Description of a New Genus and Species of Rodent (Murinae, Muridae, Rodentia) from the Tower Karst Region of Northeastern Vietnam

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Description of a New Genus and Species of Rodent (Murinae MuridaeRodentia) from the Tower Karst Region of Northeastern VietnamAuthor(s) Guy G Musser Darrin P Lunde Nguyen Truong SonSource American Museum Novitates Number 35171-41 2006Published By American Museum of Natural HistoryDOI httpdxdoiorg1012060003-0082(2006)3517[1DOANGA]20CO2URL httpwwwbiooneorgdoifull1012060003-00822820062935175B13ADOANGA5D20CO3B2

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PUBLISHED BY THE AMERICAN MUSEUM OF NATURAL HISTORY

CENTRAL PARK WEST AT 79TH STREET NEW YORK NY 10024

Number 3517 41 pp 14 figures 4 tables May 17 2006

Description of a New Genus and Species of Rodent(Murinae Muridae Rodentia) from the Tower Karst

Region of Northeastern Vietnam

GUY G MUSSER1 DARRIN P LUNDE2 AND NGUYEN TRUONG SON3

ABSTRACT

Tonkinomys daovantieni a new genus and species of murid rodent in the Dacnomys Division isdescribed It is represented by 14 adults collected from talus habitats in the forested tower karstlandscape of the Huu Lien Nature Reserve of northeastern Vietnam The combination ofsemispinous dense grayish black fur covering upperparts a dark gray venter gray ears a thickbicolored tail considerably shorter than length of head and body and large extremely bulbousfootpads is unlike any other species of Indomalayan murid Body size and build of the new ratalong with some cranial features are similar to the Thai Leopoldamys neilli but other cranial traitscoupled with molar occlusal patterns resemble morphology in species of the IndomalayanNiviventer Chiromyscus and Saxatilomys The new species is petricolous includes insects in itsdiet and was found only in talus composed of large limestone blocks Its distribution in the reserveis likely patchy Whether this limestone rat is restricted to the extensive karst regions ofnortheastern Vietnam or also occurs in southern China and elsewhere in the northern karstlandscapes of Indochina and Vietnam in particular will be known only by conducting surveys inlimestone regions outside of northeastern Vietnam

INTRODUCTION

During Paleozoic times a succession ofwaterways covered what is now northernVietnam Lithification followed by tectonic

deformation and uplift and spurred by sub-sequent erosional processes transformedthose ancient tidal flows and marine land-scapes into a spectacular terrestrial topogra-phy of tower karst riddled by fissures and

Copyright E American Museum of Natural History 2006 ISSN 0003-0082

1 Division of Vertebrate Zoology (Mammalogy) American Museum of Natural History Current address 1714 HenleyLane Charleston SC 29412 (holdenmussercomcastnet)

2 Division of Vertebrate Zoology (Mammalogy) American Museum of Natural History (lundeamnhorg)3 Department of Zoology Institute of Ecology and Biological Resources 18 Hoang Quoc Viet Road Cau Giay Hanoi

Vietnam (truongsoniebrncstacvn)

honeycombed with caverns Beautiful cycadrosettes secured high on sheer limestone cliffsand a forest cover in which many of thecomponents are adapted to karstic habitatsare the living botanical link to those ancientseas A dark gray rat its fur colorationindistinguishable from the limestone its lairconcealed deep within fissured cliffs andlimestone talus is the zoological connection

We discovered this limestone rat duringa survey (April 2004) of small mammals ina forested tower karst region that forms muchof Lang Son Province in northeastern Vietnam(Głazek 1966 Tuyet 1998) (fig 1) Our intentwas to sample using a variety of traps andother techniques as many native species aspossible Our past field experience inIndochina had taught us that setting trapson the ground in regular lines would quicklysample the generalists of the more commonterrestrial habitats but not those specializedfor life on substrates above the forest floor orin unusual petricolic environments With this

in mind we made special efforts to set a portionof our traps on tree limbs woody vineslooping through the understory and on highlimestone ledges At one place chunks oflimestone had long ago fallen from two highforested towers filling the space between themwith huge blocks their surfaces now partiallycovered with tropical vegetation and riddledbeneath with tunnels and fissures detectable atthe surface only by small scattered openings(fig 2) We set traps on top of this block pileand also tied traps to lengths of rope andcarefully lowered them through the openingsto the bottom to depths of at least 8 mUnsure if we would catch anything differentfrom the common rats already encountered innearby different habitatsmdashNiviventer fulves-cens N langbianis and Rattus andamanen-sismdashwe were very pleased and somewhatsurprised to capture a dark gray rat on topof the rubble and two from deep within thelabyrinth Additional individuals were cap-tured during the days that followed

Fig 1 Tower karst landscape where we captured our series of Tonkinomys daovantieni within the HuuLien Nature Reserve Tropical moist deciduous forest covers the steep slopes but the valley bottom has beencleared for agriculture Photographed by D P Lunde April 2004

2 AMERICAN MUSEUM NOVITATES NO 3517

We knew nothing like this animal had everbeen caught in Vietnam or elsewhere inSoutheast Asia Except for their fur colorationand short tails the rats resembled species ofLeopoldamys but no member of that genushas dark gray fur and a tail shorter than headand body Those two attributes also pointedto Berylmys but none of them have dark grayunderparts We knew our sample of thelimestone rat represented an undescribedspecies but only after study in the museumdid we confirm our suspicion that it could notbe placed in any named genus

Here we describe the limestone rat as a newgenus and species and summarize our limitedobservations about its natural history Wefocus on describing the animal and comparingit to murines with which it is morphologicallymost similar members of a cluster containinggenera that Musser and Carleton (2005) referto as the Dacnomys Division extant species ofthe Indomalayan Chiromyscus DacnomysLeopoldamys and Niviventer the Sri Lankan

Srilankamys and the recently describedLaotian Saxatilomys (Musser et al 2005)We also contrast Tonkinomys with members ofthe Dacnomys Division represented by fossilsrecovered from Indochinese Plio-Pleistocenesediments extinct species of Leopoldamysand Niviventer and the extinct generaWushanomys and Qianomys Of these thenew rat requires close and careful compari-sons only with Leopoldamys NiviventerChiromyscus Saxatilomys and the Plio-Pleistocene Wushanomys and Qianomys

Descriptions of new taxa and in particularthose occurring in gradually diminishingtropical forest refuges should be publishedas soon as possible Phylogenetic inquiriestake timemdashincorporating the new rat intophylogenetic analyses employing samples ofall native Indochinese murines will be thesubject of a future report

Our discovery joins those of several othersmall-bodied mammals living in Indochinathat have been discovered and described with

Fig 2 Habitat where we trapped 13 of the 14 examples of Tonkinomys daovantieni showing large blocksof limestone overgrown with creeping vines (left) and a portion of the steep slopes of an adjacent karst tower(right) Our trail to the site is visible between these two structures Photographed by D P Lunde April 2004

2006 MUSSER ET AL NEW RODENT FROM VIETNAM 3

little fanfare during the past five years twoshrews Chodsigoa caovansunga and Crocidurakegoensis (Lunde et al 2003 2004) threebats Hipposideros scutinares (Robinson et al2003) Rhinolophus stheno microglobosus(Csorba and Jenkins 1998) and Myotisannamiticus (Kruskop and Tsytsulina 2001)and a rabbit Nesolagus timminsi (Averianov etal 2000 Can et al 2001) These can be addedto an assemblage of large mammals occurringin Vietnam and some in nearby Laos namedand described as new within the last decade orso but with attendant worldwide publicitytwo primates Trachypithecus ebenus andPygathrix cinerea (summarized in Groves2001) three muntjacs Muntiacus truongsonen-sis M vuquangensis and M puhoatensis (seereviews in Amato et al 2000 Groves andSchaller 2000 Grubb 2005) and the saolaPseudoryx nghetinhensis (see review and refer-ences in Groves and Schaller 2000)4 All area testimony to the significant results derivedfrom past biodiversity surveys discoveriesthat provide compelling stimulus for zoolo-gists to continue detecting the real diversity ofsmall mammals in Vietnam

MATERIALS AND METHODS

All 14 examples of the new rat were fixed in10 formalin in the field and subsequentlytransferred to 70 ethanol for storage Liversamples were collected prior to fixation andplaced in lysis buffer in the field and laterstored in liquid nitrogen at the AmericanMuseum of Natural History (AMNH) Skullswere subsequently removed from 10 of 13specimens (one of the 14 preserved is repre-sented by only an ear with a bit of fur-coveredskin attached the only remnant left in the trapby a hungry predator) and cleaned by a der-mestid colony American Museum The ele-ments of each specimen are identified bya catalog number in the Department ofMammalogy AMNH Each liver sample wastransferred to the American Museum CryoCollection (AMCC) where it is registered

under a second number in addition to itsdepartmental catalog number Some fluid-pre-served specimens and accompanying skulls willbe retained at AMNH others will be returnedto the Department of Zoology at the Instituteof Ecology and Biological Resources in Hanoi

Comparative material we consulted pri-marily samples of Leopoldamys NiviventerChiromyscus and Saxatilomys are in collec-tions at AMNH the Field Museum Chicagoand the National Museum of Natural HistoryWashington DC

Values (in millimeters mm) for total lengthlength of tail (LT) length of hind footincluding claw (LHF) and length of ear fromintertragal notch to crown (LE) are those weobtained in the field and recorded in our fieldjournals Values for length of head and body(LHB) were determined by subtracting lengthof tail from total length Weights were obtainedin the field with a Pesola spring scale (300-gramcapacity) The distal portion of the tail is white(unpigmented) in all specimens of the limestonerat We measured the length of this white tip onthe dorsal surface of each tail and calculated itas a percentage of total tail length Values forcranial and dental measurements were obtainedby Lunde using digital calipers accurate to thenearest 001 mm however values were round-ed to the nearest 01 mm The following cranialand dental dimensions (listed in the sequencethey appear in tables) were measured theirlimits are illustrated in figure 3 and defined inMusser and Newcomb (1983)

ONL occipitonasal length (5 greatestlength of skull)

ZB zygomatic breadthIB interorbital breadthLR length of rostrumBR breadth of rostrumBBC breadth of braincaseHBC height of braincaseBZP breadth of zygomatic plateLD length of diastemaLIF length of incisive foraminaBIF breadth of incisive foraminaLBP length of bony palate (palatal bridge)BBP breadth across bony palate at first

molarsPPL postpalatal lengthBMF breadth of mesopterygoid fossaLB length of bullaCLM1-3 crown length of maxillary molar rowBM1 breadth of first upper molar

4 Viverra tainguensis another supposed newly discoveredspecies living in Vietnam was described by Sokolov et al(1997) Its specific integrity however was questioned byWalston and Veron (2001) and the name is currentlyincluded in the synonymy of the large Indian civet Viverrazibetha (Wozencraft 2005)


Fig 3 Views of cranium and molars of an adult Bunomys chrysocomus showing limits of cranial anddental measurements See text for abbreviations and additional information


Old adults adults and young adults (asdefined by Musser and Heaney 1992 5) werelumped as lsquolsquoadultsrsquorsquo and measurements derivedfrom them were used to calculate standarddescriptive statistics (mean standard devia-tion and observed range) Small sample sizedictated that we combine sexes in the analysesAnatomical terminology follows Brown (1971)and Brown and Yalden (1973) for externalfeatures of the head and limbs Bugge (1970)for the cephalic arteries Wahlert (1985) forthe cranial foramina and Carleton (1980)Carleton and Musser (1984) Musser andDurden (2002) Musser and Heaney (1992)Musser et al (1998) and Voss (1988) forcranial morphology Names of cusps andcusplets of upper and lower molars are notedin figure 13 sources of this terminology areexplained by Musser and Newcomb (1983332)

SYSTEMATIC DESCRIPTION OF THENEW GENUS AND SPECIES

Tonkinomys new genus

TYPE SPECIES Tonkinomys daovantieni thenew species described below

DIAGNOSIS A genus of Muridae in theDacnomys Division (Musser and Carleton2005) of the subfamily Murinae (as delimitedby Carleton and Musser 1984) that is setapart from all other described murid genera bythe following combination of morphologicaltraits (1) fur covering head and body semi-spinous and grayish black spattered witha white blaze on forehead in most individualsunderparts dark gray with white patch on thechest ears gray rhinarium and lips and chinunpigmented (2) mystacial and superciliaryvibrissae very long (3) dorsal surfaces of frontfeet white hind feet white with brown hairs onmetatarsal region (4) tail much shorter thanlength of head and body thick and round incross-section and well-haired the proximalone-half to three-fourths of its dorsal andlateral surfaces dark brown the distal one-fourth to one-half white (unpigmented)(5) palmar and plantar pads large swollenand set close together (6) four pairs of teats(7) robust skull with moderately long and widerostrum prominent postorbital and temporalridges sturdy zygomatic arches and deep

occiput (8) squamosal root of each zygomaticarch situated high on side of cranium where itsposterior ridge-like portion runs horizontallyjust below posteroventral margin of theparietal and projects ventrad to form dorso-lateral side of cranium (9) lateral cranial wallintact anterior to occiput without largesubsquamosal foramen (10) narrow alisphe-noid struts in most specimens (11) wide andmoderately long incisive foramina their pos-terior borders located just before anteriormargins of molar rows even with them orpenetrating slightly between (12) posteriorlydivergent maxillary molar rows (13) wide andlong bony palate projecting beyond molarsto form a wide platform (14) moderatelyspacious sphenopalatine vacuities (15) wideand shallowly excavated pterygoid fossae(16) small ectotympanic bulla relative to skullsize incompletely covering periotic so thatdorsal and slanting posterodorsal wall ofcarotid canal formed by periotic and notectotympanic (17) large foramen for stapedialartery no sphenofrontal foramen or squamo-soalisphenoid groove indicating the widespreadmurine cephalic arterial pattern (18) coronoidprocess of dentary small condyloid and angularprocesses joined by shallow concave posteriormargin of dentary and alveolar incisorcapsule only slightly evident on lateral surfaceof dentary (19) upper incisors opisthodontrelative to rostrum (20) first upper molar withfour large roots (anterior two lingual andposterior) second and third molars each withthree roots (anterior lingual and posterior)(21) each lower molar with two roots(22) molars brachydont with cusp rows form-ing uncomplicated occlusal patterns resemblingthose in species of Niviventer Chiromyscus andSaxatilomys

ETYMOLOGY From Tonkin used duringthe French colonial period (1883ndash1954) forthe protectorate occupying the northern thirdof Vietnam and the Greek mys referring tomouse or rat in this case Although mostoften negatively associated with Vietnamrsquosdark French administration the nameTonkin has an illustrious origin It is derivedfrom the Vietnamese Don Kinh which meanslsquolsquoeastern capitalrsquorsquo and was the name given towhat is now Hanoi by Emperor Le Loi whoin 1427 along with his band of Vietnamese


rebels expelled from Vietnam the repressiveMing occupiers By the early 1800s the capitalwas moved to Hue and the Emperor MinhMang renamed the lsquolsquoeastern capitalrsquorsquo Hanoimeaning lsquolsquothis side of the riverrsquorsquo

Tonkinomys daovantieni new species

HOLOTYPE AMNH 275618 an adult fe-male collected by the authors (DPL 1706) on 17April 2004 in the vicinity of Lan ETHat Village(21u409520W106u209280E) 150 m Huu LienNature Reserve Huu Lien Commune HuuLung District Lang Son Province VietnamThe specimen was fixed in 10 formalin forseveral days before being transferred to 70ethanol for storage A liver sample wascollected prior to fixation and placed in lysisbuffer before its ultimate transfer to the

American Museum Cryo Collection (AMCC125060) The skull (figs 10 11) was laterextracted and cleaned by dermestids in a colonyat the American Museum

REFERRED MATERIAL In addition to theholotype 13 additional adults of T daovantieniwere collected from the vicinity of Lan ETHatVillage during April 2004 on the days in-dicated (AMCC catalog numbers tied to liversamples are in brackets) April 13 AMNH275575 [125016] male 275576 [125017] male275577 [125018] male April 14 275586[125027] female 275593 [125034] male April16 275602 [125044] male April 19 275627[125069] male 275644 [125086] male April 23275688 [125130] male April 24 275692[125134] male 275693 [125135] ear withattached bit of furry skin only April 25275711 [125153] male 275712 [125154] female

TABLE 1

Summary Statistics for Cranial and Dental Measurements (mm) and Weight (m) of Tonkinomys daovantienifrom Vietnam

(Mean plus or minus one SD observed range in parentheses and number of specimens in each sampleare listed for each measurement Sample contains both sexes and a range in age from young to old

adults Individuals measured and weighed are identified in the footnote)

Holotypea Sample (with holotype)b

Length of head and body 213 2046 6 1034 (184ndash217) 13

Length of tail 177 169 6 70 (156ndash183) 13

Length of hind foot 40 390 6 11 (37ndash41) 13

Length of ear 30 300 6 08 (29ndash31) 14

Weight 160 171 6 228 (140ndash205) 13

Occipitonasal length 512 500 6 16 (471ndash524) 7

Zygomatic breadth 216 213 6 02 (209ndash216) 7

Interorbital breadth 67 69 6 02 (66ndash73) 7

Length of rostrum 177 171 6 06 (159ndash177) 7

Breadth of rostrum 77 78 6 04 (71ndash85) 7

Breadth of braincase 177 177 6 02 (174ndash181) 7

Height of braincase 117 118 6 02 (114ndash120) 7

Breadth of zygomatic plate 49 48 6 01 (47ndash50) 7

Length of diastema 133 136 6 05 (129ndash146) 7

Length of incisive foramina 91 95 6 05 (89ndash102) 7

Breadth of incisive foramina 34 35 6 02 (34ndash39) 7

Length of bony palate 107 105 6 03 (100ndash107) 7

Breadth across bony palate at M1 96 96 6 01 (95ndash98) 7

Postpalatal length 162 157 6 06 (146ndash164) 7

Breadth of mesopterygoid fossa 39 38 6 02 (35ndash39) 7

Length of bulla 62 63 6 01 (62ndash65) 7

Crown length of M1-3 83 83 6 02 (80ndash88) 7

Breadth of first upper molar 21 21 6 01 (20ndash22) 7

a AMNH 275618b AMNH 275575-275577 275586 275593 275602 275618 275627 275644 275688 275692 275711 and 275712


GEOGRAPHIC DISTRIBUTION Tonkinomysdaovantieni is currently known only from thetype locality but the species probably occursin suitable forested habitats throughout thekarst landscapes of northern Vietnam (identi-fied as the lsquolsquoVietbac Karst Zonersquorsquo by Tuyet1998 187 or the Caobang and Bacson regionsby Głazek 1966) and possibly in southernChina (see the distributions of karst outcropsmapped in Tuyet 1998 and Zhang 1989)

DIAGNOSIS Because daovantieni is the onlyknown species of Tonkinomys generic andspecific diagnoses are the same

ETYMOLOGY We are honored to name thisdistinctive gray-furred and short-tailed lime-stone endemic after the late ETHao Van Tienwho when he died on May 3 1995 at the ageof 78 was emeritus professor of biology at theNational University of Hanoi Our esteem forthis Vietnamese scholar is reflected in theobituary prepared by Groves and Weitzel(1995 15216)

Professor Tien was educated in Hanoi under the Frenchcolonial Administration He taught several generations ofVietnamese scientists and carried his Biology Facultythrough the difficult years after his country gained itsfreedom Though Professor Tienrsquos principal works andmany of his papers were in mammalian zoology his advicehis academic research and most importantly his studentsupport was never limited to this Certainly all seniorbiologists in northern Vietnam today gladly call ProfessorTien their teacher It is hard to calculate the importance ofthis gentle and thoughtful man in the history of Vietnamrsquosscience He was the father of his field in Vietnam His losswas a great blow for us though he left for the world anincalculable legacy of studies of the rich biology of Vietnamand a scholarly tradition for those who will follow in hisfootsteps

The biodiversity surveys undertaken innorthern Vietnam during the past decade thathave contributed so significantly to knowledgeof mammalian diversity in that country can beviewed as extensions of earlier vertebratesurveys in northern Vietnam from 1957 to1971 initiated and managed by Professor TienHis results generated large and important

Fig 4 A live Tonkinomys daovantieni (AMNH 275593) Note the unpigmented distal portion of the tailand the blaze of white on the forehead Other external traits are described in the text Photographed by D PLunde April 2004


collections of voucher specimens (currentlyhoused at the University of Hanoi) and weresummarized by him in 1985 (ETHao 1985) Thatbody of field data and museum specimens andthe scientific results derived from them formedthe foundation of lsquolsquoChecklist of Mammals inVietnamrsquorsquo published nine years later (ETHang etal 1994) which at the time stood as the finestand most comprehensive annotated list ofVietnam mammals and today remains notonly an important reference but a tribute toProfessor Tien his students and his collea-gues

MORPHOLOGICAL DESCRIPTION Large headand eyes a stocky body dark gray ears shortand bicolored tail grayish black (gunmetal)upperparts and dark gray underparts charac-

terize live Tonkinomys daovantieni (figs 4 5table 1) Detailed descriptions of its externalfeatures skull and dentition are providedbelow

External traits The dense fur coveringupperparts of head and body is grayish blackwith burnished highlights and consists ofthree types of hairs The soft underhairs (upto 12 mm long) are gray for their entire lengthThe overfur layer (up to 15 mm thick) isformed by wide flexible and grooved spineseach pale gray for most of its length andtipped with brown or black Scattered guardhairs project 5210 mm beyond the overhairsthe basal half of each is gray the distal halfblack The combination of hair types and theirpigmented banding patterns imparts a thickand semispinous texture and a burnishedgrayish black tone to the upperparts Thedorsal pelage is less spiny along the sides ofthe body appears especially soft and gray overthe shoulders and hips and gradually blendsinto the softer and shorter (up to 8 mm thick)dark gray fur covering the underparts Thatcoat is formed by soft underhairs mixed withsoft wide and grooved spines both kinds ofhairs are gray for their entire lengthsAlthough paler than the dorsal coat becauseit has no dark brown guard hairs no sharpdemarcation exists between dorsal and ventralfur A white patch (size ranges from 10 mmlong and 5 mm wide to 30 mm by 12 mm)interrupts the dark gray fur over the chest in11 of the 13 specimens the other two lack thischest mark On the forehead a blaze of whitehairs (expression ranges from a few hairs toa patch 15 mm long and 5 mm wide) con-trasting with surrounding dark fur is presentin nine specimens four including the holo-type lack the blaze Sides of the face andthroat are dark gray the lips chin andrhinarium are unpigmented Fur covering thelower limbs is dark gray everywhere butshorter than that on the torso

Eyes relative to head area are largeproportionally similar to species of Rattus Awide unpigmented ring surrounds each narrowand circular dark brown eyelid Beyond theeyes the fur is dark gray covering this part ofthe head and although somewhat moresuffused with black this darker tone doesnot define a facial mask

Fig 5 Underparts of Tonkinomys daovantieni(AMNH 275593) The dark grayish black dorsalcoat merges gradually into the dark gray venterwhich is broken by a white pectoral patch (foundin ten other specimens of the sample of 13)Photographed by D P Lunde April 2004


The pinnae (external ears) are moderatelylarge but not disproportionately expansiverelative to body size They are dark graysomewhat oval in outline and rubbery intexture Short brown hairs (visible only undermagnification) are sparsely scattered overboth outer and inner surfaces but do not tintthe gray background

The mystacial vibrissae are either darkbrown or unpigmented fine and very long(up to 75 mm) when laid against the head thelongest projects up to 20 mm beyond thedistal margin of each pinna The longest ineach pair of superciliary (or supraorbital)vibrissae (up to 60 mm long) also extend wellpast the pinna when appressed against thehead The short submental and interramalvibrissae are unpigmented The few short (upto 25 mm) genal vibrissae are inconspicuousand unpigmented for most of their lengthsThe base of the wrist supports four moderate-ly long (up to 10 mm) unpigmented ulnarcarpal vibrissae and from the inside of eachheel springs a longer (up to 15 mm) unpig-mented tarsal vibrissa

The tail is appreciably shorter than thelength of head and body (LTLHB 5 83average of 13 individuals) and it is thick (rangein 13 specimens is 57 mm to 63 mm mea-sured laterally at midpoint of tail length) andround in cross section (table 1 fig 6) Theproximal one-half to three-fourths is darkbrown on dorsal and lateral surfaces (pro-duced by the brown pigment in scales andscale hairs) The ventral surface is white as areall surfaces of the distal one-fourth to one-half(25ndash44 of total tail length among the 13specimens) In a few specimens scatteredscales in the unpigmented regions retain verypale brown pigment which provides a slightspeckling to the white portion usually overthe ventral surface Scales in the overlappingannuli are moderately large (10 annuli ofscales per centimeter counted along basalone-third of the tail) and beneath each scaleemerge three hairs These are bristle-like andabout as long as two scale annuli (10 mm)near the base of the tail but those at the tailtip are softer and longer (526 mm) there isa gradual increase in hair length and texturefrom base to tail tip Because the hairs aremostly longer than the scale annuli the tail

Fig 6 Holotype of Tonkinomys daovantieniDorsal (left) and ventral (right) views of the tailNote increasing length of scale hairs from base totail tip Basal two-thirds of dorsal and lateralsurfaces of tail is dark brown produced by brownpigment in both scales and scale hairs (a) scales andscale hairs (c) on underside and distal one-third ofthe tail are unpigmented See text for discussion ofpattern variation within the complete sample Tailis round in cross-section (b)


appears somewhat hairy especially the distalhalf (fig 6)

Claws are unpigmented as are their thincovering of hairs (ungual tufts) and thedigits of the front and hind feet So too isthe dorsal metacarpal and metatarsal integu-ment but an overlying covering of brownhairs imparts a diluted brown wash to thesesurfaces Both front and hind claws are notunusually long and are gently curved (fig 7)Their covering ungual tufts either do not oronly slightly project beyond the claw tips(fig 8) Each palmar surface is naked andmostly unpigmented Its topography is dom-inated by five huge and swollen pads threeinterdigital thenar and hypothenar (fig 8)Gray patches mark some of the pads andthe ventral surfaces of all are nearly smoothexhibiting only traces of semicircular andtransverse lamellae The hind foot is moder-ately long and wide (table 1) Its nakedplantar surface and some of the pads aredark gray The anterior half of the plantar

surface is formed by six very large andswollen pads (tubercles) in a tight clustertwo inner interdigitals (2 and 3) two outerinterdigitals nearly opposite each other (1and 4) a large hypothenar (nearly as largeas an interdigital) just behind and slightlyoverlapping the lateral interdigital and aneven larger thenar (fig 8) Size and protuber-ance of the pads relative to plantar surfaceand their contiguous positions resemble theconformation seen in arboreal murines like theSulawesian species of Margaretamys (Musser1981 279) They contrast with such terrestrialexamples as Sundanese Sundamys muelleri andBerlymys bowersii (Musser and Newcomb1983 357) Rattus argentiventer (Musser1973 7) or Sulawesian Maxomys (Musser1991 27) whose pads are smaller relative toarea of the plantar surface with the two outerinterdigital mounds set well apart from theinner pair and the hypothenar and thenarwidely spaced from each other and theinterdigitals

Fig 7 Holotype of Tonkinomys daovantieni Top Lateral view of left hind foot Bottom Lateral view ofleft front foot The bulbous palmar and planter pads are clearly evident


Fig 8 Holotype of Tonkinomys daovantieni Left Palmar view of left front foot Right Plantar view ofleft hind foot (compare with the plantar views of Chiromyscus Niviventer and Saxatilomys in fig 9)Abbreviations hy hypothenar pad po pollex th thenar pad 1mdash4 first through fourth interdigital pads


Each female in our sample has four pairs ofmammae one pectoral one postaxillary andtwo inguinal

Skull Tonkinomys daovantieni has an elon-gate skull sturdy in appearance the visualimpression reflecting a long rostrum narrowcranium and robust zygoma In dorsal view(fig 10) the rostrum is moderately long andwide its parallel sides dimpled by a smallnasolacrimal capsule ( just anterior to theanterior spine of each zygomatic plate) Thedistal portion of the rostrum is slightlytapered the anterior margin of the nasals istriangular and the adjacent premaxillariesproject well beyond the posterior nasal-frontalsuture A moderately deep zygomatic notch isevident between the rostral wall and theprojecting anterior spine of the zygomaticplate The dorsal portion of each lacrimal

bone (in the anterolateral pocket of theorbit) is small rectangular and fused withthe dorsal maxillary zygomatic root (noshared suture with the frontal) Dorsolateralmargins of the interorbit which is about aswide as the rostrum are defined by highridges that are prominent as they sweepback along the dorsolateral postorbital mar-gins of the frontals these ridges becomeweaker in expression and less pronouncedwhere they extend (as temporal ridges) ontothe parietal margins (accentuating dorsolater-al rims of the cranium) to about the level ofthe posterior edge of the squamosal zygomaticroot Here the temporal ridge is barelydiscernable and the parietal extends ventrallyto form the dorsolateral cranial wall betweenthe posterior margin of the zygomatic rootand the lamboidal ridge a bony swelling

Fig 9 Plantar views of left hind feet of adults of Indomalayan murines in the Dacnomys division AChiromyscus chiropus (AMNH 268333 southern Vietnam) B Niviventer langbianis (AMNH 272251northern Vietnam) C N fulvescens (AMNH 272376 northern Vietnam) D Saxatilomys paulinae (BMNH2000292 Lao PDR) The feet of the arboreal C chiropus and N langbianis are short and adorned with largeand bulbous plantar pads compared with the longer foot and relatively smaller pads in the terrestrialscansorial N fulvescens The four interdigital pads (at the bases of the digits) thenar (t) and hypothenar (h)of S paulinae are set appreciably closer than in any of the other species are more swollen and larger notonly absolutely but relative to plantar surface an overall plantar adornment resembling that exhibited byTonkinomys daovantieni (fig 8)


outlines the parietal-squamosal connection allthe way to the lamboidal ridge The interpar-ietal is long (in anterior-posterior plane) andmoderately wide (its lateral margins are withinthe parietal and supraoccipital sutures notextending to the parietal-squamosal suture)and its posterior two-thirds roofs a deepocciput with a slightly convex or chevron-shaped posterior margin Zygomatic archesare robust and arranged nearly parallel to one

another neither zygoma bows out far fromthe skull

The skull appears long low and withoutsignificant basicranial flexion when viewedfrom lateral perspective (fig 11) The rostrumis rectangular in side view and extends slightlybeyond the incisor faces to enclose the nasalaperature in a short tube in which nasalsprovide the roof and premaxillaries the sidesMuch of the ventral maxillary root of each

Fig 10 Holotype of Tonkinomys daovantieni Dorsal (left) and ventral (right) views of craniumMeasurements are listed in table 1


zygomatic arch lies anterior to the molar rowwith the posterior margin of the zygomaticplate extending behind the front margin of thetoothrow (05210 mm is the range in oursample of skulls) The zygomatic plate is wideits convex anterior margin projecting beyondthe dorsal maxillary zygomatic root to forma moderately deep zygomatic notch (best seenin dorsal view) This anterior spine of the plate

does not project far enough forward toconceal the nasolacrimal capsule which issmall and only slightly inflated Maxillary andsquamosal zygomatic processes are joined bya long jugal to form a thick and robustzygomatic arch The squamosal root of eacharch is situated high on the side of the craniumwhere its posterior ridge2like portion extendshorizontally just below the posteroventral

Fig 11 Holotype of Tonkinomys daovantieni Top Lateral view of cranium Middle Lateral view of leftdentary with incisor and molars Bottom Medial view of same dentary


margin of the parietal which projects ventradto form the dorsolateral side of the craniumThe low ridge of the squamosal zygomaticroot disappears 10ndash15 mm anterior to thevertical ridge formed by the squamosal-exoc-cipital suture The configuration is similar tobut not identical with that documented forspecies of Leopoldamys (see Musser 1981fig18) and Niviventer (Musser et al 2005 figs 7and 8) Dorsal to the auditory (ectotympanic)bulla and posterior to the squamosal zygo-matic root the squamosal forming the side ofthe cranium is intact except for a minutesubsquamosal foramen at the prominent ridgeformed by the squamosal-exoccipital sutureThis foramen is the only landmark identifyingwhere the squamosal and a wide hamularprocess of the squamosal have completelyfused to form the solid cranial wall Aspacious postglenoid foramen that is confluentin some specimens with a wide postalar fissure(ventral to the postglenoid foramen) separatesthe squamosal margin from the periotic flangeand dorsoanterior surface of the ectotympanic(auditory) bulla That capsule is attached tothe squamosal dorsally by the posteroventralportion of that bone which represents thecranial wall fused with a wide hamularprocess There is no anterior attachmentwhich is the usual pattern among mostmurines An anterior flange of the perioticthe tegmen tympani is present (and partlyseparates the dorsal postglenoid foramenfrom the ventral postalar fissure) but isseparated by a narrow or moderately widegap from the posterior margin of the squa-mosal in most specimens there is no posteriorsuspensory process of the squamosal towhich the tegmen tympani could attach (insome cricetid rodents the tegmen tympanioverlaps a posterior projection of the squa-mosal to form one of the suspensory attach-ments between ectotympanic capsule andsquamosal see the diagrams in Voss 199319) The moderately inflated mastoid is tightlysutured to squamosal and exoccipital It iscompletely ossified without the moderate orlarge fenestrae found in some murines(Crunomys celebensis for example Musser1982 38) and sigmodontines (see Carletonand Musser 1989 34) only a very smallopening penetrates the dorsal mastoid-exocci-

Fig 12 Holotype of Tonkinomys daovantieniillustrating details in enlarged view of left basicra-nial region Abbreviations ab auditory bulla alalisphenoid bo basioccipital bp bony palate cccarotid canal fo foramen ovale hp hamularprocess iog groove for the infraorbital arterymlf middle lacerate foramen pp pterygoid plate(its ventral surface is the pterygoid fossa) ppmposterolateral palatal margin pt periotic spvsphenopalatine vacuity sq squamosal stfstapedial foramen


pital suture The foramen magnum is directedcaudad (which reflects the horizontal ratherthan arched axis of the skullmdashno significantbasicranial flexion) and the deep occiputprojects slightly beyond posterior surfaces ofthe occipital condyles The ethmoid foramenwithin the orbit is tiny and the opticforamen moderately large The dorsal palatineforamen is separate from the sphenopalatineforamen a configuration usual amongAsian murines with a few exceptions wherethe two foramina are coalesced (Musser 198222) Eight specimens have a bony alisphenoidstrut (ranging from moderately wide toslender in the sample) on each side of theskull posterior to the orbit and dorsad to thepterygoid ridge (the lateral edge of thepterygoid plate) The strut separatesthe foramen ovale accessorius from thecombined buccinator-masticatory foramenon the side of the cranium and obscures theanterior opening of the alisphenoid canal Onespecimen exhibits a strong strut on the leftside but only a bony thread on the right Onlyone individual in our sample of skulls lacksstruts (which are represented by only a dorsalnubbin on each side) In this specimen theopening to the alisphenoid canal is evident theforamen ovale accessorius and buccinator-masticatory foramina coalesce (basically dis-appear) and the course of the buccinator andmasticatory nerves is marked by a shallowgroove extending from the foramen ovale ontothe side of the alisphenoid

The short rostral tube anterior to faces ofthe incisors wide rostrum long incisiveforamina and bony palate diverging molarrows moderately wide mesopterygoid fossaand pterygoid plates and small bullae are thetopographic highlights when the skull isstudied from ventral perspective (figs 1012) Just behind the incisors is a tiny inter-premaxillary foramen and beyond it therostrum is perforated by long and spaciousincisive foramina their posterior rims situatedslightly before (05 mm) anterior margins ofthe first molars even with those molarsurfaces or projecting slightly (not more than05 mm) between them The bony palate iswide and long extending 15ndash20 mm beyondthe molar rows to form a broad platform witha slightly concave and smooth posterior

margin (up to 20 of the palate extends pastthe third molars) unmarked by any bony ridgein most specimens slightly thickened inothers Each posterolateral margin of thisshelf extends as a flat bony surface onto theanterior portion of each pterygoid plate whereits sharp diagonal border marks the antero-medial margin of each pterygoid fossa Theventral surface of the bony palate is smoothexcept for a pair of oblong posterior palatineforamina (in the maxillary-palatine sutureopposite the middle or posterior half of eachsecond molar) a pair of shallow grooves andsmall or minute nutrient foramina scatteredover the palatal shelf The mesopterygoidfossa is wide and dorsolateral margins of itsroof are perforated by long and moderatelywide sphenopalatine vacuities On each side ofthe pterygoid fossa a robust hamular processof the pterygoid marks the boundary betweenthe mesopterygoid fossa and each adjacentpterygoid plate its ventral surface sculpturedby a shallow pterygoid fossa The bonypterygoid plate is breached by the largeventral opening of the foramen ovale in itsposterior half its anteromedial portion alongthe rim of the bony palatal extension is slightlyfenestrated (irregular traces of the sphenopter-ygoid vacuity) A shallow trough (in which theinfraorbital artery passes) scores the ventralmargin of the pterygoid plate between theventral opening of the foramen ovale and themiddle lacerate foramen Small relative tooverall size of the skull the globular and onlyslightly inflated ectotympanic (auditory) bulladoes not conceal nearly all of the periotic as itdoes in some other murine groups species ofRattus for example In Tonkinomys daovan-tieni a wide wedge-shaped segment of theperiotic is exposed between the dorsal capsularmargin and basioccipital and this wedge ofperiotic extends anteriorly to form the dorsaland slanting posterodorsal wall of the carotidcanal The conformation resembles that illus-trated by Carleton and Musser (1989 33) forthe sigmodontine Oligoryzomys and is unlikemany other muroid rodents in which a moreinflated ectotympanic capsule covers most ofthe periotic and the anteromedial margin ofthis capsule meets the basioccipital so theopening to the carotid canal is bounded by theectotympanic capsule and adjacent basiocci-


pital (the condition in Oryzomys palustrisdepicted by Carleton and Musser 1989 33and species of Rattus and its allies illustratedin Musser and Heaney 1992 99) Taperingrostrally from the ectotympanic capsule isa moderately short and wide bony eustachiantube A spacious middle lacerate foramenseparates the anterior slope of the ectotympa-nic capsule from posterior margin of thepterygoid plate

The cephalic arterial pattern possessed byTonkinomys daovantieni is not unique amongmembers of Murinae (as that subfamily isdelineated by Carleton and Musser 1984Musser and Carleton 2005) As in all de-scribed species of Niviventer ChiromyscusSaxatilomys and Leopoldamys T daovantienilacks a sphenofrontal foramen and relatedsquamosoalisphenoid groove the petrotym-panic fissure between bullar capsule andperiotic is perforated by a spacious stapedialforamen continuous laterally with a deepgroove on dorsal surface of the periotic andthere is a shallow but wide groove on theposterior ventral surface of the pterygoid plate(fig 12) This set of osteological landmarkssignals a cephalic arterial pattern in which thesupraorbital branch of the stapedial artery isabsent and the orbital circulation derives fromthe distal portion of the infraorbital branchThe infraorbital is a continuation of thestapedial artery which passes over the dorsalgroove in the periotic through the middlelacerate foramen continues in the shallowgroove ventral to the posterior margin of thepterygoid plate to course through the ali-sphenoid canal and emerges onto the orbitalfloor through the anterior alar fissureCommon to most murines (Carleton andMusser 1984 Musser and Newcomb 1983Musser and Heaney 1992) this pattern ofvessels and associated osteological landmarksis also characteristic of some sigmodontinerodents (described and diagramed forOligoryzomys by Carleton and Musser 1989pattern 2 in Voss 1988) and is derivedcompared with the cephalic arterial patternhypothesized to be primitive for muroidrodents (Bugge 1985 Carleton 1980)

Mandible The sturdy dentary supportsa delicate coronoid process relative to extentof the deep ascending ramus a moderately

deep sigmoid notch between coronoid andprominent condyloid processes and a shallow-ly concave posterior margin connecting con-dyloid and angular processes (fig 11) Incontrast with the wide and conspicuousventral masseteric ridge the dorsal ridge iseither undetectable or indicated by a shallowelongate depression Besides the ventral mas-seteric ridge the only other significant struc-ture that marks an otherwise smooth lateraldentary surface is a slight bulge below theanterior root of the coronoid process that inturn marks termination of the incisor alveoluswithin the bone In no specimen did the incisorcapsule extend farther caudad to project intothe condyloid process (checked by shininga high-intensity light through the dentary) as itdoes in some other murines (Musser andHeaney 1992 84) Topography of the lingualdentary surface resembles that characteristicof most other murines the primary landmarksbeing a prominent lingual ridge above whichis the large mandibular foramen (as inPapagomys armandvillei for example seeMusser et al 1986 5) The body of thedentary projects anteriorly beyond the molarrow as a moderately short and stocky tubecontaining the incisor Just in front of themolar row on the dorsolateral labial surface isa small mental foramen

Dentition Enamel faces of upper and lowerincisors are pale orange and smooth withoutgrooves or shallow sulci Thickness of theenamel relative to the dentine is similar to thatin species of Rattus and many other murines(Musser and Heaney 1992 79) The upperincisors curve caudad after emerging fromthe rostrum (opisthodont conformation seeThomas 1919 Hershkovitz 1962 103)Gnawing edges of the uppers are at rightangles to the long axis of the skull so theircombined tips form a straight cutting edge (asin species of Rattus see Musser and Heaney1992 79) not curved or V-shaped (as in somePhilippine and Sulawesi endemics see Musserand Heaney 1992 Musser and Durden 2002)The lower incisors are moderately long andcurved their cutting tips either straight orarcuate

Alveolar patterns for roots of upper molarsare distinctive A large anterior root tworobust lingual roots and a large posterior


holdfast anchor each first upper molar Nolabial root is present between the largeanterior and posterior anchors Three rootshold the second and third molars in placea large anterior and posterior and smalllingual Two large roots anchor each lowermolar Except for the first upper molars thepattern of roots in all our examples ofTonkinomys daovantieni is primitive for mur-ines (Musser and Newcomb 1983 Musser andHeaney 1992)

Upper molar rows are moderately long(about 17 of occipitonasal length) andstrongly diverge posteriorly (width of bonypalate is considerably greater between thirdmolars than between the first see fig 10)Occlusal surfaces of the brachydont (low-crowned) molars are simple in topographyconsisting of tightly pressed rows exposingchunky chewing surfaces in the shapes ofnarrow chevrons and diamonds (fig 14)Occlusal surface of each first upper molarconsists of two anterior rows of cusps each inthe form of a tight chevron and a largeroughly diamond-shaped posterior surfaceThe most anterior chevron is comprised ofcusps t1 t2 and t3 cusps t2 and t3 are socoalesced that their limits are obliterated atleast in adults The blended cusps t4 t5 and t6form the second chevron although the labialand lingual cusps retain some definition Thelarge chunky posterior third of the molarconsists primarily of cusp t8 merged witha smaller indistinct cusp t9 to form a roughlydiamond-shaped chewing surface On theocclusal surface of each second upper molarthe anterior chevron is represented by onlya large cusp t1 forming the anterolingualportion of the tooth In seven out of 10specimens a small cusp t3 sits on theanterolabial margin in two others the cuspis missing and the anterolabial border ismarked by only an inconspicuous cingulumand presence or absence of cusp t3 in the tenthspecimen cannot be determined because themolars are too worn The complete chevronand chunky posterior portion of the secondmolar in size and shape resembles compara-ble rows in the first molar Each third molarhas an occlusal pattern that is basicallya compacted form of that characterizing thesecond molar a conspicuous cusp t1 minute

cusp t3 (seen in young rats but unidentifiablein older animals with more worn chewingsurfaces) a complete arcuate lamina derivedfrom the total coalesence of cusps t4 t5 andt6 and small posterior chunk either diamond-shaped or oblong in outline (formed primarilyof cusp t8 cusp t9 is either absent orunidentifiable due to its total incorporationinto cusp t8) We could not detect a cusp t7(on the lingual cingulum between cusps t4and t8 when present see Musser andNewcomb 1983 333) posterior cingulum(pressed against the posterior margin of cuspt8 if present see Musser and Newcomb 1983333) accessory cusplets or longitudinal crestsconnecting the cusps to form a garlandconfiguration (lsquolsquostephanodontyrsquorsquo see Schaub1938 and Misonne 1969) on any of the uppermolars When present these structures providecomplexity to the occlusal planes and in somemurines significantly increase chewing sur-faces

Occlusal planes of the lower molars are alsocomprised of uncomplicated patterns (fig 14)An anterolingual cusp coalesced with a smalleranterolabial forms the anteroconid the mostanterior cusp row which is narrower than thelamina behind it The second and third are inthe shape of narrow chevrons and representunions of protoconid-metaconid and hypoco-nid-entoconid respectively A roughly trian-gular posterior cingulum forms the entireposterior fourth of the molar Except forlacking an anteroconid occlusal cusp patternsof the second molar resemble patterns seen inthe first The anterior half of each third molarconsists of a front chevron formed by union ofprotoconid and metaconid and behind thata large oblong structure likely representing thecomplete fusion of hypoconid and entoconidAnterolabial cusps are absent from secondand third molars in most specimens but weare not certain about others in the samplebecause their molars are worn to a level suchthat if present these cusps are now indistinctbecause they have completely coalesced withthe adjacent lamina we did find evidence ofa small anterolabial cusp on the third molar ofthe holotype (fig 14) We had the samefrustration determining the frequency of pos-terior labial cusplets on some specimens Thissmall cone is prominent and forms the


anterolabial margins of the posterior laminaeof first and second molars in the holotype(fig 14) The cusplets are present but in-conspicuous on first and second molars inthree other specimens (the laminar outlinereflects the blending of a cusplet with theanterolabial laminar margin) and are eitherabsent or undetectable in seven rats (becausethe cusplet has completely coalesced with theadjacent cusp) A posterolabial cusplet clearlydoes not occur on any third molar in any ofthe specimens at hand

COMPARISONS

The morphological attributes of Ton-kinomys daovantieni place it in the Dac-nomys Division of Musser and Carleton(2005) which contains the IndomalayanChiromyscus (one species) Dacnomys (one)Leopoldamys (six) and Niviventer (17) SriLankan Srilankamys (one) and the recently

described Lao PDR Saxatilomys (one species)Musser (1981) Musser and Newcomb (1983)Musser and Heaney (1992) Musser andCarleton (2005) and Musser et al (2005) havechronicled the geographic distributions ofthese genera along with their taxonomiesdescriptions of morphologies and postulatedphylogenetic relationships In conformation ofbody and limb proportions and in character-istics of skull and teeth T daovantieni mostclosely resembles species of LeopoldamysNiviventer Chiromyscus and SaxatilomysOur comparisons contrast Tonkinomys firstwith extant examples of Leopoldamys thenwith Niviventer and Chiromyscus and finallywith Saxatilomys

A large body of literature has accumulatedover the past two decades reporting fossilmurines mostly isolated molars and incisorswhich have been recovered from PliocenePleistocene and Holocene sediments in theIndomalayan region Some material has been

Fig 13 Diagram of maxillary (left) and mandibular (right) molar rows from right side of Bunomyschrysocomus illustrating structural terms Maxillary molars cusps are numbered according to Millerrsquos (1912)scheme and referred to in the text with the prefix lsquolsquotrsquorsquo Mandibular molars a-lab anterolabial cusp a-linganterolingual cusp alc anterior labial cusplet ed entoconid hd hypoconid md metaconid pc posteriorcingulum pd protoconid plc posterior labial cusplet


described as new taxa whose diagnostic traitsidentify them as members of the DacnomysDivision and other samples have been re-garded as examples of extant members of thatgroup We examined pertinent publications todetermine whether any of the new taxa thatare based on fossils represent examples ofTonkinomys The significance for nomencla-ture is obvious Equally important is thezoogeographic context If some samples offossils that have been identified as eitherextinct or extant species are actually examplesof Tonkinomys or close phylogenetic relativesthey would provide a window through whichcould be glimpsed the past distribution of thisunique limestone rat and the geologic depthof its evolutionary history

Leopoldamys The smallest extant memberof the six currently recognized species ofLeopoldamys (Musser and Carleton 2005) isthe Thai L neilli (only the extinct L minutus issmaller described from samples recoveredfrom late Pliocenendashearly Pleistocene fissureand cave sediments Chaimanee 1998) andthe head and body proportions body size

weight and posture of the live animal closelyresemble Tonkinomys daovantieni (Marshall1988 485 provided a photograph of a liveLeopoldamys) Although the two species aresimilar in body size (table 2) they are strik-ingly dissimilar in other particulars of externalmorphology Leopoldamys neilli has (1) shortsleek brown fur over upperparts of head andbody that is sharply demarcated from whiteunderparts (long semispinous grayish blackfur over the dorsum and dark gray venter in Tdaovantieni) (2) slightly smaller external pin-nae both absolutely and relative to head andbody length (3) a long slender tapered tailthat is much longer than length of head andbody LTLHB 5 124 on average andsimilar to an inverted U in cross-sectionmdashflatventral surface and arched across sides andtop (less tapered in T daovantieni chunky andmuch shorter than head and body LTLHB 583 and round in cross-section) (4) a veryslender pointed tail tip that is covered withshort scale hairs no longer than 122 mm (tipof tail is stubby in T daovantieni covered bymuch longer hairs 527 mm and brush-like in

Fig 14 Occlusal views of maxillary (left) and mandibular (right) molar rows from right side of theholotype of Tonkinomys daovantieni (CLM1-3 5 83 mm CLm1-3 5 83 mm) See figure 13 for terminologyof cusps and cusplets


appearance) and (5) swollen plantar tuberclessituated in distal two-thirds of plantar surfaceas seen in Tonkinomys (figs 9 10) but slightlysmaller relative to plantar areamdashthe thenarpad for example forms about 17 of plantersurface (T daovantieni has relatively moreexpansive plantar padsmdashthe thenar constitu-tes about 20 of plantar surface) Short sleekfur with the coat that covers upperparts of thehead and body strikingly contrasting with theventral covering is characteristic of all extantspecies of Leopoldamys Also common to allextant species in that genus is a very long andtapered tail with its cross section resemblingan inverted U and its tip covered by veryshort bristles Elongate hind feet are commonto all Leopoldamys as are the number ofplantar tubercles their size relative to plantarsurface and distribution in the distal two-thirds of the plantar surface

The skull of L neilli is similar to that of Tdaovantieni in overall size (table 2) and thetwo are remarkably alike when viewed froma dorsal perspective (compare the cranialphotographs of Leopoldamys in Musser1981 259 and the drawing on p 264 withthe renditions in fig 10) In ventral viewhowever the two species are strikingly dissim-ilar Compared with the Vietnam species Lneilli (and all other extant species ofLeopoldamys) has (1) significantly shorter

incisive foramina their posterior margins wellanterior to faces of first upper molars (longerin T daovantieni the posterior edges locatedjust before anterior margins of first molarseven with them or slightly projecting betweenthe first molars) (2) a much shorter bonypalate its posterior margin aligned somewherebetween the middle or end of each third uppermolar depending upon the species and vari-ation within each sample (longer in Tdaovantieni extending beyond the molar rowsto form a wide platform) (3) longer postpalatallength which reflects the shorter bony palate(much shorter in T daovantieni) (4) widerchunky molars relative to size of skull whichis correlated with an absolutely narrower bonypalate (smaller gracile molars relative to sizeof skull and an attendant absolutely widerbony palate in T daovantieni) (5) molar rowsthat barely diverge posteriorly (molar rowsdiverge appreciably along anterior-posterioraxis in T daovantieni) (6) a small moderatelyinflated ectotympanic bulla relative to size ofthe skull (more inflated capsule in T daovan-tieni and absolutely larger in most examples)and (7) a very long bony eustachian tubeespecially contrasted with the small bulla(much shorter eustachian tube in T daovan-tieni) These differences also separate Tdaovantieni from specimens we examinedrepresenting the other five species of

TABLE 2

Summary Statistics for Cranial and Dental Measurements (mm) and Tail-to-Body Ratio of TonkinomysLeopoldamys and Niviventer Selected to Demonstrate Contrasts in Relative Tail Length and Size of Body

Skull and Maxillary Molar Rowa

(Mean observed range in parentheses and number of specimens are listed for each measurementvalues for L neilliare means derived from a sample of 12 LTLHB expressed as )

T daovantieni L neillib N andersoni c N confucianusc

(Vietnam) (Thailand) (Sichuan Yunnan) (Sichuan)

LHB 2046 (184ndash217) 13 217 1716 (150ndash198) 46 1432 (125ndash170) 24

LT 1689 (156ndash183) 13 270 2297 (194ndash269) 44 1827 (160ndash204) 23

LTLHB 83 124 134 128

LHF 390 (37ndash41) 13 42 351 (31ndash40) 47 298 (28ndash32) 20

LE 300 (29ndash31) 13 27 264 (22ndash28) 19 210 (20ndash23) 24

ONL 500 (471ndash524) 7 519 417 (387ndash457) 37 369 (339ndash405) 25

CLM 833 (80ndash88) 7 83 73 (69ndash75) 18 58 (53ndash63) 59

a Leopoldamys neilli is the smallest in body size of any extant Leopoldamys N andersoni is among the largest within

Niviventer and N confucianus represents most species in the genus in body size along with body and tail proportionsb Values are from Marshall (1988 485) and are means derived from 12 adultsc Lengths of head and body tail hind foot ear and ONL are from Musser and Chiu (1979 584) lengths of maxillary

molar rows are unpublished summaries by Musser and Lunde (ms) derived from AMNH samples collected in China


Leopoldamys Our study of those compara-tive samples also reveals that L neilli and theother species of Leopoldamys have wider andsturdier alisphenoid struts relative to skullsize and these struts are present in everyindividual of each species (relatively weakerstruts in T daovantieni and absent fromsome specimens)

Patterns of roots beneath certain molarsthat are characteristic of T daovantieni aredissimilar to those exhibited by species ofLeopoldamys Both extant samples (material inAMNH and USNM also see Musser 1981260) of Leopoldamys and those represented byfossils (Chaimanee 1998 Zheng 1993) havefour-rooted upper molars large posteriorsingle large lingual (we have never encoun-tered a specimen with two lingual roots) largeanterior and a small labial which is some-times divided (also four roots in T daovantie-ni but there are two large lingual holdfastsinstead of one and no labial root) AllLeopoldamys have a second upper molar thatis anchored by either three or four roots (onlythree roots in all our T daovantieni) BothLeopoldamys and Tonkinomys have three-rooted third upper molars All species ofLeopoldamys have four-rooted first lowermolars two large anterior and posterioranchors and smaller labial and lingual hold-fasts (all examples of T daovantieni have onlytwo roots an anterior and posterior coequalin size) Second and third lower molars inLeopoldamys have two roots (large anteriorand posterior) which is also the pattern in Tdaovantieni

In addition to the marked contrasts inrobustness and width of molars betweenLeopoldamys and Tonkinomys occlusal pat-terns of molars are different (compare illustra-tions of molar rows for Leopoldamys inMusser 1981 262 with those of Tonkinomysin fig 14) Coronal surfaces of maxillarymolars are characterized by simple patternsin both genera (no cusp t7 or posteriorcingulum on any molar no accessory cuspletsno longitudinal crests connecting the primarycusps) but the conformations of laminaeforming the occlusal surfaces are dissimilarThe anterior lamina of the first molar inLeopoldamys consists of a nearly horizontalsegment formed by the complete fusion of

cusps t2 and t3 and a discrete cusp t1 on itsposterolingual margin The second lamina isnot as straight but gently arcuate These arediagnostic molar traits for Leopoldamys Incontrast the two comparable laminae inTonkinomys are tight chevronsmdashcusps t1 andt3 are opposite each other in the first laminaas are cusps t4 and t6 in the secondFurthermore cusps t4 and t6 in T daovantie-ni although coalesced with the central cusp t5are large relative to overall dimensions of thelamina and retain part of their identity ascusps Comparable cusps in the second laminain Leopoldamys are relatively smaller and sobroadly merged with cusp t5 that theirboundaries are not determinable The largechunky posterior lamina in Leopoldamys iswider than long but roughly diamond-shapedin Tonkinomys Contrasts in second uppermolars are similar to those seen in the firstThe third upper molars in Leopoldamys havea stretched ridge-like cusp t4 compared withthe shorter version in Tonkinomys otherwisethe occlusal patterns in the two genera aresimilar

Cusps form either nearly straight or gentlyarcuate lamina in the lower (mandibular)molars of Leopoldamys The posterior cingulaare wide and elliptical in cross-section in allmembers of that genus prominent posteriorcusplets adorn the labial margin of the firstand second molars and two nearly straightlaminae form the occlusal surface of each thirdmolar (see the illustrations in Musser 1981260) In parallel with the upper molars ofTonkinomys the two cusps forming thelaminae of its lower molars are diagonallyoriented so that after wear they form chevronsin which the arms are very close the posteriorcingula are roughly triangular labial cuspletsare indistinct or not present on most speci-mens (prominent only in the holotype) andthe occlusal surface of the third molar isformed by a distinct anterior chevron-shapedlamina and a posterior oblong chunk

Niviventer and Chiromyscus We examinedsamples of all 17 of the currently recognizedspecies of Niviventer and the single species ofChiromyscus (taxonomy and geographic dis-tributions for both genera are summarized inMusser and Carleton 2005 specimens form-ing the comparative samples we utilized are


listed in the Appendix by Musser et al 2005)We preface our comparisons by explainingthat the present contents of Chiromyscus andNiviventer will likely be altered after carefulsystematic revision of these genera Musser(1981) characterized them provided provi-sional diagnoses and contents but his exposi-tion was more of a taxonomic summary andmeant to be a working hypothesis not a sys-tematic revision That kind of study has yet tobe realized Most species will remain inNiviventer but two sets may eventually bedifferently allocated Except for its nail-likeclaw on the hallux shelf-like ridges borderingdorsolateral margins of the postorbital regionand braincase pattern of roots beneath the firstupper molar (table 3) color pattern of thedorsal pelage and large and very bulbousplantar pads set close together other externaland most cranial and dental characteristics ofthe arboreal C chiropus are similar to thosefeatures in the species of Niviventer particular-ly N langbianis (Musser 1981 Musser andLunde ms) The latter is also arboreal(observations by Lunde and Musser derivedfrom trapping surveys in Vietnam) and shareswith C chiropus comparable prominent post-orbital and temporal ridges the number ofroots anchoring each first upper molar a nail-like claw on the hallux a pelage color patternthat does not match in details but is similarand equal expression of plantar pads Arevisionary inquiry may either move N lang-bianis to Chiromyscus or C chiropus will besubsumed within Niviventer (that name wouldthen be a synonym of the older Chiromyscus)

Niviventer andersoni and N excelsior formanother set now allocated to Niviventer thatwill probably be removed Musser (1981)described a suite of cranial and dental traitsheld by these two species that contrast withthe characters common to the other species inNiviventer Should information from otheranatomical systems and that derived fromchromosomal and biochemical surveys sup-port the cranial and dental distinctions he(p 328) noted lsquolsquohellip that the phylogenetic re-lationship between Niviventer and the Nandersoni division [would be] better expressedby excluding the latter from Niviventer andplacing N andersoni and N excelsior ina genus of their ownrsquorsquo

We accept the current although provision-al contents of Niviventer for our compara-tive context We will also refer only tolsquolsquoNiviventerrsquorsquo understanding that the contrastsbetween species in that genus and Tonkinomysare much the same as between the latter andC chiropus

While the body conformation of Ton-kinomys daovantieni recalls small-bodiedLeopoldamys no such resemblance existsbetween the Vietnamese animal and anyspecies of Niviventer Among the largestspecies of Niviventer in body size is Nandersoni which is still appreciably smallerthan T daovantieni (table 2) In all species ofNiviventer dorsal head and body fur rangesfrom buffy or brownish gray through brownto reddish brown (Musser 1981) Niviventerbrahma and N eha have grayish white under-parts (Musser 1970) N hinpoon has a buffypale gray venter (Marshall 1988) but all otherspecies have white venters No example ofNiviventer has Tonkinomysrsquos unique dorsaland ventral pelage coloration Some speciesof Niviventer however do have semispinouspelage similar in texture to that possessed byT daovantieni (N fulvescens and N tenasterare good examples) The conformation oftail and proportional relationship betweenlengths of tail and body in Tonkinomys(stocky with a stubby tip and significantlyshorter than combined head and bodylength) does not occur in any species ofNiviventer The tail is tapered to a pointedtip and gracile in appearance in all species ofNiviventer and much longer than length ofhead and body in all species except N hinpoonin which the tail is equal to or slightly longerthan head and body length (table 2 Marshall1988 Musser 1970 1973 1981 Musser andChiu 1979 Lunde and Son 2001) Theplantar pads of Tonkinomys are largercloser together and more swollen relative toplantar surface than in any terrestrial orscansorial species of Niviventer including Nhinpoon which is thought to be closelyassociated with limestone cliff habitats(Marshall 1988) or even the arboreal Nlangbianis and Chiromyscus chiropus (fig 9)N fulvescens (fig 9) exhibits the configurationof plantar pads that is common to mostspecies of Niviventer


The skull of Tonkinomys is appreciablylarger (as indexed by occipitonasal length)and more robust than all species of Niviventereven N andersoni which has the largest skullamong the species in the genus (table 2)The skull of Tonkinomys however is nota giant version of Niviventer compared withNiviventer Tonkinomys has (1) insignificantbasicranial flexion (most species of Niviventerdisplay marked basicranial flexion) (2) max-illary molar rows that are situated fartherforward relative to posterior margin of thezygomatic plate (front of molar row eithereven with back of zygomatic plate or wellbehind it in most specimens of Niviventer)(3) the squamosal root of the zygoma origi-nating higher on side of the braincase (setlower in Niviventer particularly N andersoniand N excelsior) (4) more slender alisphenoidstruts relative to size of skull with somespecimens lacking struts (relative to skull sizealisphenoid struts are more substantial in allspecies of Niviventer and present in all speci-mens we examined) (5) strongly posteriorlydiverging molar rows (parallel or only slightlydiverging in Niviventer) (6) a bony palateprojecting appreciably beyond posterior mar-gins of third molars to form a wide platform(posterior margin of bony palate endsabout 05 mm anterior to posterior surfacesof upper third molars even with them orno more than about 05 mm beyond in allspecies of Niviventer) (7) a posterior marginof the bony palate that is smooth or onlyslightly thickened (the palatal border is de-fined by a prominent and thick bony ridgein Niviventer) and (8) a thick bony andflat posterolateral projection of the bonypalate covering the anteromedial portion ofeach pterygoid plate its sharp diagonalborder (ppm in fig 12) defining the anterio-medial edge of the pterygoid fossa (no suchconformation in any species of Niviventer)Other than the larger size of each dentaryin Tonkinomys we did not detect any signif-icant differences with those of Niviventer inoverall shape positions of foramina ex-panse of coronoid condyloid and angularprocesses relative to body of the dentaryexpression of masseteric and lingual ridgingor position of the posterior terminus of theincisor capsule

Shapes of the upper and lower incisors inTonkinomys their enamel color and thicknessand the opisthodont conformation of theuppers resemble the incisors in all species ofNiviventer The larger size of these structuresin Tonkinomys provides the obvious contrastReflecting the much greater skull dimensionsof Tonkinomys when compared with species ofNiviventer are the elongate molar rows of theformer which are much longer than even thelargest-bodied species of Niviventer (table 2)Occlusal patterns of the upper molars fitwithin the range of variation we observedamong most species of Niviventer except thatcusps t4 and t6 on the second lamina of thefirst molar in Tonkinomys tend to retain moreof their identity and cusp t9 is smaller andindistinct relative to the huge central cusp t8The anterior lamina on the first upper molarin N andersoni and N excelsior resemblesthe shape in Leopoldamys and contrasts withthe comparable chevron-shaped lamina inTonkinomys but those two species also differfrom most other species of Niviventer in thistrait Coronal patterns of lower molars inTonkinomys are also closely similar to those inthe species of Niviventer

While occlusal patterns on upper and lowermolars in our sample of Tonkinomys fallwithin the range of variation of the patternswe observed among the species of Niviventerthe number of roots anchoring most of thosemolars do notmdashthis set of structures bythemselves identifies Tonkinomys as the rep-resentative of a monophyletic group separatefrom Niviventer a position only strengthenedby the external and cranial contrasts betweenthe two genera already described Except forthe first upper molar which has four rootsTonkinomys exhibits the primitive number ofroots anchoring upper (three per tooth) andlower (two per tooth) molars All species ofNiviventer in contrast have multi-rootedmolars (table 3 also see Chaimanee 1998and Zheng 1993) First upper and lowermolars can be used as examples Most speciesof Niviventer have five-rooted first uppermolars large anterior two smaller linguallarge posterior and small labial (some speci-mens have one or more labial rootlets inaddition to the primary labial anchor) In Nlangbianis and also in Chiromyscus chiropus


four roots anchor each molar large singlelingual large anterior and posterior roots andsmall labial Tonkinomys also possesses fourroots beneath each first upper molar but thepattern is different from that in N langbianisand Chiromyscus No specimen in our sample

of Tonkinomys has a labial anchor and thefour-rooted pattern is formed by large anteriorand posterior roots along with two prominentlingual roots A small labial root not a dividedlingual forms the fourth root in N langbianisand Chiromyscus Although our survey resultsfor second and third upper molars are notsummarized in table 3 we also determinedthat second upper molars in Niviventer havefour roots (three in Tonkinomys) and thirdupper molars have three (as in Tonkinomyswhich is the usual number for the third molarin most murines even when the first andsecond molars have more than three roots)

Four roots (large anterior and posteriorsmaller labial and lingual) anchor each firstlower molar in all species of Niviventer (andChiromyscus) but only two are present in theVietnamese limestone rat Two to four is therange in number of roots anchoring eachsecond lower molar among species ofNiviventer and each third lower molar haseither two or three roots (two roots beneathsecond and third molars of Tonkinomys)

Saxatilomys Described from two wholeanimals along with 14 individuals representedby cranial mandibular and dental fragmentsrecovered from owl pellets S paulinae hasbeen recorded only from the KhammouanLimestone National Biodiversity Conser-vation Area in Lao PDR (Musser et al 2005)

Body size build and proportions of limbspinnae and tail that are characteristic of Spaulinae resemble most species of NiviventerlsquolsquoS paulinae simply looks like a Niviventer andnot like any other species in any other genusrsquorsquo(Musser et al 2005 20) That Lao speciesstrikingly contrasts with the large-bodied andshort-tailed Vietnamese animal Tonkinomysdaovantieni is more robust in build and muchlarger in body size than S paulinae (range inlength of head and body is 184ndash217 mm for13 examples of T daovantieni versus 144ndash150 mm for two S paulinae) Its thick stubbytail is shorter than head and body length(LTLHB 5 83 average of 13 specimens)compared with the slim tapered and graciletail of S paulinae that is appreciably longerthan body length (LTLHB 5 112ndash116 fortwo individuals) The tail of both species isbicolored but the dark brown and whitepattern is different in each In T daovantieni

TABLE 3

Number of Roots on M1 and m1 in Selected Speciesof Niviventer and the Species of Chiromyscus and

Saxatilomys(Number opposite species indicates specimensexamined Symbol key 44 M1 with largeanterior single lingual and posterior roots anda small labial root m1 with large anterior andposterior roots and small labial and lingual roots54 M1 with large anterior and posterior roots twolingual and a small labial root m1 with largeanterior and posterior roots and small labial andlingual anchors 52 M1 with large anterior andposterior roots two lingual and a small labial rootm1 with a large anterior root and large posteriorroot Specimens surveyed are in AMNH BMNHFMNH and USNM)a

Species

Roots (M1m1)

44 54 52

N andersoni (China Sichuan Yunnan) mdash 46 mdash

N excelsior (China Sichuan) mdash 12 mdash

N brahma (northern Myanmar) mdash 7 mdash

N eha (northern Myanmar) mdash 17 mdash

N langbianis (Vietnam) 40 mdash mdash

N cremoriventer (Sunda Shelf ) mdash 53 mdash

N hinpoon (Thailand) mdash 15 mdash

N confucianus (China northern

Myanmar)

mdash 53 mdash

N tenaster (China Hainan Vietnam) mdash 55 mdash

N conninga (Taiwan) mdash 53 mdash

N rapit (northern Borneo) mdash 6 mdash

N fraternus (Sumatra) mdash 20 mdash

N lepturus (Java) mdash 21 mdash

N cameroni (Malay Peninsula) mdash 42 mdash

C chiropus (Vietnam) 2 mdash mdash

S paulinae (Lao PDF) mdash mdash 11

a Labial roots are divided into two or more rootlets on

some upper and lower molars but we did not count these

projections as independent roots In some specimens the

posterior root on the lower molar is furrowed down the

middle suggesting separate posterolingual and poster-

olabial anchors but we scored this configuration as one

large root The sample of S paulinae consists of two whole

animals and fragments recovered from owl pellets so the

count is derived from 3 first upper molars and 8 first lower

molars Sample sizes for all the other species are based on

complete specimens


the tail is dark brown except for the ventralsurface which is white and the distal one-fourth to one-half which is white on allsurfaces the tail of S paulinae is dark brownon dorsal and lateral surfaces from base to tipand white (with slight speckling) over only itsventral surface Both species have dense anddark gray fur covering upperparts and under-parts of the head and body Saxatilomyspaulinae however lacks a white foreheadblaze and white pectoral patch a patternexhibited by most examples of T daovantieniand its venter is lightly frosted in contrast tothe total gray of the Vietnamese animalTonkinomys and Saxatilomys do share bul-bous plantar pads that are very large relativeto plantar surface and arranged in a tightcluster (compare the plantar surface of Tdaovantieni in fig 8 with that of S paulinae infig 9)

Tonkinomys and Saxatilomys possess anelongate skull wide zygomatic plate relativeto cranial size narrow alisphenoid strutspresent in most specimens bony palateprojecting past the third molars to forma broad shelf with either a smooth or slightlythickened (not ridged) posterior marginstrongly divergent maxillary molar rows anda similar mandibular conformation (comparefigs 10 and 11 with the views of Saxatilomysin Musser et al 2005 fig 6)

The two species differ in size and somequalitative traits Tonkinomys has a morerobust and larger skull (occipitonasal lengthfor example ranges from 471 to 524 mm inseven T daovantieni and 403 to 405 mm forthe two intact skulls of S paulinae) Size of thegracile skull in the Lao genus resembles thelarger-bodied species of Niviventer (theIndochinese N tenaster for example comparethe values listed in tables 1 and 4 of Musser etal 2005 with those presented in table 1)Tonkinomys further contrasts with Saxa-tilomys by having a less tapered rostrum(when viewed from dorsal or ventral aspect)significantly less basicranial flexion (markedflexion in Saxatilomys see fig 6 in Musseret al 2005) and spacious incisive foramina(not the narrow slits of Saxatilomys

Three other qualitative features providemarked contrasts between the two genera InTonkinomys the squamosal root of the zygo-

matic arch is situated high on the side of thecranium where its ridge-like portion runshorizontally just below the posteroventralmargin of the parietal which projects ventradto form the dorsolateral side of the braincasethe low ridge of the squamosal root disappears10ndash15 mm anterior to the vertical ridgeformed by the squamosal-exocciptal suture(fig 11) The configuration is similar to thatcharacteristic of Leopoldamys and NiviventerThe squamosal root of each arch inSaxatilomys also originates high on the sideof the cranium but is oriented diagonally sothat its posterior ridge-like portion extendsdiagonally to merge with the squamosal-parietal suture (which forms the temporalridge) well anterior to the vertical ridgecreated by the squamosal-exoccipital suture(see figs 6 and 8 in Musser et al 2005) Theparietal does not drop below the temporalridge and the upper portion of the braincaseconsists only of the squamosal

Tonkinomys daovantieni and S paulinaehave a wide and long bony palate that projectsbeyond the molar rows to form a broadplatform In Tonkinomys the posterolateraledges of this shelf extends as a flat bonysurface onto the anterior portion of eachpterygoid plate where its sharp diagonalborder (ppm in fig 12) marks the anterome-dial margin of each pterygoid fossa No suchconformation exists in S paulinae (or in anyspecies of Niviventer)

The globular and only slightly inflatedectotympanic (auditory) bulla of Tonkinomysdoes not conceal all of the periotic A widewedge-shaped segment of that bone is exposedbetween the dorsal capsular margin andbasioccipital and this wedge of perioticextends anteriorly to form the dorsal andslanting posterodorsal wall of the carotidcanal (fig 12) The conformation is primitiveamong murines and closely resembles themorphology depicted by Carleton andMusser (1989 33) for the sigmodontineOligoryzomys and by Musser and Heaney(1992 99) for some of the Philippine OldEndemic murines By contrast the globularectotympanic capsule exhibited by Saxa-tilomys covers all but a narrow wedge of theperiotic and the anteromedial margin of thecapsule meets the basioccipital so that it is the


ectotympanic (or auditory capsule) that formsthe posterior wall of the opening into thecarotid canal This structural relationshipbetween ectotympanic and periotic is special-ized and is particularly well illustrated inCarleton and Musser (1989 33) for thesigmodontine Oryzomys palustris Species ofRattus and its allies have a comparable pattern(Musser and Heaney 1992 99)

Primary dental differences between Ton-kinomys and Saxatilomys involve size oneproportional feature and pattern of molarroots Tonkinomys has larger upper and lowerincisors than does Saxatilomys but otherwisepigmentation and thickness of enamel theirshapes and opisthodont configuration of theuppers relative to the rostrum are similarTonkinomys also has longer molar rows (asindexed by lengths of maxillary rows 80ndash88 mm in 7 specimens of Tonkinomys 72ndash73 mm for three Saxatilomys) length ofmaxillary row relative to occipitonasal lengthfor the two genera however is on averagenot significantly different (the ratio CLM1-3ONL using mean values from each genericsample is 17 for Tonkinomys and forSaxatilomys) In contrast to molar lengththe individual molars in Tonkinomys are notsignificantly wider than are the molars ofSaxatilomys (using breadth of the first uppermolar as a guide the mean is 21 mm for 7examples of Tonkinomys and for 3 specimensof Saxatilomys contrast the values listedin table 1 with those figs in table 4 inMusser et al 2005 21) indicating significant-ly narrower molars relative to length of themaxillary row (the ratio BM1CLM1-3 usingmean values from each generic sample is 25for Tonkinomys and 29 for Saxatilomys)Two roots (large anterior and posterior)anchor each lower molar in all specimensexamined of Tonkinomys and Saxatilomysbut the root patterns for the first andsecond maxillary molars are dissimilar inthe two genera In Tonkinomys the firstmaxillary molar has four roots (anteriorposterior and divided lingual) the secondhas three Saxatilomys has five-rooted firstmolars (table 3) and four-rooted second mo-lars in samples of both Tonkinomys andSaxatilomys three roots anchor each thirdmolar

Tonkinomys and Saxatilomys (along withmost species of Niviventer) share similarmaxillary and mandibular molar occlusalpatterns Distinctions between the Viet-namese and Lao limestone rats are presentbut not spectacular (contrast fig 14 with theocclusal views of Saxatilomys in Musser et al2005 fig 10) compared with Saxatilomyscusps t4 and t6 on the second lamina of thefirst maxillary molar in Tonkinomys tend toretain more of their identity (less distinct inSaxatilomys and in most species ofNiviventer) second and third mandibularmolars lack anterolabial cusps in most speci-mens (most species of Niviventer also lackthese cusps but they are present inSaxatilomys) and the cusps on upper andlower molars form more distinct and tighterchevrons (cusp rows more arcuate withgreater space between arms of each chevronin Saxatilomys)

Other genera We also compared examplesof Dacnomys and Srilankamys otherIndomalayan members of the DacnomysDivision with our sample of TonkinomysDacnomys is a giant version of Niviventerespecially N andersoni in its external andcranial traits as well as root patterns of themolars (see description and illustrations inMusser 1981) Those molars however arelarge chunky and hypsodont with compli-cated cuspidate occlusal patterns and strik-ingly contrast with the brachydont and gracilemolars with their simple occlusal patternspossessed by all species of NiviventerTonkinomys bears no close resemblance toDacnomys in external cranial or dental traits

A combination of traits some of whichrecall features in Niviventer others that re-semble Maxomys and some that are uniquecharacterizes the morphological definition ofSrilankamys (see the description and illustra-tions in Musser 1981) Its membership in theDacnomys Division is provisional pendingreassessment of its phylogenetic relationshipsby additional morphological characters incombination with molecular data (Musserand Carleton 2005) Srilankamys shares thesame pattern of molar roots with Tonkinomysbut otherwise its diagnostic external andcranial traits along with molar occlusalpatterns are unlike those of Tonkinomys


Musser and Carleton (2005) included thePhilippine Mindoran endmic Anonymomysmindorensis in the Dacnomys Division Itsplacement there however is very provisionalSome morphological traits of Anonymomysrecall those of genera in the DacnomysDivision particularly Niviventer but otherssuggest a closer affinity to Bornean andSulawesian Haeromys a member of theMicromys Division of Musser and Carleton(2005) Tonkinomys is morphologically distantfrom Anonymomys and requires no compar-isons with it

Our comparative study also included theIndomalayan Maxomys although that genusis not contained within the Dacnomys Group(Musser and Carleton 2005) Species ofMaxomys are prominent members of theIndochinese murine fauna (Corbet and Hill1992) and some share with Tonkinomys thesame number of roots anchoring each molar(Musser et al 1979) Any close similarity endswith that character complex No species ofMaxomys has the pelage coloration possessedby Tonkinomys or the thick short tail or thecrowded fleshy palmar and plantar padsAdditionally all Maxomys have short wideincisive foramina that have the outline of aninverted heart a bony palate ending wellanterior to posterior margins of the molarrows a very long postpalatal region and othercranial attributes as well as molar occlusalpatterns (see descriptions and illustrations inMusser 1991) that are not shared withTonkinomys We found no derived charactersthat identified Tonkinomys as either a memberor close relative of Maxomys

Fossils Reports covering murines recoveredfrom late Pliocene to Pleistocene sediments incaves and limestone fissures in Thailandand China contain descriptions of samplesidentified as species of Leopoldamys Nivi-venter and related extinct genera The bulkof the material is comprised of isolatedmolars a few samples contain cranial andmandibular fragments Only some of thepublications contain information pertinent toour inquiry

In her detailed and comprehensive treatiseon the Plio-Pleistocene rodents of ThailandChaimanee (1998) described samples repre-senting extant species of Leopoldamys (L

sabanus) and Niviventer (N fulvescens) andnew species in those genera that are extinctand represented only by fossils (L minutusand N gracilis) Judged from her descriptionsmeasurements and illustrations all thesesamples are correctly allocated to genus nonerepresents Tonkinomys

Pleistocene samples from Guangxi Provincein southern China were determined by Chen etal (2002) to contain examples of Niviventerand Leopoldamys but no identifications tospecies were provided Zheng et al (1997)reported the extant Niviventer confucianus andextinct N preconfucianus from Plio-Pleistocenefissure fillings in Shandong Province Mea-surements and drawings of molar occlusalpatterns presented in these reports convinceus their generic attributions are correct

Zheng (1993) has provided perhaps themost comprehensive and thorough survey offossil murines recovered from late Plioceneand Pleistocene cave and fissure fillings Allcome from the northern margin of theYunnan-Guizhou Plateau within an areabounded by 104u to 110uE and 26u to 31uNin the provinces of Sichuan and Guizhou Byclear descriptions and a wealth of measure-ments Zheng meticulously documented thoseparts of the samples representing extantLeopoldamys edwardsi and extinct L edward-sioides extant Niviventer fulvescens N con-fucianus N andersoni and possibly N excel-sior and the extinct N preconfucianus Hisdescriptive and quantitative data along withclear illustrations provide unquestionablesupport for his identifications

Zheng (1993) also described three newspecies in two new genera that seem morpho-logically similar to Niviventer and othermembers of the Dacnomys Division Wusha-nomys brachyodus is represented by a largecranial fragment containing intact molar rowsdentary fragments with complete or partialmolar rows and numerous isolated upper andlower molars The fossils come from sedimentsthought to be no older than 25 million yearsago and no younger than 10 million yearsago Judged by length of upper (930 mm 1specimen) and lower (880ndash920 mm 5 speci-mens) molar rows this extinct species is muchlarger than Tonkinomys daovantieni (uppers803ndash878 mm 7 specimens lowers 764ndash


852 mm 10 specimens) Range in measure-ments of first upper (400ndash490 mm by 214ndash266 mm 85 examples) and lower (340ndash395 mm by 190ndash220 mm 97 specimens)molars of W brachyodus overlaps with thoseof T daovantieni (table 4) but average longerand wider (see Zheng 1993 190) Most of thefirst upper molars in W brachyodus have threeroots but Zheng noted that some molars havea divided lingual (see Zheng 2004 175) whichis the pattern in T daovantieni First lowermolars have two roots the primitive patternthat is also typical of the Vietnamese limestonerat

Molar occlusal patterns of Wushanomys areunlike those of Tonkinomys The anteriorlamina on the first upper molar inWushanomys consists of a straight segmentformed by the complete fusion of cusps t2 andt3 and a posteriorly offset cusp t1 the secondlamina is arcuate in outline and cusp t9 isdistinct in the posterior part of the tooth (seethe illustration in Zheng 1993 192) Theseocclusal outlines are strongly dissimilar tothe strong tight chevrons formed by the twofront laminae on the first upper molar inTonkinomys (fig 14) and its cusp t9 socoalesced with the large central cusp t8 thatit resembles a low ridge Laminar outlines onlower molars of Wushanomys are also nearlystraight or form wider-armed chevrons a con-trast with the tight chevrons in Tonkinomys

The cranial and mandibular fragments ofW brachyodus provide additional compara-tive information Zheng did not illustrate thespecimen but described it as having very longincisive foramina that terminate 17 mm pos-terior to anterior faces of first molars a bonypalate extending about 07 mm beyond themolar rows to form a short platform a verynarrow interorbit (6 mm) especially for whatseems to be a large skull judging from lengthsof molar rows and a flat wide zygomaticplate (no measurement listed) Zheng didinclude a drawing of a partial dentary (thebody of the ramus behind the molar row isgone p 204) The portion anterior to themolar row along with the incisor is long andslender and the dorsal outline from anteriormargin of the molar to incisor tip is gentlyconcave This conformation usually accom-panies a long rostrum and the mandibular

configuration recalls that typical of the long-nosed Sulawesian murines Bunomys prolatusand B chrysocomus (Musser 1991 12ndash13) InTonkinomys posterior margins of the incisiveforamina end just in front of anterior faces ofthe first molars even with them or extendonly slightly beyond (no more than 05 mm)the bony palate extends 15ndash20 mm beyondthe molar rows forming a much more expan-sive platform and the interorbit is wide (66ndash73 mm table 1) which is the usual pro-portion in skulls the size of Tonkinomys (andother murines Leopoldamys neilli for exam-ple) The bony projection containing the lowerincisor in the dentary of Tonkinomys is shorterand thicker and the dorsal outline from molarrow to incisor tip is more deeply concavea shape common to species of NiviventerLeopoldamys and other murines with lessspecialized dentaries (Musser 1981 272Zheng 1993 204)

Zhengrsquos description of the cranial traits inWushanomys brachyodus tantalizingly resem-bles the conformation in other extinct mur-ines such as the Canary Islands Malpaisomysinsularis which was likely adapted to livingand climbing about in the creviscular systemof lava fields (Boye et al 1992 Hutterer et al1988) Perhaps W brachyodus lived andclimbed about in karstic fissures had a longrostrum and included invertebrates in its dietWhatever its habitat and habits the summa-tion of morphological traits characterizing thecomplement of fossil remains identifies inour view a monophyletic group (at the levelof genus) separate from that representedby Tonkinomys daovantieni other thanWushanomys likely being a member of theDacnomys Group there seems no closerphylogenetic link between Wushanomys andTonkinomys

Zheng (1993) described a second species ofWushanomys W hypsodontus based on a fewisolated molars that are high-crowned haveslightly more complex occlusal surfaces andgreater dimensions than found in W brachyo-dus The time span in which the fossils lie is 20to 18 million years ago

Zhengrsquos other new genus and speciesQianomys wui is based on a small series ofdentary fragments containing full or partialmolar rows an isolated first lower molar and


two upper molars These were recovered fromsediments thought to be late Pleistocene400000 to about 200000 years ago The twoupper molars (440 mm and 460 mm long)fall within the high end and slightly beyondthe range of variation in molar length werecorded for Tonkinomys daovantieni but theyare much wider (235 mm and 240 mm) thanthe molars of T daovantieni (table 4) Theocclusal pattern does not match that ofTonkinomys and five roots are present Theuppers are not examples of the Vietnameselimestone rat Even Zheng noted their closesimilarity to Niviventer in crown outline andnumber of roots and suggested they may notbe correctly associated with the lower molarsto which the generic and specific name isnomenclaturally attached We agree For usZhengrsquos diagram (p 199) of a first uppermolar closely resembles N andersoni inocclusal pattern however the size is slightlyoutside the range of variation we obtainedfrom our sample of that species (table 4) andthat which Zheng derived from his material ofN andersoni (p 181)

The three intact lower molar rows ofQianomys for which measurements are pro-vided (860 940 and 943 mm) are apprecia-bly longer than those in Tonkinomys (764ndash852 mm 10 specimens) as are length andwidth dimensions of the first lower molars(366ndash420 mm by 210ndash234 mm 8 specimensof Qianomys 340ndash350 mm by 190ndash200 mmin Tonkinomys table 4) If molar dimensionsare any indication of skull and body size Qwui was a much larger rat than T daovantieniQianomys and Tonkinomys share the sameprimitive root pattern two beneath each lowermolar Occlusal patterns formed by the rowsof laminae fall within the range of patternsexhibited by Tonkinomys as well as species ofNiviventer Zheng however claimed that noneof the molars he assigned to Qianomys haveanterolabial cusps on the second and thirdmolars or posterolabial cusplets on any molarfeatures in addition to number of roots whichhe used to distinguish Qianomys fromNiviventer Comparable cusps do occur onthe lower molars of T daovantieni Anillustration of a partial dentary (Zheng 1993204) indicates the portion anterior to themolar row to be similar in shape to that of

Tonkinomys Niviventer Leopoldamys andSaxatilomys

Qianomys wui is certainly a different speciesthan Tonkinomys daovantieni Whether thegross similarities between the two in molarocclusal patterns signal close phylogeneticrelationship or convergence cannot be de-termined until we can compare the fossilsdirectly with our extant samples and untilcranial material representing Qianomys isrecovered and described Resolving the am-biguous association between the present sam-ple of upper molars and lowers allocated toQianomys is also critical That genus wouldresemble only Saxatilomys among members ofthe Dacnomys Division if the five-rooted firstupper molars with their Niviventer-like occlu-sal patterns actually belong to Qianomys withits two-rooted lower molars

A recent report by Zheng (2004) documentsidentities of rodents represented mostly byisolated molars collected from sedimentarylayers in Longgudong Cave (30u3991490N110u0492910E) the lsquolsquoJianshi Homind Sitersquorsquo inwestern Hubei Province of central ChinaGeological age was given as Early Pleisto-cene but correlation between the 11 sedimen-tary layers sampled and the geomagneticpolarity timescale indicated a range extendingfrom the Olduvai Event of the MatuyamaChron (the PleistocenePliocene boundary)back to earlier than 215 million years beforethe present reflecting initial deposition duringthe Late Pliocene (see Flynn et al 1997 andQiu 1989 for illuminating expositions ofChinese geochronology at the end of theNeogene) Among the murines recovered werethree species in the Dacnomys Division One isthe extinct Niviventer preconfucianus whichZheng himself had named and described in1993 and another is represented by isolatedmolars identified only as an undeterminedspecies of Leopoldamys The third is a newspecies of the extinct Wushanomys W ultimusdescribed from molars recovered from all butthe top two layers of the cave sediments mostfrom layers dated between 195 to earlier than215 million years before the present (LatePliocene) Molars from W ultimus are in-termediate in size between the earlier describedW brachyodus and W hypsodontus (Zheng1993) express greater hypsodonty and differ


slightly in coronal patterns Ranges in lengthand breadth values for first upper (390ndash492 mm by 220ndash265 mm 22 examples) andlower (290ndash430 mm by 198ndash230 mm 18specimens) molars of W ultimus (see Zheng2004 173) overlap with those of Tonkinomysdaovantieni (table 4) but average slightlylonger and wider Each first lower molar ofW ultimus has two roots the pattern commonto the other two species of Wushanomys butfirst upper molars have either four (anteriordivided lingual posterior) or five roots (asmall labial holdfast or nubbin in addition tothe four primary roots) The pattern of thefour primary roots beneath the first uppermolars and two anchoring first lower molarsalso characterizes Tonkinomys daovantieni butmolars of that Vietnamese rat are not hypso-dont and although the extinct and extantspecies share molars similar in size theirocclusal patterns are dissimilar The occlusalcusp patterns characteristic of W ultimusresemble except for minor details those inW brachyodus and differ from T daovantieniin the configurations we previously describedcontrasting W brachyodus and the Vietnamesespecies

These new samples of the DacnomysDivision recovered from the Jianshi HomindSite provide additional information on LatePliocene geographic distributions of Niviventerand Leopoldamys The geographic range ofWushanomys is also expanded as is thediversity of species in that genus Judgedfrom Zhengrsquos (2004) descriptions measure-ments and illustrations none of the identifiedfossil molars represent the VietnameseTonkinomys

Our final survey of fossils assesses theidentification of murines recovered fromPleistocene sediments in Ma UrsquoOi cave innorthern Vietnam south of Hanoi (Bacon etal 2004) One mandible containing a completemolar row was identified as Niviventer fulves-cens an upper first molar and a lower firstmolar were attributed to N andersoni anda dentary containing all molars and isolatedfirst and second molars were determined asLeopoldamys sabanus The molars were iden-tified by comparing them with Chaimaneersquos(1998) treatise on fossil Plio-Pleistocene Thairodents Unfortunately we are not treated to

drawings of molar occlusal cusp patterns orto measurement values for the sample of Nfulvescens

We cannot verify the identification of Nfulvescens That species is common in northernVietnam and in many places occurs togetherwith N tenaster (results of our trappingsurveys in several different regions of northernVietnam) which is somewhat larger in dimen-sions of body and skull as well as length ofmolar row and breadths of molars (Musserand Lunde ms) Niviventer tenaster alsooccurs in northern Thailand (Musser andCarleton 2005) but Chaimanee (1998) didnot include it in her report The materialreported by Bacon et al (2004) should bereexamined to determine whether it is really Nfulvescens or possibly N tenaster

Measurements listed by Bacon et al (2004)for two first lower molars of Leopoldamys (40by 26 mm and 47 by 28 mm) fall within therange of variation for the larger species ofthat genus (Chaimanee 1998 Zheng 1993)and well outside the range for our sampleof Tonkinomys (table 4) The lower secondand third molars that were identified as Leo-poldamys are also large and likely representthat genus But these fossil molars may notbelong to L sabanus Leopoldamys requirestaxonomic revision because more species existthan are usually recognized (four were listedby Musser and Carleton 1993 and six byMusser and Carleton 2005 which still under-estimates the number of species) and thesituation in northern Vietnam is especiallycomplex At least two species occur there Onemay be L edwardsi the other is usuallyidentified as L sabanus but is actuallya different species (Gorog et al 2004Musser and Carleton 2005)

An upper first molar and lower first molarwere identified as Niviventer andersoni inBacon et al (2004) Ma UrsquoOi cave is far southof the present geographic distribution of Nandersoni which extends from eastern Xizang(Tibet) through northern Yunnan westernSichuan and northern Ghizhou to southernShaanxi and over an altitudinal range from6000 to 10000 ft (Musser and Chiu 1979Musser and Carleton 1993 2005) We soughtto determine whether these two fossil molarsbelong to Tonkinomys Dimensions of the first


upper molar (37 by 20 mm) do fall within therange of variation of our values (table 4) andthose tabulated by Zheng (1993 181) for largesample sizes of N andersoni Breadth of thefossil molar fits within our observed range forfirst upper molars of Tonkinomys but thelength is much too shortmdashbased on thesedata the molar did not come from theVietnamese limestone rat However it maynot represent N andersoni The width forexample matches our range of values for Nexcelsior and the length is only 01 mmshorter (table 4) Niviventer excelsior is a closerelative of N andersoni that presently occursonly in high mountains north of the YangtzeRiver (Musser and Chiu 1979) For Nexcelsior to have once occurred in northernVietnam however seems as implausible to usas the presence of N andersoni there espe-cially because all the fossils of other mammalsfound in situ in the Ma UrsquoOi cave define lsquolsquohellipa relatively modern fauna helliprsquorsquo (Bacon et al2004 312) Niviventer tenaster currently livesin northern Vietnam in forest habitatsLengths and breadths of first upper molarsfrom this species in our sample from thatcountry nearly embrace dimensions of thefossil molar (table 4) and that tooth justmight be from a large individual of Ntenaster Both N andersoni and N excelsiorcan easily be distinguished from N tenaster byocclusal patterns In the former pair theanterior lamina on the first upper molar

consists of a nearly straight segment formedby the coalesence of cusps t2 and t3 anda posteriorly displaced lingual cusp t1 (see figsin Musser 1981 and Zheng 1993) Thecomparable lamina has an arcuate outline onthe upper molar in N tenaster similar to thatfound in N confucianus (Musser 1981) Thefossil molar needs to be reexamined it is notan example of Tonkinomys and we questionits identity as N andersoni

The first lower molar determined to be Nandersoni in Bacon et al (2004) is large (41 by25 mm) and its dimensions fall far outsidethe range of variation in our samples ofTonkinomys Niviventer andersoni N excelsi-or and N tenaster (table 4) The tooth isactually about the same size as the two firstlower molars (40 by 26 mm 47 by 28 mm)they identified as Leopoldamys The valuesare either misprints or the molar doesbelong to Leopoldamys it and the first uppermolar assigned to N andersoni warrantsrestudy

Summary There would have been anelegant symmetry in discovering ancientfossilized remnants hidden in limestone fis-sures that represented the same murine speciesliving today in creviscular habitats within thetower karst landscape forming northernVietnam Unfortunately we cannot unambig-uously tie any published identifications offossilized fragments representing Indochinesemurines to the extant Tonkinomys daovantieni

TABLE 4

Summary Statistics for Lengths and Breadths (mm) of First Upper and Lower Molars of Niviventer andersoni(China Yunnan and Sichuan) N excelsior (China Sichuan) N tenaster (Vietnam) Pleistocene First Molars

Identified as N andersoni by Bacon et al (2004) and Tonkinomys daovantieni (Vietnam)(Mean plus or minus one SD and observed range in parentheses are listed for each measurement Samples

consist entirely of AMNH specimens except those reported by Bacon et al 2004)

N andersoni N excelsior N tenaster Bacon et al T daovantieni

(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01

(35ndash40) (31ndash36) (30ndash36) (41ndash45)

Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01



Its past distribution and phylogenetic allianceto extinct taxa as might have been illuminatedby fossils remain a mystery

Unresolved also is the phylogenetic positionof Tonkinomys with respect to LeopoldamysNiviventer and Saxatilomys the three extantgenera with morphologies most like that ofTonkinomys The differences enumeratedabove between Tonkinomys daovantieni onone hand and species of Leopoldamys andNiviventer on the other reflect a combinationof primitive and derived features Relative tothe pelage coloration shape of tail and itslength relative to length of head and body inLeopoldamys and Niviventer the contrastingcondition in Tonkinomys is derived Alsorepresenting specializations in Tonkinomysare the position of the squamosal zygomaticroots high on the sides of the braincaseslender or no alisphenoid struts its longincisive foramina a very long bony palatethat projects beyond the molar rows to forma broad shelf posteriorly diverging maxillarymolar rows simple molar occlusal patternsand a divided lingual root beneath the firstupper molar Presence of three roots beneatheach second and third molar and two rootsanchoring each lower molar represent theprimitive condition in Tonkinomys comparedwith the derived state in Leopoldamys andNiviventer Tonkinomys daovantieni resemblesthe Indochinese Leopoldamys neilli in bodysize and it along with the other Indomalayanspecies of Leopoldamys in general cranialconformation and a few cranial particulars(position of the squamosal zygomatic rootsfor example) with Niviventer Tonkinomysshares long incisive foramina comparableinflation of the auditory bulla relative to theunderlying periotic bone and similar molarocclusal patterns Other traits exclude Tdaovantieni from each of those genera asthey are currently diagnosed (Musser 1981)No species of Leopoldamys or Niviventer (orChiromyscus) whether occurring in Indochinaor on the islands on the Sunda Shelf hasTonkinomysrsquos combination of dark grayishblack upperparts and dark gray underpartsthick tail with a stubby tip that is muchshorter than length of head and body largebulbous and contiguous plantar pads bonypalate projecting well beyond the third molars

to form a shelf with a smooth posteriormargin strongly diverging (along the ante-roposterior axis) maxillary molar rows de-rived root pattern for the first upper molarcoupled with the primitive root patternsunderlying the other uppers and all the lowermolars

Both Tonkinomys daovantieni and Saxa-tilomys paulinae are associated with forestedkarstic habitats Both genera display darkgray pelage large and swollen plantar tuber-cles a bony palate that projects beyond themolar rows to form a broad platformmaxillary molar rows that appreciably divergeposteriorly (along the anterior-posterior axis)and are long relative to length of skull andtwo-rooted mandibular molars All but theroot pattern are specialized traits This com-bination of attributes is not combined in anyspecies of either Leopoldamys or Niviventer (orChiromyscus) We do not know whether themorphological specializations shared by Tdaovantieni and S paulinae phylogeneticallylink these species closer to each other than tospecies of Leopoldamys and Niviventer orrather reflect independent evolutionary adap-tations to forested karstic environments in theIndochinese tropics In opposition to theshared specializations external morphologyof Tonkinomys (except for relative length oftail) recalls a small-bodied Leopoldamys whilethat of Saxatilomys resembles most speciesof Niviventer Overall cranial form inTonkinomys also resembles Leopoldamys andexcept for those cranial traits that distinguishS paulinae from species of Niviventer (com-parisons are enumerated by Musser et al2005) the general cranial conformation ofSaxatilomys is not unlike most species ofNiviventer Inferring the phylogenetic relation-ship of Tonkinomys among species now allo-cated to the Dacnomys Division in general andespecially to species of Leopldamys Niviventer(including Chiromyscus) and Saxatilomys willrest on results derived from future phylogeneticanalyses of information derived from bothmorphological and molecular sources

HABITAT AND HABITS

The Dao village of Lan Dat lies withina spectacular tower karst landscape its houses


and adjoining agricultural clearings scatteredover flat depressions nestled among highlimestone hills with steep sides and sheerexpansive cliffs The area epitomizes theclassic description of karst landformslsquolsquoKarstic terrain is commonly characterizedby closed depressions subterranean drainageand cavesrsquorsquo (Gillieson 1996 59) The climate ismonsoonal with most of the yearrsquos rainconcentrated from April to October Averageannual rainfall (measured at Lang Son over50 years) is 1395 mm and even though coldtemperatures dominate from Novemberthrough March humidity remains high theannual relative humidity averaging 81 (ETHieu1995)

Most of the flat areas once supportingtropical moist deciduous forest have beencleared by the Dao for rice cultivation andshifting agriculture Forest remains at thebase of the cliffs in ravines between the hightowers and on the steep slopes and it is notunlike Whitmorersquos (1984 174) descriptionlsquolsquohellip limestone slopes have a dense irregularforest with trees clinging precariously theirroots penetrating to great depths in creviceshelliprsquorsquo The forest consists of a low canopy (upto 15 m high) with taller (up to 25 m ormore) emergents scattered over the steepslopes Most trees are small (1ndash3 ft in di-ameter near the base) except in placesallowing accumulation of sufficient soilwhere huge emergents are able to growHere and there a grove of emergent speciesforms a small area of high canopy Palmsand bamboo clumps are scattered throughthe understory strangler figs are uncommonand woody vines drape over high limestoneledges and form tangles beneath the forestcanopy The limestone towers are denselyforested except for the sheer cliffs Clumps ofPandanus are common at the base of thesewalls and sometimes grow higher where theycan obtain purchase in joints and fissuresWe did not encounter cycads in the forestand saw them only high on the vertical cliffsIsolated clumps of bamboo remain in someof the clearings and dense bamboo forestcovers the steep slopes and tops of somelimestone towers

Most of the hillsides support primary forestold and tall secondary growth covers hillsides

close to houses and fields and scrub habitatsdominate clearings not utilized for crops(fig 1) Forest once growing on the few flator gently sloping places above the valley andbetween limestone towers has been eitherremoved or thinned The primary forest coveris also not undisturbed by human activityTrails cut through the understory usually leadto remnants of a huge emergent tree felled andprocessed for lumber Natural disturbance inthe form of treefalls and landslips is eventuallycovered by shrubs and then taller second-growth

The day we broke camp and climbed out ofthe valley our usual trail chatter was silencedby a loud rumble which had been generatedby a massive rockslide This is a periodicunpredictable event according to the villagersand potentially dangerous Weathering ofthe high cliff faces through the combinedforces of water dissolving the limestonedifferences in temperature and pressure fromlarge tree roots eventually dislodge chunksof cliff wall some small others huge Suchan event formed the habitat in which wetrapped most of the limestone rats Abovethe valley floor a wide ravine between twocontiguous limestone towers had been filledby a chunk of cliff wall the size of a smallhouse along with smaller piecesmdashbasicallya talus of large blocks between the towersThe openings among the pieces were eventu-ally enlarged mostly by water flowing intothe rubble pile from the top and under-neath it along the bottom of the old ravineThe result is a honeycomb of passagewayssome extending vertically to small openingson top of the rubble others opening to anuncovered section of the ravine Walls ofthe labyrinth are wet and the air is coolShrubs vines and moss cover the surface ofthe rubble hill forest persists at the cliffbases of each tower and small trees arescattered over the talus (fig 2) The surfaceof the rubble is difficult to negotiate Rainhas sculpted the limestone into small depres-sions surrounded by knife-sharp edges smallto large openings are everywhere some asdeep as 8 meters that expand into largecavities and some openings are concealedby loose limestone fragments that shift un-derfoot


Thirteen of the T daovantieni were caughtin this talus Two were trapped on the surfaceone beneath a shrub the other one at themargin of the rubble beneath a rotting trunkFive were taken in traps set at the bottom ofthe ravine beneath the main overhanginglimestone chunk (the configuration resembleda small cave but was really only a low passagebeneath the straddling rock) Another wascaptured on a moss-covered ledge just outsideof this cave-like passage Five others werecaught in traps lowered by ropes throughsmall and large holes in the talus surface to thebottom of the labyrinth which ranged from 4to 8 m depending on how close the verticalpassages were to sides of the ravine In thesesituations most live and snap-traps wereplaced directly on the passageway floorsTraps placed on limestone ledges above thisrubble near bases of the towers or in the denseforest covering steep slopes away from thetalus yielded only Niviventer fulvescens and Nlangbianis

Tonkinomys daovantieni was not the onlyinhabitant of this talus We captured a Rattusandamanensis and a Niviventer fulvescens atthe mouth of the cave-like passage an Nfulvescens on the surface and one at thebottom of the deepest chamber

The only limestone rat not trapped in or onthe talus was taken in mature second growthhillside forest behind camp which is at the otherend of the valley from the rubble where all theothers were caught Here between the massivecliffs and valley floor is a steep middle region oflimestone talus formed of small to massivechunks that broke away from the cliff aboveThis is the only talus-like structure we encoun-tered here While soil has filled in most of thespaces among the blocks apparently enoughinterstices and underground extensions exist toprovide the proper habitat for T daovantieniEither that or the animal wandered from placeson the tower we did not survey The forestcovering the talus is dense and festooned withwoody vines Niviventer fulvescens and thearboreal N langbianis were common

Populations of T daovantieni apparentlyhave a patchy distributional pattern Despiteour sampling efforts on other hillsides wheretraps were placed beneath rocky outcrops onledges at the bottom of deep fissures in cliffs

and on the forest floor we did not encounterany T daovantieni A large cave was accessi-ble but it was being used as a corral for cattlethe interior was dry and mostly scrub andyoung secondary forest persisted near theentrance Traps placed on ledges inside thecave and outside near the entrance yieldednothing We also set traps in a small wet caveused as a roosting site by bats No limestonerats were caught Caves occur throughout thearea but the openings to most are high in thecliffs and inaccessible to us

Certainly more field study is required toassess the habitat requirements of T daovan-tieni but our trapping experience suggests thisforest species to be petricolous It seems torequire large areas of rock debris or talus thatprovides sufficient passageways and chambersfor protected den sites and a cool dampenvironment Long vibrissae large bulbouspalmar and plantar pads and a tail that isconsiderably shorter than head and body thatis thick and stubby-tipped and that has a well-haired distal half and tip are adaptationsimportant in a creviscular environment Thevibrissae monitor the cracks and walls forprey surface information and passage widththe fleshy pads provide purchase on rocksurfaces and the tail is used for balance asthe rat scurries up and over the rocks andthrough the crevices and passageways or asa fifth appendage when pressed against thelimestone (the hairs would aid in purchase bypressing against the rough surface) We seesimilar adaptations in other petricolous mur-oid rodents The bushy-tailed woodratNeotoma cinerea for example is a NorthAmerican cricetid analog to the Vietnamesemurid T daovantieni This species of Neotomadens in caves fissures in high cliffs and deepin talus slopes (Finley 1958 Grayson 1999Musserrsquos trapping experience) Size and flesh-iness of its footpads relative to foot sizelength of tail relative to head and bodylength and even overall body size is closelysimilar to these qualities in the limestone rat(see measurements provided by Finley 1958322ndash325)

A cool and damp environment of crevicesand larger passageways may be important tothe diet of T daovantieni because the diversityand numbers of arthropods is probably higher


there than in dry situations Of two limestonerats kept captive one devoured two kinds ofcockroaches a large-bodied species caught atthe talus and a smaller species collected invillage houses and at camp This rat refusedoffers of corn manioc snails earthwormsgrasshoppers beetles and small frogs Ourother captive rejected cockroaches offeredduring daytime but headless bodies we piledin its cage were gone by morning We are notsure whether they were dragged away byinsects or eaten by the rat We extractedstomach contents from two rats In one thestomach was distended with bait (mixture ofpeanut butter bacon pieces oatmeal andraisins) in which were scattered pieces of verysmall beetles which were likely on the bait andinadvertently ingested by the rat The stomachof the other was partly full containingfragments of sclerites intermingled with softunidentifiable animal tissue Tonkinomys dao-vantieni includes insects in its diet but othercomponents remain to be discovered

The limestone rat is probably nocturnal butmay also be active at times during the day Wewere drawn to the talus because during onelate morning Lunde had glimpsed a largedark gray rodent scurrying across the lime-stone and disappearing into the rubbleResults from the first nightrsquos traps revealedthe rodent to be the limestone rat We keptour traps in place during day and night andoften checked them in the evening but nevercaught any rats during the day

CLOSING OBSERVATIONS

Other species of Indochinese murids live inthe tropical forests of karst regions but exceptfor Saxatilomys paulinae none have any ofthe diagnostic morphological attributes ofTonkinomys daovantieni and none are soecologically tied to the kind of creviscularhabitat in which we discovered the Vietnamesespecies Two Thai murids are generally con-sidered closely associated with limestoneLeopoldamys neilli is documented by a fewspecimens captured on the upper sections offorested limestone cliffs in Saraburi Provinceand adjacent Kanchanaburi Province insouthwestern Thailand (Marshall 1988 speci-mens in AMNH and USNM) Wiles (1981

49) however captured three individuals inlowland bamboo forest in a different part ofKanchanaburi Province The trap sites aver-aged 115 m from the base of the nearestlimestone mountain and L neilli was notencountered in the other habitat types Wilessurveyed indicating the species to preferlowland bamboo forest which lsquolsquohellip challengesthe belief that L neilli is strictly a cliff-dwelling ratrsquorsquo

Niviventer hinpoon is apparently endemic tothe Korat Plateau in Saraburi Province ofsouthern Thailand (Marshall 1988 specimensin AMNH and USNM) One sample whichincludes the holotype was collected halfwayup the face of a forested limestone cliff outsidethe entrance to a cave Another series camefrom lsquolsquohellip high above the valley floor inscrubby vegetation at the base of verticallimestone cliffs hellip rsquorsquo (Marshall 1988 459)Other species of murids were captured in theforested stream valley below the cliffs but notN hinpoon Marshall (1988) also noted thatone individual had been taken inside a lime-stone cave at a different locality Whether Nhinpoon dens in clefts in cliffs or in talus is notrecorded Except for its tail which is equal toor slightly longer than length of head andbody its buffy gray underparts and itssmaller body size (Marshall 1988) the mor-phological traits of N hinpoon are similar tothose of N fulvescens our multivariate anal-yses of morphometric cranial and dental dataplace it closer to N fulvescens than to anyother species (Musser and Lunde ms)Relative to palmar and plantar areas thepads are no larger or set no closer togetherthan in N fulvescens (see fig 9) or any of theother species of Niviventer Nothing in themorphology of N hinpoon points to anobligate limestone cliff-dweller We need tolearn details of its actual microhabitat andother aspects of its life history

Nothing comparable to the VietnameseTonkinomys or to the Lao Saxatilomys inmorphology or habits has so far been found inthe karst landscapes of Thailand

Whitmore (1984 148) noted that karstlandscapes covered only a small part oftropical Asia In Indochina they occur insouthern China north and central Vietnamcentral Lao PDR southern Cambodia


Thailand and northeastern Burma (Mid-dleton and Waltham 1986 Zhang 1989Tuyet 1998 also see the references cited inWhitmore 1984) Except for the large lime-stone plateau in southern China karst land-scapes in Indochina are small in area scat-tered over the region and constitute isolatedgeological islands (see the informative distri-bution maps in Middleton and Waltham1986) They are difficult places in which towork and most Indochinese karst habitatshave been inadequately sampled for muridrodents

Saxatilomys paulinae and Tonkinomys dao-vantieni are the only petricolous Indochinesemurines that to date have been found to beendemic to tropical karstic environments TheKhammouan Limestone in central Lao PDRdefines the known distribution of S paulinaeThat tower karst landscape is part of the QuyDat massif (or Kebang karst block Tuyet1998 189) which extends eastward at thesame latitude into Bienh Tri Thien Province ofnorth-central Vietnam In the Lao segment Spaulinae the gymnure Hylomys megalotisand the hystricomorph rodent Laonastesaenigmamus form a small community thatmay be restricted to forested rocky habitatswithin the extensive and massive karst land-scape this same mammalian assemblage mayalso occur in the Vietnamese segment of theQuy Dat massif (Musser et al 2005) The QuyDat outcrop forms a karstic island approxi-mately 475 km south of the expansive Vietbactower karst region in northern Vietnam whereTonkinomys daovantieni occurs That lime-stone rat isolated on a geological islandseparate from the one on which S paulinaewas found has been recorded only from thetype locality in northeastern Vietnam but mayhave a wider geographic distribution inforested habitats throughout the karst land-scapes of northern Vietnam and adjacentsouthern China Unlike the KhammouanLimestone region no other petricolous mam-malian limestone endemics have been discov-ered in the same landscape occupied by Tdaovantieni

We have asked ourselves if the Vietnameseand Lao limestone rats are the only murinecomponents of a pattern reflecting evolution-ary adaptation of ancestral murines to forest-

ed karstic environments or if other karsticislands in Indochina support different andunique murine endemics Surveys for smallmammals such as ours that yieldedTonkinomys would uncover the mammaliandiversity in these extraordinary isolated land-scapes and provide an answer to our question

ACKNOWLEDGMENTS

Our work in Vietnam has its origins ina National Science Foundation Grant(No 9870232) to the Center for Biodiversityand Conservation at the American Museum ofNatural History Funds for the survey duringApril of 2004 were provided by the Division ofVertebrate Zoology (Mammalogy) at theAmerican Museum and we are especiallygrateful to Nancy Simmons for her help insecuring that money Dr Nguyen Xuan DangHead of the Department of Zoology at theInstitute of Ecology and Biological Resourcesin Hanoi allowed us to use the department asa home base and offered the assistance ofmembers of the scientific staff Nguyen XuanNghia (mammalogist) and Doan Van Kien(herpetologist) Mr Le Dinh Thanh served ascamp cook and agreeable companion Manyresidents of Lang Son Province supported ourendeavors in the field including Mr TranVan Chuyen our local forest guide and TrieuSinh Duong the head of the Dao villagewhere we worked Neil Duncan prepared theskulls at the American Museum The brillianttalent and competence of Patricia J Wynneare reflected in her line drawings Themorphological comparisons described in ourreport are built on results of biologicalsurveys in the field and the innumerable days(over a span of three decades for Musser)working in collections of museums in theUnited States Europe and Asia Custodiansof those collections some now deceasedallowed us to study specimens and neverhesitated to loan material whenever we re-quested it This report those already pub-lished under our names and future contribu-tions now in manuscript reflect in part theresults of original research but also theunselfish contributions of those persons whoare responsible for maintaining research col-lectionsmdashwe thank you


REFERENCES

Amato G MG Egan and GB Schaller 2000Mitochrondrial DNA variation in muntjacevidence for discovery rediscovery and phylo-genetic relationships In ES Vrba and GBSchaller (editors) Antelopes deer and rela-tives fossil record behavioral ecology system-atics and conservation 285-295 New HavenYale University Press

Averianov AO AV Abramov and ANTikhonov 2000 A new species of Nesolagus(Lagomorpha Leporidae) from Vietnam withosteological description Contributions fromthe Zoological Institute St Petersburg 3 1ndash22

Bacon A-M F Demeter M Schuster VT LongNK Thuy P-O Antoine S Sen HH Hgaand NM Huong 2004 The Pleistocene MaUrsquoOi cave northern Vietnam palaeontologysedimentology and palaeoenvironments Geo-bios 37 305ndash314

Boye P R Hutterer N Lopez-Martınez and JMichaux 1992 A reconstruction of the lavamouse (Malpaisomys insularis) an extinctrodent of the Canary Islands Zeitschrift furSaugetierkunde 57 29ndash38

Brown JC 1971 The description of mammals 1The external characters of the head MammalReview 1 151ndash168

Brown JC and DW Yalden 1973 The de-scription of mammals 2 Limbs and locomotionof terrestrial mammals Mammal Review 3107ndash134

Bugge J 1970 The contribution of the stapedialartery to the cephalic arterial supply in muroidrodents Acta Anatomica 76 313ndash336

Bugge J 1985 Systematic value of the carotidarterial pattern in rodents In WP Luckett andJL Hartenberger (editors) Evolutionary rela-tionships among rodents a multidisciplinaryanalysis 355-379 New York Plenum Press

Can DN AV Abramov AN Tikhonov andAO Averianov 2001 Annamite striped rabbitNesolagus timminsi in Vietnam Acta Therio-logica 46(4) 437ndash440

Carleton MD 1980 Phylogenetic relationships inneotomine-peromyscine rodents (Muroidea)and a reappraisal of the dichotomy withinNew World Cricetinae Miscellaneous Publi-cations Museum of Zoology University ofMichigan 157 1ndash146

Carleton MD and GG Musser 1984 Muroidrodents In S Anderson and JK Jones Jr(editors) Orders and families of Recent mam-mals of the world 289-379 New York Wiley

Carleton MD and GG Musser 1989 System-atic studies of oryzomyine rodents (MuridaeSigmodontinae) a synopsis of Microryzomys

Bulletin of the American Museum of NaturalHistory 191 1ndash83

Chaimanee Y 1998 Plio-Pleistocene rodents ofThailand Thai Studies in Biodiversity 3 1ndash303

Chen G-J W Wang J-Y Mo Z-T Huang FTian and W-W Huang 2002 Pleistocenevertebrate fauna from Wuyun Cave ofTiandong County Guangxi VertebrataPalAsiatica 40(1) 42ndash51

Corbet GB and JE Hill 1992 Mammals of theIndomalayan region A systematic reviewOxford Oxford University Press 488 pp

Csorba G and PD Jenkins 1998 First recordsand a new subspecies of Rhinolophus stheno(Chiroptera Rhinolophidae) from VietnamBulletin of the Natural History MuseumLondon (Zoology) 66(2) 207ndash211

ETHang HH VT ETHao VS Cao TA Pham andMK Hoang 1994 [Checklist of mammals inVietnam] Hanoi Publishing House lsquolsquoScienceand Technicsrsquorsquo 167 pp [in Vietnamese]

ETHao VT 1985 [Scientific results of some mammalsurveys in North Vietnam (1957ndash1971)] HanoiScientific and Technical Publishing House330 pp [in Vietnamese]

ETHieu NT 1995 Geography of Vietnam naturalmdashhumanmdasheconomic Hanoi The GioI Pub-lishers

Finley RB Jr 1958 The wood rats of Coloradodistribution and ecology University of KansasPublications of the Museum of Natural History10 213ndash552

Flynn LJ W Wu and WR Downs III 1997Dating vertebrate microfaunas in the lateNeogene record of northern China Palae-ogeography Palaeoclimatology Palaeoecology133 227ndash242

Gillieson D 1996 Caves Processes developmentand management Oxford Blackwell

Głazek J 1966 On the karst phenomena in NorthVietnam Bulletin de lrsquoAcemie Polonaise desSciences Serie des Science Geologie etGeographie 14(1) 45ndash51

Gorog AJ MH Sinaga and MD Engstrom2004 Vicariance or dispersal Historical bio-geography of three Sunda shelf murine rodents(Maxomys surifer Leopoldamys sabanus andMaxomys whiteheadi) Biological Journal of theLinnean Society 81 91ndash109

Grayson DK 1999 Bushy-tailed woodratmdashNeotoma cinerea In DE Wilson and S Ruff(editor) The Smithsonian book of NorthAmerican mammals 598-600 Washington DCSmithsonian Institution Press

Groves CP 2001 Primate taxonomy Wash-ington DC Smithsonian Institution Press


Groves CP and GB Schaller 2000 Thephylogeny and biogeography of the newlydiscovered Annamite artiodactyls In ESVrba and GB Schaller (editors) Antelopesdeer and relatives Fossil record behavioralecology systematics and conservation 261-282 New Haven Yale University Press

Groves CP and V Weitzel 1995 Obituary DaoVan Tien Laboratory Primate Newsletter34(3) 15ndash16

Grubb P 2005 Order Artiodactyla In DEWilson and DM Reeder (editors) Mammalspecies of the world a taxonomic and geo-graphic reference 3rd ed 637-722 BaltimoreJohns Hopkins University Press

Hershkovitz P 1962 Evolution of Neotropicalcricetine rodents (Muridae) with special refer-ence to the phyllotine group Fieldiana Zoology46 1ndash524

Hutterer R N Lopez-Martınez and J Michaux1988 A new rodent from Quaternary depositsof the Canary Islands and its relationships withNeogene and Recent murids of Europe andAfrica Palaeovertebrata 18 241ndash262

Kruskop SV and KA Tsytsulina 2001 A newbig-footed mouse-eared bat Myotis annamiticussp nov (Vespertilionidae Chiroptera) fromVietnam Mammalia 65(1) 63ndash72

Lunde DP and NT Son 2001 An identificationguide to the rodents of Vietnam New YorkCenter for Biodiversity and ConservationAmerican Museum of Natural History

Lunde DP GG Musser and NT Son 2003 Asurvey of small mammals from Mt Tay ConLinh II Vietnam with the description of a newspecies of Chodsigoa (Insectivora Soricidae)Mammal Study 28 31ndash46

Lunde DP GG Musser and T Ziegler 2004Description of a new species of Crocidura(Soricomorpha Soricidae Crocidurinae) fromKe Go Nature Reserve Vietnam MammalStudy 29 27ndash36

Marshall JT Jr 1988 Family Muridae InB Lekagul and JA McNeely (authors)Mammals of Thailand 2nd ed 397-487Bangkok Association for the Conservationof Wildlife Saha Karn Bhaet Co

Middleton J and T Waltham 1986 The un-derground atlas A gazetteer of the worldrsquos caveregions New York St Martinrsquos Press

Miller GS Jr 1912 Catalogue of the mammals ofWestern Europe (Europe exclusive of Russia)in the collection of the British MuseumLondon British Museum (Natural History)

Misonne X 1969 African and Indo-AustralianMuridae evolutionary trends Annales MuseeRoyal de lrsquoAfrique Centrale Tervuren

Belgique Serie IN-8 Sciences Zoologiques172 1ndash219

Musser GG 1970 Species-limits of Rattus brah-ma a murid rodent of northeastern India andnorthern Burma American Museum Novitates2406 1ndash27

Musser GG 1973 Species-limits of Rattus cre-moriventer and Rattus langbianis murid ro-dents of Southeast Asia and the Greater SundaIslands American Museum Novitates 25251ndash65

Musser GG 1981 Results of the ArchboldExpeditions No 105 Notes on systematics ofIndo-Malayan murid rodents and descriptionsof new genera and species from CeylonSulawesi and the Philippines Bulletin of theAmerican Museum of Natural History 168(3)225ndash334

Musser GG 1982 Results of the ArchboldExpeditions No 110 Crunomys and thesmall-bodied shrew rats native to thePhilippine islands and Sulawesi (Celebes)Bulletin of the American Museum of NaturalHistory 174 1ndash95

Musser GG 1991 Sulawesi rodents descriptionsof new species of Bunomys and Maxomys(Muridae Murinae) American MuseumNovitates 3001 1ndash41

Musser GG and MD Carleton 1993 FamilyMuridae In DE Wilson and DM Reeder(editors) Mammal species of the worlda taxonomic and geographic reference 2nded 501-755 Washington DC SmithsonianInstitution Press

Musser GG and MD Carleton 2005Superfamily Muroidea In DE Wilson andDM Reeder (editors) Mammal species of theworld a taxonomic and geographic reference3rd ed 894-1531 Baltimore Johns HopkinsUniversity Press

Musser GG and S Chiu 1979 Notes ontaxonomy of Rattus andersoni and R excelsiormurids endemic to western China Journal ofMammalogy 60(3) 581ndash592

Musser GG and LA Durden 2002 Sulawesirodents description of a new genus and speciesof Murinae (Muridae Rodentia) and itsparasitic new species of sucking louse (InsectaAnoplura) American Museum Novitates 33681ndash50

Musser GG and LH Heaney 1992 Philippinerodents definitions of Tarsomys and Limnomysplus a preliminary assessment of phylogeneticpatterns among native Philippine murines(Murinae Muidae) Bulletin of the AmericanMuseum of Natural History 211 1ndash138

Musser GG and C Newcomb 1983 Malaysianmurids and the giant rat of Sumatra Bulletin of


the American Museum of Natural History174(4) 327ndash598

Musser GG JT Marshall Jr and Boeadi 1979Definition and contents of the Sundaic genusMaxomys (Rodentia Muridae) Journal ofMammalogy 60(3) 592ndash606

Musser GG AL Smith MF Robinson andDP Lunde 2005 Description of a new genusand species of rodent (Murinae MuridaeRodentia) from the Khammouan LimestoneNational Biodiversity Conservation Area inLao PDR American Museum Novitates 34971ndash31

Musser GG A Van de Weerd and E Strasser1986 Paulamys a replacement name forFloresomys Musser 1981 (Muridae) and newmaterial of that taxon from Flores IndonesiaAmerican Museum Novitates 2850 1ndash10

Musser GG LR Heaney and BR Taba-ranza Jr 1998 Philippine rodents redefini-tions of known species of Batomys (MuridaeMurinae) and description of a new species fromDinagat Island American Museum Novitates3237 1ndash51

Qiu Z 1989 The Chinese Neogene mammalianbiochronologymdashIts correlation with the Euro-pean Neogene mammalian zonation In EHLindsay V Fahlbusch and P Mein (editors)European Neogene Mammal Chronology 527-556 New York Plenum Press

Robinson MF PD Jenkins CM Francis andAJC Fulford 2003 A new species of theHipposideros pratti group (Chiroptera Hippo-sideridae) from Lao PDR and Vietnam ActaChiropterologica 5(1) 31ndash48

Schaub S 1938 Tertiare und Quartare MurinaeAbhandlungen der Schweizerischen Paleon-tologischen Gesellschaft 61 1ndash39

Sokolov VE VV Rozhnov and PT Anh 1997New species of viverrids of the genus Viverra(Mammalia Carnivora) from VietnamZoologicheskii Zhurnal 76 585ndash589

Thomas O 1919 The method of taking the incisiveindex in rodents Annals and Magazine ofNatural History Series 9(4) 289ndash290

Tuyet Do 1998 Overview on karst of Vietnam InYuan Daoxian and Liu Zaihua (editors)Global karst correlation 179-192 HanoiScience Press and VSP BV

Voss RS 1988 Systematics and ecology ofichthyomyine rodents (Muroidea) patterns ofmorphological evolution in a small adaptiveradiation Bulletin of the American Museum ofNatural History 188(2) 259ndash493

Voss RS 1993 A revision of the Brazilian muroidrodent genus Delomys with remarks onlsquolsquoThomasomyinersquorsquo characters American Mu-seum Novitates 3073 1ndash44

Wahlert JH 1985 Cranial foramina of rodents InWP Luckett and J-l Hartenberger (editors)Evolutionary relationships among rodentsa multidisciplinary analysis 311-332 NewYork Plenum Press

Walston J and G Veron 2001 Questionablestatus of the lsquolsquoTaynguyen civetrsquorsquo Viverratainguensis Sokolov Rozhnov and PhamTrong Anh 1997 (Mammalia CarnivoraViverridae) Mammalian Biology 66 181ndash184

Whitmore TC 1984 Tropical rain forests of theFar East 2nd ed Oxford Clarendon Press

Wiles GJ 1981 Abundance and habitat prefer-ences of small mammals in southwesternThailand Natural History Bulletin of theSiam Society 29 44ndash54

Wozencraft WC 2005 Order Carnivora In DEWilson and DM Reeder (editors) Mammalspecies of the world a taxonomic and geo-graphic reference 3rd ed 532-628 BaltimoreJohns Hopkins University Press

Zhang S 1989 Paleokarst of China In P BosakDC Ford J Głazek and I Horack (editors)Paleokarst a systematic and regional review297-310 Amsterdam and Praha Elsevier andAcademia

Zheng S 1993 [Quaternary rodents of Sichuan-Guizhou area China] Beijing Science Press270 pp

Zheng S 2004 Mammalia Rodentia In S Zheng(editor) Jianshi Hominid Site State KeyProject of the 9th Five Year PlanmdashOrigin ofEarly Humans and Environmental Back-ground 121-181 Series Monograph I BeijingScience Press [in Chinese with English sum-mary]

Zheng S Z Zhang and L Liu 1997 [Pleistocenemammals from fissure-fillings of SunjiashanHill Shandong China] Vertebrata PalAsiatica35(3) 201ndash216


PUBLISHED BY THE AMERICAN MUSEUM OF NATURAL HISTORY

CENTRAL PARK WEST AT 79TH STREET NEW YORK NY 10024

Number 3517 41 pp 14 figures 4 tables May 17 2006

Description of a New Genus and Species of Rodent(Murinae Muridae Rodentia) from the Tower Karst

Region of Northeastern Vietnam

GUY G MUSSER1 DARRIN P LUNDE2 AND NGUYEN TRUONG SON3

ABSTRACT

Tonkinomys daovantieni a new genus and species of murid rodent in the Dacnomys Division isdescribed It is represented by 14 adults collected from talus habitats in the forested tower karstlandscape of the Huu Lien Nature Reserve of northeastern Vietnam The combination ofsemispinous dense grayish black fur covering upperparts a dark gray venter gray ears a thickbicolored tail considerably shorter than length of head and body and large extremely bulbousfootpads is unlike any other species of Indomalayan murid Body size and build of the new ratalong with some cranial features are similar to the Thai Leopoldamys neilli but other cranial traitscoupled with molar occlusal patterns resemble morphology in species of the IndomalayanNiviventer Chiromyscus and Saxatilomys The new species is petricolous includes insects in itsdiet and was found only in talus composed of large limestone blocks Its distribution in the reserveis likely patchy Whether this limestone rat is restricted to the extensive karst regions ofnortheastern Vietnam or also occurs in southern China and elsewhere in the northern karstlandscapes of Indochina and Vietnam in particular will be known only by conducting surveys inlimestone regions outside of northeastern Vietnam

INTRODUCTION

During Paleozoic times a succession ofwaterways covered what is now northernVietnam Lithification followed by tectonic

deformation and uplift and spurred by sub-sequent erosional processes transformedthose ancient tidal flows and marine land-scapes into a spectacular terrestrial topogra-phy of tower karst riddled by fissures and

Copyright E American Museum of Natural History 2006 ISSN 0003-0082

1 Division of Vertebrate Zoology (Mammalogy) American Museum of Natural History Current address 1714 HenleyLane Charleston SC 29412 (holdenmussercomcastnet)

2 Division of Vertebrate Zoology (Mammalogy) American Museum of Natural History (lundeamnhorg)3 Department of Zoology Institute of Ecology and Biological Resources 18 Hoang Quoc Viet Road Cau Giay Hanoi

Vietnam (truongsoniebrncstacvn)







































TABLE 1









Weight 160 171 6 228 (140ndash205) 13



















a AMNH 275618b AMNH 275575-275577 275586 275593 275602 275618 275627 275644 275688 275692 275711 and 275712






























































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES




















































































































TABLE 1









Weight 160 171 6 228 (140ndash205) 13



















a AMNH 275618b AMNH 275575-275577 275586 275593 275602 275618 275627 275644 275688 275692 275711 and 275712






























































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES















































































































TABLE 1









Weight 160 171 6 228 (140ndash205) 13



















a AMNH 275618b AMNH 275575-275577 275586 275593 275602 275618 275627 275644 275688 275692 275711 and 275712






























































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES








































































































TABLE 1









Weight 160 171 6 228 (140ndash205) 13



















a AMNH 275618b AMNH 275575-275577 275586 275593 275602 275618 275627 275644 275688 275692 275711 and 275712






























































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES





























































































TABLE 1









Weight 160 171 6 228 (140ndash205) 13



















a AMNH 275618b AMNH 275575-275577 275586 275593 275602 275618 275627 275644 275688 275692 275711 and 275712






























































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES



























































































TABLE 1









Weight 160 171 6 228 (140ndash205) 13



















a AMNH 275618b AMNH 275575-275577 275586 275593 275602 275618 275627 275644 275688 275692 275711 and 275712






























































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES



















































































TABLE 1









Weight 160 171 6 228 (140ndash205) 13



















a AMNH 275618b AMNH 275575-275577 275586 275593 275602 275618 275627 275644 275688 275692 275711 and 275712






























































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES










































































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES



































































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES




























































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES























































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES


















































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES
















































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES











































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES






































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES


































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES































































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES



























































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES




















































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES















































































COMPARISONS














TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES






















































































TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES

















































































TABLE 2








LTLHB 83 124 134 128






























TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES



































































































TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES




























































































TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES























































































TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES



















































































TABLE 3



Species

Roots (M1m1)

44 54 52









Myanmar)

mdash 53 mdash



















complete specimens



















































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES































































































































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES























































































































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES

















































































































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES








































































































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES
































































































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES


























































































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES


















































































TABLE 4





(N 5 45) (N 5 13) (N 5 16) (N 5 1) (N 5 7)

Length of M1 37 6 01 33 6 01 32 6 01 37 42 6 01


Breadth of M1 21 6 01 19 6 01 17 6 01 20 21 6 01


Length of m1 33 6 01 30 6 01 28 6 01 41 35 6 01


Breadth of m1 18 6 01 17 6 01 16 6 01 25 20 6 01







HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES


















































































HABITAT AND HABITS






























ACKNOWLEDGMENTS



REFERENCES









































































































ACKNOWLEDGMENTS



REFERENCES



































































































ACKNOWLEDGMENTS



REFERENCES



























































































ACKNOWLEDGMENTS



REFERENCES


















































































ACKNOWLEDGMENTS



REFERENCES














































































REFERENCES






















































































































































Documents

Description of a New Genus and Species of Rodent (Murinae, Muridae, Rodentia) from the Tower Karst Region of Northeastern Vietnam