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Zookeys 694: 71-93 (2017)

doi: 10.3897/zookeys.694. 12785 $@7Z,00Ke y S

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A new species of the genus Kurixalus from
Yunnan, China (Anura, Rhacophoridae)

Guohua Yu'”, Jishan Wang'??", Mian Hou‘,
Dinggi Rao’, Junxing Yang!

| Kunming Institute of Zoology, Chinese Academy of Sciences, 32 Jiaochang Donglu, Kunming, Yunnan
650223, China 2 Kunming College of Life Science, University of Chinese Academy of Sciences, Kunming,
Yunnan 650204, China 3 Kunming Institute of survey & design, State Forestry Administration, Kunming,
Yunnan 650216, China 4 Institute of Continuing Education, Sichuan Normal University, Chengdu, Sichuan
610068, China

Corresponding author: /unxing Yang (yangjx@mail.kiz.ac.cn); Guohua Yu (yughO3@mail.kiz.ac.cn)

Academic editor: A. Herrel | Received 18 March 2017 | Accepted 2 July 2017 | Published 29 August 2017
http://zoobank.ore/C3DD7COF-E692-42D7-B29A-0E406FO8BEO8

Citation: Yu G, Wang J, Hou M, Rao D, Yang J (2017) A new species of the genus Kurixalus from Yunnan, China
(Anura, Rhacophoridae). ZooKeys 694: 71-93. https://doi.org/10.3897/zookeys.694. 12785

Abstract

A new species of the genus Kurixalus (Anura: Rhacophoridae) is described from Yunnan, China based on
morphological and molecular evidence. ‘The new species, Kurixalus lenquanensis sp. n., is distinguished from
other congeneric species by a combination of (1) smaller body size (SVL in males ranges from 25.0 to 28.9
mm), (2) obtusely pointed snout with no prominence on tip, (3) rough and brown dorsum with darker mark,
(4) absence of large dark spots on ventral surface, (5) brownish clouded chin, (6) granular throat, chest, and
belly, (7) presence of vomerine teeth, (8) serrated dermal fringes along outer edge of limbs, (9) slight nuptial
pad, (10) golden brown iris, and (11) single internal vocal sac. The new species is known only from montane
scrub vegetation at the type locality (Lenquan Village, Mengzi City, Yunnan Province) and Yangjiatian Vil-
lage, Gejiu City, Yunnan Province. Genetically, the new species is nested within a clade of Taiwanese Kurixalus
and recovered as the sister taxon to Kurixalus idiootocus with strong support values, indicating that the ancestor
of this new species might have come from Taiwan Island or the ancestor of this new species may have been

widespread in southern China and the descendent species in between Taiwan and Yunnan has become extinct.

Keywords

China, Kurixalus lenquanensis sp. n., Yunnan

These authors contributed equally to this work.

Copyright Guohua Yu et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0),
which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

€5s Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

Introduction

The genus Kurixalus Ye, Fei, & Dubois in Fei 1999 has a wide distribution includ-
ing eastern India, Indochina, Sunda islands, Philippine archipelago, montane southern
China, and adjacent continental islands (Hainan, Taiwan, and Ryukyu Islands); cur-
rently 14 species are recognized in this genus (Frost 2017). Owing to its morphological
conservativeness, the taxonomy and systematics of this genus was once very confusing.
Inger et al. (1999) considered that Chinese and Vietnamese Kurixalus odontotarsus (Ye
& Fei in Ye et al. 1993) probably belong to Kurixalus verrucosus (Boulenger, 1893) or
Kurixalus bisacculus (Taylor, 1962), Orlov et al. (2002) also considered Vietnamese K.
odontotarsus as K. verrucosus, and Kurixalus hainanus (Zhao, Wang, & Shi in Zhao et al.
2005) was thought to be a synonym of K. odontotarsus by some authors (e.g. Fei 1999,
Fei et al. 2010). However, based on evidence from molecular data, Yu et al. (2010) pro-
posed that K. odontotarsus, K. bisacculus, and K. verrucosus should be treated as three in-
dependent species and suggested placing K. odontotarsus from Tibet and K. hainanus in
K. verrucosus and K. bisacculus, respectively. Moreover, Yu et al. (2010) considered that
the distributional range of K. bisacculus should be expanded to include most regions of
South China. Thus, currently three species of Kurixalus (K. odontotarsus, K. bisacculus,
and K. verrucosus) are recognized in mainland China and two of them (K. odontotarsus
and K. bisacculus) exist in Yunnan according to Yu et al. (2010).

During recent fieldwork in Yunnan, China (Fig. 1), a small tree frog was discov-
ered that is morphologically similar in appearance with other Kurixalus species from
Yunnan. It appears to be closely related to Kurixalus idiootocus (Kuramoto & Wang,
1987) from Taiwan based on molecular phylogenetic analyses, but it is different from
K. idiootocus based on the following characters: obtusely pointed snout with no promi-
nence on tip, single internal vocal sac, loreal region oblique, absence of a pair of sym-
metrical large dark patches on chest, and absence of supernumerary plantar tubercles.

Materials and methods

Sampling. Specimens were collected during fieldwork in Honghe Autonomous Prefec-
ture, Yunnan, China in 2015 and 2016. They were euthanized with diethyl ether anesthe-
sia and fixed by 90% ethanol before being stored in 70% ethanol. Liver tissues were pre-
served in 99% ethanol. Specimens and tissue samples were deposited at Kunming Insti-
tute of Zoology, Chinese Academy of Sciences (KIZ 170175Y—170186Y) and Kunming
Institute of Survey & Design, State Forestry Administration (KISD 1506203-—1506204).

Morphology. ‘The preserved specimens were examined, measured, and compared
with available specimens and published descriptions of currently recognized species
of Kurixalus from China and neighboring countries (Giinther 1858, Boulenger 1893,
Annandale 1912, Kuramoto and Wang 1987, Inger et al. 1999, Bossuyt and Dubois
2001, Matsui and Orlov 2004, Mathew and Sen 2008, Nguyen et al. 2014a, Nguyen et
al. 2014b, Wu et al. 2016). Measurements were taken using digital calipers to the near-

A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). 73

99°0'0"E 101°0'0"E 103°0'0"E 105°0'0"E 107°0'0"E

Figure |. Known distribution of Kurixalus lenquanensis sp. n. Filled star indicates the type locality and
filled circle indicates Yangjiatian Village.

est 0.1 mm. Morphological terminology follows Fei (1999). Measurements include:
snout-vent length (SVL, from tip of snout to vent); head length (HLL, from tip of snout
to rear of jaws); head width (HW, width of head at its widest point); snout length
(SL, from tip of snout to anterior border of eye); internarial distance (IND, distance
between nares); interorbital distance (IOD, minimum distance between upper eyelids);
upper eyelid width (UEW, maximum width of upper eyelid); eye diameter (ED, diam-
eter of exposed portion of eyeball); tympanum diameter (TD, the greater of tympanum
vertical and horizontal diameters); distance from nostril to eye (DNE, from nostril to
anterior border of eye); forelimb length (FLL, from elbow to tip of third finger); tibia
length (TL, distance from knee to heel); foot length (FL, from proximal end of inner
metatarsal tubercle to tip of fourth toe); and thigh length (THL, from vent to knee).

A multivariate principal component analysis (PCA) was conducted using SPSS
17.0 (SPSS Inc.) based on a correlation matrix of size-standardized measurements (all
measurements divided by SVL). Scatter plots of the scores of the first two factors of
PCA were used to examine the differentiation among the new species, K. idiootocus, K.
bisacculus, and K. odontotarsus.

74 Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

Molecular analyses. In order to support the generic placement of the new species,
the phylogenetic position of the new species was investigated based on molecular data.
Total genomic DNA was extracted from liver tissue stored in 99% ethanol. Tissue sam-
ples were digested using proteinase K, and subsequently purified following a standard
phenol/chloroform isolation and ethanol precipitation. A fragment of the mitochon-
drial 16S rRNA gene was amplified and sequenced. ‘The primers and experiment pro-
tocols used in this study are the same as with Yu et al. (2010). Homologous sequences
of other Kurixalus species were obtained from GenBank and all new sequences have
been deposited in GenBank under Accession Nos. KY768931—KY768944 (Table 1).
Philautus abditus Inger, Orlov, & Darevsky, 1999 and Raorchestes menglaensis (Kou,
1990) were selected as outgrups based on Yu et al. (2013).

Sequences were aligned using CLUSTAL X v1.83 (Thompson et al. 1997) with the
default parameters and the alignment was revised by eye. Pairwise distances between spe-
cies were calculated in MEGA 5 (Tamura et al. 2011). The best substitution model was
selected using the Akaike Information Criterion (AIC) in MODELTEST v3.7 (Posada
and Crandall 1998). Bayesian phylogenetic inference and Maximum likelihood analysis
were performed in MRBAYES 3.1.2 (Huelsenbeck and Ronquist 2001) and RAXML-
GUI 1.5b1 (Silvestro and Michalak 2012), respectively, based on the selected substitu-
tion model. For the Bayesian analysis, two runs were performed simultaneously with four
Markov chains starting from random tree. The chains were run for 4,000,000 generations
and sampled every 100 generations. ‘The first 25% of the sampled trees was discarded as
burn-in after the standard deviation of split frequencies of the two runs was less than
a value of 0.01, and then the remaining trees were used to create a 50% majority-rule
consensus tree and to estimate Bayesian posterior probabilities (BPPs). For the maximum
likelihood analysis, node support was estimated by 1,000 rapid bootstrap replicates.

Results

Molecular data. The obtained sequence alignment is 870 bp in length. Both Bayesian
and maximum likelihood analyses strongly supported that Kurixalus lenquanensis sp.
n. is in the genus Kurixalus and is the sister taxon to K. idiootocus (Fig. 2). The average
divergence (p-distance) between the new species and other congeneric species ranged
from 4.72% to 16.84% (Table 2). This level of divergence in the 16S rRNA gene is in-
dicative of differentiation at the species level in frogs (Fouquet et al. 2007) and is even
higher than between other recognized congeners of Kurixalus (i.e. Kurixalus eiffingeri
[Boettger, 1895]/Kurixalus berylliniris Wu, Huang, Tsai, Li, Jhang, & Wu, 2016, K
eiffingeril Kurixalus wangi Wu, Huang, Tsai, Li, Jhang, & Wu, 2016, K. berylliniris! K.
wangi, K. bisacculus!K. odontotarsus, Kurixalus baliogaster |Inger, Orlov, & Darevsky,
1999]/K. odontotarsus, and K. baliogaster! K. bisacculus; Table 2).

Morphological data. We retained the first two principal components which ac-
counted for 43.7% of the total variance and had eigenvalues above 1.0. Loadings for
PC 1 were all positive except for TD and DNE and were most heavily loaded on HW,

A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). FS

Table |. Sequences used in this study.

Species Locality GenBank no.
Philautus abditus Krong Pa, Gia Lai, Vietnam ROM 33145 GQ285673
Raorchestes menglaensis Lvchuan, Yunnan, China GQ285676
Kurixalus appendiculatus Bukit Sarang, Sarawak, Malaysia JQ060937

Kurixalus eiffingeri Okinawa Islands, Japan KUHE 12910 AB933305
Kurixalus idiootocus Wulai, Taipei, Taiwan A127 DQ468674

Kurixalus idiootocus Nan-Tou, Tung Fu, Taiwan UMES 5702 DQ283054
Kurixalus idiootocus Taiwan KUHE 12979 AB933306
Kurixalus idiootocus Taiwan SCUM 061107L EU215547
Kurixalus idiootocus Taiwan CAS 211366 AF458129
Kurixalus berylliniris Beinan, Taitung, Taiwan DQ468669
Kurixalus wangi Shouka, Pintung, Taiwan DQ468671
Kurixalus banaensis Krong Pa, Gia Lai, Vietnam ROM 32986 GQ285667
Kurixalus viridescens Hon Ba, Khanh Hoa, Vietnam AB933284
Kurixalus motokawai Kon Tum, Vietnam VNMN 03458 LC002888
Kurixalus verrucosus Nagmung, Kachin, Myanmar GU227329
Kurixalus verrucosus Nagmung, Kachin, Myanmar GU227330
Kurixalus verrucosus Nagmung, Kachin, Myanmar CAS 225128 GU227331
Kurixalus verrucosus Tai Nai, Kachin, Myanmar GU227332
Kurixalus verrucosus Mohynin, Kachin, Myanmar CAS 231491 GU227333
Kurixalus odontotarsus Mengyang, Yunnan, China YGH 090175 GU227282
Kurixalus odontotarsus Mengyang, Yunnan, China YGH 090176 GU227283
Kurixalus odontotarsus Caiyanghe, Yunnan, China YGH 090131 GU227290
Kurixalus odontotarsus Caiyanghe, Yunnan, China GU227294
Kurixalus bisacculus Pingbian, Yunnan, China GU 997795
Kurixalus bisacculus Pingbian, Yunnan, China YGH 080168 GU227296
Kurixalus bisacculus Jinping, Yunnan, China KX554511

Kurixalus bisacculus ‘Thanh Hoa, Vietnam VNMN 03808 AB933294
Kurixalus bisacculus Wenshan, Yunnan, China KIZ 3315 GU227305

Kurixalus bisacculus Wenshan, Yunnan, China KRIZ3317 GU227306

Kurixalus bisacculus Wenshan, Yunnan, China YGH 090044 GU227299
Kurixalus bisacculus Wenshan, Yunnan, China GU227300
Kurixalus bisacculus Jingxi, Guangxi, China YGH 090280 GU227313
Kurixalus bisacculus Jingxi, Guangxi, China YGH 090281 GU227314
Kurixalus bisacculus Libo, Guizhou, China YGH 090081 GU227307
Kurixalus bisacculus Nanning, Guangxi, China YGH 090268 GU227310
Kurixalus bisacculus Nanning, Guangxi, China YGH 090270 GU227312

Kurixalus bisacculus Jinxiu, Guangxi, China KIZ 060821015 GU227319

76 Guohua Yu et al. | ZooKeys 694: 71-93 (2017)
Species Locality Voucher no. GenBank no.

Kurixalus bisacculus Longmeng, Guangdong, China YGH 090201 GU227320
Kurixalus bisacculus Longmeng, Guangdong, China GU227321
Kurixalus bisacculus Mt. Wuzhi, Hainan, China MVZ Herp 236722 | JQ060928
Kurixalus bisacculus Bawangling, Hainan, China JQ060929
Kurixalus bisacculus Ha Giang, Vietnam AB933287
Kurixalus bisacculus Pac Ban, Tuyen Quang, Vietnam ROM 30042 KC465809
Kurixalus bisacculus Cao Bang, Vietnam KC465802
Kurixalus bisacculus Cao Bang, Vietnam VNMN 03805 AB933288
Kurixalus bisacculus Tam Dao, Vinh Phu, Vietnam JQ060931
Kurixalus bisacculus Tam Dao, Vinh Phu, Vietnam JQ060932
Kurixalus bisacculus Chi Linh, Hai Duong, Vietnam ROM 36829 KC465812
Kurixalus bisacculus Chi Linh, Hai Duong, Vietnam KC4658 13
Kurixalus bisacculus Pua, Nan, Thailand THNHM 10051 GU227334
Kurixalus bisacculus Pua, Nan, Thailand THNHM 10052 GU227335
Kurixalus baliogaster Kon Tum, Vietnam VNMN 03618 AB933300
Kurixalus baliogaster Gia Lai, Vietnam VNMN 03812 AB933298
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KY768931
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KY768932
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KIZ-170177Y KY768933
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KY768934
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KIZ 170179Y KY768935
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KY768936
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KY768937
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KIZ 170182Y KY768938
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KY768939
Kurixalus lenquanensis sp. n.| Lenquan, Mengzi, Yunnan, China KISD 1506204 KY768940
Kurixalus lenquanensis sp. n.| Yangjiatian, Gejiu, Yunnan, China KIZ 170183Y KY768941
Kurixalus lenquanensis sp. n.| Yangjiatian, Gejiu, Yunnan, China KIZ 170184Y KY768942
Kurixalus lenquanensis sp. n.| Yangjiatian, Gejiu, Yunnan, China KIZ 170185Y KY768943
Kurixalus lenquanensis sp. n.| Yangjiatian, Gejiu, Yunnan, China KY768944

IND, and ED (Table 3). No difference was found along the PC 1 axis between the four
species. Ihe second principal component (PC 2) accounted for 20.96% of the total
variance and loaded heavily and positively on SL and DNE and negatively on FL. Dif-
ferentiation was found along the PC 2 axis between the new species and K. idiootocus,
K. odontotarsus, and K. bisacculus (Fig. 3). The result indicates that the new species dif-
fers from K. idiootocus, K. odontotarsus, and K. bisacculus by smaller ratio of SL divided

by SVL, smaller ratio of DNE divided by SVL, and higher ratio of FL divided by SVL.

A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae).

95

©

94

100
86

0.1

Figure 2. Bayesian phylogram of Kurixalus inferred from 870 bp of 16S rRNA gene. Numbers above
and below branches are Bayesian posterior probabilities (BPP) and ML bootstrap values (only values above

50% are shown), respectively.

100
100

89
99

100
99

83
62

100
96

Philautus abditus

100 Kurixalus wangi
99 Kurixalus eiffingeri
82 Kurixalus berylliniris

Kurixalus idiootocus KUHE 12979

Raochests menglaensis

100
100

100|' Kurixalus idiootocus CAS 211366
100] Kurixalus idiootocus A127
Kurixalus idiootocus UMFS 5702

Kurixalus idiootocus SCUM 061107L

KIZ 170182Y
KIZ 170185Y
r KIZ 170175Y
KISD 1506203
KIZ 170177Y
KIZ 170178Y
KIZ 170179Y
KIZ 170181Y
KIZ 170180Y
KIZ 170186Y
KIZ 170176Y
KISD 1506204
KIZ 170183 Y
KIZ 170184 Y

Kurixalus lenquanensis sp. n.

Kurixalus verrucosus CAS 231489
Kurixalus verrucosus CAS 231491
Kurixalus verrucosus CAS 225128
Kurixalus verrucosus CAS 224381
Kurixalus verrucosus CAS 224563
100 Kurixalus viridescens
09 Kurixalus banaensis

Kurixalus motokawai

100 Kurixalus odontotarsus KIZ 060821030
DO, Kurixalus odontotarsus YGH 090131

100
95

Kurixalus odontotarsus YGH 090175
Kurixalus odontotarsus ¥YGH 090176

Kurixalus baliogaster VNMN03618
Kurixalus baliogaster VNMN03812
Kurixalus bisacculus THNHM 18247
Kurixalus bisacculus THNHM 18248
Kurixalus bisacculus VNMN 03808
Kurixalus bisacculus ¥GH 080166
Kurixalus bisacculus YGH 080168
Kurixalus bisacculus K1Z 060821124
Kurixalus bisacculus KIZ, 3315
Kurixalus bisacculus KIZ 3317
Kurixalus bisacculus MVZ herp 226463
Kurixalus bisacculus ROM 36726
Kurixalus bisacculus MVZ herp 223857
Kurixalus bisacculus MVZ herp 236722
Kurixalus bisacculus MVZ herp 236725
Kurixalus bisacculus ¥YGH 090201
Kurixalus bisacculus YGH 090202
Kurixalus bisacculus YGH 090270
Kurixalus bisacculus YGH 090268
Kurixalus bisacculus KIZ 060821015
Kurixalus bisacculus YGH 090280
Kurixalus bisacculus ROM 36829
Kurixalus bisacculus ¥GH 090044
Kurixalus bisacculus ROM 36827
Kurixalus bisacculus ¥YGH 090081
Kurixalus bisacculus YGH 090046
Kurixalus bisacculus YGH 090281
Kurixalus bisacculus ROM 30042
Kurixalus bisacculus VNMN 01561
Kurixalus bisacculus VNMN 03805

fp

Kurixalus appendiculatus

Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

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A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). 79

Table 3. Factor loadings of the first two principal components of 13 size-adjusted morphometric charac-
teristics of males of K. lenquanensis sp. n., K. idiootocus, K. odontotarsus, and K. bisacculus. Absolute values
of loading greater than 0.60 in boldface. Abbreviations defined in text.

Character PC2
Eigenvalue 2.725
% variation 20.963

HL 0.553
HW 0.189
SL 0.701
IND -0.208

IOD -0.443
UEW 0.416
ED 0.178

LD 0.329
PEL -0.494
EL 0.061
BL -0.688
DNE 0.626

EE 0.048 -0.232

2 00000
@E bisacculus

WE idivotocus
@® KE lenquanensis
@ & odontotarsus

PC 2 (20.96%)
co
o
S
Sg

-2 00000

-3.00000 -32.00000 -1.00000 0.00000 1.00000 200000 3.00000
PC 1 (22.77%)

Figure 3. Scatterplot of principal components 1 and 2 of size-adjusted morphometric data for males of
K. lenquanensis sp. n., K. idiootocus, K. bisacculus, and K. odontotarsus.

80 Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

Systematics

Kurixalus lenquanensis sp. n.
http://zoobank.org/597 FB4AE-5B50-4A57-9400-B6EBB36EAC4F
Figs 4—7

Holotype. KIZ 170180Y (Figs 4-6), an adult male, collected at 20:35 on 5 May 2016
by Guohua Yu from Lenquan Village (23°12'52"N, 103°22'34"E, 1622 m elevation;
Fig. 1), Mengzi City, Yunnan Province, China.

Paratype. Thirteen adult males: KIZ 170175Y-170179Y and KIZ 170181Y-
170182Y collected at 20:00—22:45 on 5 May 2016 by Guohua Yu from type local-
ity, KISD 1506203-1506204 collected at 21:00-—21:30 on 20 June 2015 by Jishan
Wang from the same locality as the holotype, and KIZ 170183Y—170186Y collected at
20:00—22:30 on 6 May 2016 by Guohua Yu from Yangjiatian Village (23°20'5.35"N,
103°9'30.33"E; Fig. 1), Gejiu City, Yunnan Province, China.

Type locality. Lenquan Village, Mengzi City, Yunnan Province, China.

Etymology. The name lenquanensis refers to Lenquan Village, the locality where
the new species was found.

Diagnosis. The new tree frog species is assigned to the genus Kurixalus based on
a combination of the following characters: tips of digits enlarged to discs, bearing
circum-marginal grooves; small body size (adult males SVL range of 25.0—-28.9 mm;
Table 4); finger webbing poorly developed and toe webbing moderately developed; ser-
rated dermal fringes along outer edge of forearm and tarsus; an inverted triangle-shaped
dark brown mark between eyes; dorsal brown “) (” saddle-shaped or X-shaped marking
maybe present; and coarse dorsal and lateral surfaces with small, and irregular tubercles.

Kurixalus lenquanensis sp. n. can be distinguished from its congeners by a combina-
tion of the following characters: smaller body size (mean SVL 27 mm in males); obtusely
pointed snout with no prominence on tip; curved canthus rostralis; slight nuptial pad;
brown dorsal color; rough dorsum; chin clouded with brown; absence of large dark spots
on ventral surface; presence of vomerine teeth; gold brown iris; single internal vocal sac;
dermal fringes along outer edge of limbs; rough flanks; and granular throat and chest.

Description of holotype. A small rhacophorid (SVL 27.2 mm); HL 89.4% of HW;
snout obtusely pointed, no dermal prominence on tip, projecting slightly beyond margin
of lower jaw in ventral view; SL (3.7 mm) shorter than ED (4.1 mm); canthus rostralis
blunt and curved; lore region oblique, slightly concave; nostril oval, slightly protuberant,
closer to tip of snout than eye; IND (2.5 mm) narrower than IOD (2.8 mm) and slightly
wider than UEW (2.3 mm); pineal spot absent; pupil oval, horizontal; tympanum dis-
tinct (TD 1.6 mm), rounded, less than half ED; supratympanic fold distinct, curves from
posterior edge of eye to insertion of arm; vomerine teeth in two oblique patches touching
inner front edges of oval choanae; tongue notched posteriorly; single internal vocal sac.

Limbs slender; relative length of fingers is I < H < IV < ILL. Tips of all four fin-

gers expanded into discs with circum-marginal and transverse ventral grooves; disc on

A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). 81

Figure 5. Ventral view of hand A and foot B of the holotype of Kurixalus lenquanensis sp. n. in preservative.

82 Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

Figure 7. Ventral view of paratype KIZ 170184Y.

A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). 83

finger I small, slightly wider than phalanx width; disc width shorter than tympanum
width; relative width of discs is I < II < IM < IV. Nuptial pad slight; fingers webbed
at base, webbing formula is 12—2.5112—3.51113—2.5IV following Myers and Duellman
(1982). Fringe of skin on edge of all fingers; subarticular tubercles prominent and
rounded, formula 1, 1, 2, 2; supranumerary tubercles present; two metacarpal tuber-
cles, outer slightly narrower than inner; row of white warts forming serrated fringe
along outer edge of forearm.

Heels overlapping when legs at right angle to body; relative length of toes is I < II
< V < HI < IV. Tips of toes expanded into discs with circum-marginal and transverse
ventral grooves; toe discs smaller than finger discs; disc on toe I same with width as
phalanx width; relative size of discs is I < II < II < IV < V. Webbing moderate on all
toes, webbing formula is 12—2.5111.5—3IN1.5—-31V2.75-1.5V. Subarticular tubercles
prominent and rounded, formula 1, 1, 2, 3, 2; supernumerary tubercles absent; inner
metatarsal tubercle distinct, oval; outer metatarsal tubercle absent; series of tubercles
forming serrated dermal fringe along outer edge of tarsus and fifth toe.

Numerous small or large tubercles scattered on top of head, upper eyelids, dorsum,
and flanks; patch of white tubercles below vent; white conical tubercle on tibiotarsal
articulation; throat and chest finely granulated and abdomen coarsely granulated; dor-
sal surface of limbs tuberculate and ventral surface of thighs finely granulated.

Color of holotype in life. Iris golden brown; dorsal surface grayish brown with
dark brown saddle-shaped mark on dorsum, beginning behind eye; dark brown invert-
ed triangle-shaped mark between eyes; lateral head and tympanic region brown with
dark brown spot below canthus; broad dark brown bar along canthus rostralis; limbs
dorsally brown with clear dark brown barring; rear, anterior, and venter of thigh light
yellow with scattered brown spots, more spots on rear; rear of flank faint yellow with
brown spots; chest and abdomen white, nearly immaculate; chin clouded with black.

Color of holotype in preservative. In preservative (Fig. 4), dorsal ground color
brown, pattern same as in life. Chest and abdomen white; chin clouded with dark
brown; flank dirty white with dark brown spots; rear, anterior, and venter of thigh dirty
white with scattered brown spots, more so on rear.

Variations. Morphometric data are summarized in Table 4. Because the holotype
and paratypes of the new species are all male, sexual dimorphism could not be deter-
mined. Differing from the nearly immaculate abdominal surfaces of the holotype and
paratypes from the type locality, abdominal surfaces of three paratypes (KIZ 170183Y,
170184Y, 170186Y) from Yangjiatian, Gejiu are scattered with fine brown spots (Fig.
7). TL is longer than FL in the holotype and most paratypes, but TL is shorter than
FL in paratype KIZ 170182Y (Table 4). Additionally, pattern of dark brown mark
on dorsum varies among specimens. The holotype and most paratypes have a saddle-
shaped dorsal mark, but the two paratypes KISD 1506203 and KISD 1506204 have
an X-shaped dorsal mark and the paratype KIZ 170183Y has no obvious dark brown
mark on dorsum.

Ecology. At present, the new species is known only from the type locality, Lenquan
Village, Mengzi City, Yunnan Province and Yangjiatian Village, Gejiu City, Yunnan Prov-

Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

84

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A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). 85

ince (Fig. 1). The holotype was found calling on a tree branch approximately 0.5 m above
near a dry puddle in a fruit garden in Lenquan Village (Fig. 8). All other specimens were
found on vegetation near the dry puddle in Lenquan Village or vegetation near a reser-
voir in Yangjiatian Village. Males began to call at about 19:30 when sky was getting dark
and all specimens were encountered at night (20:00—22:45). Males called loudly, but no
females or eggs were found. Hyla annectans (Jerdon, 1870), Kaloula verrucosa Boulenger,
1904, and Microhyla heymonsi Vogt, 1911 were also encountered at the type locality.

Comparisons. ‘The new species, Kurixalus lenquanensis sp. n., is morphologically
similar to K. idiootocus in that it has a small body size (mean male SVL of 27 mm in
new species versus mean male SVL of 27.5 mm in K. idiootocus; Table 5). However, the
new species can be distinguished from K. idiootocus by its obtusely pointed snout with
no prominence on tip, absence of a pair of symmetrical large dark patches on chest, sin-
gle internal vocal sac, and absence of supernumerary plantar tubercles (versus pointed
snout with a small prominence on tip, presence of a pair of symmetrical large dark
patches on chest, single external vocal sac, and small supernumerary plantar tubercles;
Kuramoto and Wang 1987; Figs 9-10). In addition, besides that snout of the new spe-
cies is shorter than that of K. idiootocus, the PCA analysis showed that the new species
also differs from K. idiootocus by greater ratio of FL divided by SVL (Table 3 and Fig. 3).

Kurixalus lenquanensis sp. n. is distinguished from K. berylliniris by gold brown
iris, obtusely pointed snout with no prominence on tip, smaller body size, tubercles
on upper eyelid, slight nuptial pad, and coarsely granular abdomen (versus emerald to
light green iris, pointed snout with a small prominence on tip, larger body size [mean
SVL in males = 35 mm], lack of palpebral tubercles, greatly expanded nuptial pad, and
smooth abdomen; Wu et al. 2016; Fig. 10).

In addition, the new species can be distinguished from K. wangi by a lack of promi-
nence on snout tip, smaller body size, presence of tubercles on dorsum, coarse skin on
flanks, and slight nuptial pad (versus pointed snout with small prominence on tip, larger
body size [mean SVL in males = 30 mm], absence of tubercles on dorsum, smooth skin
on flanks, and greatly expanded nuptial pad; Wu et al. 2016; Fig. 10) and from K. eiffin-
geri by smaller body size, slight nuptial pad, oblique loreal region, and curved canthus
rostralis (versus larger body size [mean SVL of 31.1 mm in males], greatly expanded
nuptial pad, vertical loreal region, and straight canthus rostralis; Wu et al. 2016 ).

Kurixalus lenquanensis sp. n. further differs from Kurixalus appendiculatus (Giinther,
1858) by smaller body size, absence of dermal prominence on snout tip, and tympanum
less than half of eye diameter (versus larger body size [male SVL = 30-37 mm], presence
of prominence on snout tip, and tympanum half eye diameter; Giinther 1858, Inger et al.
1999); from K. baliogaster by smaller body size (SVL in males = 25.0—27.4 mm), absence
of prominence on obtusely pointed snout tip, absence of large dark spots on ventral surface,
tuberculated dorsal and lateral skin, presence of tubercles on eyelids, granular throat, and
presence of dermal fringes on limbs (versus larger body size [male SVL = 33.0-33.3 mm],
pointed snout with prominence on tip, large dark spots on ventral surface, smooth dor-
sal and lateral skin, absence of tubercles on eyelids, smooth throat, and absence of dermal
fringes on limbs; Inger et al. 1999); and from Kurixalus banaensis (Bourret, 1939) by smaller

86 Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

Figure 8. The fruit garden A and dry puddle B in the fruit garden at type locality of Kurixalus

lenquanensis sp. n.

body size, obtusely pointed snout being shorter than eye, presence of vomerine teeth, and tu-
berculate flanks (versus larger body size [mean SVL in males = 29.7 mm], markedly pointed
snout being longer than eye, absence of vomerine teeth, and smooth flanks in K. banaensis;
Nguyen et al. 2014a, Nguyen et al. 2014b, Bossuyt and Dubois 2001).

The new species differs from Kurixalus viridescens Nguyen, Matsui, & Duc, 2014
by tuberculate dorsum, brown dorsal color, dark bands on dorsum and limbs, brownish
clouded pattern on chin, and presence of vomerine teeth (versus nearly smooth dorsum,
uniformly greenish dorsal color, no dark markings on dorsum and limbs, pinkish cream
without marking on chin, and absence of vomerine teeth in K. viridescens, Nguyen et al.
2014b); from Kurixalus ananjevae (Matsui & Orlov, 2004) by smaller body size, presence
of vomerine teeth, presence of dermal fringes on limbs, and finely granular throat surface
(versus larger body size [32 mm in one male], absence of vomerine teeth, absence of
dermal fringes on limbs, and smooth throat surface; Matsui and Orlov 2004); and from
Kurixalus motokawai Nguyen, Matsui, & Eto, 2014 by obtusely pointed snout tip, pres-
ence of vomerine teeth, and clouded chin with brown (versus pointed snout tip, absence
of vomerine teeth, and small dark brown spots scattered on chin; Nguyen et al. 2014a)

Currently, two species of Kurixalus (K. bisacculus and K. odontotarsus) are recog-
nized in Yunnan, China (Yu et al. 2010). The new species can be distinguished from K.
bisacculus and K. odontotarsus by smaller body size, absence of large black spots on belly,
and obtusely pointed snout with no prominence on tip (versus larger body size [mean
SVL in males at more than 33 mm], presence of large black spots on belly, and mark-
edly pointed snout with a prominence on tip extending beyond lower jaw in K. bisac-
culus and K. odontotarsus; Table 5; Fig. 9). Moreover, the PCA analysis revealed that
the new species further differs from K. odontotarsus and K. bisacculus by smaller ratio of
SL/SVL, smaller ratio of DNE/SVL, and bigger ratio of FL/SVL (Table 3 and Fig. 3).

Additionally, the new species differs from K. verrucosus found in Myanmar by smaller
body size, snout shorter than diameter of eye, interorbital distance wider than upper eyelid,
tympanum less than half of eye diameter, moderate toe webbing, granular throat and chest,

A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). 87

Figure 9. Ventral view of K. idiootocus (AA YGH 140217), K. odontotarsus (B YGH 090131), and K.
bisacculus (© YGH 090045).

ms. * . .
i. °
are. PAS ‘
|
: v
. ~E £ \

t

Figure 10. Ventral view of foot of K. idiootocus A and ventral view of hand of K. berylliniris (B from Wu
et al. 2016) and K. wangi (C from Wu et al. 2016).

and absence of large brown spots on belly and throat (versus larger body size [mean SVL in
males = 29.9 mm], snout as long as diameter of eye, interorbital space as broad as upper eye-
lid, tympanum half eye diameter, nearly entirely developed toe webbing, smooth throat and
chest, and presence of large brown spots on belly and throat; Boulenger 1893); and from
Kurixalus naso (Annandale, 1912) by smaller body size, obtusely pointed snout with no der-
mal prominence on tip, moderately developed toe webbing, and absence of large dark spots
on chest and belly (versus larger body size [male SVL at more than 30 mm], pointed snout
with a dermal prominence on tip, almost completely developed toe webbing, and presence
of large dark spots on chest and belly in K. maso; Annandale 1912, Mathew and Sen 2008).

Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

88

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A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). 89

Discussion

Although morphological synapomorphies of the genus Kurixalus are still not very
clear (Yu et al. 2013, Nguyen et al. 2014b), intuitively Ki /enquanensis sp. n. can be
placed in Kurixalus because of its morphological similarity to other members of the
genus (e.g. small body size, inner and outer fingers not opposable, poorly developed
finger webbing, moderately developed toe webbing, and serrated dermal fringes on
forearm and tarsus). Other small rhacophorid species in the genera Feihyla, Gracix-
alus, Chiromantis, or Philautus generally lack serrated fringes on forearm and tarsus
and lack vomerine teeth (Fei 1999, Fei et al. 2010). Additionally, inner (first and
second) and outer (third and fourth) fingers are opposable in all species of Feihyla and
Chiromantis (Fei 1999, Fei et al. 2010). This assignment is supported by the molecu-
lar data, which indicates that K. lenquanensis sp. n. is nested in the genus Kurixalus
with strong support values.

It is very interesting biogeographically that K. lenquanensis sp. n. is nested within a
clade consisting of Taiwanese Kurixalus with strong support, indicating that the ances-
tor of the new species may have been from Taiwan Island. Another plausible scenario is
that the ancestor of this new species may have been widespread in southern China and
the descendent species in between Taiwan and Yunnan has become extinct. Although
K. ananjevae and K. naso are not included in the present study, absence of them would
have no impact on the phylogenetic position of the new species because K. ananjevae
likely does not belong to the genus (Yu et al. 2013), and morphologically, K. naso is
more similar to members of the K. odontotarsus species group than to K. lenquanensis
sp. n. in body size and ventral color pattern.

Reproductive behavior among Taiwanese relatives of the new species varies; Kurix-
alus idiootocus lays pigmented eggs on land near the edge of water or in depressions
where rainfall accumulates (Kuramoto and Wang 1987), whereas K. eiffingeri, K. beryl-
liniris, and K. wangi lay eggs inside tree hollows or cut bamboos with water (Fei et al.
2010, Wu et al. 2016). Although no eggs of K. lenquanensis sp. n. were found, repro-
ductive behavior of this new species probably is closer to that of K. idiootocus than to
that of the other three Taiwanese species because 1) it is the sister taxon to K. idiootocus
and 2) no tree hollows or cut bamboos were found at the type locality.

Species boundaries among members of the genus Kurixalus were previously con-
fusing and our earlier work, based on molecular data (Yu et al. 2010), supported that
there are three valid members of Kurixalus in mainland China. Therefore, with the new
species described here, there are currently four Kurixalus species in mainland China: K.
bisacculus, K. lenquanensis sp. n., K. odontotarsus, and K. verrucosus. However, consider-
ing the obvious geographical discontinuity in distribution between K. lenquanensis sp.
n. and its congeneric relatives from Taiwan Island, additional undiscovered species of
Kurixalus may exist in south China.

90

Guohua Yu et al. / ZooKeys 694: 71-93 (2017)

Key to the new species and its congeners

1

2

ON

Limbs with no-sertated detiial tin ges vcccccwne covsees ccvenosn qaevivtecarevtedavensvetseates 2
LLinabsswitlrserrated)-dermaMrinGes. jo. escsiwntachoeeleondsteoscountenrashhunegnes seoioibatelit 3
Dorsum smooth; many dark spots scattered on ventral surface .............eee
Be, cil egal in Faas daghas-Soasiaytdiacl apt ine ote ceteeRi npn cealateaiece aeetoactee K. baliogaster
Dorsum with small tubercles, no dark spots on ventral surface ..............eeee
bsg tare ws cieinc basil Ca Sc dt anh eee a Salshise cant a able eee saci et K. ananjevae
Dorsal-colotannitopmlygerceni ghey. oz. stccses deere onredespuesues sxvsece ite K. viridescens
Dorsal color not uniformly greenish, generally brownish mixed with dark-
PIVOT GUD od che Nae eeloalicneh Taste tte Senede tS NSINUE opahihss Maes ote hl aMau ee TT ase we Ses unMe soaks oe ate 4
[ateeriactorl aha woWlt (lal tyes cores Oat pepe Urey MRE Ree eer. eee K. berylliniris
Prisha eta sk «datas Goan Su canthsp sles cer Geter epuh ees Udulevud dou Ae estate ee nobshd ean attensee ses 5
Nuptialipachorcarlyrex ian des 05. 4 toahseastae se tecdoaedcvnseact oan diloactsecod dndisenigkastedt 6
Wuiptia spa Sie it 2, Specvecrtnast ren vesstcoerastee a veecer Rae tats eae tiP a ote rer eee Biaaet 7

Tubercles on lateral margin of finger IV connected with dermal fringe; venter
whitish with very little pigmentation; loreal region oblique; canthus rostralis
SUT VEG seve scours sag ett nat. cecil gs ch il bi EanchaMias ibe ontvee ered bShosas K. wangi
Tubercles on lateral margin of finger IV separated from each other; venter
with numerous fine brownish dots, especially in the gular region; loreal re-

gion verticals-canthustrostralis Straits. fis.cecsbaniecssceneentiaacasshsaleal K. eiffingeri
Normerine Peet ha Seite Ale reecpsteourenrauapstitt ans ge sesthi Pe tcony henecon Terie cdasnt testes ticustont 8
BY COTM eT ee TCC LIMA LORE END A Fe 88 co taceng ot tac¥s SRA Unsaid ores hte eiaa neste gnats 9
Snout tip less markedly pointed; lateral fringes on limbs and infra-cloacal
tubercles less developed; lateral sides areolate ........ ee eeeeeeeeee K. motokawai
Snout tip markedly pointed; lateral fringes on limbs and infra-cloacal tuber-
elessdevelopeds flaniks-siMOOOn catsuit reat ccs Aecasteeu tens K. banaensis
Smaller body size (adultimiale:SV1 less than-30Amm) 36... Sie eee cnelen eevee 10
Bigger body size (generally adult male SVL greater than 30 mm).............. 11
Snout obtusely pointed with no prominence on tip; absence of a pair of sym-
metrical large dark patches on chest; single internal vocal sac... eee
a Ault toe ct eh eR iol RR Sede SSS Sie K. lenquanensis sp. n.
Snout pointed with a small prominence on tip; a pair of symmetrical large
dark patches present on chest; single external vocal sac ............ K. idiootocus
Snout rounded or somewhat pointed; chin and breast smooth......K. verrucosus
Snout obviously pointed; chin and breast granular... eee eeeeeeeeee 12
Dortsodatéerall foldtatrlhy distinet. cing ase ayeeerencvatieamiv aa aees K. naso
Ne-obvious dotse-lateralitold. Sexe a: eca side: -Aee. aeons 13
Venter uniformly cream to tan with no black spots......... K. appendiculatus
Black Spotsspresentron-ventrallsurl ace. he. Sasa uc an sasuueeen ees ee Me nue 14
Single internal vocal sac; omosternum unforked .............. K. odontotarsus

Paired lateral vocal sacs or single internal vocal sac and omosternum forked ...
el ols ee Bsn ies Thess AON AV TNs etenS cnccuel ieee es REE Sei eG athe NS K. bisacculus

A new species of the genus Kurixalus from Yunnan, China (Anura, Rhacophoridae). 91

Comparative material examined

Kurixalus idiootocus: YGH 140215, 140217—140220, Xinbei, Taiwan.

Kurixalus odontotarsus: YGH 090130—090137, Caiyanghe, Puer, Yunnan.

Kurixalus bisacculus: YGH 080166, 080168—-080170, 140013, Pingbian, Yunnan;
YGH 090045, 140020, Wenshan, Yunnan; YGH 090081, Libo, Guizhou; YGH
090202, Longmeng, Guangdong; YGH 090268, 090270, Nanning, Guangxi;
THNHM 10051, 10052, Nan, Thailand.

Kurixalus verrucosus: CAS 225128, 231489, 231491, 224563, Kachin, Myanmar.

Acknowledgements

We are indebted to S. Lin for the donation of specimens of K. idiootocus from Taiwan
and to T. Chan-ard for the loan of specimens of K. bisacculus from Thailand. Thanks
also to E. J. Ely for assistance with taking measurement of K. verrucosus, to R. Min for
her help with laboratory work, and to two reviewers for their valuable comments on
the manuscript. This work was supported by the National Natural Science Foundation
of China (No. 31301870), CAS “Light of West China” Program to G. Yu, and Natural
Science Foundation of Yunnan Province (No. 2015FB176) to J. Wang.

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