[Mammalogy • 2020] Laonastes aenigmamus • Using Radiotelemetry to Identify the Home Range and Daily Movement of A “Living Fossil”: the Laotian Rock Rat

ຂະຍຸ  Laonastes aenigmamus Jenkins, Kilpatrick, Robinson & Timmins, 2005

in Khotpathoom, Vu, Bhumpakphan, et al., 2020. 

DOI: 10.1007/s42991-020-00039-5  

 facebook.com/ThananhKhotpathoom   

Abstract

The Laotian rock rat or Kha nyou (Laonastes aenigmamus) is a small mammal species that was discovered in Central Lao People's Democratic Republic (Lao PDR) in 1996. After this discovery, the Laotian rock rat was recognized as a living fossil of the family Diatomyidae, other members of which have been extinct more than 11 million years. Previous studies have been limited to the taxonomy of the species, but information on its behavior and ecology is still lacking. Our study on home range size and movement distances of the Laotian rock rat was conducted using radio tracking in Mouang-doy village, Phou Hin Poun National Biodiversity Conservation Area, central Lao PDR. We equipped four live-trapped Laotian rock rats (3 males and 1 female) with radio collars between December 2009 and January 2011. Radio-collared animals were tracked every thirty minutes and for at least five consecutive days per month. The averaged home ranges of the Laotian rock rat in the dry season and in the wet season were 1.69 ha (SD = 0.53; n = 4) and 1.49 ha (SD = 0.46; n = 3), respectively, and were not significantly different. The home ranges of radio-collared Laotian rock rats overlapped among individuals, and overlapped area between pairs of animals ranged from 30.21 to 75.89%. The mean daily movement distances were 1602 m (SD = 150.13; n = 3 individuals) and 1578 m (SD = 52; n = 3 individuals) for the dry season and the wet season, respectively, with no statistically significant difference. This study also indicated that the Laotian rock rat is cathemeral. We would suggest additional studies to better understand the behavioral ecology of the Laotian rock rats, especially with regards to the comparison between sexes and social organization.

Keywords: Kha nyou, Laonastes aenigmamus, Phou Hin Poun, Laos

Thananh Khotpathoom, Thinh Tien Vu, Naris Bhumpakphan, Ronglarp Sukmasuang and Sara Bumrungsri. 2020.  Using Radiotelemetry to Identify the Home Range and Daily Movement of A “Living Fossil”: the Laotian Rock Rat (Laonastes aenigmamus). Mammalian Biology.  DOI: 10.1007/s42991-020-00039-5   

ຫນູ ຂະຍຸ ເປັນສັດ ປະເພດກັດແຫ້ນ ແຕ່ກີນພືດເປັນຫລັກ ແລະ ພວກມັນຈະກະຈາຍ ຢູ່ສະເພາະແຕ່ ໃນເຂດພູຫີນປູນ. ມັກທີ່ແຫ້ງ ແລະ ສະອາດ ມີຂອບເຂດ ຫາກີນບໍ່ກ້ວາງ (ປະມານ ເຮັກຕາປາຍ ໃນຮອບຫນຶ່ງປີ) ແລະ ຈະອອກຫາກີນ ຕະຫລອດ ທັງເວັນ ແລະຄືນ ຂຶ້ນກັບ ທ້ອງຂອງພວກມັນຫວ່າງຍາມໃດ ຊຶ່ງຈະຄ້າຍໆກັບສັດ ກິນພືດ ໂດຍທົ່ວໄປ ເພາະພວກມັນ ຄື ສັດກີນພືດ ແລະ ຄ້ຽວເອື້ອງ ນັ້ນເອງ.

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[Mammalogy • 2012] ‘Ninh Cùng’ (Annamite Rat) | The first record of living “Fossil” species Laonestes aenigmanus in Phong Nha - Ke Bang, Quang Binh province, Vietnam

Laonastes aenigmamus | Truong Son Rat (Annamite Rat) 
or  Laotian Rock Rat. To locals it is known as ‘Ninh Cùng’.

Laotian Rock Rat Laonastes aenigmamus was first discovered in Hin Nammo NBCA, Khammoune Province, Lao PDR in 2005 by Jenkins et al. (2005). This species was later recognized as living species of the ancient family Diatomyidae which was thought to be extinct since the Miocene, about 11 millions years ago. Conservation of this species is recommended at the highest priority not only due to its limited range but also due to its status as the single living representative of an ancient family.

During biodiversity survey on small mammals in Phong Nha - Ke Bang National Park, Quang Binh Province, Central Vietnam, we obtained 4 specimens of un-usual small animals in Thuong Hoa Commune, Minh Hoa District, Quang Binh Province. Based on analysis of appearance, body measurements and skull charasters of these specimens, we confirm that they belong to Laotian Rock Rat Laonastes aenigmamus which was described in 2005 based on specimens collected in Hin Nam No National Biodiversity Conservation Area, Khammoune Province, Lao PDR. Morphological features and some ecological attributes of this species are provided. This species is proposed to be included in the Checklist of wild mammal species of Vietnam under name as Truong Son Rat (Annamite Rat).

Main threats to Annamite Rat in Vietnam are wildlife hunting/snaring and forest destruction. Snaring small mammals for food and for trade is common habit of local residents in Thuong Hoa and nearby communes. Urgent conservation actions and further studies on population genetics and ecology of this elusive species are recommended.

Keywords: Laonestes, Laotian Rock Rat, đa dạng sinh học, Ne Cung, Phong Nha - Ke Bang

The first record of living “Fossil” species Laonestes aenigmanus in Phong Nha - Ke Bang, Quang Binh province, Vietnam

http://vjs.ac.vn/index.php/vjbio/article/view/668

Rare ancient rock rats found in Quang Binh

http://talkvietnam.com/2012/10/rare-ancient-rock-rats-found-in-quang-binh/

http://www.phongnhakebang.vn/Vn/default.aspx?Cat=3&Group=13&Item=439

http://khoahoc.baodatviet.vn/Home/KHCN/Chuot-da-Lao-Con-nhieu-bi-an-cho-kham-pha/20121/186143.datviet

http://talkvietnam.com/2011/09/species-believed-extinct-11-million-years-found-in-vietnam/

[Mammalogy • 2011] Laonastes aenigmamus | an enigmatic rodent recently discovered in Khammouan, central Laos / Laonastes aenigmamus, rongeur énigmatique, récemment découvert au Laos

Figure 1 : kha-nyou | Laonastes aenigmamus, adult male

The Laotian rock rat or kha-nyou (Laonastes aenigmamus), a small rodent the size of a rat discovered by chance on a Laotian market, is new to science. This small mammal lives in a very specific rocky habitat, in a seemingly limited territory. Its adaptations to a very specific biotope and lifestyle probably explain its survival and its late discovery.

Key words: Laonastes aenigmamus, rodents, new discovery, biotope, anatomical, physiological and behavioural adaptations.

Figure 3: Phylogenetic tree of rodents and taxonomic position of Laonastes. Laonastes belongs to the family of Diatomyidae believed to be disappeared for almost 20 million years ago.

Figure 2 : Typical landscape of Khammouan.

Keovichit, K., Nicolas, V. & Hugot J-P. 2011. Laonastes aenigmamus, an enigmatic rodent recently discovered in Laos | Laonastes aenigmamus, rongeur énigmatique, récemment découvert au Laos. Bull. Acad. Vet., France. 164, 135-140.

http://documents.irevues.inist.fr/bitstream/handle/2042/48080/AVF_2011_2_143.pdf

[Mammalogy • 2007] Laonastes aenigmamus | Kha-nyou | Laotian Rock Rat • Multiple molecular evidences for a living mammalian fossil

Fig. 1. A juvenile Laonastes aenigmamus, captured and released after photography, provides evidence that this species is, indeed, very much alive. Known locally as Kha-nyou, the Laotian rock rat possesses a rat-like head with long whiskers and a furry squirrel-like tail. It lives in the limestone rock outcroppings of central Lao People's Democratic Republic. (Photo by Uthai Treesucon, David Redfield 2006 Lao expedition).
doi: 10.1073/pnas.0701289104 

Abstract Laonastes aenigmamus is an enigmatic rodent first described in 2005. Molecular and morphological data suggested that it is the sole representative of a new mammalian family, the Laonastidae, and a member of the Hystricognathi. However, the validity of this family is controversial because fossil-based phylogenetic analyses suggest that Laonastes is a surviving member of the Diatomyidae, a family considered to have been extinct for 11 million years. According to these data, Laonastes and Diatomyidae are the sister clade of extant Ctenodactylidae (i.e., gundies) and do not belong to the Hystricognathi. To solve the phylogenetic position of Laonastes, we conducted a large-scale molecular phylogeny of rodents. The analysis includes representatives of all major rodent taxonomic groups and was based on 5.5 kb of sequence data from four nuclear and two mitochondrial genes. To further validate the obtained results, a short interspersed element insertion analysis including 11 informative loci was also performed. Our molecular data based on sequence and short interspersed element analyses unambiguously placed Laonastes as a sister clade of gundies. All alternative hypotheses were significantly rejected based on Shimodaira–Hasegawa tests, supporting the idea that Laonastes does not belong to the Hystricognathi. Molecular dating analysis also supports an ancient divergence, ≈44 Mya ago, between Ctenodactylidae and Laonastes. These combined analyses support the hypothesis that Laonastes is indeed a living fossil. Protection of this surviving species would conserve an ancient mammalian family. 

Keywords: Laonastes aenigmamus, molecular phylogeny, rodent, retroposons

Fig. 3. Molecular time scale for the order Rodentia.

Fig. 4. Phylogenetic affiliations of Laonastes based on presence/absence patterns of retroposed SINEs. The phylogenetic tree indicates the three major rodent clades: the mouse-related clade, the Ctenohystrica, and the squirrel-related clade.

Huchon, D., Chevret, P., Jordan, U., Kilpatrick, C.W., Ranwez, V., et al. 2007. Multiple molecular evidences for a living mammalian fossil. PNAS Proc Natl Acad Sci USA 104 (18): 7495–7499. doi: 10.1073/pnas.0701289104 

[Mammalogy • 2012] A Remarkable Case of Micro-Endemism in Laonastes aenigmamus (Diatomyidae, Rodentia) Revealed by Nuclear and Mitochondrial DNA Sequence Data

Abstract

Laonastes aenigmamus is endemic to the limestone formations of the Khammuan Province (Lao PDR), and is strongly specialized ecologically. From the survey of 137 individuals collected from 38 localities, we studied the phylogeography of this species using one mitochondrial (Cyt b) and two nuclear genes (BFIBR and GHR). Cyt b analyses reveal a strong mtDNA phylogeographical structure: 8 major geographical clades differing by 5–14% sequence divergence were identified, most of them corresponding to distinct karst areas. Nuclear markers display congruent results but with a less genetic structuring. Together, the data strongly suggest an inland insular model for Laonastes population structure. With 8 to 16 evolutionary significant units in a small area (about 200×50 km) this represents an exceptional example of micro-endemism. Our results suggest that L. aenigmamus may represent a complex of species and/or sub-species. The common ancestor of all Laonastes may have been widely distributed within the limestone formations of the Khammuan Province at the end of Miocene/beginning of the Pliocene. Parallel events of karst fragmentation and population isolation would have occurred during the Pleistocene or/and the end of the Pliocene. The limited gene flow detected between populations from different karst blocks restrains the likelihood of survival of Laonastes. This work increases the necessity for a strict protection of this rare animal and its habitat and provides exclusive information, essential to the organization of its protection.

Introduction

Eroded limestone outcrops form a prominent part of the landscape in Southeast Asia. Because of high limestone weathering erosion in these areas resulted in scattered, isolated limestone hills with steep flanks called karsts towers. Despite a high diversity of habitat specialists and endemic taxa, these limestone karsts remain among the least studied ecosystems in Southeast Asia. Between 1985 and 2004 they contributed only to 1% of the global and regional biodiversity research output from terrestrial and freshwater ecosystems, while they cover around 10% of the land area in Southeast Asia. However, in the Khammuan Province of Lao PDR, several new endemic vertebrate species were recently described: a bird, Pycnonotus hualon, a bat, Hipposideros scutinares, a gymnure, Hylomys megalotis, and a murid rodent, Saxatilomys paulinae.

Laonastes aenigmamus, recently described from this region by Jenkins et al., is of special interest. Using comparative morphological and molecular data, this new species was initially described as a member of a new genus and ranked within the Hystricognathi rodents in a new family: the Laonastidae. But, further studies demonstrated: first, that L. aenigmamus is a member of the Diatomyidae, a fossil family known from early Oligocene to late Miocene in Pakistan, India, Thailand, China, and Japan; second, that the Diatomyidae are the sister group of the Ctenodactylidae, a family of small rodents found in rocky deserts across the northern parts of Africa; third, that together with the Hystricognathi, the Diatomyidae and the Ctenodactylidae form the suborder Ctenohystrica.

In a previous study we presented a preliminary analysis of the genetic diversity of L. aenigmamus: 52 specimens were sampled and the population structure was surveyed by sequencing 887 base pairs of the Cytochrome b (Cyt b) gene. Phylogenetic and haplotypic network reconstructions revealed three well-supported and rather divergent lineages, suggesting that L. aenigmamus populations are geographically structured. However, altogether these samples represented a limited part of the estimated range of the species; most of them were sampled in local markets and their exact geographic origin was impossible to determine; this study was based on a fragment of a single mitochondrial gene.

Before its scientific discovery, the kanyou was considered as a kind of game, trapped and eaten by the villagers. Since 2008, the conservation of L. aegnimamus is regulated in Lao PDR and since 2009 this species is listed as «Endangered» on the IUCN Red List. During the last four years we add the unique opportunity to accompany local officers in the field when they explained this change to local populations, and to sample for molecular analyses the last specimens that were captured by traditional hunters. We were able to sample 137 individuals for which the exact locality of collect was known. It represents 38 localities probably spanning the whole geographical range of the species. Thus, the sampling obtained for this study is exceptional both in terms of number of individuals and number of localities sampled and will not be able to be carried out again. In the present study we: (1) improve evaluation of the genetic diversity and delineation of the phylogeographical structure of L. aenigmamus, by sequencing both nuclear and mitochondrial markers of a larger number of geographically referenced individuals; (2) obtain a better definition of the geographical distribution of the species; (3) highlight the spatial and temporal history of the limestone formation of the Khammuan Province, using the evolutionary history of this species as a guide. Our analysis strongly underlines the necessity for a strict protection of this rare animal and its habitat and provides exclusive information, essential to the organization of its protection.

 Nicolas V, Herbreteau V, Couloux A, Keovichit K, Douangboupha B, et al. 2012. A Remarkable Case of Micro-Endemism in Laonastes aenigmamus (Diatomyidae, Rodentia) Revealed by Nuclear and Mitochondrial DNA Sequence Data. PLoS ONE 7(11): . doi:10.1371/journal.pone.0048145