Haplaxius dougwalshi, Bahder & Barrantes Barrantes & Zumbado Echavarria & Mou & Helmick & Bartlett, 2020

Haplaxius dougwalshi View in CoL sp. n.

( Figures 2–7 View FIGURE 2 View FIGURE 3 View FIGURE 4 View FIGURE 5 )

Type locality. La Selva Biological Station, Heredia, Costa Rica

Diagnosis. This species is distinguished by a combination of bright orange coloration, facial color pattern of an orange frons with white arch traversing width of frons resulting in a trapezoidal shape dorsad of frontoclypeal suture, large, incurved processes on lateral margins of the pygofer and aedeagus with curved spine near midlength of shaft.

Description. Color. General body color is uniformly orange with abdominal sternites, middle and hind legs paler orange ( Fig. 2 View FIGURE 2 ). Frons with median white patch merging with lateral white patches, reaching frontoclypeal suture, orange patch dorsad of frontoclypeal suture trapezoidal in shape ( Fig. 3A View FIGURE 3 ). Forewing veins pale orange ( Fig. 2 View FIGURE 2 ). Structure. Body length males (n= 14): 3.16–3.19 mm with wings; 2.53–2.56 mm without wings; females (n =9): 3.19–3.20 mm with wings; 2.56–2.58 mm without wings.

Head. In frontal view, frons narrowed between eyes, expanding at ventral margin, transverse carina present separating frons and vertex ( Fig. 3 View FIGURE 3 ). Fastigium rounded in lateral view ( Fig. 3 View FIGURE 3 ). In dorsal view, frons concave, vertex widest posteriorly, narrowing to almost half width at base ( Fig. 3 View FIGURE 3 ). Vertex length males: 0.33–0.34 mm; females 0.35 mm. Vertex width at hind margin males: 0.21–0.22 mm; females: 0.22–0.23 mm. Vertex width at distal margin males: 0.11–0.12 mm; females: 0.12–0.13 mm. Frons length males: 0.50–0.51 mm; females: 0.51–0.52 mm. Frons dorsal width males: 0.10–0.11 mm; females: 0.11–0.12 mm. Frons width at widest portion males: 0.36–0.37 mm; females: 0.37–0.38 mm. Frons frontoclypeal margin width males: 0.29–0.30 mm; females: 0.31–0.32 mm. Clypeus length males: 0.39–0.40 mm; females: 0.40–0.41 mm.

Thorax. Carinae extending to lateral margin in frontal view ( Fig. 3 View FIGURE 3 ). Mesonotum tricarinate, lateral margins subparallel ( Fig. 3 View FIGURE 3 ). Pronotum length at midline males: 0.05–0.06 mm; females: 0.06–0.07 mm. Mesonotum length at midline males: 0.47–0.48 mm; females: 0.48–0.49 mm. Mesonotum width males: 0.65–0.66 mm; females: 0.66– 0.67 mm. Fore wings transparent, clouded posterior to pseudostigma ( Fig. 4 View FIGURE 4 ), with conspicuous tubercles along main veins ( Fig. 4 View FIGURE 4 ). Apex of clavus just beyond midlength of wing, PCu+A1 reaching wing margin before claval apex. Fork of CuA just basad of RA(+ScP)+RP fork, both just basad of wing midlength; MP forked from ScP+R in basal forth of wing; forewing branching pattern: RA 1-branched, RP 3, MP 5, CuA 4 (or 3 with icu crossvein); icu joining apex of clavus. PCu joining with A1 at midpoint of clavus. Forewing length males: 2.58–2.60 mm; females: 2.60–2.62 mm.

Terminalia. Pygofer in lateral view widest ventrad, narrowing dorsally, posterior margin with large process on median posterior margin ( Fig. 5A View FIGURE 5 ). In ventral view, pygofer opening bearing an elongate rounded lobe, approximately 2x long as wide ( Fig. 5B View FIGURE 5 ); in caudal view, pygofer with lateral processes, medially angled ( Fig. 6). Gonostyli in lateral view angled upwards with acute apex, strongly sinuate on dorsal margin with basal curve strong, resulting in constriction of gonostyli, appearing spoon-like ( Fig. 5A View FIGURE 5 ). In ventral view, appearing clubbed with inner and outer margins of clubbed apex irregularly sinuate ( Fig. 5B View FIGURE 5 ), inner margin strongly sinuate, outer margin weakly sinuate ( Fig. 5B View FIGURE 5 ). Aedeagus asymmetrical and complex ( Fig. 7 View FIGURE7 A–C); aedeagal shaft with small spine at midlength on right lateral margin, strongly curved (almost 90° angle) ( Fig. 7B View FIGURE7 ) and larger spine at apex, angled dorsad and slightly distad on left lateral margin, nearly extending to base of aedeagus, approximately 2x length and thickness of small spine. Flagellum (endosoma) with one dorsal spine angled distad toward right lateral margin, terminating approximately at base of small aedeagal spine ( Fig. 7C View FIGURE7 ) and one larger, ventral spine, arching ventrad, approximately twice length of dorsal flagellar spine, terminating approximately at same point as smaller aedeagal spine ( Fig. 7B View FIGURE7 ). Anal segment in lateral view with parallel dorsal and ventral margins, approximately 5X long at apex as wide ( Fig. 5B View FIGURE 5 ), apex angled slightly downward, median process angled ventrad approximately 2/3 length distad of pygofer, median process of anal segment about equal size to lateral process of pygofer ( Fig. 5 View FIGURE 5 ).

Plant associations. Pata de gallo palm ( Asterogyne martiana ), Arecaceae .

Distribution. Costa Rica (Heredia, Puerto Viejo de Sarapiqui)

Etymology. The specific name given is an honorarium in reference to the lead authors professor and chair during graduate school (Ph.D.), Dr. Doug Walsh at Washington State University, who’s signature mustache resembles the color pattern observed on the frons of the novel taxon.

Material examined. Holotype male “ Costa Rica, Heredia / La Selva Biological Station / 26.V.2019 / Sweeping Astrogyne martiana / Coll.: B.W.Bahder // Holotype / Haplaxius dougwalshi ” ( FLREC) ; Paratypes, La Selva Biological Research Station [26. V.2019] (13 males, 9 females, FLREC and FSCA).

Other Haplaxius species collected.

Haplaxius skarphion – “ Costa Rica, Limón / Gandoca, nr. Panama / B.W.Bahder; 14. V.2018 / aspirated from coconut palm” (2 males) ( Fig. 8 View FIGURE 8 )

Sequence data. For the COI locus, 683 bp of the 5-prime region of the gene were obtained for Haplaxius dougwalshi sp. n. (GenBank Accession No. MT 080284 View Materials ) and was compared to the corresponding region for Haplaxius crudus , Nymphomyndus carribea and Oecleus mackaspringi . There was strong bootstrap support (88) for H. dougwalshi sp. n. resolving next to H. crudus relative to the other two genera of oecleines included ( Fig. 9A View FIGURE 9 ) and based on the pairwise comparison, was 12% different than H. crudus , 16.4% different than N. caribbea , and 17% different from O. mackaspringi ( Table 1). For the 18S locus, 1,358 bp were obtained for H. dougwalshi sp. n. (GenBank Accession No. MT 002395 View Materials ) and was compared to the corresponding region for H. crudus , N. caribbea , Myxia belinda , Myndus taffini , and O. mackaspringi . There was strong bootstrap support for H. dougwalshi resolving in the genus Haplaxius (98) relative to other genera of oecleines ( Fig. 9B View FIGURE 9 ). Additionally, H. dougwalshi sp. n. was 0.6% different from H. crudus for the 18S gene whereas it was on average, 3.0% different from the other oecleine genera included, ranging from 1.8% to 5.1% different ( Table 2).

Remarks. The general form of the aedeagus of H. dougwalshi sp. n. is similar to many species illustrated by Kramer (1979). While the presence of a spine on the aedeagus before the apex is not unique to H. dougwalshi sp. n. (shared with H. fulvus (Osborn) , H. pusillus (Van Duzee) , H. viridis (Ball) , H. jamaicae (Kramer) , H. simplicatus Caldwell , and H. vilbastei (Kramer)) , the spine on the shaft in H. dougwalshi sp n. is distinct in being positioned further basad than the other species and strongly curved, whereas the other taxa possess a spine that is either straight or only slightly curved. The lateral processes of the pygofer of H. dougwalshi sp. n. is unique and easily diagnoses it, being much longer and narrower than any other species of Haplaxius . Other taxa that also a possess a similar process include H. glyphis (Kramer) , H. gnophos (Kramer) , H. neopusillus (Kramer) , and H. pusillus (Van Duzee) ; however, in these taxa the base of the process is broad whereas in H. dougwalshi sp. n., the base is strongly narrowed, producing a very well-defined process.

While the features of the genitalia are the most reliable to distinguish H. dougwalshi sp. n., the white patterns observed on the frons also appear distinct, along with the uniform orange coloration. In addition, there is molecular support for H. dougwalshi sp. n. belonging to Haplaxius based on both the COI and 18S loci.