Acanthocinini, Blanchard, 1845

Monné, Miguel A., Santos-Silva, Antonio & Monné, Marcela L., 2020, Key to South American genera of Acanthocinini (Coleoptera, Cerambycidae, Lamiinae) without erect setae on elytra; synonymies, transferences, revalidation, and notes on genera with erect setae on elytra, Zootaxa 4863 (1), pp. 1-65 : 7-10

publication ID	https://doi.org/10.11646/zootaxa.4863.1.1
publication LSID	lsid:zoobank.org:pub:66DCE172-2486-450B-AD2C-2D80F573348E
DOI	https://doi.org/10.5281/zenodo.4426668
persistent identifier	https://treatment.plazi.org/id/7E7087AC-FFD2-FFD2-6CBE-FCD843CE304B
treatment provided by	Plazi (2021-01-04 23:12:43, last updated 2024-11-25 22:33:48)
scientific name	Acanthocinini
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Treatment

Key to South American genera of Acanthocinini View in CoL View at ENA without erect setae on elytral surface

1. Metafemora remarkably swollen, and elytra without dorsal carina ( Fig. 1 View FIGURES 1–15. 1 )....................... Megamiros Audureau, 2013 View in CoL – Metafemora not notably swollen or swollen but elytra with dorsal carina.............................................. 2

2(1). Each elytron with two or three well-marked carinae............................................................ 3 – Each elytron with one carina, lateral or dorsal (sometimes, dorsal carina slightly marked), or lacking carina.................. 7

3(2). Each elytron with one dorsal carina ( Fig. 2 View FIGURES 1–15. 1 ).......................................... Nealcidion Monné, 1977 View in CoL (part) – Each elytron with two or more dorsal carinae.................................................................... 4

4(3). Sides of the prothorax lacking tubercle or with rounded tubercle ( Fig. 3 View FIGURES 1–15. 1 )................... Nealcidion Monné, 1977 View in CoL (part) – Sides of the prothorax with large, conical tubercle................................................................ 5

5(4). Elytral apex oblique, outer angle strongly spiniform ( Fig. 7 View FIGURES 1–15. 1 )............................... Tropidocoleus Monné, 2009 View in CoL – Elytral apex rounded or truncate, unarmed...................................................................... 6

6(5). Centrobasal crest of the elytra with dense setae ( Figs. 8–9 View FIGURES 1–15. 1 )............................... Xylergatoides Gilmour, 1962 View in CoL – Centrobasal crest of the elytra (when distinct) not densely setose ( Figs. 10–11 View FIGURES 1–15. 1 )................ Lagocheirus Dejean, 1835 View in CoL (part)

7(2). Each elytron with two large spiniform projections on posterior half ( Figs. 13–14 View FIGURES 1–15. 1 )................ Beloesthes Thomson, 1864 View in CoL – Elytra without large spiniform projections on posterior half......................................................... 8

8(7). Elytra with both, centrobasal crest and humeral carina.......................................................... 9 – Elytra with centrobasal crest and without humeral carina, or with humeral carina and without centrobasal crest, or without both. 15

9(8). Sides of the prothorax rounded or with obtuse protuberance..................................................... 10 – Sides of the prothorax with distinct acute tubercle............................................................... 11

10(9). Elytra with or without distinct humeral carina........................................ Nealcidion Monné, 1977 View in CoL (part) – Elytra with distinct humeral carina ( Fig. 15 View FIGURES 1–15. 1 )............................................ Lathroeus Thomson, 1864 View in CoL (part)

Note: Problematic group of species needing full revision for eventual separation

11(9). Centrobasal crest of the elytra longer than metatarsomere I..................................................... 12 – Centrobasal crest of the elytra shorter or as long as metatarsomere I................................................. 13

12(11). Centrobasal crest of the elytra projected backward at its superior apex ( Figs. 16–17 View FIGURES 16–33. 16–17 )... Acanthodoxus Martins & Monné, 1974 View in CoL – Centrobasal crest of the elytra projected at its apex ( Figs. 18–20 View FIGURES 16–33. 16–17 )................................ Cleodoxus Thomson, 1864 View in CoL

13(11). Lateral tubercles of the prothorax with blunt apex................................... Lathroeus Thomson, 1864 View in CoL (part) – Lateral tubercles of the prothorax with acute apex............................................................... 14

14(13). Prothorax rounded laterally between anterolateral angles and lateral tubercle ( Figs. 21–22 View FIGURES 16–33. 16–17 )................................................................................................. Tropidozineus Monné & Martins, 1976 View in CoL

– Prothorax with sides straight or nearly so between anterolateral angles and lateral tubercle ( Fig. 23 View FIGURES 16–33. 16–17 )............................................................................................... Paracleodoxus Monné & Monné, 2010 View in CoL

15(8). Elytra with centrobasal crest or distinct gibbosity............................................................ 16

– Elytra without centrobasal crest or distinct gibbosity............................................................. 29

16(15). Elytra with a pointed paintbrush-shaped centrobasal crest, with long setae on top ( Figs. 24–26 View FIGURES 16–33. 16–17 )... Odontozineus Monné, 2009 View in CoL

– Centrobasal crest or gibbosity of the elytra wider, with setae on top shorter or absent.................................... 17

17(16). Apex of the centrobasal crest of the elytra projected backward................................................. 18

– Apex of the centrobasal crest of the elytra not projected backward, or elytra with gibbosity............................... 20

18(17). Sides of prothorax with distinct tubercle, acute at apex ( Figs. 27–28 View FIGURES 16–33. 16–17 )....................... Hamatastus Gilmour, 1957 View in CoL

– Sides of prothorax without tubercle or, at most, with rounded protuberance........................................... 19

19(18). Elytra about as long as twice the width across humeri ( Fig. 29–30 View FIGURES 16–33. 16–17 )........................... Anisolophia Melzer, 1934 View in CoL

– Elytra distinctly shorter than twice the width across humeri ( Figs. 31–32 View FIGURES 16–33. 16–17 )............................. Pucallpa Lane, 1959 View in CoL

20(17). Mesoventral process with tubercle ( Figs. 33–34 View FIGURES 16–33. 16–17 View FIGURES 34–50. 34 )........................................ .. Erphaea Erichson, 1847 View in CoL

– Mesoventral process without tubercle......................................................................... 21

21(20). Centrobasal crest of the elytra transverse ( Fig. 35 View FIGURES 34–50. 34 )........................................ Amniscites Gilmour, 1957 View in CoL

– Centrobasal crest or gibbosity of the elytra longitudinal........................................................... 22

22(21). Scape with spiniform projection at inner apex ( Fig. 36 View FIGURES 34–50. 34 )................................. Alcathousiella Monné, 2005 View in CoL

– Scape not spiniform at apex................................................................................. 23

23(22). Antennomere III with spiniform projection in males (in some species with dense set of setae on inner side) ( Figs. 37–38 View FIGURES 34–50. 34 )................................................................................... Xenocona Gilmour, 1960 View in CoL

– Antennomere III without projection in both sexes.................................................................24

24(23). Lateral tubercle of the prothorax triangular, not directed backward..............................................25

– Lateral tubercle of the prothorax spiniform, directed backward..................................................... 28

25(24). Metafemora slender in both sexes, distinctly surpassing elytral apex in male ( Figs. 39–42 View FIGURES 34–50. 34 )................................................................................................. Paranisopodus Monné & Martins, 1976 View in CoL

– Metafemora stouter and not surpassing elytral apex in both sexes................................................... 26

26(25). Apex of the elytra with outer angle not spiniform ( Figs. 43–47 View FIGURES 34–50. 34 )............................. Lophopoeum Bates, 1863 View in CoL

– Apex of the elytra with outer angle spiniform or distinctly projected................................................. 27

27(26). Scape clavate ( Figs. 48–49 View FIGURES 34–50. 34 )....................................................... Sympagus Bates, 1881 View in CoL (part)

– Scape not clavate ( Fig. 50 View FIGURES 34–50. 34 )............................................................ Trypanidius Blanchard, 1847 View in CoL

Note: Currently, Trypanidius View in CoL includes species with different elytral apex, with or without erect setae on elytra, with or without centrobasal crest, mesoventral process with or without tubercles, etc. Hence, only the type species of Trypanidus is considered here.

28(24). Centrobasal crest of the elytra gibbosity-shaped, without erect setae ( Figs. 51–53 View FIGURES 51–66. 51 )............... Anisopodus White, 1855 View in CoL

– Centrobasal crest of the elytra narrowed, elevated, with erect setae ( Figs. 54–57 View FIGURES 51–66. 51 )................... Sternacutus Gilmour, 1961 View in CoL

Note 1: Anisopodus View in CoL is a genus encompassing species belonging to different genera (different pronotal and metafemoral shapes; with or without humeral carina; with or without projections in some antennomeres, etc.). Therefore, it is only possible to include the type species of the genus in the key.

Note 2: Sternacutus View in CoL , due to the different shape of the scape, metafemora, and body width of the included species, probably includes more than one genus.

29(15). Lateral tubercle of the prothorax wide, truncate or bifid at apex ( Fig. 58–60 View FIGURES 51–66. 51 )............. Tropanisopodus Tippmann, 1960 View in CoL

– Lateral tubercle of the prothorax absent or with apex neither truncate nor bifid........................................ 30

30(29). Scape with modifications.............................................................................. 31

– Scape without modifications................................................................................. 33

31(30). Scape notched on the basal inner side, lacking apical cicatrix ( Fig. 61 View FIGURES 51–66. 51 )...................... Periestola Breuning, 1943 View in CoL

– Scape not notched, with apical cicatrix........................................................................ 32

32(31). Elytra with humeral carina ( Fig. 62 View FIGURES 51–66. 51 )................................................. Nyssocarinus Gilmour, 1960 View in CoL

– Elytra without humeral carina ( Figs. 63–64 View FIGURES 51–66. 51 )...................................................... Hylettus Bates, 1864 View in CoL

33(30). Sides of the prothorax rounded, parallel or divergent backwards (sometimes, with slightly distinct, small protubercance on posterior half)....................................................................................... 34

– Sides of the prothorax with distinct projection or tubercle on posterior half (sometimes on posterolateral angle).............. 39

34(33). Elytra with granules ( Fig. 65–66 View FIGURES 51–66. 51 )............................................... Leptostylus LeConte, 1852 View in CoL (part)

– Elytra without granules.................................................................................... 35

35(34). Elytra carinate dorsally ( Figs. 67–68 View FIGURES 67–81. 67 )................................................. Cobelura Erichson, 1847 View in CoL

– Elytra not carinate dorsally.................................................................................. 36

36(35). Prothorax distinctly conical frustum-shaped (fig.69)................................ Colobeutrypanus Tippmann View in CoL , 195l

– Prothorax not distinctly conical frustum-shaped................................................................. 37

37(36). Ovopositor longer than basal width of the prothorax ( Figs. 70–71 View FIGURES 67–81. 67 )............................. Toronaeus Bates, 1864 View in CoL

– Ovopositor distinctly shorter than basal width of the prothorax..................................................... 38

Note: There is no realiable feature separating males of Toronaeus View in CoL and Stenolis View in CoL .

38(37). Frons quadrate ( Figs. 48–49 View FIGURES 34–50. 34 )...................................................... Sympagus Bates, 1881 View in CoL (part)

– Frons transverse ( Fig. 72 View FIGURES 67–81. 67 ).................................................................... Stenolis Bates, 1864 View in CoL

39(33). Prothorax with the lateral tubercles placed on posterolateral angles or nearly so................................... 40

– Prothorax with lateral tubercles placed medially or on posterior third before posterolateral angles.......................... 41

40(39). Male antennae with internal projection on apex of some antennomeres, or with this area distinctly tumid ( Figs. 74– 75 View FIGURES 67–81. 67 )…......……..…………….. Pattalinus Bates, 1881 View in CoL

– Male antennae without internal projection on apex of the antennomeres ( Figs. 76–77 View FIGURES 67–81. 67 ).............. Lepturges (Lepturges) (part)

Note: Females of Lepturges (Lepturges) do not differ from those of Pattalinus View in CoL

41(39). Antennae 12-segmented ( Fig. 78 View FIGURES 67–81. 67 )......................................... Longilepturges Monné & Monné, 2011 View in CoL

– Antennae 11-segmented.................................................................................... 42

42(41). Profemora in male strongly dilated; female (only from South America View in CoL ) with profemora longer than than meso- and metafemora, or scape with apical projection, or head strongly narrowed behind eyes.......................................... 43

– Male and females with other features......................................................................... 44

43(42). Profemora in male with ventral spine ( Fig. 79 View FIGURES 67–81. 67 ); female with apical projection on apex of scape or with profemora distinctly longer than meso- and metafemora ( Fig. 79 View FIGURES 67–81. 67 )........................................... Tomrogersia Fragoso, 1980 View in CoL

– Profemora in male without ventral spine ( Fig. 80 View FIGURES 67–81. 67 ); female without apical projection on scape and profemora not distinctly longer than meso- and metafemora ( Figs. 80–81 View FIGURES 67–81. 67 ).................................................. Neseuterpia Villiers, 1980 View in CoL

44(42). Antennomeres IV–XI moniliform ( Fig. 82 View FIGURES 82–94. 82 )............................................ Paratenthras Monné, 1998 View in CoL

– Antennomeres IV–XI not moniliform.......................................................................... 45

45(44). Elytra bicolorous, with basal area orangish and remaining surface dark ( Fig. 83 View FIGURES 82–94. 82 )... .. Alloeomorphus Monné & Monné, 2011 View in CoL

– Elytra with different color pattern............................................................................ 46

46(45). Lateral tubercle of the prothorax placed near posterolateral angle (closer to posterolateral angle than middle of the prothorax).................................................................................................. 47

– Lateral tubercle of the prothorax placed about middle or closer to middle than posterolateral angle......................... 55

47(46). Mesoventral process about as wide as mesocoxal cavity...................................................... 48

– Mesoventral process distinctly narrower than mesocoxal cavity.................................................... 49

48(47). Body stout, elytra shorter than twice the humeral width ( Figs. 84–85 View FIGURES 82–94. 82 ).......................... Carphontes Bates, 1881 View in CoL

– Body slender, elytra longer than twice the humeral width (South American species) ( Fig. 86–87 View FIGURES 82–94. 82 ).. Nyssodrysternum Gilmour, 1960 View in CoL

49(47). Transverse basal sulcus of the pronotum extends laterally behind the lateral tubercles of the prothorax................. 50

– Transverse basal sulcus of the pronotum does not extends laterally behind the lateral tubercles of the prothorax.............. 51

50(49). Lower eye lobes smaller than genae ( Fig. 89 View FIGURES 82–94. 82 )...................................... Pseudolepturges Gilmour, 1957 View in CoL

– Lower eye lobes at least as long as genae ( Fig. 92 View FIGURES 82–94. 82 )......................................... Urgleptes Dillon, 1956 View in CoL (part)

Note: The separation between these two genera is problematic because Urgleptes View in CoL includes several species with variable features.

51(49). Mesoventral process very narrow, usually narrower than 1/4 of the width of mesocoxal cavity ( Fig. 77 View FIGURES 67–81. 67 )..................................................................................... Lepturges (Lepturges) Bates, 1863 (part)

– Mesoventral process at least as wide as 1/3 the width of mesocoxal cavity............................................ 52

52(51). Lateral tubercle of the prothorax very small ( Figs. 95–97 View FIGURES 95–109. 95 )............................... Nyssodrysilla Gilmour, 1962 View in CoL

– Lateral tubercle of the prothorax proportionally large............................................................. 53

53(52). Metatarsomere I at most as long as II and III together ( Fig. 98 View FIGURES 95–109. 95 )……………...…. ……………………………………………… …………………... Atrypanius Bates, 1864 View in CoL

– Metatarsomere I longer than II and III together.................................................................. 54

54(53). Elytra without humeral carina ( Figs. 100–101 View FIGURES 95–109. 95 )........................................... Eucharitolus Bates, 1885 View in CoL

– Elytra with humeral carina ( Figs. 102, 104 View FIGURES 95–109. 95 )............................................... Hyperplatys Haldeman, 1847 View in CoL

55(46). Apex of lateral tubercles of the prothorax spiniform......................................................... 56

– Apex of lateral tubercles of the prothorax different, not spiniform................................................... 57

56(55). General color orangish ( Fig. 106 View FIGURES 95–109. 95 )........................................... Luteolepturges Monné & Monné, 2012 View in CoL

– General color dark ( Fig. 107 View FIGURES 95–109. 95 ).......................................................... Lophopoenopsis Melzer, 1931 View in CoL

57(55). Antennomere III distinctly shorter than scape (fig. 108)......................... Trypanidiellus Monné & Delfino, 1980 View in CoL

– Antennomere III at most slightly shorter than scape.............................................................. 58

58(57). Elytra at least as long as twice the humeral width ( Fig. 109 View FIGURES 95–109. 95 )………………….… ……………………………………………… ………………. Eutrypanus Erichson, 1847 View in CoL

– Elytra shorter than twice the humeral width.................................................................... 59

59(58). Humeri granulated ( Figs. 10–12 View FIGURES 1–15. 1 )................................................ Lagocheirus Dejean, 1835 View in CoL (part)

– Humeri not granulated..................................................................................... 60

60(59). Elytra with granules or not smooth ( Fig. 65 View FIGURES 51–66. 51 )...................................... Leptostylus LeConte, 1852 View in CoL (part)

– Elytra without granules, smooth (not considering dorsal carina when present)......................................... 61

61(60). Elytra with longitudinal dorsal carina ( Fig. 131 View FIGURES 122–133. 122–124 )........................................ Atelographus Melzer, 1927 View in CoL

– Elytra without longitudinal dorsal carina ( Fig. 132 View FIGURES 122–133. 122–124 ).............................................. Nanustes Gilmour, 1960 View in CoL

References

Audureau, A. (2013) Nouvelles especes d'Acanthocini neotropicaux (Coleoptera, Cerambycidae, Lamiinae). Les Cahiers Magellanes, New Series, 11, 32 - 38.

Bates, H. W. (1881) Biologia Centrali-Americana, Insecta, Coleoptera. London, 5, 153 - 224.

Bates, H. W. (1885) s. n. In: Biologia Centrali-Americana. Vol. 5. Insecta, Coleoptera. Supplment to Longicornia, 1885, pp. 249 - 436.

Blanchard, C. E. (1847) Insectes de l'Amerique meridionale recueillis par Alcide D'Orbigny (Tribu des Longicornes). In: Voyage dans l'Amerique meridionale (le Bresil, la Republique Orientale de l'Uruguay, la Republique Argentine, la Patagonie, la Republique du Chili, la Republique de Bolivia, la Republique du Perou), execute pendant les annees 1826, 1827, 1828, 1829, 1830, 1831, 1832 et 1833 par Alcide D'Orbigny. 6 (2). Bertrand, Paris, pp. 206 - 210. https: // doi. org / 10.5962 / bhl. title. 8353

Breuning, S. (1943) Novae species Cerambycidarum. XII. Folia Zoologica et Hydrobiologica, 12, 12 - 66.

Dejean, P. F. M. A. (1835) s. n. In: Catalogue des Coleopteres de la collection de M. le Comte Dejean. Livraison 4. Mequignon- Marvis, Paris, pp. 257 - 360. https: // doi. org / 10.5962 / bhl. title. 8771

Erichson, W. F. (1847) Conspectus insectorum coleopterorum quae in Republica Peruana observata sunt. Archiv fur Naturgeschichte, 13, 67 - 185.

Fragoso, S. A. (1980) Tomrogersia acanthofemorata, n. gen., n. sp. (Coleoptera, Cerambycidae) Revista Brasileira de Biologia, 40 (4), 743 - 746.

Gilmour, E. F. (1957) On the Neotropical Acanthocinini (Coleoptera, Cerambycidae, Lamiinae). Some new genera and species. Arquivos de Biologia e Tecnologia, 10 (1), 3 - 36.

Gilmour, E. F. (1961) On the Neotropical Acanthocinini IX (Coleoptera, Cerambycidae). Some new genera and species III. Studia Entomologica, 4, 347 - 368.

Gilmour, E. F. (1962) On the Neotropical Acanthocinini (Coleoptera, Cerambycidae, Lamiinae). Some new genera and generic revision. Beitrage zur Neotropischen Fauna, 2 (4), 249 - 293. https: // doi. org / 10.1080 / 01650526209380630

Lane, F. (1959) Cerambycoidea Neotropica nova V (Coleoptera). Papeis Avulsos do Departamento de Zoologia, 13 (21), 251 - 264.

LeConte, J. L. (1852) An attempt to classify the longicorn Coleoptera of the part of America, north of Mexico. Journal of the Academy of Natural Sciences of Philadelphia, Series 2, 2, 139 - 178. https: // doi. org / 10.5962 / bhl. title. 151789

Melzer, J. (1927) Longicorneos (Col.) do Brasil, novos ou pouco conhecidos. Revista do Museu Paulista, 15 (1), 557 - 582.

Melzer, J. (1934) Longicorneos americanos, principalmente do Brasil, novos ou pouco conhecidos. Arquivos do Instituto Biologico, 5, 213 - 244.

Monne, M. A. (1974) Revisao do genero Toronaeus Bates, 1864 (Coleoptera, Cerambycidae, Lamiinae, Acanthocinini). Revista Brasileira de Biologia, 34 (4), 589 - 598.

Monne, M. A. & Martins, U. R. (1976) Contribuicao ao conhecimento dos Acanthocinini (Coleoptera, Cerambycidae, Lamiinae) Papeis Avulsos de Zoologia, 30 (4), 43 - 98.

Monne, M. A. (1977) Contribuicao ao conhecimento dos Acanthocinini. VI (Coleoptera, Cerambycidae, Lamiinae, Acanthocinini). Revista Brasileira de Biologia, 37 (4), 693 - 711.

Monne, M. A. & Delfino, S. M. (1980) Contribuicao ao conhecimento dos Acanthocinini VII (Coleoptera, Cerambycidae, Lamiinae). Revista Brasileira de Biologia, 40 (2), 317 - 322.

Monne, M. A. (1998) Notas sobre Acanthocinini neotropicais (Coleoptera, Cerambycidae, Lamiinae): generos e especies novas. Revista Brasileira de Entomologia, 41 (2 - 4), 289 - 295.

Monne, M. A. (2005) Catalogue of the Cerambycidae (Coleoptera) of the Neotropical Region. Part II. Subfamily Lamiinae. Zootaxa, 1023 (1), 1 - 759. https: // doi. org / 10.11646 / zootaxa. 1023.1.1

Monne, M. A. (2009) Novos taxons neotropicais em Acanthocinini (Coleoptera, Cerambycidae). Revista Brasileira de Entomologia, 53 (3), 321 - 326. https: // doi. org / 10.1590 / S 0085 - 56262009000300001

Monne, M. A. & Monne, M. L. (2010) Revision of the genus Carphontes Bates, with the proposal of a new genus, Paracleodoxus (Coleoptera, Cerambycidae, Lamiinae). Zootaxa, 2387 (1), 51 - 56. https: // doi. org / 10.11646 / zootaxa. 2387.1.4

Monne, M. L. & Monne, M. A. (2011) Novos taxons em Acanthocinini neotropicais (Coleoptera, Cerambycidae, Lamiinae). Revista Brasileira de Entomologia, 55 (2), 172 - 178. https: // doi. org / 10.1590 / s 0085 - 56262011005000002

Thomson, J. (1864) Systema cerambycidarum ou expose de tous les genres compris dans la famille des cerambycides et familles limitrophes. H. Dessain, Liege, pp. 1 - 352. https: // doi. org / 10.5962 / bhl. title. 82379

Tippmann, F. F. (1960) Studien uber neotropische Longicornier III (Coleoptera, Cerambycidae). Koleopterologische Rundschau, 37 - 38, 82 - 217.

Villiers, A. (1980) Coleopteres Cerambycidae des Petites Antilles. Nouveaux genres, nouvelles especes. Designation de types (Troisieme note). Revue Francaise d'Entomologie, New Series, 2 (2), 86 - 98.

White, A. (1855) s. n. In: Catalogue of the coleopterous insects in the collection of the British Museum. Vol. 8. Longicornia 2. British Museum, London, pp. 175 - 412. https: // doi. org / 10.5962 / bhl. title. 60043

Figures

FIGURES 1–15. 1) Megamiros muzoensis, holotype male, dorsal habitus (from Audureau 2013). 2) Nealcidion latum, holotype, dorsal habitus (by Jesus Santiago Moure). 3–4) Nealcidion kayi, holotype (from Nascimento et al. 2020): 3) dorsal habitus; 4) ventral habitus. 5) Nealcidion humerosum, holotype, dorsal habitus (by Jesus Santiago Moure); 6) Nealcidion nebulosum, male, dorsal habitus (from Nascimento et al. 2020). 7) Tropidocoleus bicarinatus, holotype female, dorsal habitus (by Larry G. Bezark). 8–9) Xylergatoides asper: 8) Syntype female, dorsal habitus (by Jesus Santiago Moure); 9) female, lateral habitus. 10) Lagocheirus araneiformis flavolineatus, dorsal habitus (from Monné et al. 2019). 11) Lagocheirus plantaris plantaris, male, dorsal habitus (from Santos-Silva et al. 2019). 12) Lagocheirus wenzeli, holotype male, dorsal habitus (by Jesus Santiago Moure). 13–14) Beloesthes megabasoides, holotype (by Jesus Santiago Moure): 13) Dorsal habitus; 14) Oblique view. 15) Lathroeus oreoderoides, holotype, dorsal habitus (by Jesus Santiago Moure).

FIGURES 16–33. 16–17) Acanthodoxus delta, holotype male (by Juan Pablo Botero): 16) Dorsal habitus; 17) Lateral habitus. 18) Cleodoxus carinatus, syntype, dorsal habitus (by Jesus Santiago Moure). 19–20) Cleodoxus antonkozlovi, holotype male (from Nascimento 2018): 19) Dorsal habitus; 20) Lateral habitus. 21–22) Tropidozineus tersus, holotype male (by Juan Pablo Botero): 21) Dorsal habitus; 22) Lateral habitus. 23) Paracleodoxus cineraceus, holotype male, dorsal habitus (from Monné & Monné 2010). 24–26) Odontozineus penicillatus, holotype male (from Monné 2009): 24) Dorsal habitus; 25) Elytra, lateral view; 26) Antennomere III. 27) Hamatastus conspectus, holotype male, dorsal habitus (by Steven W. Lingafelter). 28) Hamatastus fasciatus, holotype male, dorsal habitus (by Jesus Santiago Moure). 29–30) Anisolophia cultrifera: 29) Holotype, dorsal habitus (by Jesus Santiago Moure); 30), Female, lateral habitus. 31–32) Pucallpa cristata, holotype female (by Steven W. Lingafelter): 31) Dorsal habitus; 32) Lateral habitus. 33) Erphaea stigma, holotype male, dorsal habitus (by Juan Pablo Botero).

FIGURES 34–50. 34) Erphaea stigma, holotype male, lateral habitus (by Juan Pablo Botero). 35) Amniscites pictipes, female, dorsal habitus (from Santos-Silva et al. 2019). 36) Alcathousiella polyrhaphoides, male, dorsal habitus. 37–38) Xenocona penicillata, male (from Nascimento & Botero 2019): 37) Dorsal habitus; 38) Lateral habitus. 39) Paranisopodus granulosus, male, dorsal habitus (from Nascimento & Santos-Silva 2019). 40–42) Paranisopodus heterotarsus (from Nascimento & Santos- Silva 2019): 40) Male, dorsal habitus; 41) Male, lateral habitus; 42) Female, dorsal habitus. 43–44) Lophopoeum carinatulum, female: 43) Dorsal habitus; 44) Ventral habitus. 45–47) Lophopoeum bimaculatum: 45) Female, dorsal habitus; 46) Female, ventral habitus; 47) Male, dorsal habitus. 48) Sympagus laetabilis, lectotype male, dorsal habitus (by Jesus Santiago Moure). 49) Sympagus bimaculatus, holotype female, dorsal habitus (by Jesus Santiago Moure). 50) Trypanidius irroratus, female, dorsal habitus (from Santos-Silva et al. 2019).

FIGURES 51–66. 51) Anisopodus cochabambaensis, male, dorsal habitus (from Nascimento & Santos-Silva, 2019). 52) Anisopodus flavomarginatus, holotype male, dorsal habitus (from Vlasak et al. 2020). 53) Anisopodus argus, male, dorsal habitus (from Vlasak et al. 2020). 54) Sternacutus alienus, lectotype, dorsal habitus (from Monné et al. 2019a). 55–56) Sternacutus zikani, holotype (from Monné et al. 2019a): 55) Dorsal habitus; 56) Lateral habitus. 57) Sternacutus lateralis, holotype, lateral habitus. 58–59) Tropanisopodus tachira, male (from Nascimento & Santos-Silva 2019): 58) Dorsal habitus; 59) lateral habitus. 60) Tropanisopodus antonkozlovi, holotype male, ventral habitus (from Nascimento & Santos-Silva 2019). 61) Periestola strandi, male, dorsal habitus (from Santos-Silva et al. 2019). 62) Nyssocarinus vittatus, holotype male, dorsal habitus (by Jesus Santiago Moure). 63) Hylettus ramea, syntype male, dorsal habitus (by Jesus Santiago Moure). 64) Hylettus eremita, female, dorsal habitus (from Vlasak et al. 2020). 65–66) Leptostylus obrienorum, holotype male (from Nascimento & Heffern, 2018): 65) Dorsal habitus; 66) Ventral habitus.

FIGURES 67–81. 67) Cobelura peruviana, cotype, dorsal habitus (by Jesus Santiago Moure); 68) Cobelura clavigera, lectotype, dorsal habitus (by Jesus Santiago Moure). 69) Colobeutrypanus ornatus, holotype female, dorsal habitus (by Jesus Santiago Moure). 70) Toronaeus figuratus, syntype female, dorsal habitus (by Jesus Santiago Moure). 71) Toronaeus magnificus, holotype female, dorsal habitus (by Jesus Santiago Moure). 72) Stenolis veracruzi, holotype, oblique view (by Jesus Santiago Moure). 73) Nyssosternus duidaensis, holotype female, dorsal habitus (by Jesus Santiago Moure). 74) Pattalinus charis, holotype male, dorsal habitus (by Jesus Santiago Moure). 75) Pattalinus mirificus, holotype male, dorsal habitus (by Jesus Santiago Moure). 76–77) Lepturges (L.) brechlini, holotype male (from Santos-Silva et al. 2019): 76) Dorsal habitus; 77) Ventral habitus. 78) Longilepturges xantholineatus, holotype male, dorsal habitus (from Monné & Monné 2011). 79) Tomrogersia acanthofemorata, holotype male, dorsal habitus (by Steven W. Lingafelter). 80) Neseuterpia curvipes, holotype female, dorsal habitus (from Villiers 1980). 81) Neseuterpia couturieri, holotype male, dorsal habitus (by Gérard L. Tavakilian).

FIGURES 82–94. 82) Paratenthras martinsi, paratype female, dorsal habitus (by Steven W. Lingafelter). 83) Alloeomorphus formosus, holotype male, dorsal habitus (from Monné & Monné 2011). 84–85) Carphontes posticalis, male: 84) Dorsal habitus; 85) Ventral habitus. 86) Nyssodrys deleta, syntype, dorsal habitus (Jesus Santiago Moure). 87–88) Nyssodrysternum fasciatum, male: 87) Dorsal habitus; 88) Ventral habitus. 89–91) Pseudolepturges rufulus, male (from Nascimento & Perger 2018): 89) Lateral habitus; 90) Dorsal habitus; 91) Ventral habitus. 92–94) Urgleptes amoenulus, male: 92) Lateral habitus; 93) Dorsal habitus; 94) Ventral habitus.

FIGURES 95–109. 95) Nyssodrysilla vittata, holotype female, dorsal habitus. 96) Nyssodrysilla irrorata, paratype, dorsal habitus (by Jesus Santiago Moure). 97) Nyssodrysilla lineata, holotype male, dorsal habitus (by Jesus Santiago Moure). 98) Atrypanius conspersus, male, dorsal habitus (from Le Tirant & Santos-Silva 2019). 99) Atrypanius heyrovskyi, holotype female, dorsal habitus (by Jesus Santiago Moure). 100) Eucharitolus pulcher, lectotype male, dorsal habitus (from Botero & Monné 2012). 101) Eucharitolus bellus, dorsal habitus (from Botero & Monné 2012). 102–103) Hyperplatys pacangensis, holotype male from Nascimento 2018): 102) Dorsal habitus; 103) Ventral habitus. 104–105) Hyperplatys pichinchensis, holotype female (from Nascimento et al. 2020): 104) Dorsal habitus; 105) Ventral habitus. 106) Luteolepturges galbus, holotype male, dorsal habitus (from Monné & Monné 2012a). 107) Lophopoenopsis singularis, lectotype, dorsal habitus (by Jesus Santiago Moure). 108) Trypanidiellus decoratus, holotype female, dorsal habitus (by Steven W. Lingafelter). 109) Eutrypanus mucoreus, lectotype female, dorsal habitus (by Jesus Santiago Moure).

FIGURES 122–133. 122–124) Atrypanius leucopygus, male: 122) Dorsal habitus; 123) Ventral habitus; 124) Prosternal and mesoventral processes. 125–127) Atrypanius lignarius, male: 125) Dorsal habitus; 126) Ventral habitus; 127) Prosternal and mesoventral processes. 128–130) Atrypanius spretus, male: 128) Dorsal habitus; 129) Ventral habitus; 130) Prosternal and mesoventral processes. 131) Atelographus susanae, holotype male, dorsal habitus (by Steven W. Lingafelter). 132–133) Nanustes fuchsi, male: 132) Dorsal habitus; 133) Ventral habitus.