[Entomology • 2023] Pseudorhadinobracon luteus, Rhadinobracon levigatus & R. nitidus • A New Genus and Two New Species of Braconinae (Hymenoptera: Braconidae) from the Oriental Region

Pseudorhadinobracon luteus (Szépligeti) Ranjith & van Achterberg,  

Rhadinobracon levigatus Ranjith, 

R. nitidus Ranjith

in Ranjith, van Achterberg, Kumar & Priyadarsanan, 2023. 

DOI: 10.11646/zootaxa.5374.2.2 

 facebook.com/RidhuRanjith

 

Abstract

A new genus of Braconinae, Pseudorhadinobracon Ranjith & van Achterberg, is described based on the species (P. luteus (Szépligeti) gen. et. comb. nov.) earlier classified under the genus Rhadinobracon Szépligeti. Additionally, the genus Rhadinobracon is newly reported from the Oriental region with the description of two new species from India, R. levigatus Ranjith and R. nitidus Ranjith. A taxonomic key to separate Pseudorhadinobracon from Rhadinobracon is provided. The generic diagnosis of Rhadinobracon is revised along with a taxonomic key to the extant species.

Hymenoptera, Atanycolus, India, new species, taxonomic key, revised generic diagnosis 

A.P. Ranjith, Cornelis van Achterberg, P. Girish Kumar and Dharma Rajan Priyadarsanan. 2023. A New Genus and Two New Species of Braconinae (Hymenoptera: Braconidae) from the Oriental Region.  Zootaxa. 5374(2); 196-210. DOI: 10.11646/zootaxa.5374.2.2

  facebook.com/RidhuRanjith/posts/6894520573957644

[Mammalogy • 2022] Glischropus meghalayanus • Out of Southeast Asia: A New Species of Thick-thumbed Bat (Chiroptera: Vespertilionidae: Glischropus) from Meghalaya, north-eastern India

Glischropus meghalayanus

 Saikia, Ruedi & Csorba, 2022

Meghalaya Thick-thumbed Bat  ||  DOI: 10.11646/zootaxa.5154.3.8

 

Abstract

Thick-thumbed bats of the genus Glischropus are currently composed of four recognized species from Southeast Asia, two of which were described in recent times. Among these species, G. aquilus is endemic to Sumatra, G. javanus is restricted to western Java, whereas G. bucephalus is widely distributed north to the Isthmus of Kra and G. tylopus is widespread south to this zoogeographic boundary. Two recently collected Glischropus specimens from Meghalaya state in north-eastern India extend the known distribution range of the genus westward into South Asia by ca. 1000 km. Morphological examination of these specimens and comparison with all known species in this genus revealed marked differences in colouration, dental characters and bacular traits. We therefore describe the Meghalaya specimens as a new species. The discovery of the new species from a forest patch adjacent to Nongkhyllem Wildlife Sanctuary from where another specialized bamboo-dwelling species (Eudiscopus denticulus) was reported recently also underscore the importance of the area from a conservation point of view.

 Keywords: baculum, South Asia, taxonomy, wing morphology, Mammalia

  Glischropus meghalayanus n. sp. from Meghalaya
lateral aspect showing fur colouration of the holotype (ZSIS V/M/ERS/682)

Glischropus meghalayanus n. sp.
External traits of the holotype (ZSIS V/M/ERS/682)  

Glischropus meghalayanus

Etymology. The specific epithet meghalayanus is derived from the Meghalaya state in north-eastern India from where it was discovered and also in honour of the 50 th anniversary of statehood in 2022. The proposed English name is Meghalaya Thick-thumbed Bat.

Uttam Saikia, Manuel Ruedi and Gabor Csorba. 2022. Out of Southeast Asia: A New Species of Thick-thumbed Bat (Chiroptera: Vespertilionidae: Glischropus) from Meghalaya, north-eastern India.  Zootaxa. 5154(3); 355-364. DOI: 10.11646/zootaxa.5154.3.8

[Entomology • 2022] Atree rajathae • A Remarkable New Genus of Braconid Wasps (Hymenoptera: Braconidae: Brachistinae) and The First Report of the Tribe Diospilini from India

Atree rajathae 

Ranjith, Van Achterberg & Priyadarsanan, 2022

DOI: 10.11646/zootaxa.5105.4.6 

 facebook.com/RidhuRanjith 

Abstract

The braconid tribe Diospilini (subfamily Brachistinae) is reported for the first time from India with the description of a new genus, Atree, along with the description of a new species A. rajathae from south India. The newly described genus belongs to the Aspigonus genus group showing the presence of a wide, deep sculptured groove on the propleuron. Based on morphological affinities, two species reported from Taiwan which were earlier included in the genus Diospilus have been transferred to the new genus, as A. improcerus (Chou & Hsu, 1998) comb. nov. and A. validus (Chou & Hsu, 1998) comb. nov. A key to the Indomalayan and Palaearctic genera of Diospilini is provided along with the key to the species of Atree gen. nov.

Keywords: Hymenoptera, Helconinae, new species, south India, taxonomic key, Indomalayan region

  Atree rajathae gen. et sp. nov. holotype, female
A) habitus, lateral view; B) head, anterior view; C) head, dorsal view; D) head, antero-dorsal view; E) head, lateral view; F) head, ventro-lateral view.

Atree rajathae Ranjith, van Achterberg & Priyadarsanan sp. nov.

Etymology. The species is named commemorating ATREE’s Rajatha Jubilee (Ashoka Trust for Research in Ecology and the Environment's 25th anniversary) which is being celebrated in 2021–22. Gender: feminine.

A.P. Ranjith, Cornelis Van Achterberg and Dharma Rajan Priyadarsanan. 2022. Atree, A Remarkable New Genus of the Subfamily Brachistinae (Hymenoptera: Braconidae) and The First Report of the Tribe Diospilini from India. Zootaxa. 5105(4); 571-580. DOI: 10.11646/zootaxa.5105.4.6 

 facebook.com/RidhuRanjith/posts/4967543749988679

Researchgate.net/publication/359056289_Atree_a_new_genus_of_Hymenoptera_from_India

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[Botany • 2022] Himalayan Orogeny and Monsoon Intensification explain Species Diversification in An Endemic Ginger Genus Hedychium (Zingiberaceae) from the Indo-Malayan Realm

in Ashokan, Xavier, Suksathan, ... et Gowda, 2022. 

DOI: 10.1016/j.ympev.2022.107440 

Highlights

• Hedychium originated in the Late Miocene, followed by Pleistocene diversification.

• Hedychium has a Northern Indo-Burmese origin with successive dispersal events to Southern Indo-Burma, Himalayas, Peninsular India, and the Malay Archipelago.

• Both Himalayan uplift as well as Asian monsoon might have shaped the diversification of Hedychium.

• Epiphytism evolved multiple times within the genus and is the dominant growth habit among the island species (Malay Archipelago).

• Vegetative dormancy was restricted to species from clades I and II (subtropical montane forests).

Abstract

The Indo-Malayan Realm is a biogeographic realm that extends from the Indian Subcontinent to the islands of Southeast Asia (Malay Archipelago). Despite being megadiverse, evolutionary hypotheses explaining taxonomic diversity in this region have been rare. Here, we investigate the role of geoclimatic events such as Himalayan orogeny and monsoon intensification in the diversification of the ginger lilies (Hedychium J.Koenig: Zingiberaceae). We first built a comprehensive, time-calibrated phylogeny of Hedychium with 75% taxonomic and geographic sampling. We found that Hedychium is a very young lineage that originated in Northern Indo-Burma, in the Late Miocene (c. 10.6 Ma). This was followed by a late Neogene and early Quaternary diversification, with multiple dispersal events to Southern Indo-Burma, Himalayas, Peninsular India, and the Malay Archipelago. The most speciose clade IV i.e., the predominantly Indo-Burmese clade also showed a higher diversification rate, suggesting its recent rapid radiation. Our divergence dating and GeoHiSSE results demonstrate that the diversification of Hedychium was shaped by both the intensifications in the Himalayan uplift as well as the Asian monsoon. Ancestral state reconstructions identified the occurrence of vegetative dormancy in both clades I and II, whereas the strictly epiphytic growth behavior, island dwarfism, lack of dormancy, and a distinct environmental niche was observed only in the predominantly island clade i.e., clade III. Finally, we show that the occurrence of epiphytism in clade III corresponds with submergence due to sea-level changes, suggesting it to be an adaptive trait. Our study highlights the role of recent geoclimatic events and environmental factors in the diversification of plants within the Indo-Malayan Realm and the need for collaborative work to understand biogeographic patterns within this understudied region. This study opens new perspectives for future biogeographic studies in this region and provides a framework to explain the taxonomic hyperdiversity of the Indo-Malayan Realm.

 

Keywords: Dormancy, Environmental niche analysis, Epiphytism, Historical biogeography, Island dwarfism, Malay Archipelago, Northeast India, Pleistocene

 

 Ajith Ashokan, Aleena Xavier, Piyakaset Suksathan, Marlina Ardiyani, Jana Leong-Škorničková, Mark Newman, W. John Kress and Vinita Gowda. 2022. Himalayan Orogeny and Monsoon Intensification explain Species Diversification in An Endemic Ginger (Hedychium: Zingiberaceae) from the Indo-Malayan Realm. Molecular Phylogenetics and Evolution. 170; 107440. DOI: 10.1016/j.ympev.2022.107440 

[Mammalogy • 2020] Integrative Taxonomy and Biogeography of Asian Yellow House Bats (Vespertilionidae: Scotophilus) in the Indomalayan Region

a male of the Greater Asiatic yellow house bat, Scotophilus heathii, from Kampong Speu province, Cambodia.

in Tu, Görföl, Csorba, ... et Hassanin, 2021.

DOI: 10.1111/jzs.12448 

Researchgate.net/publication/348355705 

photo: Neil M. Furey. 

Abstract

Yellow house bats (Scotophilus) have been known for centuries as a widespread genus of vesper bats in the Indomalayan Region. Despite this, their taxonomic status and phylogeographical patterns remain unclear due to differing criteria employed by early taxonomists and inconsistencies between morphological and molecular assessments. To address these issues, we undertook a comparative phylogeographic analysis of Asian Scotophilus spp. using integrated genetic and morphological analyses of samples collected across the region. These demonstrate that yellow house bats in Asia can be classified into just two widespread species, namely the smaller S. kuhlii (e.g., FA ≤ 53.1 mm, GLS ≤ 20.18 mm) and the larger S. heathii (e.g., FA ≥ 53.4 mm, GLS ≥ 20.85 mm), which occur in sympatry in different parts of the Indomalayan Region. Although these two sympatric species share similar eco‐ethological preferences, they differ considerably in their geographic distributions and intraspecific variation in mtDNA sequences and morphological traits. These disparities were likely misinterpreted as indicating potential cryptic diversity in previous studies, whereas we suggest they are related to interspecific differences in sex‐biased gene flow and phenotypic plasticity to adapt to varying environments. Our study highlights the importance of using multiple datasets to resolve taxonomic uncertainties and reconstruct demographic and phylogeographic histories of sympatric species.

Keywords: comparative phylogeography, integrative taxonomy, multiple datasets, Scotophilus, sympatric species

 

Vuong Tan Tu, Tamás Görföl, Gábor Csorba, Satoru Arai, Fuka Kikuchi, Dai Fukui, Daisuke Koyabu, Neil M. Furey, Saw Bawm, Kyaw San Lin, Phillip Alviola, Chu Thi Hang, Nguyen Truong Son, Tran Anh Tuan and Alexandre Hassanin. 2021. Integrative Taxonomy and Biogeography of Asian Yellow House Bats (Vespertilionidae: Scotophilus) in the Indomalayan Region. Journal of Zoological Systematics and Evolutionary Research. 59(3); 772-795. DOI: 10.1111/jzs.12448 

Researchgate.net/publication/348355705_Integrative_taxonomy_and_biogeography_of_Scotophilus_in_the_Indomalayan_Region

Cover: Yellow house bats (Scotphilus) have been known for centuries as a widespread genus of vesper bats in the Indomalayan Region, yet their taxonomy, phylogeny, and phylogeography remain unclear. In a comparative phylogeographical study, Tu et al show that Asiatic Scotophilus comprise just two morphologically distinct species that co‐occur in many parts of the region, namely the smaller S. kuhlii and the larger S. heathii. Although these two species have similar eco‐ethological preferences, they differ considerably in their demographic and phylogeographic patterns, and vary geographically in their morphological traits. These divergences may reflect adaption to differing environments and interspecific competition in areas of sympatry during their evolutionary history. 

The cover image features a male of the Greater Asiatic yellow house bat, S. heathii, from Kampong Speu province, Cambodia. 

Tu et al. 2021. Journal of Zoological Systematics and Evolutionary Research. Volume 59, Issue 3,  Pages 772–795, DOI: 10.1111/jzs.12448. photo by Neil M. Furey. 

[Mammalogy • 2020] Mirostrellus joffrei • A New Genus of Vespertilionid Bat: The End of A Long Journey for Joffre’s Pipistrelle (Chiroptera: Vespertilionidae)

Mirostrellus joffrei (Thomas, 1915)

in Görföl, Kruskop, Tu, Estók, Son & Csorba, 2020. 

DOI: 10.1093/jmammal/gyz202

 twitter.com/TGorfol

Abstract

Knowledge as to the taxonomic status of enigmatic bat species often is hindered by limited availability of specimens. This is particularly true for aerial-hawking bats that are difficult to catch. One such species, “Hypsugo” joffrei, was originally described in Nyctalus due to its long and slender wings, but subsequently transferred to Pipistrellus, and most recently to Hypsugo, on the basis of morphology. Analysis of newly available material, which more than doubles the known specimens of this taxon, demonstrates that it is morphologically and genetically distinct from all other bat genera. We accordingly describe it as belonging to a new, monotypic genus. We provide a detailed description of its external and craniodental traits, measurements, and assessment of genetic relationships, including barcode sequences to facilitate its rapid identification in future. The new genus belongs to a group that includes the recently described Cassistrellus, as well as Tylonycteris, and its closest relative, Philetor. We also describe the echolocation calls emitted by members of the taxon in different situations, which may facilitate finding them in previously unsampled locations. Based on the new data, the species occurs from Nepal to North Vietnam and China, which suggests that it could be more widespread than previously thought.

Keywords: Indomalayan region, mtDNA, nuDNA, phylogeny, systematics, Vespertilionini

Habitus of a live adult female Mirostrellus joffrei from Mu Cang Chai, Vietnam (HNHM 26034). Note the coloration of the dorsal and ventral side, which is unique for this species.

Close up of the head of an adult male Mirostrellus joffrei from Mu Cang Chai, Vietnam (HNHM 26040).

Mirostrellus gen. nov.

Type species: Nyctalus joffrei Thomas, 1915.

Etymology: From the Latin “mirus” meaning “surprise, marvel,” which reflects that both the systematic position and the wide distribution of this bat (previously thought to be extremely rare) were pleasant surprises for the authors.

Diagnosis: A medium-sized vespertilionid, with a FA of 35.7–40.2 mm. The fifth finger of the wing is shortened (on average 20 mm shorter than the fourth finger) and the pelage is sparse and velvety. The supraorbital tubercles are well-developed, protruding for 1.47–1.76 mm measured from the lachrymal opening; the sagittal crest is barely visible, being only approximately 0.1 mm high. The upper canine is characterized by a developed posterior secondary cusp. The taxon has two upper and lower premolars and its lower molars are myotodont.

Lateral view of skull of Mirostrellus joffrei from Mu Cang Chai, Vietnam (HNHM 26041).

Dorsal, ventral, and lateral views of the skull and mandible of a male Mirostrellus joffrei from Tram Ton forest station, Vietnam (ZMMU S-186691). Scale bar =5 mm.

Lateral views of skulls of a) Mirostrellus joffrei (ZMMU S-186691); b) Philetor brachypterus (ROM 102019); c) Pipistrellus stenopterus (ZMMU S-103149); d) Hypsugo pulveratus (ZMMU S-167186); e) H. macrotis (MHNG 1486.94); f) H. alaschanicus (ZMMU S-108373); g) Tylonycteris malayana (ZMMU S-186637); h) Cassistrellus dimissus (MHNG 1926.053); i) Nyctalus leisleri (ZMMU S-176068). Scale bar =5 mm.

Penis of Mirostrellus joffrei from Mu Cang Chai, Vietnam (HNHM 26041). Not to scale.

Geographic distribution: The only known species of Mirostrellus gen. n. has an Indomalayan distribution, ranging from Nepal, NE India (Sikkim, Meghalaya), through the northern part of Myanmar, to North Vietnam (Saikia et al. 2017). In the National Museum of Prague (Czech Republic), four hitherto unreported specimens from western Yunnan, China (Zao Teng He, ..., 1,451 m a.s.l.), were revealed by SVK. The species probably also occurs between these localities as it is difficult to capture and so may be missed during faunal surveys (Fig. 10).

Tamás Görföl, Sergei V. Kruskop, Vuong Tan Tu, Péter Estók, Nguyen Truong Son and Gábor Csorba. 2020. A New Genus of Vespertilionid Bat: The End of A Long Journey for Joffre’s Pipistrelle (Chiroptera: Vespertilionidae). Journal of Mammalogy. gyz202. DOI: 10.1093/jmammal/gyz202

 twitter.com/TGorfol/status/1230063162843684865

[Entomology • 2018] High Species Diversity of the Genus Neopanorpa (Mecoptera: Panorpidae) in Yunnan Province, China

Neopanorpa quadristigma 

Wang & Hua, 2018

  DOI:  10.11646/zootaxa.4483.1.2 

Abstract

Neopanorpa van der Weele, 1909 is the second largest genus of Panorpidae, and is endemic to the Oriental Region. Yunnan, a province in the southwestern region of China, is well-known as a biodiversity hotspot and abundant in Neopanorpa species. However, only sixteen species of Neopanorpa have been described from Yunnan hitherto and the taxonomic study of Neopanorpa in Yunnan has lagged far behind as compared with studies performed in neighboring regions. In the present study, notably high diversity of Neopanorpa species is found in the Hengduan Mountains of Yunnan. Seven species of Neopanorpa are described as new: Neopanorpa semiorbiculata, N. tincta, N. triangulata, N. diancangshanensis, N. magnatitilana, N. longistipitata, and N. quadristigma spp. n. Neopanorpa spatulata Byers, 1965, originally described from Thailand, is recorded from China for the first time. Neopanorpa dimidiata Navás, 1930 is a synonym of N. brisi (Navás, 1930). Keys to species of Neopanorpa in Yunnan are provided. The phylogenetic relationships of Neopanorpa species from the Hengduan Mountains, the Indochinese Peninsula, and the eastern Himalayas are briefly discussed.

Keywords: Mecoptera, taxonomy, Insecta, China, Oriental Region, fauna

  Neopanorpa quadristigma sp. n., male.

Photo by Ji-Shen Wang

Meng Wang and Bao-Zhen Hua. 2018. High Species Diversity of the Genus Neopanorpa (Mecoptera: Panorpidae) in Yunnan Province, China. Zootaxa. 4483(1); 36–66.  DOI:  10.11646/zootaxa.4483.1.2

[Entomology • 2018] A Review of the Montane Lacewing Genus Rapisma McLachlan (Neuroptera, Ithonidae) from China, with Description of Two New Species; Rapisma changqingensis & R. chikuni

Rapisma changqingensis  Liu, 2018

 DOI: 10.3897/zse.94.21651 

Abstract

The genus Rapisma McLachlan, 1866 (Insecta: Neuroptera: Ithonidae) is a rare and poorly known lacewing group endemic to Asia. Here I present a revision of the Rapisma species from China, with description of two new species, namely Rapisma changqingensis sp. n. and Rapisma chikuni sp. n. The Chinese Rapisma now comprises five species that respectively belong to two monophyletic species groups. Rapisma changqingensis sp. n. represents the northernmost record of the genus, being distributed at the border of eastern Palaearctic and Oriental regions. Moreover, the homology of genital sclerites of Rapisma is also updated.

Key Words: Neuropterida, taxonomy, new species, Oriental region

Figure 7. Living habitus of Rapisma changqingensis  sp. n., (A) male adult, lateral view 

Figure 7. Living habitus of Rapisma changqingensis  sp. n.,  (B) female adult, dorsal view. 

Rapisma changqingensis sp. n.

Etymology: The new species is named based on the Changqing National Nature Reserve where type specimens of this species were collected.

Distribution: China (Shaanxi).

Rapisma chikuni sp. n.

Etymology: The new species is dedicated to Prof. Chikun Yang who made outstanding contributions to the taxonomy of Rapisma from China.

Figure 2. Habitus photos of Rapisma spp.,
(A) Rapisma changqingensis sp. n., holotype male; (B) same species, paratype female;
(C) Rapisma yanhuangi Yang, male; (D) same species, holotype female; (E) same species, male, lacking forewing dark markings; (F) same species, female. Scale bar: 5.0 mm. 

Figure 3. Head of Rapisma spp. in frontal view,
(A) Rapisma chikuni sp. n., holotype male; (B) Rapisma daianum Yang, holotype male; (C) Rapisma xizangense Yang, male; (D) same species, female (holotype of Rapisma zayuanum Yang); (E) Rapisma changqingensis sp. n., holotype male; (F) same species, paratype female; (G) Rapisma yanhuangi Yang, male; (H) same species, female. Scale bar: 1.0 mm.

Rapisma daianum Yang, 1993

Rapisma daianum Yang, 1993: 147. Type locality: China (Yunnan: Menghai).

Distribution: China (Yunnan).

Rapisma xizangense Yang, 1993

Rapisma xizangense Yang, 1993: 148. Type locality: China (Xizang: Jigong).

Rapisma zayuanum Yang, 1993: 149. Type locality: China (Xizang: Jigong).

Distribution: China (Xizang).

Rapisma yanhuangi Yang, 1993

Distribution: China (Sichuan).

Conclusions: 

This study summarized the present knowledge on the ithonid genus Rapisma from China, currently with five species that respectively belong to two monophyletic species group. The morphology of the genitalia of this genus was also further understood. In addition, the distribution region of Rapisma is now known to reach the border between Palaearctic and Oriental regions.

Rapisma is the only extant genus of Ithonidae from Asia. The phylogenetic status of this genus in Ithonidae, as well as the phylogenetic relationships among species within the genus, is of high interest and significance for understanding the origin and diversification pattern of the genus. A dated phylogeny of Ithonidae and Rapisma as well stand as a key to figure out the above questions, while comprehensive sampling, particularly new materials for molecular works, is required.

 Xingyue Liu. 2018. A Review of the Montane Lacewing Genus Rapisma McLachlan (Neuroptera, Ithonidae) from China, with Description of Two New Species. Zoosystematics and Evolution. 94(1): 57-71.  DOI: 10.3897/zse.94.21651

[Mammalogy • 2018] Cassistrellus gen. nov. • A New Genus and Species of Vespertilionid Bat from the Indomalayan Region: Cassistrellus dimissus & C. yokdonensis

Cassistrellus dimissus (Thomas, 1916)

Ruedi, Eger, Lim & Csorba, 2018

 DOI: 10.1093/jmammal/gyx156

Abstract

Bats belonging to the subfamily Vespertilioninae are diverse and cosmopolitan, but their systematic arrangement remains a challenge. Previous molecular surveys suggested new and unexpected relationships of some members compared to more traditional, morphology-based classifications, and revealed the existence of taxonomically undefined lineages. We describe here a new genus and species corresponding to an enigmatic lineage that was previously identified within the genus Eptesicus in the Indomalayan Region. Phylogenetic reconstructions based on mitochondrial and nuclear genes relate the new taxon to Tylonycteris and Philetor, and show that specimens associated with this new genus represent 2 genetically distinct species. Although little is known about their ecology, locations of capture and wing morphology suggest that members of this new genus are tree-dwelling, open-space aerial insect predators. The new species has only been documented from Yok Don National Park in Vietnam, so its conservation status is uncertain until more surveying methods target the bat fauna of the dipterocarp forest in Southeast Asia.

Key words: eptesicoid bats, phylogeny, systematics, taxonomy, Vespertilionidae 

Fig. 1. Maximum likelihood (ML) phylogeny of selected Vespertilioninae bats based on a combined alignment of 2 mitochondrial and 1 nuclear gene (2,161 bp in total). Numbers near nodes indicate branch support (left, percent ML bootstrap, right, posterior probability), while solid circles represent nodes recovered in >98% of both resampling methods. The gray box highlights the strongly supported clade comprising species of Cassistrellus gen. nov., Tylonycteris, and Philetor. 

Fig. 2. Portrait of a live adult male Cassistrellus dimissus captured near the Royal Chitwan National Park in Nepal in March 1990. This specimen was collected as part of the series of vouchers described by Myers et al. (2000b) and conserved at the UMMZ

(photo: Phil Myers).  DOI: 10.1093/jmammal/gyx156

 Fig. 3. Dorsal, ventral, and lateral views of the skull and mandible of a male Cassistrellus dimissus from Laos (MHNG 1926.053). Notice the deep basisphenoid pits between tympanic bullae, long, cuspidate upper canines, strong lambdoidal and occipital crests, and prominent preorbital processes that are typical morphological features of Cassistrellus gen. nov.

 DOI: 10.1093/jmammal/gyx156

Cassistrellus gen. nov.

Type species: Eptesicus dimissus Thomas, 1916

Description: Species of Cassistrellus are medium-sized vespertilionids (FA 39–47 mm; body mass 12–17 g) characterized externally by short, chestnut-brown pelage that is paler on the ventral parts, by narrow wings with short and pointed tips, and an especially broad muzzle (Fig. 2). Wing membranes are attached to the middle or distal parts of the metatarsus. The tail is mostly included in the uropatagium and extends by 2–3 mm beyond its posterior margin. The calcar extends less than halfway to the tail and may have a small lobe near the ankle. The skull is robust and angular in profile making an almost straight line between the rostrum and the occipital region. It is characterized by well-developed sagittal and lambdoid crests, which meet near the top of the skull to form an occipital helmet. On its ventral surface, the skull has a pair of deep and well-delimited basisphenoid pits located between the cochleae (Fig. 3). Laterally, the lachrymal region has prominent preorbital processes, but the supraoccipital ridges are weak and barely visible. The dental formula is  2113/3123 = 32  teeth, with the upper canines possessing a distinct secondary cusp along the rear edge (Fig. 3).

Etymology: The name Cassistrellus derives from the Latin noun “cassis”, which means wearer of a helmet, in reference to the shape of the hind parts of the skull. The suggested English vernacular name is helmeted bat.

Geographic distribution: The type specimen of C. dimissus was collected by H. C. Robinson and E. Seimund in Kao Nawng, Bandon (currently within Tai Rom Yen National Park in Surat Thani province of Thailand) at 1,400 feet (= 436 m a.s.l.), in June 1913 (Robinson and Kloss 1915). However, the altitude associated with this specimen was reported by Thomas (1916) as 3,500 feet (= 1,067 m a.s.l.), which would correspond to near the summit of the Khao Nong mountain, where the collectors did not capture bats. As all known localities of Cassistrellus are located in the lowlands at elevation between 190 and 674 m a.s.l., these bats should be indeed regarded as lowland dwellers. The vast area covered by the few scattered records of Cassistrellus suggests that it should be widely distributed from the Isthmus of Kra into mainland Southeast Asia and the foothills of the Himalaya, i.e., across most of the Indo-Burma biodiversity hotspot (Myers et al. 2000a). All capture sites were situated in hilly terrain with mixed deciduous or dipterocarp forests traversed by large rivers.

Fig. 4. Lateral view of skull of A) Cassistrellus yokdonensis sp. nov. (holotype, ROM 107751) and B) C. dimissus (holotype, BM(NH) 16.4.21.1.). The scale bar at the bottom represents 5 mm. 

 DOI: 10.1093/jmammal/gyx156

Fig. 4. Lateral view of skull of C) C. dimissus from Laos (MHNG 1926.053), and D) C. dimissus from Nepal (UMMZ 172218). The scale bar at the bottom represents 5 mm. 

Fig. 4. Lateral view of skull of A) Cassistrellus yokdonensis sp. nov. (holotype, ROM 107751), B) C. dimissus (holotype, BM(NH) 16.4.21.1.), C) C. dimissus from Laos (MHNG 1926.053), and D) C. dimissus from Nepal (UMMZ 172218).

The scale bar at the bottom represents 5 mm. 

 DOI: 10.1093/jmammal/gyx156

Cassistrellus yokdonensis sp. nov.

Yok Don helmeted bat

Eptesicus sp. A JLE-2010: Francis et al., 2010

Holotype: Male ROM 107751 (field number 42734) collected on 6 June 1997 by B. K. Lim and M. Theberge. Preserved as a skin, skull, and partial skeleton. Epiphyses almost completely fused, indicating that this bat was a subadult.

Type locality: Vietnam: Dak Lak province; Yok Don National Park, Dak Ken River (tributary of the Serepok River), base of Yok Mt. ..., at 194 m a.s.l. in dry, open dipterocarp forest.

Diagnosis: Cassistrellus yokdonensis sp. nov. is a medium-sized vespertilionid bat (body mass about 15 g) characterized by pointed, narrow wings similar in shape to those of Nyctalus species, but not as narrow. The fur is sparse with short hairs, clove brown (Ridgway 1912) dorsally, lighter beige ventrally, and cream colored at the throat. There is no glossy tinge to the fur. The color of the wings and other skin parts is blackish brown. The wing membranes attach to the distal end of the metatarsus. The calcar extends less than halfway to the tail and has no visible lobe.

Although the dental formula is identical to that of Eptesicus species, the skull possesses a pair of deep and well-defined basisphenoid pits and prominent preorbital processes that are otherwise absent from the latter genus. C. yokdonensis sp. nov. is morphologically similar to C. dimissus, but—in spite of the fact that the known individuals are not fully grown adults—is substantially larger, both externally (e.g., FA 47 mm versus 39–42 mm; Table 1), and cranially (e.g., maxillary toothrow length over 6.5 mm versus less than 6.4 mm). C. yokdonensis sp. nov. has also a much stronger dentition in general, and subequal small lower premolars, longer more curved upper canines, and procumbent upper incisors compared to its congener. Genetically, C. yokdonensis sp. nov. has unique mitochondrial (Cytb, Co1) and nuclear (Rag2) sequences compared to C. dimissus from Laos.

Etymology: We propose the name C. yokdonensis after the national park where it has been found, in recognition of the importance of protected areas in conserving species and their habitats.

Geographic distribution: Currently known only from Yok Don National Park, Dak Lak Province of Vietnam. The 2 specimens were caught shortly after 2100 h as they flew into large (30 m long by 10 m high) canopy nets deployed in a dry, open dipterocarp forest of lowland regions. Other species of mammals caught in the same nets included Taphozous, Pipistrellus, Murina, Cynopterus, Megaerops, and Rhinolophus bats and several Hylopetes flying squirrels. In addition, a paratype specimen of a new species of parachute gecko (Ptychozoon trinitaterra) was caught in this net (Brown 1999).

Manuel Ruedi, Judith L. Eger, Burton K. Lim and Gábor Csorba. 2017. A New Genus and Species of Vespertilionid Bat from the Indomalayan Region. Journal of Mammalogy. gyx156. DOI: 10.1093/jmammal/gyx156

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[Entomology • 2017] Wallacetrigona incisa • A New Genus of Eastern Hemisphere Stingless Bees (Hymenoptera, Apidae), with A Key to the Supraspecific Groups of Indomalayan and Australasian Meliponini

Wallacetrigona incisa (Sakagami & Inoue, 1989)

ex Trigona incisa 

in Rasmussen, Thomas & Engel, 2017
 digitallibrary.amnh.org 

A new genus of stingless bees (Apinae: Meliponini) is described and figured from Indonesia (Sulawesi), known from a single species previously placed in Geniotrigona Moure. Based on recent phylogenetic studies, Trigona (Geniotrigona) incisa Sakagami and Inoue renders Geniotrigona polyphyletic and is more closely related to Lepidotrigona Moure. The species is transferred to Wallacetrigona Engel and Rasmussen, new genus, and differentiated from Geniotrigona proper as well as all other meliponines occurring in Sundaland, Wallacea, and Sahul (Australinea). The new genus occurs east of the Wallace Line and separate from the distribution of Geniotrigona, which is otherwise restricted to Sundaland, but Wallacetrigona is presently not known beyond the Weber Line. A hierarchical classification of Indomalayan and Australasian stingless bees is tabulated and a revised key to the genera and subgenera provided, as well as an appendix tabulating the species and synonyms. The following new combinations are established: Wallacetrigona incisa (Sakagami and Inoue), Homotrigona (Lophotrigona) canifrons (Smith), Homotrigona (Odontotrigona) haematoptera (Cockerell), Homotrigona (Tetrigona) apicalis (Smith), H. (T.) binghami (Schwarz), H. (T.) melanoleuca (Cockerell), H. (T.) peninsularis (Cockerell), and H. (T.) vidua (Lepeletier de Saint Fargeau).

FIGURE 1. Lateral habitus of workers.
A. Wallacetrigona incisa (Sakagami and Inoue). B. Geniotrigona thoracica (Smith). C. G. lacteifasciata (Cameron).

Lateral habitus of workers of Wallacetrigona incisa (Sakagami and Inoue).

SYSTEMATICS

Tribe Meliponini Lepeletier de Saint Fargeau

Wallacetrigona Engel and Rasmussen, new genus

Wallacetrigona incisa (Sakagami and Inoue), new combination

Trigona (Geniotrigona) incisa Sakagami and Inoue, 1989: 605. 

Geniotrigona incisa (Sakagami and Inoue); Rasmussen, 2008: 11.

Etymology: The generic name honors Alfred Russel Wallace (1823–1913), an intrepid and early explorer of the Indomalayan insect fauna and coauthor with Charles R. Darwin (1809– 1882) of the theory of evolution. The gender of the name is feminine.

Claus Rasmussen, Jennifer C. Thomas and Michael S. Engel. 2017. A New Genus of Eastern Hemisphere Stingless Bees (Hymenoptera, Apidae), with A Key to the Supraspecific Groups of Indomalayan and Australasian Meliponini.  American Museum Novitates. no. 3888. http://digitallibrary.amnh.org/handle/2246/6817 

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