Euconnus (Napochus) feeneyi, Jałoszyński, Paweł, 2015
publication ID |
https://doi.org/ 10.11646/zootaxa.3925.1.1 |
publication LSID |
lsid:zoobank.org:pub:780FE466-6667-416A-93ED-2E1C1A179CFE |
persistent identifier |
https://treatment.plazi.org/id/D76587E0-7863-FFF4-C693-FAA3FC2F2F52 |
treatment provided by |
Plazi |
scientific name |
Euconnus (Napochus) feeneyi |
status |
sp. nov. |
Euconnus (Napochus) feeneyi sp. n.
( Figs. 31–34 View FIGURES 24 – 34 , 47–56 View FIGURES 47 – 54 View FIGURES 55 – 56 , 63–64 View FIGURES 57 – 64 )
Diagnosis. Small species, BL 1.00– 1.38 mm; aedeagus in ventral view with long and narrow ventral apical projection either gradually broadening from base to subapical region or with nearly parallel sides, in both cases not reaching apex of dorsal apical projection, internal lateral projections slender, with pointed apices, distinctly shorter than ventral apical projection and distinctly or slightly convergent distally; external lateral projections broad and with rounded apices or distinctly narrowing distally and with subtriangular apices; in lateral view only dorsal apical projections curved dorsally, but at an obtuse angle; parameres with slightly expanded apices.
Etymology. This species is dedicated to Paul Feeney, the leader of the Royal Geographical Society's 1992 Cape York Scientific Expedition, during which many specimens used in the present study were collected. His name is misspelled on all labels as Feehney, and in this incorrect form cited for all type specimens in the present paper.
Remarks. Euconnus feeneyi is here divided into two subspecies, Euconnus feeneyi feeneyi and Euconnus feeneyi parallelilaminatus ssp. n. described below, based solely on genital structures.
Both subspecies of Euconnus feeneyi show variability in the body length and proportions of various body parts, a phenomenon rarely encountered within Cyrtoscydmini . A relatively large number of specimens of Euconnus feeneyi feeneyi made it possible to analyze the distribution of the body length, and it was found that in the studied material it is distinctly bimodal ( Fig 55 View FIGURES 55 – 56 ), with two overlapping distributions showing peaks at 1.10–1.15 and 1.25–1.30 mm. Specimens from and near these two peaks were initially (before studying the aedeagi) assigned to two separate morphospecies (provisionally named "short" and "long"), but there were also specimens showing intermediate length and intermediate body shape. The "short" specimens are also stouter than the largest "long" specimens. This variability was illustrated for Euconnus feeneyi parallelilaminatus ( Figs. 33–34 View FIGURES 24 – 34 ), but a very similar difference between the smallest and the largest individuals was found in both subspecies. All specimens come from the tip of Cape York, and "short" and "long" males were often found in the same trap. As demonstrated in Fig. 56 View FIGURES 55 – 56 , the body length and elytral width increase gradually from the smallest to largest individuals and it is not possible to tell whether individuals from the middle area of this morphocline belong to the "short" or "long" morphotype. Therefore, they are all treated as belonging to one, externally variable species, Euconnus feeneyi , and one of the "short" males is fixed as a holotype of Euconnus feeneyi feeneyi . Since differences in the aedeagal structures do not form a morphocline but two clear and easily distinguishable genital morphotypes, two subspecies are proposed. It should be noted that they are sympatric and show a great external variation, and therefore this taxonomic problem requires further study, including genetic analysis.
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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