Alloperla clarki, Grubbs & Baumann, 2019
publication ID |
https://doi.org/ 10.11646/zootaxa.4624.2.7 |
publication LSID |
lsid:zoobank.org:pub:90BF05DF-3EC4-4E77-A1DC-EBDF6EC4C83A |
persistent identifier |
https://treatment.plazi.org/id/03C587D9-BC70-E47E-CFB1-87F08116F984 |
treatment provided by |
Plazi |
scientific name |
Alloperla clarki |
status |
sp. nov. |
Alloperla clarki View in CoL sp. nov.
http://lsid.speciesfile.org/urn:lsid: Plecoptera View in CoL .speciesfile.org:TaxonName:506661
( Figs. 31–38 View FIGURES 31–38 & 40 View FIGURE 39–40 )
Description. Male body length 5.5–6.0 mm, forewing length 6.5–7.0 mm (n = 2). General color in life unknown, pale yellow in alcohol. Head, thorax, and abdomen lacking darkened markings or margins. Lateral pectens present on abdominal segments 8 and 9. Wings macropterous and hyaline.
Male ( Figs. 31–38 View FIGURES 31–38 ). Tergum 10 divided mesally by epiproct and reduced cowl into two hemitergal lobes; lobes covered by a dense matting of long setae ( Figs. 31–32 View FIGURES 31–38 ). Epiproct length (L) 175 µm, maximum width (MW) 56 µm, L:MW ratio = 3.1. In dorsal view the epiproct is widest in medial ½, tapering both anteriorly and distally ( Figs. 31–32 View FIGURES 31–38 ). The dorsal surface is covered by a dense matting of long hairs except for the anterior 1/5, which is entirely bare ( Figs. 31–32 View FIGURES 31–38 ). The apical notch is subtriangular and extends anteriorly and ventrally as a groove between paired, serrated apical margins ( Figs. 33–36 View FIGURES 31–38 ); 8–9 distinct teeth are present ( Figs. 35–38 View FIGURES 31–38 ); the serrated apex is broadly arcuate ventrally ( Figs. 37–38 View FIGURES 31–38 ). In lateral view the epiproct stem is broadest basally ( Fig. 37 View FIGURES 31–38 ). The stem is slightly longer than the serrated apex and covered by a dense matting of long hairs except for a narrow bare band laterally near the hinge ( Fig. 37 View FIGURES 31–38 ). The lateral portion of the serrated apex is bare except for a single line of 5–6 hairs plus a few additional accessory hairs ( Fig. 38 View FIGURES 31–38 ).
Female. Unknown.
Egg. Unknown.
Larva. Unknown.
Type material. Holotype male ( BYU): USA, West Virginia, Greenbrier Co., Onemile Run, jct. North Fork Anthony Creek , 3 mi N Neola, 37.97941 -80.13596, 21 May 1990, R.W. Baumann & S.M. Clark GoogleMaps . Paratypes: Virginia, Montgomery Co., Craigs Creek, Route 621, 0.5 miles off Route 460, 29 May 1979, B.C. Kondratieff, 3 males ( CHNC) , West Virginia, Greenbrier Co., headwaters of Little Creek , Rt. 16, 15 mi NW of White Sulphur Springs, 38.02371, -80.16601, 21 May 1990, R.W. Baumann & S.M. Clark, 2 males ( BYU) GoogleMaps .
Etymology. This species is named for Dr. Shawn Clark, Entomology Collections Manager at the Monte L. Bean Museum, Brigham Young University. His collecting efforts during the 1990s helped form the backbone of an Atlas on Ohio Plecoptera ( DeWalt et al. 2016) and are likewise critical for the current development on an Atlas on West Virginia Plecoptera . The common name “Clark Sallfly” is proposed for this species ( Stark et al. 2012).
Diagnosis. Alloperla clarki sp. nov. is readily differentiated from A. nanina by the presence of the epiproct stem. The stem is distinct on A. clarki sp. nov. ( Fig. 37 View FIGURES 31–38 ) and secondarily reduced for A. nanina ( Fig. 21 View FIGURES 19–22 ). This is easily deciphered with standard light microscopy. Although seen most easily on SEM micrographs, the secondary loss of dense hair matting on both the epiproct stem and apical serrated margin of A. nanina ( Figs. 19–22 View FIGURES 19–22 ) is easily contrasted from A. clarki sp. nov. ( Figs. 32, 37 View FIGURES 31–38 ). For A. clarki sp. nov., the only portion of the epiproct lacking matting is dorsoapical surface, the ventral serrated margins, and thin lateral areas near the hinge ( Figs. 37–38 View FIGURES 31–38 ).
Alloperla clarki sp. nov. can also be differentiated from A. biserrata by characteristics of the epiproct. For A. biserrata the ratio of total epiproct length to maximum width is 5.1 ( Fig. 11 View FIGURES 9–12 ) compared to 3.1 for A. clarki sp. nov. ( Fig. 37 View FIGURES 31–38 ). In lateral view the epiproct stem of A. biserrata has a narrower profile basally ( Fig. 9 View FIGURES 9–12 ) compared to A. clarki sp. nov. ( Fig. 37 View FIGURES 31–38 ). In addition, A. biserrata has a larger glabrous area near the epiproct hinge ( Figs. 9, 11 View FIGURES 9–12 ) compared to A. clarki sp. nov. ( Fig. 37 View FIGURES 31–38 ).
Alloperla clarki sp. nov. is morphologically similar to A. stipitata but there are three diagnostic, albeit subtle, differences on the epiproct. First, 5-6 distinct teeth are present on the apical serrated margin of A. stipitata ( Figs. 28–30 View FIGURES 23–30 ). This is contrasted from the 8-9 teeth present on A. clarki sp. nov. ( Figs. 35–36, 38 View FIGURES 31–38 ). Second, the ventral serrated margin of A. stipitata is positioned essentially along one linear, ventral plane ( Figs. 29–30 View FIGURES 23–30 ) compared to the ventral arcuate shape of A. clarki sp. nov. ( Figs. 37–38 View FIGURES 31–38 ). Third, there is a difference in the total length to maximum width ratio (2.4: A. stipitata vs. 3.1: A. clarki sp. nov.) between the two species.
Remarks. The type locality and the two paratype sites are positioned in southern West Virginia and adjacent southwestern Virginia in EPA Level III Ecoregion 67 (Ridge and Valley; Fig. 40 View FIGURE 39–40 ). Twelve and nine Alloperla species are now known from Virginia and West Virginia, respectively ( DeWalt et al. 2018). A collecting effort in early June 2018 to the two West Virginia streams noted above and the vicinity in general failed to produce fresh material of A. clarki sp. nov. for additional study.
BYU |
Monte L. Bean Life Science Museum |
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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