between the two brown lines on the ventral forewing increases towards the costa. We found a male specimen from Suriname that agrees with these distinctive features of the original illustrations and we hereby designate this specimen shown in Figs. 19, 20, genitalia Fig. 34, as the neotype of Oreas strigata canthe Hübner, [1811]. This species belongs to Hermeuptychia. Our neotype of H. canthe satisfies all the requirements set forth by the ICZN Article 75.3. Namely: 75.3.1. It is designated to clarify the taxonomic identity of O. canthe, which remained hypothetical until now, impeding research on Hermeuptychia; 75.3.2. The characters that differentiate this taxon have been given above, as a description of the original illustrations, complemented here by the following features of male genitalia (Fig. 34, 35): saccus long, only somewhat shorter than tegumen with uncus; " truncated " at the end, uncus with thin, membranous carina in basal half; valva about 4 times longer than its height, ventrally with a broad notch, cucullus long and narrow, terminally without teeth, aedeagus slightly longer than valvae. The COI barcode sequence of the neotype (GenBank accession OK 641923) is: AACTTTATATTTTATTTTTGGTATCTGAGCAGGAATAATTGGCACATCATTAAGTTTAATTATCCGAATAGAATTAGGTAATCCAGGATTTTTAATTGGAGATGACCAAATTTATAATACT ATTGTTACAGCTCATGCTTTTATTATAATTTTTTTTATAGTAATACCTATTATAATTGGTGGATTTGGTAATTGACTTATTCCCTTAATATTAGGAGCTCCTGATATAGCTTTCCCACGTA TAAATAATATAAGATTTTGATTATTACCTCCATCTTTAATTTTATTAATTTCTAGTAGCATTGTAGAAAATGGAAGTGGAACTGGATGAACAGTTTATCCCCCTCTTTCATCTAATATTGC TCATAGAGGTTCTTCTGTAGATTTGGCAATTTTTTCTCTTCACTTAGCTGGAATTTCTTCAATTTTAGGAGCTATTAATTTTATTACAACAATTATTAATATACGAATTAATAATATATCT TATGATCAAATACCCCTATTTATTTGAGCCGTAGGAATTACAGCTCTCCTCTTACTTCTTTCATTACCTGTTTTAGCAGGAGCTATTACTATACTTCTTACTGATCGAAATTTAAATACAT CATTTTTTGACCCTGCAGGAGGAGGAGACCCCATTTTATATCAACATTTATTC 75.3.3. The neotype specimen is a male that bears the following five rectangular labels: [Gelderland, | Suriname River.], [Collection | Wm. Schaus], [genitalia | slide X- 24 - 40 | W. D. F. # 306], [DNA sample ID: | NVG- 14061 C 10 | c / o Nick V. Grishin], and [NEOTYPE ♂ | Oreas canthe | Hübner, [1811] | designated by Grishin]; 75.3.4. Our search for the syntypes is described above, and it was unsuccessful, leading us to believe that they are no longer extant; 75.3.5. The neotype is consistent with what is known about this taxon, in particular with the original illustrations: e. g., on the ventral side, it has 5 eyespots on the forewing and 6 eyespots on the hindwing, all approximately the same size; 75.3.6. The neotype is from Suriname: Gelderland, Suriname River, and the syntypes were presumed to be from Suriname (Hemming 1937); 75.3.7. The neotype is in the collection of the National Museum of Natural History, Smithsonian Institution, Washington, DC, USA (USNM). Distances between barcodes of species with confidently assigned names and those from morphogroups defined by Seraphim et al. (2014) are illustrated here as a dendrogram (Fig. 36). The neotype of S. canthe is a species from morphogroup 10 (Seraphim et al. 2014). In agreement with Viloria (2021), we consider it to be a valid species, Hermeuptychia canthe (Hübner, [1811]). To facilitate recognition of this species, additional sequenced specimens from across its range are shown in Figs. 21 – 28, and their genitalia are shown in Fig. 35. In addition to its type locality in Suriname, this widely distributed species is recorded from Colombia, Guyana, French Guiana, Brazil (PA, MT, MG), Ecuador, Peru, and Bolivia, as evidenced by the specimens we studied (Fig. 19 – 28, 34, 35), the DNA sequence search of the BOLD database queried with the neotype barcode (Ratnasingham and Hebert 2007) and reports in the literature (Seraphim et al. 2014; Tan et al. 2021).	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF93FFA366A1FEECFE3CFF0C.taxon	description	A number of Satyrini Boisduval, [1833] species have a dry season form, in which patterns of eyespots and stripes are much reduced to nearly absent, and the ventral side is paler, of mottled appearance (Freitas et al. 2010; Freitas et al. 2021). Similar to that, the original illustration of Megisto acmenis Hübner, 1823 (type locality " Baltimore ") reveals " not the slightest trace of any eyespots " on the ventral side of its wings (Hübner 1823) (Fig. 37 a). Type specimens of this species have not been located and its type locality is likely erroneous (Scudder 1875; Weymer 1910 - 1912) leading to confusion about this taxon. For instance, there is a Hermeuptychia specimen of unknown provenance in BMNH labeled " acmenis " and illustrated in D’Abrera (1988). This Hermeuptychia specimen, representing a rather extreme example of the dry season form or aberration, cannot be confidently identified to species without dissection or DNA sequencing, because many Hermeuptychia species are similar to this form. The status of M. acmenis and the Hermeuptychia " acmenis " specimen were discussed in detail by Viloria (2021), who concluded that M. acmenis belongs to Hermeuptychia based on this specimen and wing shape similarity of the illustrated M. acmenis type (s) and Hermeuptychia. However, the progression of ventral wing pattern deterioration in Hermeuptychia is inconsistent with that of M. acmenis. Hermeuptychia possesses submarginal wavy lines that are similar in intensity to the two median lines. These lines tend to deteriorate similarly. I. e., if the median lines are expressed clearly (as in the M. acmenis illustration), then the submarginal lines are clear as well. If the submarginal lines are obsolete, then the median lines are obsolete too (as in the Hermeuptychia " acmenis " specimen). A more detailed analysis of the Hermeuptychia " acmenis " specimen reveals that its wing patterns on the ventral side and size do not agree with the original description and illustration of M. acmenis. In particular, in this specimen: (1) both hindwings have clearly defined traces of eyespots: small brown spots in cells CuA 1 - CuA 2 (larger) and RS-M 1 (smaller), but the description states: " von Augenpuncten nicht die geringste Spur ", i. e., not the slightest trace of any eyespots (Hübner 1823: 11); (2) the hindwings are rather uniform in color and median lines are not visible: only a slightly paler diffuse postmedian band stands out from the brown background, vs. two prominent median lines outlining a darker area between them in the illustration of M. acmenis; (3) the forewing has a long dash along the distal end of discal cell, but the illustration shows a very short mark in that area; (4) the ventral side of the wings is of less mottled apperance than shown in the illustration; (5) the forewing length is <17 mm, but the illustration depicts a larger specimen, as extrapolated from the comparison with Adelpha plesaure Hübner, 1823 illustrated on the same plate (likely to scale): the forewing length is expected to be 18 mm or more. Moreover, the original description of M. acmenis states: " Mit M. Euridice hat sie viel ähnliches " (With M. Euridice has much in common), and Lethe eurydice (Linnaeus, 1763) is larger than most Hermeuptychia. Therefore, at the very least, this Hermeuptychia " acmenis " is not the specimen illustrated in the orginal description, not a syntype, and probably not M. acmenis at all. To prepare for a more detailed genomic study of Hermeuptychia, we investigated M. acmenis further. If Baltimore was the correct locality, the only somewhat similar species that may reach this latitude is Cyllopsis gemma (Hübner, 1818). The similarity is in the placement and shape of lines and, in particular, in the degree of mottling and color gamut. However, if M. acmenis were C. gemma, it would have been an unusual aberration that totally lost the ventral hindwing submarginal patch of " spider-eye " spots. We have not seen such an aberration, although some of the more southern Cyllopsis R. Felder, 1869 species do experience deterioration of eyespots, e. g., Cyllopsis pyracmon (Butler, 1867). Weymer (1910 - 1912) likened M. acmenis to Cissia phronius (Godart, [1824]), which in size is more similar to L. eurydice, and larger than Hermeuptychia, in agreement with our M. acmenis size estimates from the original illustrations (Hübner 1823). As Weymer noted, darker dots in the median lines of C. phronius are absent in M. acmenis, therefore the two are distinct species and should be kept as such. Moreover, wingshape of C. phronius is different: the forewing is elongated and the hindwing has crenulate margins. Dry season forms of Emeryus difficilis (Forster, 1964) are known to possess similar hindwing pattern to that of M. acmenis and essentially lack the eyespots (Zacca et al. 2020). However, E. difficilis is larger (forewing ~ 21 mm), has well-expressed submarginal lines on the dorsal surface of the wings, and its hindwing outer margin is crenulate. These characters are not consistent with the original illustration of M. acmenis. Out of all Satyrini worldwide, the only species known to us that may have the following combination of characters: mottled appearance of wings' ventral side, with two median lines, darker between them and paler just outside this darker median band framed by the two lines, with a small dash at the end of the forewing discal cell, and lacking essentially any spots in the postmedian areas of both wings, is Yphthimoides celmis (Godart, [1824]). Such dry season specimens look rather similar to the original illustration of M. acmenis. For instance, a butterfly photographed in Brazil: Paraná, Tapejara and shown on the iNaturalist website (Barbosa 2019) (Fig. 37 b) comes particularly close to M. acmenis. Moreover, an individual from Argentina: Buenos Aires Province, Parque Pereyra (Braun 2019) (Fig. 37 c, d) is entirely missing " a trace of any eyespots ". The only notable discrepancy is that the hindwing darker discal band is more strongly curved towards the anal margin in the M. acmenis illustrated by Hübner (1823) than in Y. celmis. However, the same discrepancy is also present in the Hermeuptychia " acmenis " specimen in BMNH: traces of median lines are not convex thus differing from the original illustration. This illustrated curvature, also mentioned by Weymer (1910 - 1912), is reminiscent of some species of Erebia Dalman, 1816 and Oeneis Hübner, [1819], but none of these species fits other features of the M. acmenis pattern. The closest might be Erebia fasciata A. Butler, 1868, but it has at least some red-toned areas on the forewing, and the submarginal dark area on both wings below is more clearly defined than the M. acmenis illustration shows. Thus, we hypothesize that the strongly curved band may have been an atypical feature of the illustrated specimen or an artistic interpretation, and agree with Lamas (2004) who placed M. acmenis in Yphthimoides Forster, 1964. One of the most commonly encountered species, Yphthimoides celmis, is found in southeastern South America. A number of species described in the same publication with M. acmenis come from South Brazil, and at least one from Argentina, so it is possible that M. acmenis was also collected in that region and mislabeled " Baltimore " at some point (Hübner 1823). Although as documented in the literature, most of Hübner types were likely lost (Hemming 1937; Calhoun 2018), N. V. G. searched for possible M. acmenis syntypes in the collections of the Muséum National d'Histoire Naturelle, Paris, France (MNHP), the Natural History Museum, London, UK (BMNH) and the Museum für Naturkunde, Berlin, Germany (ZMHB). These searches were unsuccessful, leading us to believe that the syntypes are no longer extant, and we proceeded with the neotype designation. There is an exceptional need to designate the neotype of M. acmenis, because the identity of this species and its type locality have been unclear, and it was confused with Hermeuptychia in collections and publications (D’Abrera 1988; Viloria 2021). To proceed with a meaningful integrative revision of Hermeuptychia, it is essential to have M. acmenis defined objectively and in agreement with the original description and original illustrations. Our investigations show that populations currently assigned to Y. celmis from around Buenos Aires (Argentina) agree with what is known about M. acmenis (Fig. 37). Therefore, we decided to select a specimen from these populations as the neotype of M. acmenis. The specimens with reduced or lacking eyespots from the region have been named Euptychia celmis var. bonaërensis [sic] Burmeister, 1878, which is characterized in the original description as " a remarkable variation ... almost without eyes " (Burmeister 1878). To simplify the synonymy, we hereby designate the specimen curated as the lectotype of Euptychia celmis var. bonaërensis Burmeister, 1878, illustrated in Warren et al. (2016), as the neotype of Megisto acmenis Hübner, 1823. Its forewing length is about 18 mm, which is in agreement with the size estimated from the original illustration of M. acmenis. Our neotype of M. acmenis satisfies all the requirements set forth by the ICZN Article 75.3. Namely: 75.3.1. It is designated to clarify the taxonomic identity of Megisto acmenis Hübner, 1823, which remained undefined until now, impeding future research; 75.3.2. The characters that differentiate this taxon have been given in its original description by Hübner (1823: 11): " It has much in common with M. Euridice [sic!], but not the slightest trace of any eyespots " and can be further gleaned from the original illustration: brown unspotted wings above, and below paler yellow-brown, mottled in appearance, with a slightly darker broad discal band spanning both wings and outlined by even darker lines on both sides, paler just outside the band and devoid of eyespots; 75.3.3. The neotype specimen is a male, which is also a lectotype of Euptychia celmis var. bonaërensis [sic] Burmeister, 1878 hereby designated by Gerardo Lamas, that bears the following 5 labels: [Buen. | Aires], [Typus.], [bonaërensis | Burm.], [Col. | Antigua], and [lectotype ♂ | Euptychia celmis var. | bonaerensis Burm. | 1878 | G. Lamas det. ' 92]. The following red rectangular label will be mailed to the curators of the collection to add to this specimen: [NEOTYPE ♂ | Megisto acmenis | Hübner, 1823 | designated by Barbosa | Freitas and Grishin]. This specimen was one of the two syntypes of E. celmis var. bonaërensis, both males with the same data in the same collection (see below), and is designated as the lectotype of that taxon to enhance the stability of nomenclature; 75.3.4. Our search for the syntypes is described above, and it was unsuccessful, leading us to believe that they are no longer extant; 75.3.5. The neotype is consistent with what is known about this taxon, in particular with the original illustration and description as detailed above; 75.3.6. The neotype is from Buenos Aires (Argentina), and the type material was stated to be from " Baltimore ", which is likely erroneous, because no similar species have been found in eastern North America (Scudder 1875; Weymer 1910 - 1912), but both localities start with the letter B, suggesting a number of speculations. The specimen (s) on which Hübner based his description and illustrations of M. acmenis was / were given to him by a certain “ Herr Berg ”, of whom nothing else appears to be known, except that other species forwarded by him to Hübner were supposedly obtained in Uruguay, Paraguay and Brazil, and only one other species (a crambid moth) was labeled “ Baltimore ” though it appears to be widespread, found from the USA south to at least Brazil; 75.3.7. The neotype is in the collection of the Museo Argentino de Ciencias Naturales Bernardino Rivadavia, Buenos Aires, Argentina [MACN]. Lamas (2004) lists Yphthimoides acmenis (Hübner, 1823) as a distinct species, and Euptychia celmis var. bonaërensis [sic] Burmeister, 1878 as a synonym of Yphthimoides celmis (Godart, [1824]). We have not investigated this synonymy, but if it holds, then due to objective synonymy established here by the neotype designation of M. acmenis, Y. celmis would become a junior subjective synonym of Y. acmenis. For now, we simply transfer E. celmis var. bonaërensis [sic] from Y. celmis to Y. acmenis, keeping both Yphthimoides species as valid, to follow Lamas (2004). Furthermore, Euptychia celmis ab. “ inocellata ” Köhler, 1935 (an infrasubspecific name) and Epinephele euptychioides Köhler, 1939, both from Argentina, may also belong to Y. acmenis and / or celmis, but this possibility has not been investigated further.	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF94FFBE6757FEB7FA90FD94.taxon	description	As detailed by Cardé et al. (1970) and further elaborated by Viloria (2021), Godart ([1824]) divided the Fabrician concept of Papilio canthus Linnaeus, 1767 into three species. Two of them are known today as Lethe eurydice (Linnaeus, 1763) (type locality USA: Pennsylvania) and Emeryus argulus (Godart, [1824]) (type locality Brazil: Pará, Santa Bárbara do Pará). The latter name was proposed in the same work that also coined the name for the third species: Satyrus cantheus Godart, [1824], which is a nomen dubium (Cardé et al. 1970). Viloria (2021) suggested that one of the two specimens in the Hunterian Collection in Glasgow pinned below the header label " Pap. Canthus / Fabr. pag 64 N o 288 " may have been used as a basis for the description of S. cantheus. Viloria discussed only the second specimen (GLAHM: 127581, which is a female, not a male), without mentioning the first one (GLAHM: 127580, a male). These two specimens are of different species that are presently placed in different subtribes. The phenotype of this second specimen discussed by Viloria (GLAHM: 127581) does not agree with the original description of S. cantheus. First, each of its forewings has five obvious eyespots instead of " three small eyespots not very pronounced " per the description. It is apparent, that Godart paid much attention to the number of eyespots and their structure. E. g., he separated argulus from canthus with cantheus (all of which Fabricius combined under P. canthus Linnaeus, 1767) by the number of ventral hindwing eyespots: 5 in the former versus 6 in the two latter species; and their structure: with two (not one) pupils in the former species. Second, the 5 th eyespot (next to the 6 th, which is stated to be at the anal angle [= tornus]) is not the largest: it is 1.2 – 1.3 times smaller than the 2 nd eyespot, measured in longitudinal dimension. Third, the 6 th eyespot (the one stated to be by the anal angle) is not the smallest: it is about 1.3 times larger than the 4 th one. Fourth, the specimen is about 1.5 times smaller than a typical L. eurydice, but Godart's description states that S. cantheus [Godart species number 56] " is about the same in size as the previous one ", which is the number 55 P. canthus Linnaeus, 1767 (a junior objective synonym of L. eurydice). For all these reasons, this specimen is not a syntype. Furthermore, this specimen would not define the name S. cantheus as intended in the original description to qualify as a neotype. Fabricius did not propose a new name canthus homonymous with Papilio canthus Linnaeus, 1767 as suggested by Viloria (2021). This is because Fabricius gave the name canthus in the third line of his description and attributed it to the Linnaeus citation, in a manner he did for many other species when giving brief modified descriptions for previously proposed names (Fabricius 1775). Moreover, he repeated this treatment and attribution in subsequent publications, only adding an additional name and citation to it (Papilio argante Cramer, 1779) that he considered to refer to the same species (Fabricius 1781 - [1782]; Fabricius 1793). No new name currently attributed to Fabricius that we know of referenced an identically spelled name citing a previous author and publication. Therefore, Fabricius either misidentified the Linnaean taxon completely, or expanded it to cover additional phenotypes, and Godart's work points to the latter (Godart [1824]). Moreover, all new names proposed by Fabricius have been thoroughly studied and catalogued in detail by a number of authors, and none mentions canthus as a new name. For instance, there is no mention of canthus with Fabricius as the author in the comprehensive catalogue by Zimsen (1964). There is no name canthus assigned to Fabricius in The Global Lepidoptera Names Index (Beccaloni et al. 2003). Furthermore, Godart ([1824]: 493) did not credit canthus to Fabricius, only to Linnaeus, mentioning that " Fabricius combined this butterfly [i. e. canthus] with the next [called cantheus by Godart]; but it appears to us to be a different species, at least judging from the description that follows " (interpretively translated and comments in brackets are added by us). Because Fabricius did not propose a new name canthus, no name-bearing (i. e., type) specimens of the Fabrician concept of canthus are possible by definition: there was no new name to bear. We agree with Cardé et al. (1970) and Viloria (2021) that Godart's S. cantheus is not a misspelling of P. canthus, but is an available name. Our reading of Godart ([1824]) excludes the possibility of a misspelling, because Godart uses " S. canthus " for his species no. 55 and " S. cantheus " for his species no. 56: the two consecutively numbered species that are expected to have different names, as they do (not one being a misspelling of the other). Miller and Brown (1981) made a mistake in stating that Godart attributed the name cantheus to Linnaeus: only the name canthus [no. 55] was attributed to Linnaeus, not the name number 56, which cited only Fabricius. Therefore, the conclusion of Miller and Brown about the misspelling is erroneous. Furthermore, Godart used two sets of names throughout his work: French names that were not italicized, employed French words and had accents over letters when appropriate; and Latin names that were italicized, employed Latin or Latinized words and lacked accented letters. For instance, he used " Satyre " as a French name, which would be " Satyr " in English, not the Latin Satyrus, and therefore not a genus epithet. With this distinction, only Godart's Latin names would enter zoological nomenclature. For instance, for the species known today as Neonympha areolatus (J. E. Smith, 1797) (type locality USA: Georgia, Chatham Co.), Godart's species number 58, he used " Satyre aréolé " as a French name, and " Satyrus areolatus " as a Latin name (Godart [1824]). Even more striking an example is " Polyommate W-blanc " for " Polyommatus W-album " (Godart [1824]: 648). However, for the majority of species, the second word in the French name matched the species epithet more closely than in these cases. Because of that, the situation with two sets of names may be confusing to a casual reader, but Godart meticulously followed this distinction. Only French names were used in the section of the work giving brief diagnoses (e. g., pp. 460 – 476) (Godart [1824]). A French name was also used as the title for each species description (e. g., pp. 477 – 552), immediately following the species number. Latin names were given in the second line of these expanded descriptions, after the French names. Given this distinction between French and Latin names employed by Godart, a deviant spelling " cautheus " [3 rd letter " u ", not " n "] occurred only once and in the French name (Godart [1824]: 465), not in the Latin name, and therefore is irrelevant to zoological nomenclature. The correct (and only) spelling of this species epithet in Godart's work is " cantheus ". Furthermore, because there was no Fabrician name canthus, there could be no replacement name for it. Therefore, Godart did not propose a " replacement name ", he proposed a new name: Satyrus cantheus, and this taxon must have had type specimen (s). Because Godart's description of S. cantheus ends with " (Translation of Fabricius) ", it is possible that Godart did not inspect any specimens at all, as also suggested by Cardé et al. (1970): " type ... probably never existed ", but based his new species entirely on the Fabrician texts. This hypothesis may not be entirely true, because Godart elaborated on the Fabrician description by mentioning the size of his S. cantheus (species number 56): " Its size is about the same as the previous one ", which was species number 55 P. canthus Linnaeus, 1767 (a junior objective synonym of L. eurydice) (Godart [1824]). No reference to this size was given in any Fabrician works we studied, and it should have come from some additional knowledge Godart had about the type specimen (s). Whether Godart inspected the actual specimens or not, the name-bearing type currently encompasses a series of all specimens used to constitute Godart's description of cantheus, either directly examined by him, or described by Fabricius in those parts of his texts that were cited and translated by Godart as falling under Godart's concept of cantheus. Among these specimens, there should be at least one specimen possessing, as per its description, a combination of the following four characters: (1) size approximately as L. eurydice; (2) 3 small indistinct ventral forewing eyespots; (3) the 5 th ventral hindwing eyespot (counting from the apex) being the largest of the six present, and (4) the 6 th spot (by the anal angle) being the smallest. To define the taxon S. cantheus, we hereby designate the syntype that has all 4 characters stated above and was found first (with the earliest date and time) in the search for syntypes of Satyrus cantheus as the lectotype of Satyrus cantheus Godart, [1824]. This designation satisfies the ICZN Code (ICZN 1999). Our lectotype fulfills the definition of the term as a single specimen selected out of syntypes subsequently to the establishment of the name (ICZN Code Glossary). The designation is individual: it is made for cantheus only (Art. 74.3.). We employ the term " lectotype " (Art. 74.7.1.). Our designation contains information sufficient to recognize this single specimen by the characters given as being the first syntype found in the search for syntypes that possesses all these characters (Art. 74.7.2.). The reason for the lectotype designation is to objectively define this taxon by selecting the specimen that actually agrees with the key characters given in the original description of S. cantheus, and thus represents this species as intended by Godart, promoting stability of nomenclature. Next, we searched for the lectotype in collections and databases where the types of Fabricius and Godart could be. In particular, N. V. G. inspected the holdings of the Muséum National d'Histoire Naturelle, Paris, France (MNHP), which are known to have a number of Godart types, some with a characteristic " god. " signature on their labels; and looked through the relevant parts of the collections of the Natural History Museum, London, UK (BMNH) and the Museum für Naturkunde, Berlin, Germany (ZMHB). We also extensively searched online databases, including the Natural History Museum of Denmark, University of Copenhagen, Denmark (2021), the Hunterian collections, University of Glasgow, Scotland, UK (2021) and the National Museums of Scotland, Edinburgh, UK (2021). Our searches failed to find the lectotype that also has not been found by previous workers, and therefore we believe it became lost. Hence, we proceed herein with a neotype designation. There is an exceptional need to designate the neotype of S. cantheus. Although this name has not been used as valid for over a century and some considered it a misspelling (Miller and Brown 1981), others a nomen dubium (Cardé et al. 1970), Viloria (2021) resurrected it and applied it in a manner inconsistent with the original description. To proceed with a meaningful integrative taxonomic revision of Hermeuptychia, it is essential to stabilize the identity of S. cantheus by a neotype that while being in a reasonable agreement with the original description, minimally disrupts currently used taxonomic arrangement and allows more detailed genomic studies of the neotype. DNA work plays a highly significant role in Hermeuptychia studies (Cong and Grishin 2014; Seraphim et al. 2014; Tan et al. 2021). Therefore, the neotype should facilitate DNA-based studies. First, we agree with Viloria (2021) that S. cantheus is most likely a Hermeuptychia. Its description is rather similar to the descriptions of other Hermeuptychia species by these authors. Second, in agreement with the original type locality (" North America ", which nevertheless could have been an error and simply carried by default from P. canthus, which is L. eurydice), we aim to select a neotype from North America. North American Hermeuptychia are typically decisively smaller than L. eurydice, and the largest populations are known from the southeastern USA, which is also a general area that contributed type specimens for many early butterfly names. Therefore, we looked for a southeastern USA Hermeuptychia specimen that matches best the original description of S. cantheus. The specimen that we hereby designate as the neotype of Satyrus cantheus Godart, [1824] is the male pictured in Figs. 31, 32. It largely agrees with the original description: immaculate brown on dorsal side; ventral side paler, with 2 brownish lines on both wings, 3 not very large eyespots on the forewing, 6 on the hindwing, out of which the 5 th is large and the 6 th by the anal angle is smaller. The discrepancies with the original description are: the 5 th eyespot is the same size as the 2 nd eyespot (not larger); the 6 th eyespot, while being small, is larger than the 1 st (not the smallest); and this being large for a USA Hermeuptychia specimen (FW length 17 mm) is still smaller than a typical L. eurydice. However, due to significant variation in Hermeuptychia eyespots, we were satisfied with the reasonable match to the description, and did not invest additional effort into looking for a perfect match. Additional advantage of this specimen is the availability of DNA sequences. Our neotype of S. cantheus satisfies all the requirements set forth by the ICZN Article 75.3. Namely: 75.3.1. It is designated to clarify the taxonomic identity of Satyrus cantheus Godart, [1824], which remained undefined until now, impeding research on Hermeuptychia; 75.3.2. The characters that differentiate this taxon have been given in its original description by Godart ([1824]: 465, 493 – 494), i. e., wings brown on dorsal side, ventral side paler, with two ferruginous lines spanning both wings, forewing with three weakly defined eyespots and hindwing with six; 75.3.3. The neotype specimen is a male that bears the following six rectangular labels: [St. Petersburg, Fla. | XI- 3 - 1938], [H. E. Wilford | collector], [96], [Ernest Shoemaker | Collection 1956], [DNA sample ID: | 11 - BOA- 15609 E 04 | c / o Nick V. Grishin], and [NEOTYPE ♂ | Satyrus cantheus | Godart, [1824] | designated by Grishin] and its partial COI barcode sequence has been deposited in GenBank with accession KJ 025563 (Cong and Grishin 2014); 75.3.4. Our search for the lectotype is described above, but it was unsuccessful, leading us to believe that the lectotype is no longer extant; 75.3.5. The neotype is consistent with what is known about this taxon, in particular with the original description: e. g. ventrally, it has 3 less prominent eyespots on the forewings and 6 eyespots on the hindwings, the 5 th of which is large and the one by the anal angle is small; 75.3.6. The neotype is from USA: Florida: Pinellas Co., St. Petersburg, and the lectotype was stated to be from North America with no other details given about the locality; 75.3.7. The neotype is in the collection of the National Museum of Natural History, Smithsonian Institution, Washington, DC, USA (USNM). The neotype of S. cantheus is the species known today as Hermeuptychia sosybius (Fabricius, 1793) (Cong and Grishin 2014): it has patches of darker androconia on the dorsal surface of the wings and its COI barcode sequence is identical to that of the H. sosybius neotype. Therefore, Satyrus cantheus Godart, [1824] is a junior subjective synonym of Hermeuptychia sosybius (Fabricius, 1793).	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
1B3FFF58FF89FFBC67DBFD4FFD59FF30.taxon	description	Only the ventral side is illustrated in the original description of Papilio camerta Cramer, 1780 (type locality Suriname). The wings exhibit 2 median lines, 3 marginal lines, and small and similarly-sized submarginal dark eyespots: 4 on the forewing (no eyespot in cell R 5 - M 1 by the apex) and 6 on the hindwing, each encircled with yellow and pupillated with silvery-blue. We also inspected and photographed the original drawing of P. camerta by G. W. Lambertz in the Library of the Natural History Museum, London, that served as a model for published engravings (Gilbert 2000). The Lambertz drawings, which are usually more accurate than stylized engravings, could help identify the species illustrated. Indeed, the Lambertz drawing of P. camerta reveals differences between the eyespots in this specimen: all forewing eyespots and the 4 th eyespot on the hindwing (in cell M 3 - CuA 1) are brown, others are black. The ventral wing pattern combined with small size (forewing length 17 mm on the drawing) suggest that P. camerta may indeed be a Hermeuptychia species as currently placed (Lamas 2004). However, there is no dark dash at the end of the ventral forewing discal cell, and the description clearly mentions an eyespot (encircled yellow and pupillated with a silvery dot) on the dorsal forewing " extremities " (Cramer 1780). We know of no species worldwide that match the P. camerta description together with the Lambertz illustration. Similarly to Weymer (1910 - 1912), we cannot explain the dorsal forewing eyespot mentioned in the original description, and for this reason place Papilio camerta Cramer, 1780 as a nomen dubium until a meaningful explanation can be found. Assuming a number of inaccuracies, we can offer a hypothesis about the identity of P. camerta. Silver pupils in some eyespots on the Lambertz drawing are not round but irregular, and seemingly made by more than one stroke of a brush (they are rounder on the engraving though) (Fig. 38). It is unclear whether this is an imperfection of the drawing, or it meant to depict bipupillated eyespots. If the eyespots were bipupillated, then this species could have been Paryphthimoides poltys (Prittwitz, 1865) or a relative, and the dorsal eyespot might have been on the " extremities " of the hindwings (not forewings: a possible mistake in the description), as in Paryphthimoides Forster, 1964. In some specimens of P. poltys, the differences between eyespots agree with the Lambertz illustration: the forewing eyespots and the 4 th hindwing eyespot are more brown than black, and the dashes at the end of the discal cells are vestigial on both wings. Thus, if " tippen " (Dutch) / " extremités " (French) meant anal angle, forewing was a lapsus calami for hindwing, and with irregular silvery-blue dots in the eyespots Lambertz was depicting bipupillation, then P. camerta may be conspecific with P. poltys. Alternatively, is it conceivable that the dorsal eyespot mentioned in the description may have been on a specimen of a different species than the one illustrated by Lambertz, making the type series polytypic. These issues remain to be investigated and the best compromise reached. While we are not able to solve the problem of the P. camerta identity, to facilitate its eventual resolution, we illustrate the Lambertz drawing, the published engraving, and provide translations of the original description (Fig. 38).	en	Cong, Qian, Barbosa, Eduardo P., Marín, Mario A., Freitas, André V. L., Lamas, Gerardo, Grishin, Nick V. (2021): Two new species of Hermeuptychia from North America and three neotype designations (Nymphalidae: Satyrinae). The Taxonomic Report of the International Lepidoptera Survey 9 (7): 1-21, DOI: 10.5281/zenodo.16538449
