Armillipora suapiensis Ježek, Oboňa & Le Pont, 2020
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publication ID |
https://doi.org/ 10.5852/ejt.2024.925.2459 |
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publication LSID |
lsid:zoobank.org:pub:FB07D6FC-0D29-4413-A2D8-BD0039475F61 |
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DOI |
https://doi.org/10.5281/zenodo.10817708 |
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persistent identifier |
https://treatment.plazi.org/id/03898A61-FF96-D203-FE1A-FBB1FAB8FD94 |
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treatment provided by |
Plazi |
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scientific name |
Armillipora suapiensis Ježek, Oboňa & Le Pont, 2020 |
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Armillipora suapiensis Ježek, Oboňa & Le Pont, 2020 View in CoL
Armillipora suapiensis Ježek, Oboňa & Le Pont, 2020: 422 View in CoL View Cited Treatment (description).
Differential diagnosis
Based on the original description of Ježek et al. (2020), Armillipora suapiensis can be easily separated from all the other species of the genus by the following characteristics: eye bridge with five rows of facets (four rows of facets in other species); more than six cylindrical tenacula present in epandrial appendage in A. suapiensis (six or less cylindrical tenacula present in other species); gonocoxites not fused in A. suapiensis (fused in other species); parameres not fused and outwardly curved in A. suapiensis (fused in other species), aedeagus around twice as long as ejaculatory apodeme in A. suapiensis (about same length of ejaculatory apodeme in other species); ejaculatory apodeme with pointed anterior margin in A. suapiensis (rounded anterior margin in other species) (see Ježek et al. 2020).
Material examined
None.
Distribution
Bolivia ( Ježek et al. 2020).
Key to the males of Armillipora
1. Eye bridge with five facet rows; more than six tenacula on the epandrial appendage; gonocoxites not fused............................................................................. A. suapiensis Ježek, Oboňa & Le Pont, 2020 View in CoL
– Eye bridge with four facet rows; six or fewer tenacula on the epandrial appendage; gonocoxites fused................................................................................................................................................... 2
2. The interocular suture with short posterior spur ( Fig. 6A View Fig ); gonocoxal condyles triangular-shaped and protruding beyond base of ejaculatory apodeme ............................................. A. selvica Quate, 1996 View in CoL
– Interocular suture without posterior spur ( Figs 1A View Fig , 3A View Fig ); gonocoxal condyles not triangular-shaped and not protruding beyond base of ejaculatory apodeme.................................................................. 3
3. Gonocoxites fused, forming U-shaped sclerite, with concavity at lower margin, gonocoxites without preapical lumps, each containing six preapical setae ( Figs 1C View Fig , 2B View Fig ); epandrial appendage in lateral view with line of four short and cylindrical tenacula, with additional tenaculum placed on separate projection of epandrial appendage ( Fig. 2E View Fig ) .......................................................... A. imitata sp. nov.
– Gonocoxites fused, forming V-shaped sclerite ( Figs 3C View Fig , 4B View Fig ), each with preapical lump, each containing three to four setae; epandrial appendage in lateral view with line of five short and cylindrical tenacula without additional projections on epandrial appendage ( Fig. 4G View Fig ) ...................... ................................................................................................................................. A. muyu sp. nov.
Genetics
Barcoded specimens of Armillipora imitata sp. nov. have an intraspecific uncorrected pairwise distance for COI sequences of 1.06 %. Similarly, specimens of A. muyu sp. nov. have an uncorrected pairwise distance of 3.04 %, and specimens of A. selvica show an uncorrected pairwise distance 3.80 %. The interspecific uncorrected pairwise distances are higher, for instance A. muyu has a maximum interspecific uncorrected pairwise distance of 9.57 % (9.57–9.11 %) with A. imitata and 10.03 % (10.03–8.81 %) with A. selvica . In a similar manner, A. imitata has a maximum uncorrected pairwise distance of 5.92 % (5.92–5.02) compared to A. selvica (Table 2). All sequenced specimens cluster well into morphological taxa in the NJ tree ( Fig. 7 View Fig ).
Species distribution model
We gathered a total of 76 geographical records for all the species of Armillipora ( A. imitata sp. nov. n = 3; A. muyu sp. nov. n = 7; A. selvica n = 55; and A. suapiensis n = 11), mainly from the original descriptions. Thirty-six records had exact geographical coordinates, while 40 records were lacking the exact geographical coordinates and these were adjusted based on the reported locality (Table 1).
The species of Armillipora are currently reported in five countries, namely Bolivia, Costa Rica, Ecuador, Nicaragua, and Panama (Table 1), and our model shows that the genus can be present in several more countries in the Neotropical region, extending towards North America ( Fig. 8 View Fig ). Still, the highest probability of presence is concentrated in Central America and northern South America ( Fig. 8 View Fig ).
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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Armillipora suapiensis Ježek, Oboňa & Le Pont, 2020
| Jaume-Schinkel, Santiago & Mengual, Ximo 2024 |
Armillipora suapiensis Ježek, Oboňa & Le Pont, 2020: 422
| Jezek J. & Obona J. & Le Pont F. & Maes J. M. & Martinez E. 2020: 422 |