Nyamsuren Batsaikhan

Mobile larynx in Mongolian gazelle: Retraction of the larynx during rutting barks in male Mongolian gazelle (Procapra gutturosa Pallas, 1777).

This study provides the first evidence of pronounced temporary laryngeal descent in a bovid species. An elaborate acoustic display is prominent in male courtship behavior of polygynous Mongolian gazelle. During rut, rounding up of females is accompanied by continuous head‐up barking by dominant males. Throughout the rut their evolutionarily enlarged larynx descends to a low mid‐neck resting position. In the course of each bark the larynx is additionally retracted toward the sternum by 30% of the resting vocal tract length. A geometric model of active larynx movements was constructed by combining results of video documentation, dissection, skeletonization, and behavioral observation. The considerable distance between resting position and maximal laryngeal descent suggests a backward tilting of the hyoid apparatus and an extension of the thyrohyoid connection during the retraction phase. Return to the resting position is effected by strap muscles and by the elastic recoil of the pharynx and the thyrohyoid connection. An intrapharyngeal inflation of the peculiar palatinal pharyngeal pouch of adult males is inferred from a short‐time expansion of the ventral neck region rostral to the laryngeal prominence. The neck of adult dominant males is accentuated by long gray guard hairs during the rut. The passive swinging of the heavy larynx of adult males during locomotion gives the impression of a handicap imposed on rutting males. Apparently, this disadvantage becomes outweighed by the profits for reproductive success. J. Morphol., 2008.

Conserving the world's finest grassland amidst ambitious national development.

Department of Zoology, School of Biology and Biotechnology, National University of Mongolia, University Avenue-1, Ulaanbaatar,Mongolia†Mongolia Program, Wildlife Conservation Society, Amar Street-3, “Internom” Bookstore Building, 3rd Floor, Ulaanbaatar, Mongolia‡Ochir-WWF Mongolia Program, Amar Street-4, P.O. Box 115, PO-20A, Ulaanbaatar, Mongolia§The Nature Conservancy Mongolia Program Office, Amar Street-4, 2nd floor, Ulaanbaatar, Mongolia¶Protected Areas Administration, Mongolia, Great Gobi B Strictly Protected Area, Khovd, Mongolia

Multilocus systematics and non-punctuated evolution of Holarctic Myodini (Rodentia: Arvicolinae)

The tribe Myodini consists of five genera of forest and alpine voles (Alticola, Caryomys, Eothenomys, Hyperacrius and Myodes) distributed throughout the Holarctic. Because mitochondrial evidence has revealed paraphyly and polyphyly among genera, we apply the first multilocus tests to clarify taxonomy and phylogenetic relationships. Our analyses of 28 of 36 species within Myodini, including three not previously sequenced (A. montosa, A. albicaudus, and H. fertilis), identify four distinct clades and provide the first molecular evidence that Hyperacrius may not belong in Myodini. Myodes is paraphyletic, while polyphyly of Alticola reflects apparent ancient mitochondrial introgression. Diversification in this tribe was hypothesized to be tightly linked to Late Cenozoic climatic events, however, lineage through time analysis indicates diversification over the last 4 My was gradual and not strongly punctuated.

Head Anatomy of Male and Female Mongolian Gazelle — A Striking Example of Sexual Dimorphism

The first scientific description of the Mongolian gazelle by Pallas (1777) already depicted a sexual dimorphism of the larynx and the thyrohyoid connection (Fig 1.1). Open image in new window

Cryptic Diversity in Mongolian Vespertilionid Bats (Vespertilionidae, Chiroptera, Mammalia). Results of the Mongolian-German Biological Expeditions Since 1962, No. 299

In contrast to the Eastern Palaearctic region a high degree of cryptic diversity was discovered among temperate bats of the Western Palaearctic region in the last ten years. Climatic oscillations caused severe changes in the distribution of species throughout the Palaearctic region during the Pleistocene. Exploring multiple taxa can help to understand general evolutionary differentiation processes. In the present study genetic variation within and among 94 Mongolian vespertilionid bats of six genera (Hypsugo, Eptesicus, Vespertilio, Myotis, Plecotus, and Nyctalus) was screened by sequencing a 798 bp fragment of the mitochondrial ND1 gene and then subsequently compared with those of Western Palaearctic taxa. This allowed first insights in the differentiation among a wide range of bats across the Palaearctic region. A total of 16 distinct mitochondrial lineages were found in Mongolia. Thirteen lineages differed by at least five percent sequence divergence from Western Palaearctic species. Only three lineages (Eptesicus nilssonii, Vespertilio murinus, and Nyctalus noctula) showed lower divergence values. Our data demonstrate a substantial differentiation between most Western and Eastern Palaearctic vespertilionid bats. Estimations of divergence times showed that most divergence appeared prior to the Pleistocene, but current distributions of bats were most likely shaped by the usage of multiple refugia during glaciations.

A new nematode, Soboliphyme ataahai sp. n. (Nematoda: Soboliphymidae) from Laxmann's shrew, Sorex caecutiens Laxmann, 1788 in Mongolia

Abstract. This report describes a new species of the soboliphymid nematode, Soboliphyme ataahai sp. n. from Laxmanns shrew, Sorex caecutiens. This species is distinguished from the previously known congeners by the notched cephalic sucker with a thin circumoral membrane, relatively long vagina, cephalic papillae arranged in clusters, and bursa possessing papillae on inner and outer surfaces. Also, Soboliphyme ataahai differs from the congeners in other characters, such as position of vulva, number and distribution of cervical sacs, structure of cephalic sucker, body size, and dimensions of organs.

Biospecimen Repositories and Integrated Databases as Critical Infrastructure for Pathogen Discovery and Pathobiology Research.

1 Museum of Southwestern Biology and Biology Department, University of New Mexico, Albuquerque, New Mexico, United States of America, 2 John A. Burns School of Medicine, University of Hawaii at Manoa, Honolulu, Hawaii, United States of America, 3 Instituto Conmemorativo Gorgas, Panama City, Panama, 4 National University of Mongolia, Ulaanbaatar, Mongolia, 5 National Center for Emerging and Zoonotic Infectious Diseases, Centers for Disease Control and Prevention, Atlanta, Georgia, United States of America

A SECOND RECORD OF ADULT ASCAROPS STRONGYLINA (RUDOLPHI, 1819) (NEMATODA: SPIROCERCIDAE) IN A RODENT HOST

Mature adults of Ascarops strongylina (Nematoda: Spirocercidae) were collected from a Manchurian zokor, Myospalax psilurus (Rodentia: Cricetidae), in Mongolia. This is the second record of adult A. strongylina from wild rodents and the first for M. psilurus as a definitive host of this nematode. Remnants of ground crustaceans (Porcellio sp.) and a dung beetle (Onthophagus sp.) were also found in the stomach of the zokor.