Stenopelmatus piceiventris Walker
publication ID |
https://doi.org/ 10.11646/zootaxa.4917.1.1 |
publication LSID |
lsid:zoobank.org:pub:D89148CE-EE8A-46B8-8D8B-8F5790063FC4 |
DOI |
https://doi.org/10.5281/zenodo.4467640 |
persistent identifier |
https://treatment.plazi.org/id/03A4C420-8A35-FB06-9B84-258B1CD0FEA2 |
treatment provided by |
Plazi |
scientific name |
Stenopelmatus piceiventris Walker |
status |
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Stenopelmatus piceiventris Walker View in CoL
Oaxaca Jerusalem Cricket
Figs 110–119 View FIGURE 110 View FIGURE 111 View FIGURE 112 View FIGURE 113 View FIGURE 114 View FIGURE 115 View FIGURE 116 View FIGURE 117 View FIGURE 118 View FIGURE 119 , Tables 1 View TABLE , 2 View TABLE 2
1869. Stenopelmatus piceiventris . Catalogue of the Specimens of Dermaptera Saltatoria in the Collection of the British Museum 1:197. Holotype adult female in NHMUK ( Figs 110 View FIGURE 110 , 111 View FIGURE 111 ): (1) red label Holotype. (2) Stenopelmatus piceiventris Walker. No locality on labels or in original description. Holotype measurements in mm: Body length 42, hind femur length 14.5, hind femur width 4.9. Hind tibia with 3 outer and 4 inner spines ( Fig. 112 View FIGURE 112 ). This morphologically unique species was immediately recognized from an adult male ( Figs 113 View FIGURE 113 , 114 View FIGURE 114 ), with hooks and similar micropterous fore wings, collected by Matthew Van Dam, in 2004, in the mountains northeast of Oaxaca, Mexico, along Highway 175, at 2 km S La Esparanza. Measurements of that adult male, in mm: Body length 40.15, hind femur length 18.06, hind femur width 5.81. Fore tibia with 3 ventral spurs; middle leg tibia with 8 calcars, 2 ventral spurs; hind leg tibia with 4 outer and 4 inner spines, 2 ventral spurs. Face with only lateral carinae of furrow ( Fig. 115 View FIGURE 115 ). There are no hind wings under the fore wings, which appear “folded” along the inner margin. If care is not taken while checking for a hind wing, this fore wing can be easily split along the fold line which then gives the false impression of a hind wing ( Fig. 115 View FIGURE 115 ). Subsequent careful inspection of many early instars and adults all confirm the absence of a hind wing at any stage. There is also an area of short hairs under these fore wings ( Fig. 116 View FIGURE 116 ) in both sexes.
Of notable significance, the smallest instars, around 12 mm in length and over 1+ years, and many molts from adult, have visible wing pads. Adult fore wings more oval in shape as opposed to teardrop shape of earlier instars (see Fig. 118 View FIGURE 118 below). Type locality here designated: Mexico, Oaxaca, Sierra de Juárez Mountains NE Oaxaca along Highway 175 .
Distribution. Only known from the Sierra de Juárez Mountains NE Oaxaca along Highway 175.
Recognition characters. One of only 3 Stenopelmatus taxa with micropterous fore wings as adults: the smaller, similar looking S. sanfelipe , which has 2-3 outer rear leg tibial spines versus 3-4 seen in S. piceiventris ; and the smaller Mexican state of Chiapas endemic S. chiapas , whose fore wing is narrower than that of S. piceiventris (see Fig. 22 View FIGURE 22 , p. 28 View FIGURE 28 ). Additionally, 6 of 8 adult S. sanfelipe have no indication of a furrow while 7 of 7 adult S. piceiventris have definite furrow lateral carinae.
Drum. Despite over 30 hours of recording attempts, no drumming heard or recorded. Could this JC, at the base of the tree ( Fig. 10 View FIGURE 10 ) and with the highest chromosome number in the subfamily, be the most primitive species of New World JC, with drumming being a derived character in those species that diverged later?
Derivation of name. “picei”, from piceus, could refer to dark coloration and “ventris” could refer to stomach or ventral part of specimen, which in this case, would be the dark, discolored ventral abdomen.
Habitat. Oak-pine semi-cloud forest with fairly dense vegetation, deep leaf litter, moist soil, and some light gaps where trees cut down. Individuals ( Fig. 117 View FIGURE 117 ) under logs, under bark on stumps, in pine stumps, under rocks. In some situations, illegal logging appears to create “habitat” and facilitates finding specimens, as also seen for S. talpa (S08-39) near Zimapan and S. sartorianus at Metlac Canyon (S06-39). The question then becomes: where are these individuals hiding during the daytime when there are no dead trees on the ground?
Behavior. Individuals of all instars, and adults, hop.
Life cycle and seasonal occurrence. See under “Specimens examined”
Variation. See Table 1 View TABLE .
Specimens examined. Mexico, Oaxaca, Sierra de Juarez, Highway 175 from Oaxaca to Tuxtepec , 2 km S La Esparanza, 17° 37’ 24.1” -96° 21’ 57.6”, 5400’, 31-v-2004, MV Dam, Ƌ 1, to black light. Hwy 175 between km 128-130, 14-vi-2015. 17° 26’ 40.74” -96° 30’ 48.36”, 9530’, DBW, DW Weissman, S 15-30, highway repaved and old chunks of blacktop discarded along roadsides – JCs under these chunks, ♀ 1, late instar ♀ 1, mid-instars Ƌ6, ♀ 3, early nymphs #2. Hwy 175, km post 129.2, 17° 26.626’ -96° 30.748’. 9648’ 19-vi-2006, DBW, DC Lightfoot, S 06-36; Ƌ1, ♀ 1, late instar ♀ 4, mid instar Ƌ2; 7 individuals under logs at log-soil interface, 2 under bark on tops of logs. 66 km SW Valle National (= 4 km SW Cerro Pelón, 2700 m, 22 & 23-vii-1990, (S90-54, 56), VF Lee; Llano de las Flores, 2-3-iv-1959, 2870m, TE Moore, UMMZ; 3 km S Llano de las Flores, 2800 m, 23- vii-1990, S90-57, VF Lee.
Probable placement. Oaxaca, Cerro Iguana, almost 95 km due south of Oaxaca at 16° 14’ 47” -97° 01’ 52”, 7504’ 4-viii-2007, MV Dam collected 1 early instar and 2 late instars ( Fig. 118 View FIGURE 118 ), but no adults of what resembles S. piceiventris in both size and color. Comparing DNA ( Fig. 10. p View FIGURE 10 . 15 View FIGURE 15 , F2180) between these 2 late instars with individual F1775 from the type locality of S. piceiventris , reveals that they are each other’s nearest relatives, and may be conspecific.
DNA. Nuclear F1775, and mtDNA F1774 & F1775, both from type locality; and nuclear F2180, and mtDNA F2180 & F2181, both from Cerro Iguana, show this taxon lying ( Figs 9 View FIGURE 9 , 10 View FIGURE 10 ) at the base of the Stenopelmatus clade.
Karyotype. T15-29, T16-1, T16-2 (all S15-30), 2nƋ = 27, highest known number for subfamily confirmed in 3 individuals, of which we present ( Fig. 119 View FIGURE 119 ) the two best preparations. Its location at the base of the JC DNA tree appears to indicate that 2nƋ = 27 is the primitive karyotype number for the Stenopelmatinae and that lower numbers, from 19 to 25, in other species of New World JCs, are all derived.
Discussion. There are extensive small bumps and short hairs under the fore wings ( Fig. 116 View FIGURE 116 ), whose function is unknown. They cannot be used for femoral-abdominal stridulation because the wings cover the hairs. Plus, we never heard stridulation from any of our many collected specimens. Could the hairs be there to hold the pads in place while individuals move inside logs? But then what is the function of the wings?
Fontana et al. (2017), in their Orthoptera of Oaxaca, only list the JC S. minor as occurring in Oaxaca, even though their photo appears to be the physically different colored S. talpa .
UMMZ |
University of Michigan, Museum of Zoology |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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