Arsapnia coyote (Nelson & Baumann)
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publication ID |
https://doi.org/ 10.5281/zenodo.4761024 |
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publication LSID |
lsid:zoobank.org:pub:602D4DFC-273B-4DDC-8EB0-D60D68503B71 |
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DOI |
https://doi.org/10.5281/zenodo.4763133 |
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persistent identifier |
https://treatment.plazi.org/id/03EC87DE-806F-D13E-E50A-FA31D258FD58 |
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treatment provided by |
Felipe |
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scientific name |
Arsapnia coyote (Nelson & Baumann) |
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Arsapnia coyote (Nelson & Baumann) View in CoL
Coyote Snowfly
( Figs. 67-72 View Figs )
Capnia coyote Nelson & Baumann, 1987b:487 View in CoL .
Holotype
♂, (United States National Museum), Little Rock Creek , Cooper Canyon Campground , San Gabriel Mountains , Los Angeles Co., California
http://lsid.speciesfile.org/urn:lsid:Plecoptera.speciesfile.org: TaxonName:4978
Arsapnia coyote: Murányi, Gamboa & Orci, 2014:14 View in CoL
http://lsid.speciesfile.org/urn.lsid:Plecoptera.speciesfile.org: TaxonName:465452
Material examined. USA: California: Los Angeles Co., Little Rock Creek, Cooper Canyon Campground, San Gabriel Mountains , 31 March 1981, R. W. Baumann, J. Stanger, 3♂ ( BYUC). San Bernardino Co., East Fork of West Fork before Mohave River above Silverwood Lake , 9 January 1988, R.W. Baumann, C. R. Nelson, 1♂ ( BYUC) .
Male epiproct (n = 2). Length 575-618 μm, width at midlength 223-236 μm, Body of epiproct expanded into convex ear-like lobes near midlength ( Figs. 67, 70 View Figs ). Width across neck 67-83 μm. Shape and general structure similar to those of populations of A. decepta examined. Left side setal spines in clusters of 25-28, and 28-32 on the right.
Tergal process (n = 2). Bearing a slight to moderate notch of posteromedian margin ( Figs. 67-70 View Figs ). Dorsolateral lobes bearing patches of small conical tubercles. Width of process across anterior margin 200-280 μm.
Comments. Arsapnia coyote is presently considered an endemic to southern California and the sister species of A. decepta ( Nelson & Baumann 1987b) . The two species overlap in many morphological features including epiproct width and setal spine counts, however two of the three longest epiprocts among specimens studied are of this species, and the epiproct length/width ratios (2.58 and 2.61 respectively, Table 6 View Table 6 ) for these two specimens are the highest observed. Nelson & Baumann (1987b) distinguished the two species, in part, by virtue of a flatter dorsal epiproct surface and smaller epiproct depth (compare Figs. 69 and 72 View Figs with Figs. 4 View Figs and 18 View Figs ). Recently, Heinold et al. (2014) supported recognition of A. coyote as a distinct species based on their report of an average genetic divergence of
1.9% between males of A. coyote and A. decepta .
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Departamento de Geologia, Universidad de Chile |
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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Arsapnia coyote (Nelson & Baumann)
| Baumann, Richard W. & Stark, Bill P. 2017 |
Arsapnia coyote: Murányi, Gamboa & Orci, 2014:14
| Muranyi, D. & M. Gamboa & K. M. Orci 2014: 14 |
Capnia coyote
| Nelson, C. R. & R. W. Baumann 1987: 487 |