Murina hkakaboraziensis, Renner, Swen C., 2017

Murina hkakaboraziensis View in CoL View at ENA sp. nov.

( Figs. 1–4 View FIGURE 1 View FIGURE 2 View FIGURE 3 View FIGURE 4 ; Table 1 View TABLE 1 )

Holotype. Adult male, field number PS160218.6, (to be subsequently deposited at the Zoological Collection of the University of Mandalay ( UMZC), Myanmar), body in alcohol, skull and baculum extracted.

Type locality. Myanmar, Kachin, Putao Township, Hkakabo Razi National Park (proposed southern extension), 6 km north of Mali Raing Village, 27°37’19” N, 97°22’13” E, 510 m a.s.l., collected on 18 February 2016, by Pipat Soisook, Sai Sein Lin Oo and Awatsaya Pimsai.

Diagnosis. A small tube-nosed bat with a FA of 29.6 mm. The external appearance is characterised by generally orange-brown pelage on the dorsal and whitish-grey on the ventral side; with long bright golden tip guard hairs on the dorsal side, most densely on the top of the head and the forehead. In the skull, the forehead profile rises smoothly to the braincase, which is relatively high but not dome-shaped. The sagittal crest and lambdoid crest are absent. The upper canine exceeds the posterior upper premolar in height and is slightly more than half of its crown area. The mesostyles on the first and second upper molars are well developed. The talonids of both first and second lower molars are equal to that of their respective trigonids in size.

Etymology. The species is named after the Hkakabo Razi Landscape, where the only known specimen was collected. The proposed English name is ‘Hkakabo Razi Tube-nosed Bat’.

Description. This is a very small vespertilionids with a FA of 29.6 mm and HB of 35.5 mm ( Table 1 View TABLE 1 ). The pinna is rounded, with 17.0 mm in height, and is without distinct emargination on the posterior border. The tragus is relatively short, shorter than half of the pinna ( Fig. 1a View FIGURE 1 ), with a height of 7.5 mm ( Table 1 View TABLE 1 ). The body is covered with long hairs, particularly on the head ( Fig. 1a View FIGURE 1 ). The most distinctive feature of the pelage is long bright golden hairs over the back of the head ( Fig. 1a View FIGURE 1 ). The face and forehead are covered with very short dark brown hairs. The pelage on the dorsal side is greyish-brown basally and orange-brown at the tips ( Fig. 1b View FIGURE 1 ); the very long and bright golden guard hairs are sparsely distributed over the back and tail membrane, but are more plentiful on the head ( Fig. 1a View FIGURE 1 ). The pelage on the ventral side is very dark at the base, followed by grey in the middle and with a whitishgrey tip ( Fig. 1c View FIGURE 1 ). The wing membrane is attached to the base of the claw of the outer toe. The foot is relatively large, 8.6 mm, which is more than half of the tibia length ( Table 1 View TABLE 1 ).

In the skull, the small and shortened first upper premolar (P2) indicates that this species belongs to the suillia - type. The GTL and CCL are 13.82 mm and 12.35 mm, respectively ( Table 2 View TABLE 2 ). The rostrum is deep and bulbous. The interorbital region is deeply concave when viewed from above. The lateral profile of the forehead rises gradually and smoothly to the braincase ( Fig. 2a View FIGURE 2 ). The braincase is relatively high (BH 6.02 mm) but not domed in shape. The sagittal crest and lambdoid crest are absent ( Fig. 2a View FIGURE 2 ). Each zygoma is thin and without a dorsal process. The upper toothrows converge anteriorly ( Fig. 2a View FIGURE 2 ); C1–C1 is 62.6% of M3–M3. The C–M3 is 4.75 mm ( Table 2 View TABLE 2 ). The inner upper incisor (I2) is slightly longer than the outer one (I3) and is about half the crown area ( Fig. 2a View FIGURE 2 ). The secondary cusp of the I3 is well developed and is about half the height of the main cusp. The I3 is relatively large, its crown area is about two-thirds that of the upper canine (C1) and subequal to that of the posterior upper premolar (P4) ( Fig. 2a View FIGURE 2 ). The C1 is rounded in shape and without a lingual cusp at its base. It is about two-thirds that of P 4 in crown area. In the lateral view, the C1 slightly exceeds the P 4 in height ( Fig. 2a View FIGURE 2 ). The anterior upper premolar (P2) is small, broader than long. It is slightly less than half that of the P 4 in crown area and about half the height ( Fig. 2a View FIGURE 2 ). The labial surface of the first (M1) and second (M2) upper molars is W-shaped ( Fig. 2a View FIGURE 2 ). The mesostyles of both M1 and M2 are well developed.

In the mandible, the toothrow length (C-M3) is 5.15 mm. The lower canine (C1) is relatively small, but exceeds the anterior (P2) and the posterior lower premolar (P4) in both height and crown area ( Fig. 2a View FIGURE 2 ). The cingulum of the C1 is well-defined and possesses a small anterior cusp. The anterior lower premolar (P2) is slightly more than half that of the C1 and about two-third that of the P 4 in height. Its crown area is about half that of the C1 and two-thirds of the P4 ( Fig. 2a View FIGURE 2 ). The P4 is about two-thirds that of the C 1 in both height and crown area. The first and second molars (M1 and M2) are relatively large in comparison with the C1, such that the C1 is only about slightly more than half the crown area of the M1 and M2. The crown area of the talonid of both M1 and M2 is about equal to that of its respective trigonid ( Fig. 2a View FIGURE 2 ). The coronoid process is projected slightly forward and relatively low with a CPH of 2.95 mm ( Table 2 View TABLE 2 ).

The baculum is very small with a total length of 0.8 mm and 0.6 mm in width ( Fig. 3 View FIGURE 3 ). It is somewhat rectangular in shape and without constriction ( Fig. 3 View FIGURE 3 ). The dorsal side is arch upward.

Echolocation. Currently, for M. hkakaboraziensis sp. nov., echolocation calls are only known from the holotype. Unfortunately, the calls were relatively faint and it was not possible to record a good signal of the initial hook. This made it impossible to measure the start frequency (sf) accurately. Nevertheless, it is possible to describe that this Murina emits broadband frequency modulated (FM) signals typical of the genus with a highest frequency (hf) of 164.0–169.0 kHz. The energy is distributed almost evenly throughout the pulse, with an fmaxe between 148.5 and 152.8 kHz. The terminal frequency (tf) varied from 62.0–70.0 kHz. The call duration (d) was 3.0–3.8 ms and the inter-pulses interval (ipi) was 69.1–75.3 ms. Echolocation characters indicate that this species, as many other Murina , is a forest-adapted species. However, based on the habitat of the capture site (see below), it is likely that it is adaptable to forage around edges between forest and open space.

Genetics. The Bayesian analysis phylogram based on DNA barcode reveals that several species in the subfamily Murininae are paraphyletic ( Fig. 4 View FIGURE 4 ). The single specimen of M. hkakaboraziensis sp. nov. clustered in a distinct but monophyletic clade with M. kontumensis from south-central Vietnam ( Fig. 4 View FIGURE 4 ). However, it has a genetic distance, based on COI, of 11.5% from M. kontumensis . This estimate evolutionary divergence is relatively large for intraspecific variation within Murina species, but it is typical between morphologically similar sister species, e.g. M. chrysochaetes vs M. harpioloides (11.9%; Eger & Lim, 2011). It is interesting to note that based on COI sequences the specimens of M. cf. eleryi from the same locality as the new species, although clustered closely with other specimens of M. eleryi , form a distinct clade and are more similar with M. balaensis from peninsular Thailand (K2P 9.3%) than with specimens from elsewhere in Indo-China (10.5%) ( Fig. 4 View FIGURE 4 ). It is very likely that M. eleryi has a complex biogeographic pattern, as mentioned in Son et al. (2015). Further study may demonstrate that the population of ‘ M. cf. eleryi’ in the Hkakaborazi Landscape has a distinct genetic structure, reflecting its demographic history, e.g. paleo-refuges, and that it is another undescribed cryptic species (P. Soisook, unpublished data).

Comparison with similar species. Murina hkakaboraziensis sp. nov. differs from Murina species in the cyclotis- type in having relatively small P2. Among species with a suilla- type morphology, it can be separated from most species by a combination of its relatively small size (FA 29.6 mm; GTL 13.82 mm – Table 1 View TABLE 1 and 2 View TABLE 2 ), and pelage colour, having grey hairs on the belly and orange-brown hairs on the back with long golden guard hairs on the head and back. It is relatively similar in body size to M. harpioloides and M. chrysochaetes ; it also shares the character of having golden hairs. However, it differs genetically and in other details of the pelage colouration and craniodental morphology. Murina harpioloides has a more orange colouration and the sagittal and lambdoid crests, although very weak, are present ( Kruskop & Eger 2008; Son et al. 2015); they are absent in M. hkakaboraziensis sp. nov. In M. chrysochaetes , the ventral pelage has golden hairs as on the dorsal side ( Eger & Lim 2011), but in M. hkakaboraziensis sp. nov., the golden hairs are only apparent on the dorsal side ( Fig. 1 View FIGURE 1 ). The slope of the forehead of M. chrysochaetes is abrupt and the braincase is high and dome-shaped ( Eger & Lim 2011), but the forehead profile of the new species gradually slopes up to the braincase, which although relatively high, is not dome-shaped ( Fig. 2a View FIGURE 2 ). The pelage appearance of the new species is also somewhat similar to Harpiola isodon and M. lorelieae , but both of them have a larger body size and differ in the shape of the cranium ( Kuo et al. 2006; Eger & Lim 2011; Son et al. 2015).

Murina hkakaboraziensis sp. nov. is most similar to the Vietnamese M. kontumensis , which was very recently described from south-central highland of Vietnam ( Son et al. 2015). However, M. hkakaboraziensis sp. nov. has a more plentiful and well-defined longer bright golden guard hair ( Fig. 1a View FIGURE 1 ). Besides the bright golden guard hairs, the colouration of the pelage on the dorsal and ventral sides are also different. In M. kontumensis , the general impression of the hairs are brownish-grey on the dorsal side and light brown on the ventral side, whereas M. hkakaboraziensis sp. nov., is orange-brown on the dorsal side ( Fig. 1b View FIGURE 1 ) and whitish-grey on the ventral side ( Fig. 1c View FIGURE 1 ). There is no contrasting whitish collar around the neck of M. hkakaboraziensis sp. nov. ( Fig. 1a View FIGURE 1 ), but this whitish collar is very obvious in M. kontumensis ( Son et al. 2015, figure 3A). The wing membrane of the new species is attached about 2 mm above the base of the claw of the outer toe, whereas it attached to the base of the claw in M. kontumensis ( Son et al. 2015, figure 3H). In the cranium, the lateral profile of the interorbital region of M. kontumensis rises abruptly to the forehead, but rises smoothly and gradually in M. hkakaboraziensis sp. nov. ( Fig. 2 View FIGURE 2 ). The sagittal crest of M. kontumensis is well-defined but it is absent in the new species ( Fig. 2 View FIGURE 2 ). In the dentition, the secondary cusp of the I3 of M. hkakaboraziensis sp. nov. is very well developed and is about half the height of the main cusp, but in M. kontumensis this cusp is very poorly developed and is less than one-third the height of the main cusp ( Fig. 2b View FIGURE 2 ). The posterior upper premolar (P4) of M. hkakaboraziensis is somewhat square ( Fig. 2a View FIGURE 2 ) and larger in crown area than that of M. kontumensis , which is rectangular, broader than long ( Fig. 2b View FIGURE 2 ). Subsequently, the upper canine (C1) of M. hkakaboraziensis sp. nov. appears to be relatively smaller in crown area than in M. kontumensis when comparing to the P4.

Ecology and distribution. The new species, M. hkakaboraziensis sp. nov., was collected in a mist net set at the edge of a lowland semi-evergreen forest at the transition zone to an open space grassland, which undergoes an annual burn ( Fig. 5 View FIGURE 5 ). The new species was the only bat captured in the mist net. However, on the same night, four other insectivorous bats, Rhinolophus affinis , R. pusillus , Aselliscus stoliczkanus and Hipposideros pomona were captured in nearby mist nets and harp traps. Four other vespertilionids, M. cyclotis , M. feae , M. cf. eleryi , Kerivoula hardwickii , and K. furva were also captured in the same area on other nights. Currently, the new species is only known from the holotype collected from the type locality in the Hkakabo Razi Landscape, Kachin, northern Myanmar.