Mesobiotus ethiopicus, Stec & Kristensen, 2017

Mesobiotus ethiopicus View in CoL sp. nov.

( Tables 2–3 View Table 2 View Table 3 ; Figures 1–6 View Figure 1 View Figure 2 View Figure 3 View Figure 4 View Figure 5 View Figure 6 )

3.2. Material examined: 19 animals (including one simplex), 13 eggs mounted on microscope slides in Hoyer’s medium (some of the eggs were embrionated), three eggs fixed on SEM stubs, and three specimens processed for DNA sequencing.

3.3. Type locality: 13°16′N, 38°12′E; 3750 m a.s.l.: Ethiopia, Amhara Regional State, shaded rocks in the Semien Mountains, open Afro-alpine terrain, moss from a rock, coll. 15 February 2016 by Asger Ken Pedersen .

3.4. Etymology: The species is named after the country where it was discovered.

3.5. Type depositories: Holotype: slide ET.004.17, 13 paratypes (slides: ET.004/*, where the asterisk can be substituted by any of the following numbers: 17–19) and 8 eggs (slide: ET.004.20) are deposited at the Department of Entomology, Institute of Zoology and Biomedical Research, Jagiellonian University, Gronostajowa 9, 30- 387, Kraków, Poland. Five paratypes (slide: ET.004.21) and five eggs (slide: ET.004.22) are deposited in the Zoological Museum , Natural History Museum of Denmark , University of Copenhagen , Universitetsparken 15, DK-2100 Copenhagen Ø, Denmark .

3.6. Description of the new species

Animals (measurements and statistics in Table 2 View Table 2 ): In live animals, body almost transparent in young specimens and white in adults; after fixation in Hoyer’s medium, body transparent ( Figure 1A View Figure 1 ). Eyes absent (before and after fixation). Body cuticle smooth, i.e. without pores, spines, or sculpturing. Granulation on all legs absent.

Mouth anteroventral. Buccopharyngeal apparatus of the Macrobiotus type, with the ventral lamina and 10 small peribuccal lamellae ( Figure 2A View Figure 2 ). The oral cavity armature well developed and composed of three bands of teeth ( Figures 2B–2G View Figure 2 ). The first band of teeth is composed of numerous small granules arranged in several rows situated anteriorly in the oral cavity, just behind the bases of the peribuccal lamellae ( Figures 2B–2G View Figure 2 ). The second band of teeth is situated between the ring fold and the third band of teeth and is composed of ridges parallel to the main axis of the buccal tube and granules, larger than those in the first band ( Figures 2B–2G View Figure 2 ). Some teeth in the second band are clearly larger than other teeth in this band ( Figures 2B–2G View Figure 2 , flat arrowhead). The teeth of the third band are located within the posterior portion of the oral cavity, between the second band of teeth and the buccal tube opening ( Figures 2B–2G View Figure 2 ). The third band of teeth is divided into the dorsal and the ventral portion. Under PCM, both dorsal and ventral teeth are visible as two lateral and one median transverse ridges ( Figures 2B–2G View Figure 2 ). The ventromedian tooth is roundish and sometimes constricted or fully divided into two separate roundish teeth ( Figures 2C, 2E, 2G View Figure 2 , arrow). Pharyngeal bulb ovoid ( Figures 2A View Figure 2 ), with triangular apophyses, three rod-shaped macroplacoids and the drop-shaped (in lateral view) or triangular (in dorsoventral view) microplacoid placed closely to the third macroplacoid ( Figures 2A, 2H, and 2I View Figure 2 ). The macroplacoid length sequence is 2<3<1. The first macroplacoid is anteriorly narrowed and the third has a subterminal constriction ( Figures 2H and 2I View Figure 2 , empty arrowhead).

Claws of the Mesobiotus type, with a peduncle connecting the claw to the lunula, a basal septum, and welldeveloped accessory points situated parallel to the primary branch ( Figures 3A–3C View Figure 3 ). Lunules under claws I–III smooth ( Figures 3A, 3B View Figure 3 ), but under claws IV slightly serrated ( Figure 3C View Figure 3 ). Single transverse bars present beneath claws I–III ( Figures 3A, 3B View Figure 3 , arrow), whereas a horseshoe-shaped structure connects the anterior and posterior lunules on claws IV ( Figure 3C View Figure 3 , filled flat arrowhead).

Eggs (measurements and statistics in Table 3 View Table 3 ): Laid freely, white, spherical with conical processes ( Figures 4A View Figure 4 and 6A, 6B View Figure 6 ). The processes are equidistant from each other ( Figures 4A–4D View Figure 4 and 6A, 6B View Figure 6 ) with bases of hexagonal shape ( Figures 4B–4D View Figure 4 and 6A–6D View Figure 6 ). The process surface seems to be reticulated under PCM but smooth under SEM ( Figures 4A–4D View Figure 4 , 5A–5I View Figure 5 , and 6A–6H View Figure 6 ). The labyrinthine layer within the process walls appears as reticulation under PCM, with meshes varying in diameter on each process, with decreasing mesh size from bottom to top on each process ( Figures 4C, 4D View Figure 4 and 5H View Figure 5 ). Several pores in the top portion of the processes are present in the external process walls (clearly visible only in SEM) ( Figures 6E–6H View Figure 6 ). Processes are terminated by several short, thin, and flexible filaments very susceptible to fracture, which are visible in both PCM ( Figures 5A–5I View Figure 5 ) and SEM ( Figures 6E–6H View Figure 6 ). Moreover, the processes are sometimes bifurcated ( Figures 5H–5I View Figure 5 ). Six flat, narrow, often not fully developed ( Figures 4C, 4D View Figure 4 and 6C View Figure 6 , filled indented arrowhead), and only sometimes connected ( Figures 4C, 4D View Figure 4 and 6D View Figure 6 , filled flat arrowhead) areoles are present around each process. The inner areole surface is wrinkled but this trait is only clearly visible in SEM ( Figures 6C, 6D View Figure 6 ), rarely and barely visible in PCM ( Figure 4C View Figure 4 , asterisk).

3.7. DNA sequences and p-distances comparisons

We obtained sequences for all three of the above mentioned molecular markers from all three paragenophores. All markers were represented by single private haplotypes:

The 18S rRNA sequence (GenBank: MF678793), 800 bp long;

The 28S rRNA sequence (GenBank: MF678792), 772 bp long;

The COI sequence (GenBank: MF678794), 638 bp long.

The ranges of uncorrected genetic p-distances between the new species and species of the Mesobiotus harmsworthi group, for which sequences are available from GenBank, are as follows (from the most to the least conservative):

18S rRNA: 1.1%–5.7%, with the most similar being M. philippinicus from the Philippines (KX129793) and the least similar being M. cf. mottai from the Antarctic (KT226072);

28S rRNA: 7.2% between the new species and M. philippinicus from the Philippines (KX129794);

COI: 24.0%–24.3%, with the most similar being M. philippinicus from the Philippines (KX129796) and the least similar M. hilariae from Antarctica (KT226108).