A new Andean genus, Lafontaineana, with descriptions of four new species and two new Neotropical species of Panthea (Noctuidae, Pantheinae)

Abstract

Lafontaineana Martinez, gen. nov. is proposed as a new Neotropical genus of Pantheinae, forming a sister group to Gaujonia Dognin, 1891 based on a phylogenetic analysis. In addition, one new combination and four new species are proposed: Lafontaineanamarmorifera (Walker, 1865), comb. nov. (Colombia), Lafontaineanaalexandrae Martinez, sp. nov. (Ecuador), Lafontaineanaimama Martinez, sp. nov. (Colombia), Lafontaineanapuma Martinez, sp. nov. (Ecuador), and Lafontaineanathuta Martinez, sp. nov. (Ecuador). Two new Neotropical species of Panthea are described, Pantheahondurensis Martinez, sp. nov. and Pantheataina Martinez, sp. nov.

Introduction

Lichnoptera Herrich-Schäffer, 1856, is currently the most diverse genus of neotropical pantheines and, like other neotropical Noctuidae, it has been poorly studied. Literature citations of the type species L.gulo Herrich-Schäffer, 1856 are largely limited to historical accounts (e.g., Walker 1862; Prittwitz 1871; Kirby 1892; Hampson 1913; Seitz 1919; Nye 1975; Poole 1989). Taxonomic research on the genus Lichnoptera by the senior author and Schmidt and Anweiler (2020) has revealed that Lichnoptera is a morphologically and genetically heterogeneous group requiring the establishment of new genera. Here, we erect Lafontaineana gen. nov. based on the type species Diphteramarmorifera (Walker, 1865), and add descriptions of four new species: Lafontaineanaalexandrae sp. nov., Lafontaineanaimama sp. nov., Lafontaineanapuma sp. nov., and Lafontaineanathuta sp. nov. Lafontaineanamarmorifera (Walker) comb. nov. is re-described.

Surprisingly, Lafontaineana is restricted to a small area, high elevation (~ 3,000 m) region of the Andes Mountains of Colombia and Ecuador. No records are known from other Andean countries, and the species are rarely collected; life histories and larval host plants remain completely unknown. Lafontaineana forms part of the Lichnoptera clade or “Jaguar Moths,” a clade which includes approximately 38 species of Neotropical Pantheinae in the genera Bathyra Walker, 1865, Cicadoforma Martinez, 2020, Cicadomorphus Martinez, 2020, Gaujonia Dognin, 1891, Gaujoptera Martinez, 2020, Lichnoptera Herrich-Schäffer, 1856, Millerana Martinez, 2020, and Oculicattus Martinez, 2020. Jaguar Moths are thought to mimic tiger moths (Erebidae: Arctiinae) (Martinez 2020). We also describe two new Neotropical pantheine species of the genus Panthea: Pantheahondurensis sp. nov. and Pantheataina sp. nov.

Methods and materials

Terminology and specimen preparation techniques follow standard protocols for Noctuidae (Lafontaine 1987, 2004; Schmidt and Anweiler 2020). Genitalia were stained with 1% chlorazol black and examined in 30% ethanol, and subsequently stored in pure glycerin. Type specimen preparations were mounted in Euparal. Photographs of pinned adults were taken using a Canon EOS Rebel T5i camera and Canon EF 100mm f/2.8 USM Macro lens, and the genitalia with a StackShot automated focus stacking macro rail with a Canon EOS 6D and an Infinity long-distance microscope Model K2 DistaMax.

We performed the molecular diagnosis by DNA barcoding four out of six new species mentioned in this study (with the exception of Pantheataina sp. nov. and Lafontaineanapuma sp. nov.), implementing a segment from the mitochondrial cytochrome oxidase (COI) gene. The DNA barcodes of outgroups were taken from the Barcode of Life Data System V4 (http://barcodinglife.com). DNA was extracted from dried specimens, typically of a single leg. Sequencing was carried out by the Canadian Centre for DNA Barcoding, Guelph, Ontario (http://ccdb.ca) following the protocols of Ratnasingham and Hebert (2013). Concatenation and alignment of sequences was performed using Geneious 9.1.3 (http://www.geneious.com). The gene tree construction was performed using a maximum-likelihood (ML) analysis in IQ-TREE v. 2 following Nguyen et al. (2015), Hoang et al. (2018), and Minh et al. (2020). We estimated branch support by running 1000 replicates of ultrafast bootstraps (UFBoot) (‘-bb’ command) and 1000 replicates of the Shimodaira-Hasegawa approximate likelihood ratio test (SH-aLRT) (‘-alrt’ command); values of UFBoot ≥ 95 and SH-aLRT ≥ 80 for nodes were considered highly supported. The divergence among species was obtained by using the identification engine of Barcode of Life Data System V4 (http://www.boldsystems.org/index.php/IDS_OpenIdEngine) and the nucleotide BLAST (https://blast.ncbi.nlm.nih.gov/Blast.cgi). Photographs and files including molecular data for voucher specimens are available at Barcode of Life Data System V4 [dataset: Jaguar Moths; code: DS-JAGM (https://www.dx.doi.org/10.5883/DS-JAGM)]. Sequence data are available on GenBank (www.ncbi.nlm.nih.gov/Genbank) (Suppl. material 3: Table S1).

The following institutional collections were reviewed to obtain the specimens:

CNCCanadian National Collection of Insects, Arachnids and Nematodes, Ottawa, Ontario, Canada;

FSUFriedrich Schiller University of Jena, Jena, Germany;

MGCLMcGuire Center for Lepidoptera and Biodiversity, Florida Museum of Natural History, Gainesville, Florida, USA;

NHMUKThe Natural History Museum (formerly British Museum [Natural History]), London, United Kingdom.

Systematics

Lafontaineana

Martinez gen. nov.

3F553F2D-1C4B-5D6D-B8C8-869156C26FDB

http://zoobank.org/9E7D99A1-D567-48DC-B6EA-EBB95FDD11A6

Gender.

Feminine.

Type species.

Diphteramarmorifera Walker, 1865 by present designation.

Etymology.

Lafontaineana is proposed in honor of our colleague J. Donald Lafontaine, who has worked with Lepidoptera, especially Noctuoidea, for more than 40 years; his work has been an inspiration to many in the world of noctuoid research.

Included species.

Lafontaineanamarmorifera (Walker,) comb. nov. and the four new species described herein: L.alexandrae sp. nov., L.imama sp. nov., L.puma sp. nov., and L.thuta sp. nov.

Diagnosis.

The external and internal morphologies of Lafontaineana and Lichnoptera are dissimilar (Figs 6, 7, 21, 29). In Lafontaineana, the thorax is white with black patches, which form large black polygons; these patches are smaller in Lichnoptera. The black markings of the forewing are wider and more sharply defined. The hindwing has a discal spot and dark lunate mark on the tornus, both of which are absent in Lichnoptera. In the male genitalia of Lafontaineana, the valva lacks the clasper (present in Lichnoptera), and there are sclerotized spines on the vesica (absent in Lichnoptera). In the female genitalia of Lichnoptera, the corpus bursae is remarkably smaller than the appendix bursae, while in Lafontaineana the opposite is true.

Figures 6–20.

Adult habitus of Lichnoptera, Lafontaineana, and Panthea6Lichnopteragulo, ♂, MGCL, Cundinamarca, Colombia 7L.gulo, ♀, MGCL, Cundinamarca, Colombia 8Lafontaineanamarmorifera, ♂, MGCL, Cundinamarca, Colombia 9L.marmorifera, ♀, MGCL, Cundinamarca, Colombia 10L.imama, ♂, MGCL, holotype, Tolima, Colombia 11L.imama, ♀, MGCL, paratype, Tolima, Colombia 12L.puma, ♂, CNC, holotype, La Alegria, Ecuador 13L.puma, ♀, CNC, paratype, La Alegria, Ecuador 14L.thuta, ♂, MGCL, holotype, Loja, Ecuador 15L.thuta, ♀, MGCL, paratype, Sucumbios, Ecuador 16L.alexandrae, ♀, FSU, holotype, Zamora-Chinchipe, Ecuador 17Pantheaguatemala, ♂, CNC, San Lorenzo, Guatemala 18P.hondurensis, ♂, MGCL, holotype, Francisco Morazán, Honduras 19P.reducta, CNC, ♂, Pedernales, Dominican Republic 20P.taina, ♂, La Vega, MGCL, holotype, Dominican Republic.

Figures 21–24.

Male genitalia of Lichnoptera and Lafontaineana21Lichnopteragulo, MGCL, Cundinamarca, Colombia 22L.imama, MGCL, holotype, Tolima, Colombia 23L.puma, CNC, holotype, La Alegria, Ecuador 24L.thuta, MGCL, holotype, Loja, Ecuador.

Figures 29–34.

Female genitalia of Lichnoptera and Lafontaineana29Lichnopteragulo, MGCL, Cundinamarca, Colombia 30Lafontaineanaalexandrae, FSU, holotype, Zamora-Chinchipe, Ecuador 31L.imama, MGCL, paratype, Tolima, Colombia 32L.marmorifera, MGCL, Cundinamarca, Colombia 33L.puma, CNC, paratype, La Alegria, Ecuador 34L.thuta, MGCL, paratype, Sucumbios, Ecuador.

Description.

Lafontaineana species are sexually dimorphic in size as well as in coloration, and the female is larger and paler than male. Both sexes have filiform antennae; eyes densely covered by short and fine interfacetal setae; haustellum short, dark brown; palpus short with the terminal segment 5× shorter than second segment, divided in black and yellow, but differing in the terminal segment, which is mostly marbled with black, white, and yellow scales. Thoracic dorsal vestiture concolorous except in forewing, of which ground color is white to yellowish white, with prominent black polygons in collar, tegula, and patagium centrally, while ventrally the thorax is gray; thorax with orange hair-like tuft laterally beneath forewing; forewing pattern well-developed with ground color darker in the median field; orbicular spot round and prominent, reniform spot trapezoidal. Hindwing white, semi-hyaline (dark gray in L.alexandrae); female with barely visible discal, medial and postmedial lines; dark spots covering costa and Sc+R1 cells; discal spot fused with discal line; lunate marking on tornus, which is longer in female. Abdomen dull orange with dark brown dorsal stripe and brown dorsal tuft on segments A1–A7. Male genitalia with tegumen relatively narrow; long simple valva lacking clasper; cucullar region slightly squared, but narrow and reasonably short; costal and posterior margins with a curved extension on each; juxta mostly shield-like; uncus sinuous; aedeagus short; vesica longer than the aedeagus with a medial diverticulum and a row of sclerotized spines. Female genitalia with sterigma and appendix bursae lightly sclerotized; ductus bursae sclerotized; corpus bursae transparent without signa; anterior and posterior apophysis remarkably short, except in L.alexandrae which has large posterior apophysis.

Genetic characterization.

DNA barcodes of Lafontaineana species are distinguishable from their sister clade, the Gaujonia genus group, by ≥ 7% divergence (Fig. 1).

Figure 1.

Relationships between the species of the genus Lafontaineana and other genera in the Lichnoptera clade employing a Maximum Likelihood analysis based on the cytochrome c oxidase I gene (COI). Nodes with black circles represent high support (UFBoot ≥ 95 and SH-aLRT ≥ 80). Nodes with gray circles represent low support (UFBoot < 95 and SH-aLRT < 80). Black branches represent the outgroups.

Immature stages.

Immature stages as well as the host plants are unknown.

Key to the genus of Lafontaineana based on male and female morphology

1	Hindwings white with conspicuous lines (Figs 4, 8–15)	2
–	Hindwings dark gray with inconspicuous lines (Fig. 16)	L.alexandrae
2	Forewing with rounded orbicular spot (Figs 4, 8, 9, 14, 15)	3
–	Forewing with squared orbicular spot (Figs 10–13)	4
3	Orbicular spot small with a dot in the middle; thorax with small polygons and a wide sulfur-yellow line on metanotum; abdomen with orange bands fused on A1; male genitalia with a small swollen protuberance on the costal margin of valva (Figs 14, 15, 24)	L.thuta
–	Orbicular spot wide; large polygons on thorax; abdomen with wide orange bands and long white hairy scales covering the genitalia; male genitalia with valva widely swollen on the costal margin (Figs 4, 5, 8, 9)	L.marmorifera
4	Medial field brown or dark brown (Figs 12, 30)	L.puma
–	Medial field slightly suffused brownish yellow; band in the fold of the forewing in pale-yellow (Figs 10, 11)	L.imama

Figures 3–5.

Lafontaineanamarmorifera3 head, ♂, Cundinamarca, Colombia MGCL4 holotype ♂, New Grenada (Colombia), NHMUK5 holotype genitalia ♂, New Grenada (Colombia), NHMUK.

Descriptions

Lafontaineana alexandrae

Martinez sp. nov.

613260CD-018A-5A96-9D6C-848BB9B4B9DD

http://zoobank.org/0403C48D-C4E9-489F-9F22-8B3AD0830B16

Figures 16 , 30

Type material.

Holotype: ♀, Ecuador, Zamora-Chinchipe, Reserva Biologica San Francisco, Montane Rainforest, Blacklight 2×15W, 30 Jan. 2013, 19.00–21.30 h, 03°58.94'S, 79°04.84'W, 2212 m, coll. Gunnar Brehm & Yoko Matsumura / DNA Barcode run 2013, COI-5P marker, University of Guelph / Arcec 30166 / leg sampled in ethanol G. Brehm, Green vial caps. deposited in FSU.

Etymology.

This species is named after the senior authors’ sister, Alejandra Martinez, who has supported JIM’s work since the beginning of his career.

Diagnosis.

Lafontaineanaalexandrae is the only species in the genus that has a dark hindwing. The female genitalia differ from the rest of the Lafontaineana by the presence of the small projections; small papillae anales-like on the A8 membrane.

Description.

Head. Palpus marbled in yellow, white, and black; frons covered by a mixture of yellow and black scales. Thorax. Polygons small, outlined by wide yellow lines; setal tuft pale orange; ventrally brown with some dark gray scales. Wing. Forewing length 22–24 mm; yellow with blurry black lines; basal and medial lines absent, and space between antemedial and subterminal lines brown; crescent-shaped orbicular spot; reniform spot arrow tip-shaped, curving inwards on outer margin with lunate marking near inner margin; hindwing completely covered by gray scales; fringe black with some spots in yellow; pattern lines barely visible. Legs. Black with white joints and yellow tufts. Abdomen. Black with yellow intersternal membrane ventrally; dorsally with huge black line of tufts with some scales in white; anal papilla covered by yellow scales. Female genitalia. Anal papilla remarkably short; sterigma considerably wide; posterior apophysis round, 2× larger than anal papilla; appendix bursae sclerotized, ⅓× shorter than the corpus bursae; A8 membrane with a projection resembling small anal papilla.

Genetic characterization.

The minimum DNA barcode divergence is 4.28% compared to L.marmorifera.

Distribution.

The holotype, the only known specimen, was found in the cloud forest of southern Ecuador (Fig. 35).

Figure 35.

Distribution of examined specimens of Lafontaineana.

Remarks.

Known only from the holotype, which has the tornus of the left forewing broken (Fig. 16), and the right forewing broken at cell R5. The DNA voucher label (Arcec 30166) is different from the voucher published at http://barcodinglife.com (Arcec 31097) probably by a confusion.

Lafontaineana imama

Martinez sp. nov.

FD511B1C-D483-569D-9CCE-2D6D7B68AD4B

http://zoobank.org/8909E464-D6FF-4197-B5A1-4416E3B3F1FA

Figures 10 , 11 , 22 , 31

Type material.

Holotype: ♂, Columbia, Tolima, Nevado del Tolima, 4°36'02"N, 75°19'51"W, 2600 m, 5–7 Dec. 2013, legit Victor Sinyaev & Mildred Márquez / UF, FLMNH, MGCL 1049058. [DNA voucher MGCL-NOC-65241] deposited in MGCL. Paratype (1 ♀ MGCL): Colombia, Tolima, Cerro Bravo, La Libia, 5°06'21"N, 75°16'22"W, 15.-18. Dec. 2015, 3000 m, leg Sinyaev & Machado coll. Dr. Ron Brechlin / UF, FLMNH, MGCL 1049056.

Etymology.

Imama is the common name of the jaguar Pantheraonca (Linnaeus) in the Embera language. The name is a noun in apposition.

Diagnosis.

Lafontaineanaimama and L.puma resemble each other; however, L.imama has a more squared forewing shape. Also, the forewing is paler and shorter, the copper color standing out over the black and brown patterns barely visible. In addition, in L.imama the polygons on the thorax are clearly separated, while in L.puma some polygons are fused in the middle of the thorax. In the male genitalia the valva is noticeably wider than in L.puma, but the apex is much shorter; the vesica has a smaller diverticulum and a shorter row of spines. In the female, the corpus bursae and appendix bursae are narrower than in L.puma, and the papillae anales are also wider in L.puma.

Description.

Head. Palpus with the last segment pale yellow with some spots in black, female with longer spots; frons divided into black and yellow. Thorax. The black polygons are separated from each other by pale-yellow lines; grayish blue ventrally. Wing. Forewing length, male 19–21 mm; female 23–25 mm; forewing pale yellow with black lines and brownish yellow scales in median field; a pale-yellow band in the fold; black orbicular spot square with a yellow dot on the middle; rectangular reniform spot with the outer margin slightly concave and a black lunate marking inside close to the upper area, while female with presenting only a small dot; hindwing with brown veins; fringe same yellow color with some black spots extending through costal and Sc+R1 cells; tornal lunate marking relatively large; female costal and Sc+R1 cells with large black and pale-yellow spots with the black lines extending and forming discal, medial, and postmedial lines; female tornal lunate marking fused with the postmedial line expanding through 2A and CuA2 cells; black line on the outer margin between 2A and CuA2 vein ends in both sexes. Legs. black with some patches in pale yellow on the joints and yellow tufts on the back area of the legs. Abdomen. Brown covered by white scales except for A8, which is brown in male ventrally; upper side complete orange with a small line of tufts except on A8; female brown with the intersternal membrane white and the last segment yellow ventrally but dorsally similar to male with the A7 and A8 brown, line of tufts with some white scales dorsally. Male genitalia. Very wide cucullar region, square apex with rounded edges, densely clothed by setae; costal margin with remarkably swollen protuberance; saccular region narrow and its process narrower; juxta spoon-like and quite concave on the upper side; aedeagus short and narrow; diverticulum is not very prominent; line of spines short. Female genitalia. Anal papilla small; sterigma sclerotized, thin and elongated; posterior apophysis reduced and almost imperceptible; appendix bursae sclerotized, ⅛ × shorter than the corpus bursae.

Genetic characterization.

Although Lafontaineanaimama looks externally most similar to L.puma, the DNA barcode of L.imama is closer to that of L.thuta, differing by only 1.07%. Unfortunately, the DNA of L.puma was not available for comparison.

Distribution.

The two known specimens were found in deciduous forests of west-central Colombia (Fig. 35).

Remarks.

Holotype and paratype are in perfect condition (Figs 10, 11).

Lafontaineana marmorifera

(Walker, 1865) comb. nov.

9116B462-4880-509C-A37F-97DFAB51456E

Figures 3–5 , 8 , 9 , 32

• Diphtera marmorifera Walker, 1865: (32): 612.

• Lichnoptera marmorifera Hampson, 1913: 13: 385, 396–397, pl. 235, fig. 20.

Type material.

Holotype: ♂, New Grenada (Colombia), coll. Mr. Marks, labeled “Diphteramarmorifera” / [Red labeled] deposited in NHMUK. Additional examined specimens (3 ♂, 1 ♀ MGCL): Colombia, Cundinamarca, Guasca, El Chochal de Siecha, 3120 m, 28 Nov. 2019, coll. Jose I. Martinez / UF, FLMNH, MGCL 1049165. [DNA voucher MGCL-NOC-65368]. Colombia, Cundinamarca dept., Vereda La Concepción, Bosque La Guajira, 4°47'34"N, 75°46'60"W, 9–12 IV 2014, 2910 m, coll. M. Márquez & J. Machado (2 ♂). Colombia, Cundinamarca dept., Vereda La Concepción, Bosque La Guajira, 4°47'34"N, 75°46'60"W, 10–13 I 2015, 2910 m coll. Dr. Ron Brechlin / UF, FLMNH, MGCL 1049167 (1 ♀).

Etymology.

The name marmorifera is probably derived from the marbled coloration of the forewings of this species.

Diagnosis.

Lafontaineanamarmorifera is relatively easy to distinguish from other species because of its pale sulfur yellow color, with brown and black patterns on the lightly squared forewing. Forewing with a large squared orbicular spot and semi-rhomboid-shaped reniform spot, which are totally different from other species. Hindwing with black lines at the end of each vein, a white fringe, and a long discal spot. Forewing length male 18–20 mm, female 24–26 mm. Palp pale sulfur-yellow with black patches on the second segment; antenna black; male thorax is pale sulfur-yellow, paler than the forewings on the dorsal surface, with black polygons outlined with white scales, the ventral area is dark gray. Abdomen dark brown with the two wide stripes and very narrow line of tufts. Male genitalia valva considerably wide; apex rounded; an extension present on the costal margin; sacculus wide with the process same size as sacculus; aedeagus 4⅓ × longer than wide; vesica short and broad with medial diverticulum equal in size to the base of the vesica; vesica with dense line of spines.

Genetic characterization.

The DNA barcode of Lafontaineanamarmorifera is close to that of L.alexandrae (see L.alexandrae genetic characterization).

Distribution.

The type specimen was labeled as coming from New Grenada, which was a territory that comprised the four countries Panama, Venezuela, Colombia, and Ecuador. However, curators at the NHMUK in the early 20^th century added a label that says Colombia (Fig. 35).

Remarks.

Holotype with both antennae broken, the right hindwing is also broken on the CuA2 cell (Fig. 4). However, the other examined specimens are in very good condition.

Lafontaineana puma

Martinez sp. nov.

84C0710B-AB0A-5FCF-8BF4-24CE9941450C

http://zoobank.org/829B6BC6-569A-4493-AADD-0E2DBC366689

Figures 12 , 13 , 23 , 33

Type material.

Holotype: ♂, Ecuador, La Alegria, 2700 m, 14–15 Sep. 1977, coll. Luis E. Peña / LACM ENT 332567 deposited in CNC. Paratype (1 ♀ CNC): Same collecting data as holotype / LACM ENT 332566.

Etymology.

Since the name “Jaguar Moth” makes reference to wild cats in general, the word puma was chosen in reference to the cougar (Pumaconcolor Linnaeus, 1771), which also means powerful in the Quechua language. The specific name is a noun in apposition.

Diagnosis.

The only species that looks very similar to Lafontaineanapuma is L.imama (see diagnosis of L.imama). However, the main external morphological character is the dorsal fusion of polygons in the middle of the thorax; internally the vesica has a remarkably reduced medial diverticulum.

Description.

Head. Last segment of the palpus in white with scattered black scales, male darker than female; frons covered by black and yellow scales in male, while grey and yellow in female. Thorax. Whitish yellow; polygon on the middle and those on each side of the posterior area from the mesothorax are fused, while the two lateral polygons remain separated; ventrally clothed by white and black scales Wing. Forewing length male 23–25 mm; female 28–30 mm; forewing same yellow color as the thorax; black linear patterns and the space in median field coppery; orbicular spot with the upper and lower sides flattened and large yellow spot in the middle; reniform spot D-shaped outlined with black rectangle; relatively large lunate marking within the reniform spot; hindwing with pale-orange veins and some small black dots; silvery white fringe on the outer margin, while the posterior margin has some brown scales; three well-developed black spots on costal and Sc+R1 cells, narrower in female; small discal spot; discal, medial, and postmedial lines absent in both sexes; tornal lunate marking very small in male and normally expanded through 2A and CuA2 cells in female. Legs. black with a small yellow line in each joint; yellow tufts, darker in male. Abdomen. The orange lines and the brown line in the middle almost the same size; male with completely brown tufts, female with yellow ends; genitalia covered with orange scales; brownish gray ventrally in male and brown with some brownish gray scales and yellow intersternal membrane in female. Male genitalia. Narrow and pointed cucullus; apex rounded and covered by setae; costal margin slightly swollen; sacculus wide with a lightly narrow process; juxta shield-shaped with the upper edges flattened; aedeagus slightly long; diverticulum relatively prominent; line of spines long and curved along on upper side of vesica. Female genitalia. Anal papilla wide; sterigma with long and wide opening; posterior apophysis length 1¼ × anal papilla; appendix bursae and corpus bursae similar in size.

Genetic characterization.

Unknown.

Distribution.

Both specimens were found in deciduous forests in western Ecuador (Fig. 35).

Remarks.

Attempts to extract DNA from these specimens were unsuccessful.

Lafontaineana thuta

Martinez sp. nov.

F8B37FA3-457A-5689-B9CA-166B1BC41080

http://zoobank.org/D1D69219-8D05-4D90-AFAB-FB831A5104B1

Figures 14 , 15 , 24 , 34

Type material.

Holotype: ♂, Ecuador 8 km SE of Loja, Parque Nacional Podocarpus Cajanuma, mont. rainforest, Blacklight 2 × 15W, 2897 m, 26 iii. 2011, 04°06.86'S, 79°10.47'W, coll. Lisa Lehner & Marc Adams / DNA Barcode run 2013, COI-5P marker, University of Guelph / Arcec 32455. deposited in FSU. Paratypes (1 ♂ FSU): Ecuador Zamora-Chinchipe, Cerro Toledo, Elfin forest, Parque Nacional Podocarpus Cajanuma, mont. rainforest, Blacklight 2 × 15W, 2938 m, 6 Feb. 2013, coll. Gunnar Brehm (1 ♂). (1 ♂, 1 ♀ MGCL): Ecuador, Pichincha, Quito/ Chiriboga Km 33, 2650 m, 25 Apr. 1976, coll. N. Venedictoff (1 ♂). Ecuador, Sucumbios, El Playon, 2 km to Minas, 0°37'24"N, 77°39'51"W, 18.-19. II 2013, 3320m, leg. Sinjaev & Romanov / UF, FLMNH, MGCL 1049166 (1 ♀).

Etymology.

The name thuta means moth in the Quechua language. The specific name is a noun in apposition.

Diagnosis.

Lafontaineanathuta can be differentiated externally from the other species of genus Lafontaineana by the minute yellow dot on the orbicular spot. Internally, L.thuta possesses a prominent diverticulum on vesica similar to L.marmorifera and L.puma, but the line of spines is narrower than L.marmorifera and shorter than L.puma.

Description.

Head. Black palpus with some scattered yellow scales on last segment; frons yellow with few black scales. Thorax. Sulfur-yellow with a horizontal line on the metathorax with the end near to the abdomen black; polygons small and separated by sulfur-yellow lines; abdominal side gray; dark orange setal tufts. Wing. Forewing length male 19–21 mm; female 25–27 mm; sulfur-yellow with black and dark brown patterns; forewing same yellow as thorax; median field dark brown; orbicular spot with a minute yellow dot; reniform spot bean-like with a large dot close to inner margin; hindwing white with orange veins; fringe sulfur-yellow, paler than the forewing; costal margin with black fringe and some yellow scales; posterior margin with white scales; costal and Sc+R1 cells with large black and white patches; small discal spot and tornal lunate marking. Legs. Black with large sulfur-yellow and white patches. Abdomen. Brown dorsally with a huge black line of tufts from A2 extending and expanding through the subsequent tergites making the orange lines narrower; white scales at the ends of the tufts; yellowish white with brown scales on the intersternal membrane ventrally. Male genitalia. Tegumen short; wide cucullus with a square-shaped apex, clothed by setae; costal margin lightly expanded; sacculus wide and process with a small projection on posterior margin; juxta broadly spoon-shaped with slightly concavity on upper area; aedeagus with huge diverticulum; wide line of spines, long spines. Female genitalia. Anal papilla short and squared; sterigma semi-sclerotized, large and widely opened; posterior apophysis 3 × longer than anal papilla; appendix bursae ⅙ × longer than the corpus bursae.

Genetic characterization.

DNA barcoding of Lafontaineanathuta showed it to be closer to L.imama (see L.imama genetic characterization).

Distribution.

This species has been found only in high elevations of deciduous forests of Ecuador (Fig. 35).

Remarks.

Both holotype and paratype are in perfect condition (Figs 14, 15). As in L.alexandrae, the voucher number (Arcec 32455) is different from that published at http://barcodinglife.com confusion (Arcec 30239).

Panthea Hübner, 1820

Panthea is a small genus comprising 14 species worldwide, distributed mainly in the Nearctic and Palearctic regions (Anweiler 2009; Behounek et al. 2013; Schmidt and Anweiler 2020). Only three species are known in the Neotropical region (Pantheafurcilla (Packard, 1864), P.reducta Anweiler, 2009, and P.guatemala Anweiler, 2009) and we describe two additional species from the Neotropics: Pantheahondurensis sp. nov. and Pantheataina sp. nov.

The genus Panthea is characterized externally by bipectinate antennae, small eyes with dense interfacetal setae, a short haustellum, and the forewings presenting five well-defined transverse lines and poorly developed reniform and orbicular spots (sometimes absent). Internally, male genitalia presenting heavily sclerotized valves, well-developed uncus compressed at the tip, and the vesica without diverticula and armed with wide cornuti. Female genitalia with well-developed sterigma and simple corpus bursae lacking appendix bursae.

Panthea hondurensis

Martinez sp. nov.

DC0C2A24-D6A4-5A7D-A14B-7E29F1F1D5E5

http://zoobank.org/74B23D0F-684C-422A-9BB9-E832C7C224B2

Figures 18 , 26

Figures 25–28.

Male genitalia of Lafontaineana and Panthea25Pantheaguatemala, CNC, Oaxaca, Mexico 26P.hondurensis, MGCL, holotype, Francisco Morazán, Honduras 27P.taina, MGCL, holotype, La Vega, Dominican Republic 28P.reducta, ♂, CNC, Pedernales, Dominican Republic.

Type material.

Holotype: ♂, Honduras: Fco. Morazán, Reserva Biológia Monte Uyuca, 1.600 m, 14.034858°, -87.075035°, 16 vii. 2015, coll. D. Matthews & J. Y. Miller / Honduras Biodiversity Survey MGCL Accession, #2015-56 / Barcode MGCL 270947, McGuire Center for Lepidoptera & Biodiversity, UF. [DNA voucher LEP-75397] deposited in MGCL. Paratypes (1 ♂ MGCL): Same collecting data as holotype.

Etymology.

This species is named after the only country in which it is known to occur.

Diagnosis.

Pantheahondurensis is morphologically similar to P.guatemala. Externally, P.hondurensis is slightly smaller and darker with the lunate markings on the reniform spots longer than those of P.guatemala. In the male genitalia, P.hondurensis has wider valves without protuberances at the apex and shorter subuncal lobes. The aedeagus is noticeably shorter.

Description.

Only known from two male specimens. Head. Male antenna brown and bipectinate; palpus black and dark brown; frons marbled with brown, white, and gray scales. Thorax. Marbled with brown and gray scales forming polygons outlined by black scales. Wing. Forewing length in male 21–23 mm; forewing with the basal, antemedial, and medial lines all in black, while the postmedial line is brown highlighted with gray scales; orbicular spot not present; reniform spot formed by long lunate marking; hindwing whitish brown with dark brown veins; wide well-developed pale-brown discal line, while the medial line is inconspicuous; fringe alternating with black and whitish brown scales; legs black with some dark brown and gray spots. Abdomen. Darker brown than thorax; dorsal and ventral sides black, tergite ends brown; last abdominal segment with long brownish gray scales. Male genitalia. Tegumen narrow; simple valva with narrow cucullar region and flattened apex; saccular region 1½× wider than the cucullar region; saccular process ending in a Y-shaped clasper; juxta shield-shaped with the upper side concave; uncus tip flattened; subuncal lobes short; aedeagus short, 3× longer than width; vesica with a small basal diverticulum and a long sclerotized cornutus, second cornutus similar in size located laterally on the central region of the vesica.

Genetic characterization.

DNA barcodes of Pantheaguatemala and P.hondurensis differ by 1%, comparable to differences between other closely related species of the genus (Schmidt and Anweiler 2020) (Fig. 2).

Figure 2.

Relationships between the species Pantheahondurensis and other Panthea species employing a Maximum Likelihood analysis based on the cytochrome c oxidase I gene (COI). Nodes with black circles represent high support (UFBoot ≥ 95 and SH-aLRT ≥ 80). Nodes with gray circles represent low support (UFBoot < 95 and SH-aLRT < 80). Black branches represent the outgroups.

Distribution.

The only two known specimens were found in the cloud forest of south-central Honduras (Fig. 36).

Figure 36.

Distribution of examined specimens of Panthea.

Remarks.

The holotype (Fig. 18) and paratype are in perfect condition.

Panthea taina

Martinez sp. nov.

DEFCBCDD-3EE6-58E2-8D23-DBAEA9A18C1C

http://zoobank.org/FF47C181-75E8-49D6-96FB-4C77EB1A1B68

Figures 20 , 27

Type material.

Holotype: ♂, Dominican Republic, Prov. La Vega 5 km W. of Manabao, 19–23-IV-2000, Blacklight, 3050 ft elev., coll. R. E. Woodruff & T. J. Henry / Finca Eladio Fernandez “Paso la Perra”, along Rio Yaque del Norte 3050 ft elev. / UF, FLMNH, MGCL 1034189. [DNA voucher LEP-75402] deposited in MGCL. Paratypes (1 ♂ MGCL): Same collecting data as holotype.

Etymology.

The word taina comes from the Taínos, a group of indigenous people of the Caribbean islands.

Diagnosis.

Pantheataina is most similar to P.reducta (Fig. 21), but they can be easily separated: Pantheataina is larger with darker wing markings, the transverse lines of the forewings are well developed, whereas in P.reducta they are inconspicuous. In P.taina the medial line is separated from the reniform spot, whereas in P.reducta the medial line is fused with the reniform spot, forming a square. The orbicular spot is present as a small line in P.taina, but is absent in P.reducta. The hindwing of P.taina has well-developed lines, which are absent in P.reducta. In the male genitalia, P.taina has longer valves and a pointed apex, while in P.reducta the valves are short and the apex rounded. The tegumen is wider in P.reducta and its subuncal lobes reduced, compared to the large and prominent lobes in P.reducta.

Description.

Only known from two male specimens. Head. Male antenna is bipectinate and dark orange in color; dark brown palpus; dark grayish brown frons. Thorax. Marbled with brown and gray scales, with some patches of black scales. Wing. Forewing length of male 22–24 mm; forewing with all lines well-developed; orbicular spot formed by a small black line; reniform spot with a narrow lunate marking; hindwing paler color than forewing with black veins; discal spot V-shaped; medial and postmedial lines well developed; fringe black with white scales at the end of each vein. Legs. foreleg black with some dark gray spots, while the midleg and hindleg are marbled in gray, brown, and black. Abdomen. Marbled with brown and black scales, end of each tergite with gray scales; last abdominal segment with whitish gray hair-like scales. Male genitalia. Tegumen narrow; simple valva with cucullar and saccular regions similar in size; apex pointed; saccular process ending in a long clasper with a rounded tip; juxta heart-shaped; uncus long with rounded tip; subuncal lobes wide and rounded; aedeagus short, 2× longer than width; vesica wide, bean-like, with a large sclerotized cornutus.

Genetic characterization.

Unknown.

Distribution.

This species is endemic to the Dominican Republic and it was found in high elevations of the Cordillera Central (Fig. 36). Pantheataina and P.reducta may be endemic to two different mountain chains, P.reducta occurring in the Sierra de Bahoruco, 130 km far from the Cordillera Central.

Remarks.

The holotype (Fig. 20) as well as the paratype are in perfect condition.

Discussion

The only previously known species of the new Neotropical genus Lafontaineana was included in the genus Lichnoptera for more than a century (Hampson 1913). However, we found that Lafontaineana is the sister clade to the Gaujonia genus group (Martinez 2020). Another important result of the phylogenetic analysis is that the paraphyly of the genus Lichnoptera is corroborated. Unfortunately, only seven of the eleven species are included in the COI gene analysis, and thus the generic placements of Lichnopteramoesta Herrich-Schäffer, 1858, L.primulina Dognin, 1912, L.rufitincta Hampson, 1913, and L.pollux (Edwards, 1887) are still not settled.

In regard to the life history and host plants, nothing is known about Lafontaineana, but following the sister group, it is possible that some species in this genus also feed on Rosaceae, Betulaceae, Fagaceae, or even Podocarpaceae (Anweiler 2009; Schmidt and Anweiler 2010; Martinez 2020; Schmidt and Anweiler 2020). Lafontaineana is endemic to the South American Andes Mountains with a distribution restricted to the cloud forests of Colombia and Ecuador. This genus may prove to be a reasonable flagship taxon for cloud forest conservation.

Citation

Martinez JI, Schmidt BC, Miller JY (2021) A new Andean genus, Lafontaineana, with descriptions of four new species and two new Neotropical species of Panthea (Noctuidae, Pantheinae). ZooKeys 1028: 113–134. https://doi.org/10.3897/zookeys.1028.56784

Supplementary materials

Supplementary material 1

Figure S1

This dataset is made available under the Open Database License (http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License (ODbL) is a license agreement intended to allow users to freely share, modify, and use this Dataset while maintaining this same freedom for others, provided that the original source and author(s) are credited.

Jose I. Martinez, B. Christian Schmidt, Jacqueline Y. Miller

Data type

phylogenetic tree

Explanation note

Gene tree of Lafontaineana inferred employing Maximum Likelihood in IQ-TREE based on the mitochondrial cytochrome oxidase (COI) marker.

Supplementary material 2

Figure S2

This dataset is made available under the Open Database License (http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License (ODbL) is a license agreement intended to allow users to freely share, modify, and use this Dataset while maintaining this same freedom for others, provided that the original source and author(s) are credited.

Jose I. Martinez, B. Christian Schmidt, Jacqueline Y. Miller

Data type

phylogenetic tree

Explanation note

Gene tree of Panthea inferred employing Maximum Likelihood in IQ-TREE based on the mitochondrial cytochrome oxidase (COI) marker.

Supplementary material 3

Table S1

This dataset is made available under the Open Database License (http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License (ODbL) is a license agreement intended to allow users to freely share, modify, and use this Dataset while maintaining this same freedom for others, provided that the original source and author(s) are credited.

Jose I. Martinez, B. Christian Schmidt, Jacqueline Y. Miller

Data type

molecular data

Explanation note

Sequence information utilized in this study obtained from GenBank (http://www.ncbi.nlm.nih.gov/Genbank) and the BARCODE OF LIFE DATA SYSTEM v4 (http://barcodinglife.com).

Supplementary material 4

File S1

This dataset is made available under the Open Database License (http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License (ODbL) is a license agreement intended to allow users to freely share, modify, and use this Dataset while maintaining this same freedom for others, provided that the original source and author(s) are credited.

Jose I. Martinez, B. Christian Schmidt, Jacqueline Y. Miller

Data type

FASTA file

Explanation note

FASTA file containing the alignment of all COI sequences of the taxa included in Figure 1.

Supplementary material 5

File S2

This dataset is made available under the Open Database License (http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License (ODbL) is a license agreement intended to allow users to freely share, modify, and use this Dataset while maintaining this same freedom for others, provided that the original source and author(s) are credited.

Jose I. Martinez, B. Christian Schmidt, Jacqueline Y. Miller

Data type

FASTA file

Explanation note

FASTA file containing the alignment of all COI sequences of the taxa included in Figure 2.

Supplementary material 6

File S3

This dataset is made available under the Open Database License (http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License (ODbL) is a license agreement intended to allow users to freely share, modify, and use this Dataset while maintaining this same freedom for others, provided that the original source and author(s) are credited.

Jose I. Martinez, B. Christian Schmidt, Jacqueline Y. Miller

Data type

Tre file

Explanation note

Tree file in NEWICK format associated with the phylogenetic tree in Figure 1 and Figure S1.

Supplementary material 7

File S4

This dataset is made available under the Open Database License (http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License (ODbL) is a license agreement intended to allow users to freely share, modify, and use this Dataset while maintaining this same freedom for others, provided that the original source and author(s) are credited.

Jose I. Martinez, B. Christian Schmidt, Jacqueline Y. Miller

Data type

Tre file

Explanation note

Tree file in NEWICK format associated with the phylogenetic tree in Figure 2 and Figure S2.