[Ichthyology • 2025] Lentipes ptasan • A New Species of sicydiine goby (Teleostei: Gobioidei) from the Western Pacific, with A Redescription of L. mindanaoensis

 

 Lentipes ptasan

Jhuang, Nañola, Li & Liao, 2025 

 

紋面韌鰕虎 | Tattooed-face Goby  ||  DOI: doi.org/10.1111/jfb.70277  

  facebook.com/WeiChengJhuang 

Abstract

Lentipes ptasan sp. nov. is described based on specimens collected from Taiwan and Mindanao Island. It is a large-sized Lentipes species distinguished by several male-specific characteristics, including an upper lip protruding beyond snout obviously, fewer premaxillary tricuspid teeth, two black lines running from the front of the eye through the nostrils to the tip of the snout, a wide brown longitudinal band at the base of the anal fin, and the distinctive nuptial coloration featuring a brown vertical band extending from back to belly on the middle of the body. The complex distribution of Lentipes species and their genetic differentiation may be influenced by sexual selection, historical biogeographic events and contemporary ecological processes. However, due to the recent divergence of Lentipes species, 11 out of 14 species could not be distinguished by the cytochrome oxidase subunit I gene. Furthermore, Lentipes mindanaoensis is redescribed, with L. adelphizonus treated as its junior synonym.

Keywords: amphidromous goby, Sicydiinae, taxonomy, the Philippines, western Pacific Ocean

 

Live photos of Lentipes ptasan sp. nov. from Taiwan and Mindanao islands:
 (a, b) holotype, ASIZP0082286, male, 31.1 mm SL, Taiwan ((a) non-courting individual, photograph by M. T. Zhou; (b) nuptial colour, photograph by M. Hhuang);
 (c) paratype, ASIZP0082288, male, 35.6 mm SL, Taiwan (non-courting individual, photograph by H. P. Liang); (d) paratype, PNM15807, male, 41.9 mm SL, Mindanao (non-courting individual, photograph by H. P. Liang);
(e) paratype, PNM15811, female, 52.5 mm SL, Mindanao (photograph by F. Li); (f) aquarium photograph showing courtship behaviour of a male L. ptasan toward a female, specimens unpreserved, Mindanao (photograph by Z. H. Deng). Yellow arrowheads indicate the orange pattern on the female.

Close-up of the longitudinal band of the anal fin on two Lentipes species:
(a-1) Lentipes ptasan, holotype, ASIZP0082286, Taiwan (photograph by M.-T. Zhou); (a-2) L. ptasan, paratype, ASIZP0082288, Taiwan (photograph by W. C. Jhuang); (a-3) L. ptasan, paratype, PNM15807, Mindanao (photograph by W. C. Jhuang);
 (b-1) L. armatus, specimen not preserved, Taiwan (photograph by M. T. Zhou); (b-2) L. armatus, DOS09187-1, Cagayan (photograph by W. C. Jhuang); (b-3) L. armatus, DOS09891-4, Aurora (photograph by C. C. Yu).

  Lentipes ptasan sp. nov.

Chinese common name: 紋面韌鰕虎.

English common name: Tattooed-face Goby.

  

  Diagnosis: The new species can be distinguished from other congeners by combination of characters and colour patterns: in males, a black spot on second dorsal fin, upper lip protruding obviously, fewer premaxillary tricuspid teeth, two black lines running from front of eye through anterior and posterior nostrils to tip of snout, anal-fin base with a brown wide longitudinal band, and nuptial coloration with a brown vertical bar extending from dorsum to belly at midbody; in females, an orange pattern around anus.

Etymology: The specific name ‘ptasan’ is derived from the Truku language (an indigenous tribe in Taiwan), meaning ‘facial tattoo’. It refers to the dark facial lines of the new species (Figure 7a,b), which resemble the facial tattoo traditions of indigenous peoples in Taiwan and the Philippines. A noun in apposition.

Facial portraits of males in 14 Lentipes species.
(a, b) Two types of Lentipes ptasan sp. nov. ((a) paratype, DOS10026, from Taiwan, photograph by K. H. Chen; (b) paratype, ASIZP0082288, from Taiwan, photograph by H. P. Liang);  (c) L. armatus from Taiwan, photograph by C. C. Yu;
(d) L. bunagaya from Taiwan, photograph by W. C. Jhuang; (e) L. dimetrodon from Papua, photograph by W. C. Huang; (f) L. ikeae from West Java, photograph by H. P. Liang;
 (g) L. kijimuna (DOS09892-3) from Luzon, photograph by C. C. Yu; (h) L. kaaea from Taiwan, photograph by M. T. Zhou; (i) L. mekonggaensis from Sulawesi, photograph by H. P. Liang;
(j) L. mindanaoensis from Halmahera, photograph by H. P. Liang; (k) L. multiradiatus from Seram, photograph by H. P. Liang; (l) L. palawanirufus from Palawan, photograph by H. P. Liang;
(m) L. kolobangara from Papua, photograph by W. C. Huang; (n) L. venustus from Papua, photograph by W. C. Huang; (o) L. whittenorum from Sulawesi, photograph by H. P. Liang. (c–f) and (h–o) Unpreserved specimens.

Wei-Cheng Jhuang, Cleto L. Nañola Jr., Xiao Fei Li and Te-Yu Liao. 2025. Lentipes ptasan, A New Species of sicydiine goby (Teleostei: Gobioidei) from the Western Pacific, with A Redescription of L. mindanaoensis. Journal of Fish Biology. DOI: doi.org/10.1111/jfb.70277 [21 November 2025]

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[Entomology • 2025] Araneibatrus antennatus, A. thamluang, Batrisocenus filum, Nipponobythus haozhu, Tribasodites circinatus, Zopherobatrus excavatus, ... • Illuminating the Darkness: An exceptionally Diverse Fauna of subterranean Pselaphinae (Coleoptera: Staphylinidae) in Asian Karsts

Araneibatrus thamluang Yin, 2025 

 

 DOI: doi.org/10.1093/isd/ixaf046 

 facebook.com: Speleological Research in Thailand

Abstract

Subterranean ecosystems, particularly the karst environments of Asia, represent a significant but underexplored frontier for biodiversity exploration. This paper focuses on the rove beetle subfamily Pselaphinae (Coleoptera: Staphylinidae) from caves and related subterranean habitats throughout the continent. Drawing upon extensive material accumulated primarily from China and Thailand, supplemented by records from Vietnam, Laos, and the Philippines, an exceptionally diverse subterranean fauna is herein delineated, including the description of 43 new species: Araneibatrus antennatus sp. nov., A. huangsunbini sp. nov., A. leclerci sp. nov., A. thamluang sp. nov., A. thamphamon sp. nov., A. thamphathong sp. nov., A. thamprakaiphet sp. nov.; Batrisiella longlina sp. nov.; Batrisocenus affinis sp. nov., Batrisocenus dushizi sp. nov., Batrisocenus filum sp. nov., Batrisocenus mojiachengi sp. nov., Batrisocenus shilin sp. nov., Batrisocenus trungtrang sp. nov., Tribasodites circinatus sp. nov., T. disuensis sp. nov., T. duanus sp. nov., T. guilinensis sp. nov., T. huchanghaoi sp. nov., T. miaoting sp. nov., T. pakchong sp. nov., T. shui sp. nov., T. uncinus sp. nov., T. zhouhanpingi sp. nov.; Zopherobatrus excavatus sp. nov., Z. kaiyangus sp. nov., Z. sinanus sp. nov., Z. wulongensis sp. nov.; Batraxis soparki sp. nov.; Nipponobythus haozhu sp. nov., N. jinji sp. nov., N. liyunchuni sp. nov., N. long sp. nov., N. minor sp. nov. (soil-dwelling), N. niubi sp. nov., N. platycephalus sp. nov., N. proiectus sp. nov., N. punctatus sp. nov., N. qian sp. nov., N. sanxian sp. nov., N. suxian sp. nov., N. wufengensis sp. nov., and N. zengtingkaii sp. nov. The present work nearly doubles the documented diversity of cavernicolous Pselaphinae in Asia, increasing the number of known species from 48 to 90, highlighting the profound geographical biases in previous research and the immense, cryptic diversity harbored within these habitats. Identification keys to supertribes, tribes, genera, and species are provided, along with a checklist of cavernicolous Pselaphinae recorded from Asia. Moreover, this study reports novel instances of pronounced male antennal polymorphism and identifies potential morphological correlates of sexual conflict, specifically, putative female resistance traits, within these cave-adapted lineages, thereby illuminating evolutionary dynamics operative in aphotic ecosystems. Collectively, this work establishes a crucial taxonomic framework for the Asian cavernicolous fauna and stresses the urgent need for continued biospeleological exploration to effectively catalogue and conserve the unique biodiversity endemic to these karst systems.

taxonomy, cavernicolous, biodiversity, male polymorphism, sexual conflict

Zi-Wei YIN. 2025. Illuminating the Darkness: An exceptionally Diverse Fauna of subterranean Pselaphinae (Coleoptera: Staphylinidae) in Asian Karsts. Insect Systematics and Diversity. 9(5); ixaf046. DOI: doi.org/10.1093/isd/ixaf046 [03 November 2025] 

 facebook.com/100057307014355/posts/1348184350435119

[PaleoIchthyology • 2025] Pseudocorax heteroserratus • Pseudocorax (Chondrichthyes: Lamniformes: Pseudocoracidae) in the Upper Maastrichtian Phosphates of Khouribga Province, Morocco

 

Pseudocorax heteroserratus

Egli, Goode, Rempert & Rego, 2025

 DOI: doi.org/10.1017/jpa.2025.10183  

 Researchgate.net/publication/397832548

Abstract

A new species of Pseudocorax (Lamniformes, Pseudocoracidae), Pseudocorax heteroserratus n. sp., is described from the upper Maastrichtian phosphates of Morocco. This novel taxon is recognized by a large sample of isolated teeth collected from the upper Couche III layer at the Sidi Chennane quarry in the Oulad Abdoun Basin, Khouribga Province, Morocco. P. heteroserratus is differentiated from other Pseudocorax species by bearing a mesiodistally elongated tooth base, broad crown, and highly variable serrations. The variability in number and extent of serrations along the carinae ranges from completely absent to fully serrated and finely to coarsely serrated, raising speculation on broader Pseudocorax phylogenetics and as to whether the genesis of serrations within Pseudocorax occurred in a singular progressive event or rather from two distinct events. The morphological variability within the new species highlights the importance of large sample sizes in selachian odontological studies using isolated teeth.

Systematic paleontology

Class Chondrichthyes Huxley, Reference Huxley, 1880

Subclass Elasmobranchii Bonaparte, Reference Bonaparte, 1838

Cohort Euselachii Hay, Reference Hay, 1902

Subcohort Neoselachii Compagno, Reference Compagno, 1977

Order Lamniformes Berg, Reference Berg, 1958

Family Pseudocoracidae Cappetta, Reference Cappetta, 2012

Genus Pseudocorax Priem, Reference Priem, 1897

Type species: Pseudocorax affinis (Münster in Agassiz, Reference Agassiz1843), from the upper Maastrichtian, Netherlands.

 Upper anterior Pseudocorax heteroserratus n. sp. 
 (1–5) MMNS VP-12820 (holotype), upper left anterior tooth in (1) lingual, (2) basal, (3) apical, (4) profile, and (5) labial views.
(6–10) MMNS VP-12827.01, upper left anterior tooth in (6) lingual, (7) basal, (8) apical, (9) profile, and (10) labial views. Scale bars = 5 mm.

Pseudocorax heteroserratus new species 

Diagnosis: Crown and tooth base mesiodistally expanded, especially along upper and lower jaw anterior teeth. Mesial shoulder generally more prominent along basal crown, extending further apically. Variable serrations, from absent to full and coarse to fine, regardless of jaw position or potential ontogenetic stage. Deep basal margin on tooth base with variable tooth base lobe morphology.

Occurrence: Upper Couche III layer of the Oulad Abdoun Basin, Sidi Chennane quarry, near Oued Zem, Khouribga Province, Morocco.

 

Etymology: “Hetero-”, Latin for “different”, and “serratus” for “serrations,” highlighting the variability in the presence and size of serrations along the crown.

 Upper lateroposterior Pseudocorax heteroserratus n. sp. teeth.
(1–5) MMNS VP-12823 (paratype), upper left lateroposterior tooth in (1) lingual, (2) basal, (3) apical, (4) profile, and (5) labial views. (6–10) MMNS VP-12827.05, (?) upper right lateroposterior tooth in (6) lingual, (7) basal, (8) apical, (9) profile, and (10) labial views.
(11–15) MMNS VP- 12827,06, (?) upper left lateroposterior tooth in (11) lingual, (12) basal, (13) apical, (14) profile, and (15) labial views. (16–20) MMNS VP-12827.07, upper left lateroposterior tooth in (16) lingual, (17) basal, (18) apical, (19) profile, and (20) labial views.
(21–25) MMNS VP-12827.08, upper right lateroposterior tooth in (21) lingual, (22) basal, (23) apical, (24) profile, and (25) labial views. (26–30) MMNS VP-12827.09, upper left lateroposterior tooth in (26) lingual, (27) basal, (28) apical, (29) profile, and (30) labial. Scale bars = 5 mm.

Hunter Chase Egli, Benjamin Goode, Trevor Rempert and Christopher Rego. 2025. Pseudocorax (Chondrichthyes, Lamniformes, Pseudocoracidae) in the Upper Maastrichtian phosphates of Khouribga Province, Morocco. Journal of Paleontology. Journal of Paleontology. DOI: doi.org/10.1017/jpa.2025.10183  [21 November 2025]

 Researchgate.net/publication/397832548_Pseudocorax_in_the_Upper_Maastrichtian_phosphates_of_Khouribga_Province_Morocco 

 

Non-technical Summary: A new species of extinct shark, Pseudocorax heteroserratus n. sp., has been identified through isolated teeth from fossil-rich Cretaceous rock in Morocco. Unlike previously known Pseudocorax species, this new species is distinguishable through its broad crown, elongated tooth base, and unusually variable serrations. These serrations range from unserrated to coarsely serrated and provide new insights into Pseudocorax evolutionary history. It raises the question of whether serrations in this lineage evolved gradually in a continuous process or from multiple independent origins. The findings of this study emphasize how large sample sizes of shark teeth are critical in palaeoichthyology, especially when species are known only from their teeth.

[Ichthyology • 2025] Baryancistrus isaaci & B. quilombola • Two New Species of the ornamental loricariid Genus Baryancistrus (Siluriformes: Loricariidae: Hypostominae) from rio Trombetas Basin, Pará, Brazil

 

Baryancistrus isaaci
Baryancistrus quilombola

 Oliveira & Rapp Py-Daniel, 2025 

 

DOI: doi.org/10.1590/1982-0224-2025-0066

 

Abstract

Two new species of Baryancistrus are described from the rio Trombetas basin. These new species were collected in the late 1980’s and were analyzed morphologically and compared to the eight currently assigned species of Baryancistrus. Both new species are distinguished from their congeners by a set of non-unique characters, such as coloration, extension of dorsal-fin membrane, abdominal covering, number of mandibular teeth and size of fins. These new species are only registered for strong-energy and clear waters, powerful cataracts, with rocky substrates, being sometimes, syntopic. The patterns of distribution and morphological features among all Baryancistrus species are discussed, and an identification key is presented. Despite of occurring in a protected area, previous studies on hydroelectric plants for the rio Trombetas, as the Hydropower Plant of Cachoeira Porteira, are being re-examined by current authorities, raising deep concerns on the future conservation of the unique biodiversity of the rio Trombetas basin.

Keywords: Amazon; Conservation; Freshwater; Hydroelectric; Identification key

   Baryancistrus isaaci, uncatalogued specimen, from Cachoeira da Enseada, 
Baryancistrus quilombola, INPA-ICT 52435, paratype, 119.4 mm SL, from rio Trombetas,
Oriximiná, Pará, Brazil. 

Photos: Douglas A. Bastos.

Baryancistrus isaaci, new species 

Etymology. The specific name, a noun (masculine, singular), honors Isaäc Isbrücker, for his contribution to the knowledge of Neotropical Ichthyology, especially loricariids. Isaäc is an excellent ichthyologist and aquarist, and an example of resilience against preconceived ideas, deserving to be honored by his extreme talent and knowledge on loricariids. He has dedicated a relevant part of his career as ichthyologist sharing his knowledge with the academia and general aquarium experts. A noun in a genitive case.

Baryancistrus quilombola, new species

Etymology. The specific name quilombola (a noun in the nominative singular standing in apposition to the generic name) honors the Quilombola’s communities of the rio Trombetas, also called Quilombos. Quilombolas are Afro-Brazilian descendents that escaped from slavery, or after abolition of slavery, that organized agrarian communities according to cultural, religious and geographic backgrounds in different areas in Brazil. The presence of large quilombos in the Amazon and, particularly, in the rio Trombetas basin deserves recognition, as the first Quilombo fully recognized by the Brazilian government was in rio Trombetas (Duque, 2009). They are eximious fishermen and profound connoisseurs of the dangerous waters in the rio Trombetas, as well as important activists of the Quilombola cause in South America.

  Renildo Ribeiro de Oliveira and Lúcia H. Rapp Py-Daniel. 2025. Two New Species of the ornamental loricariid Genus Baryancistrus (Siluriformes: Hypostominae) from rio Trombetas Basin, Pará, Brazil.   Neotrop. ichthyol. 23 (03); DOI: doi.org/10.1590/1982-0224-2025-0066

[Botany • 2025] Begonia shunzhii (Begoniaceae, sect. Reichenheimia) • A New Species from Guizhou, China

 

Begonia shunzhii D.K.Tian, Z.Y.Guo & X.X.Bai, 

in Guo, Bai, Zhou, Chen, Li et Tian, 2025.

顺志秋海棠  ||  DOI: doi.org/10.11646/phytotaxa.728.2.12

Abstract

Begonia shunzhii, a new species of Begonia sect. Reichenheimia from Guizhou Province of China is described and illustrated. It mostly resembles B. qingchengshanensis and B. puerensis in the same section but considerably differs from the latter two in some characteristics. A detailed morphological comparison of the three species is provided. According to the Guidelines for Using IUCN Red List Categories and Criteria, the conservation status of new species is assessed as Endangered (EN B1ab(i,ii,iii,iv,v)).

Begonia, New taxon, Karst landform, Morphology, Conservation status, Guizhou, China, Eudicots

Habitat, habit and morphology of Begonia shunzhii D.K.Tian, Z.Y.Guo & X.X.Bai
A, B. Habitat; C–E. Habit in different locations; F. Stipule; G. Adaxial leaf surface showing short bristles; H. Abaxial leaf surface; I. Bracts (left: side view, right: back view); J. Front (left two) and back (right) views of staminate flowers; K. Androecium and stamens; L. Front and side views of pistillate flowers; M. Side view of immature fruits; N. Cross-section of ovary showing placentae. (Photos A–C, G, H, J-left, L by Daike Tian; D, J-right two, K, M by Zhiyou Guo, F, I, N by Xinxiang Bai, E by Meng Dong).

Begonia shunzhii D.K.Tian, Z.Y.Guo & X.X.Bai, sp. nov. 

§ sect. Reichenheimia 

(顺志秋海棠) (shùn zhì qiū hǎi táng)  

 Type:—CHINA. Guizhou Province, Kaiyang County (开阳县), Nanjiang town (南江乡), Nanjiang Grand Valley (南江大峡谷), ..., alt. 760 m, ...

Diagnosis:—Begonia shunzhii is mostly similar to B. qingchengshanensis Li et al. (2018: 198) but differs mainly by its smaller (2–3 × 1–1.5 mm vs. 3–7 × 2–5 mm) stipules with ciliate (vs. entire) margins without keel (vs. keeled); shorter (1.5–10.5 cm vs. 11–19 cm) petioles, leaves usually greenish-white-spotted (vs. very rarely spotted) and adaxially sparsely short-bristled and non-waxy (vs. subglabrous and waxy), smaller (2–4 × 0.5–2 mm vs. 4.5–5.5 × 3–4.5 mm) bracts, narrowly oblong to sublinear (vs. triangular or ovate-triangular), shorter (8–11 mm vs. 9–25 mm) pedicels, outer tepals ovate to subcircular (vs. narrowly to broadly ovate), smaller (5–9 × 2–3 mm vs. 7−12 × 3−5 mm) inner tepals of staminate flowers, and valvate (vs. separated) two sides of stigmas (Table 1).

Zhi-You GUO, Xin-Xiang BAI, Xing-Xue ZHOU, Zhi-Lin CHEN, Yu-Hui LI and Dai-Ke TIAN. 2025. Begonia shunzhii (sect. Reichenheimia, Begoniaceae), A New Species from Guizhou, China. Phytotaxa. 728(2); 220-226. DOI: doi.org/10.11646/phytotaxa.728.2.12 [2025-11-12]

[Botany • 2025] Gastrodia biruensis (Orchidaceae: Epidendroideae) • A New Species from East Java, Indonesia

Gastrodia biruensis Dwitara, Fatih, Yudistira & Mustaqim,

in Dwitara, Fatih, Yudistira et Mustaqim, 2025. 

openjournals.library.sydney.edu.au/TEL

Abstract

Gastrodia biruensis Dwitara, Fatih, Yudistira & Mustaqim, a new mycoheterotrophic orchid species from the eastern part of Java, Indonesia, is described and illustrated. It is similar to two other Javan endemics G. crispa J.J.Sm. and G. selabintanensis Tsukaya & A.Hidayat, but differs in several morphological details, as well as flower colour. Information on its distribution and ecology, photographs and illustrations are provided.

Keywords: biodiversity, herbs, orchids, conservation, taxonomy, mycoheterotrophic orchids, terrestrial

Morphology of Gastrodia biruensis.
A. Plant habit, B. Rhizome, C. Scale, D. Flower frontal view, E. Dorsal view, F. Flower lateral dissection, G. Sepals and petal adaxial view, H. Sepals and petal abaxial view, I. Pedicel, ovary, column and labellum lateral view, J. Column with ovary, K. Column stelidia, L. Column dorsal view, M. Labellum adaxial surface, N. Labellum abaxial surface, O. Anther-cap, abaxial and adaxial view, P. Pollinarium, Q. Floral bract, adaxial (ad) and abaxial view (ab).

All from type material. Photograph by Fariq I. A. Shidiq and design by Yuda R. Yudistira.

Gastrodia biruensis Dwitara, Fatih, Yudistira & Mustaqim, sp. nov.

Diagnosis: Gastrodia biruensis is similar to G. crispa J.J.Sm., but differs in having larger flowers (3.2–3.8 × 1.2–1.7 cm vs 1.8–2 × 0.9–1.3 cm), smooth (vs warty) outer sepal surface, petals white with an orange center extending to the apex (vs pure white), a larger labellum (11–13 × 7–10 mm vs 7–7.6 × 6–7 mm), labellum whitish-orange in the basal half and orange in the upper half, with two orange calli (vs white suffused pale yellowish green near apex), apex of labellum obtuse (vs acute), a longer column (10 mm vs 6.5–7 mm), orange (vs white) column margin, and orange (vs white) stelidia. Gastrodia biruensis is also similar to G. selabintanensis Tsukaya & A.Hidayat but differs in having larger flowers (3.2–3.8 × 1.2–1.7 cm vs c. 1.7 × 0.9 cm), labellum much longer than the column by c. 1.6 times (vs 1.1–1.3), yellowish basal calli (vs pure white), labellum orange in the upper half distal calli (vs yellowish white), orange (vs white) column margin, and orange (vs white) stelidia. (Table 1) 

Galuh A.C. Dwitara, Muhammad Al Fatih, Yuda R. Yudistira, Wendy Achmmad Mustaqim. 2025. A New Species of Gastrodia (Orchidaceae: Epidendroideae) from East Java, Indonesia. Telopea. 29; 285–291.

 openjournals.library.sydney.edu.au/TEL/article/view/21366

[Botany • 2025] Gastrochilus wenchuanensis (Orchidaceae: Aeridinae) • A New Species from China based on molecular and morphological data

Gastrochilus wenchuanensis P.Y.Wu & C.Y.Zhou, 

in Wu, Guo, Zhou, Wang, Shan, Yong et Zhang, 2025. 

汶川盆 距兰  || https://taiwania.ntu.edu.tw/abstract/2135

Abstract

The newly discovered orchid, Gastrochilus wenchuanensis (Aeridinae, Orchidaceae), found in Wenchuan, Sichuan of China, is described here based on the data of its morphology, phenology, ecology and distribution. This entity bears resemblance to G. formosanus, G. wolongensis, G. nanchuanensis, G. sinensis, G. minjiangensis and G. armeniacus, but can be distinguished by a distinctive vein on both the petals and sepals, as well as an epichile and hypochile that are devoid of spots or stripes. The molecular phylogenetic analysis, based on the nuclear ribosomal internal transcribed spacer (nrITS) and four plastid regions (atpI, matK, psbA, and trnL-F), supports the conclusion that Gastrochilus wenchuanensis is a new species and is sister to G. formosanus.

Keyword: Gastrochilus, molecular phylogenetics, morphology, new species, sect. Caespitosi

Gastrochilus wenchuanensis
  A. Flowering plant. B. Inflorescence. C. Flower (front view). D. Leaves (view from above and from below). E. Labellum (view from below). F. Anatomy of flowers (F1: dorsal sepals; F2 and F3: lateral sepals; F4 and F5: petals; F6: labellum). G. Flowers (view from rear). H. Capsule. I. Labellum (longitudinal dissection). J. Pollinia. K. Stigma.

Gastrochilus wenchuanensis 
A. Flowering plant. B. Flower (front view). C. Flowers (view from rear). D. Leaves (view from above and from below). E. Sepal and petal. F. Pollinia. G. Labellum (view from above and from below). H. Labellum (longitudinal dissection). I. Inflorescence. J. Capsule.

Plant and inflorescence with flowers for Gastrochilus wenchuanensis 
A. Habitat. B. Plant with flowers in wild. C. Plant with flowers in cultivation. D. Plant with fruit.

Gastrochilus sect. Caespitosi Z. H. Tsi 

Gastrochilus wenchuanensis P.Y.Wu & C.Y.Zhou, sp. nov 

Diagnosis: The new species resembles G. formosanus, but differs in the morphology of the epichile and the markings on both the petals and sepals. It also deviates from G. wolongensis due to its shorter inflorescences, an undimpled and spotless epichile, and a stripeless hypochile. The distinguishing characteristics of the new species compared to G. armeniacus include leaf morphology, flower pigmentation, sepal length, epichile trichome density, and the absence of hypochile surface ridges. The distinctive stripe on the petals and sepals, along with the morphology of the hypochile and epichile, serves to distinguish this species from G. minjiangensis. It differs from G. nanchuanensis by its reniform epichile, green and fully open flowers. The shape of the epichile and a distinct purple stripe on the petals and sepals distinguish it from G. sinensis.

  

Peng-Yu Wu, Jiaxu Guo, Cheng-Yuan Zhou, Zi-Yang Wang, Qian-Tong Shan, Heng Yong, Yu-Tian Zhang. 2025. Gastrochilus wenchuanensis (Aeridinae; Orchidaceae): A New Species from China based on molecular and morphological data. Taiwania. 70(4): 757‒765.  DOI: 10.6165/tai.2025.70.757

   https://taiwania.ntu.edu.tw/abstract/2135 [2025 November 14]

[Invertebrate • 2025] Troglobdella guizhouensis • A New Genus and Species of Cave-dwelling Leech (Hirudinea: Salifidae) from China: Taxonomy, Phylogeny, and mitochondrial Genome Characterization

 

Troglobdella guizhouensis  Liu & Nakano, 

in K. Liu, Q. Li, Wu, Lin, H. Li, Nakano et Z. Liu, 2025.

 贵州隐洞蛭  ||  DOI: doi.org/10.3897/zse.101.168628 

 

Abstract

Accurate identification of leech species is critical for biodiversity conservation and evolutionary studies. However, due to the ambiguity and variability of some key characteristics, Salifidae remains a rather poorly known group of Erpobdelliformes. In this study, a new genus of salifid leech, Troglobdella gen. nov., is established, and a new species, Troglobdella guizhouensis sp. nov., is described based on specimens collected from a cave in Guizhou Province, Southwest China. Phylogenetic analyses based on mitochondrial cytochrome c oxidase subunit I (COI) and nuclear 18S rRNA gene sequences reveal that Troglobdella guizhouensis represents a distinct lineage within a clade that also includes the troglobiotic species Shibabdella wulingensis Tang & Liu, 2025, and the terrestrial Odontobdella gaowangjiensis Yin & Liu, 2025, both of which are known from Hunan Province. This suggests that cave-related morphologies in Chinese salifid leeches may have evolved independently. The complete mitochondrial genome of the new species was assembled into a circular molecule of 15,732 bp, comprising 13 protein-coding genes, 22 tRNAs, and 2 rRNAs. This study contributes new insights into the taxonomy, systematics, and mitochondrial architecture of cave-adapted leeches.

Key Words: mitochondrial genome, phylogeny, Salifidae, taxonomy, Troglobdella guizhouensis, troglobiont

Taxonomy

Family Salifidae Johansson, 1910

Troglobdella guizhouensis 
 B. The entrance of the cave; C. A leech living in the puddle.

 Troglobdella Liu & Nakano, gen. nov.

 Troglobdella guizhouensis Liu & Nakano, sp. nov.

Diagnosis. Troglobdella guizhouensis can be distinguished from the other salifid genera as well as other species by the following combination of characters: body milky white with no pigments; without eyes; oral sucker well developed, distinctly laterally expanded; mid-body somites six-annulate; gonopores separated by four annuli; testisacs multiple; pharynx strepsilaematous; lacking preatrial loop of male paired ducts; paired atrial cornua conical, curved laterad; atrium short, globular; ovisacs descending to anterior of somite XIV, then turned several times in each of posterior parts, forming globular mass.

Etymology. The genus name Troglobdella is derived from the Ancient Greek “troglos” meaning “cave” and “bdella” meaning “leech” referring to the genus’ trait to subterranean habitats. We suggest the Chinese formal name as “yǐn dòng zhì shǔ” (隐洞蛭属). The species name “guizhouensis” is based Guizhou Province in China, where the species was discovered, with the suffix “-ensis” indicating geographical origin. We suggest the Chinese formal name as “guì zhōu yǐn dòng zhì” (贵州隐洞蛭).

Kaiqing Liu, Qing Li, Heqi Wu, Yiquan Lin, Hexiang Li, Takafumi Nakano, Zichao Liu. 2025. A New Genus and Species of Cave-dwelling Leech from China in the family Salifidae: Taxonomy, Phylogeny, and mitochondrial Genome Characterization. Zoosystematics and Evolution. 101(4): 2123-2132. DOI: doi.org/10.3897/zse.101.168628 

[Crustacea • 2025] Caridina brevilineata, C. fontinalis, C. hepingensis, C. qiongzhongensis, ... • Integrative Taxonomy reveals the Caridina clinata Cai, Nguyen & Ng, 1999 Species Complex (Decapoda: Atyidae), with Descriptions of Eight New Species from Hainan Island, China

Caridina clinata Cai, Nguyen & Ng, 1999,
 Caridina wenchangensis sp. nov., C. qiongzhongensis sp. nov., C. huangi sp. nov., C. hepingensis sp. nov., C. fontinalis sp. nov., C. tunchengensis sp. nov., C. brevilineata sp. nov., & C. caii sp. nov.

in Hou, J. Zhang, B. Chen, Y. Zhang, W. Chen et Guo, 2025. 

DOI: doi.org/10.3897/zse.101.172207

Abstract

Integrative analyses revealed that Caridina clinata Cai, Nguyen & Ng, 1999 represents a species complex comprising nine sibling species distributed across Hainan Island (China) and Vietnam. Among these, C. clinata sensu stricto (the nominal species itself) occurs in both regions, C. haivanensis is endemic to Vietnam, and the seven newly described species are endemic to Hainan Island. Evidence showed that the C. clinata population reported by Cai (2014) from Wuzhishan was actually a new species, herein described as C. caii sp. nov. This study documents nine Caridina species from Hainan Island, including eight new species and one newly recorded species. The new species are: C. wenchangensis sp. nov., C. qiongzhongensis sp. nov., C. huangi sp. nov., C. hepingensis sp. nov., C. fontinalis sp. nov., C. tunchengensis sp. nov., C. brevilineata sp. nov., and C. caii sp. nov. Additionally, Caridina clinata is recorded for the first time from Ledong, Hainan, and is redescribed herein. For each species, we provide comprehensive morphological descriptions, illustrations, taxonomic notes, habitat parameters, and IUCN threat assessments. Furthermore, we clarify the phylogenetic relationships between the newly discovered species and their congeners.

Key Words: 16S, COI, Hainan Island, Integrative taxonomy, morphology, new species

Collection sites of Hainan Island and live colouration of 9 Caridina species.
Caridina clinata Cai, Nguyen & Ng, 1999, Caridina wenchangensis sp. nov., C. qiongzhongensis sp. nov., C. huangi sp. nov., C. hepingensis sp. nov., C. fontinalis sp. nov., C. tunchengensis sp. nov., C. brevilineata sp. nov., and C. caii sp. nov.

Caridina wenchangensis sp. nov., C. qiongzhongensis sp. nov., 

C. huangi sp. nov., C. hepingensis sp. nov., 

C. fontinalis sp. nov., C. tunchengensis sp. nov., 

C. brevilineata sp. nov., and C. caii sp. nov.

Habitats of Caridina species on Hainan Island.
A. C. clinata Cai et al., 1999; B. C. caii sp. nov.; C. C. wenchangensis sp. nov.; D. C. qiongzhongensis sp. nov.;
E. C. huangi sp. nov.; F. C. hepingensis sp. nov.; H. C. tunchengensis sp. nov.; I. C. brevilineata sp. nov.

 Junjie Hou, Jiping Zhang, Bing Chen, Yixuan Zhang, Wenjian Chen, Zhaoliang Guo. 2025. Integrative Taxonomy reveals the Caridina clinata Cai, Nguyen & Ng, 1999 Species Complex (Crustacea, Decapoda, Atyidae), with Descriptions of Eight New Species from Hainan Island, China. Zoosystematics and Evolution. 101(4): 2295-2336. DOI: doi.org/10.3897/zse.101.172207

[Herpetology • 2025] Raorchestes magnus, R. monolithus, R. nasuta, R. orientalis ... • Revision of Bush Frogs, Raorchestes and Philautus (Anura: Rhacophoridae) from the northeast Indian Biodiversity Hotspot with Description of Thirteen New Species

Raorchestes nasuta, R. monolithus, R. orientalis,
R. khonoma, R. arunachalensis, R. magnus, ...

 Boruah, Deepak & Das, 2025 

DOI: doi.org/10.3897/vz.75.e148133 

 facebook.com: Bitupan Boruah 

Abstract

Bush frogs currently in the genera Raorchestes and Philautus are poorly documented from northeast India when compared to the Western Ghats of southwestern India. They are morphologically cryptic, but variable in their acoustic repertoire and genetic divergence. We present a long-overdue revision of the bush frogs of northeast India by sampling 81 localities in eight Indian States (including nine type localities of known species) and by comparing historical (especially, type) material. Using an integrative approach that combines levels of divergence in mitochondrial DNA, a nuclear-encoded gene and comparing morphological and bioacoustic data, we demonstrate the existence of 13 new species, which are formally described here. In addition, based on the evidence from molecular and morphological data we synonymise four previously described species from this region. We resolve the taxonomic identities of three other frog species found in northeast India. After extensive survey across northeast India, we did not find a single specimen of the genus Philautus. The only species in this genus with ambiguous generic identity is P. dubius which requires further taxonomic investigation.

Keywords: Bioacoustics, cryptic species, Indo-Burma, Indochina, morphology, phylogeny, redescription, taxonomy 

Raorchestes orientalis sp. nov.

Raorchestes mawsynramensis sp. nov.

Raorchestes boulengeri sp. nov.

Raorchestes barakensis sp. nov.

Raorchestes narpuhensis sp. nov.

Raorchestes lawngtlaiensis sp. nov.

Raorchestes nasuta sp. nov.

Raorchestes dibangensis sp. nov.

Raorchestes monolithus sp. nov.

Raorchestes khonoma sp. nov.

Raorchestes eaglenestensis sp. nov.

Raorchestes arunachalensis sp. nov.

Raorchestes magnus sp. nov.

Raorchestes cinerascens  comb. nov., 

Raorchestes tytthus  comb. nov.,

 Liurana kempii  comb. nov., 

Nasutixalus microdiscus comb. nov.

 Bitupan Boruah, V. Deepak and Abhijit Das. 2025. Revision of Bush Frogs, Raorchestes and Philautus (Amphibia: Anura: Rhacophoridae) from the northeast Indian Biodiversity Hotspot with Description of Thirteen New Species. Vertebrate Zoology. 75: 517-625. DOI: doi.org/10.3897/vz.75.e148133 

 facebook.com/BitupanWild92/posts/25117149374636398

[Herpetology • 2025] Dryadobates gen. nov., Dryadobates bokermanni, D. lutzi ... • Museomics and the Systematics of the Atlantic Forest Nurse Frogs (Dendrobatoidea: Aromobatidae: Allobatinae)

 

Dryadobates lutzi

Dryadobates bokermanni

Grant, Lyra, Hofreiter, Preick, Barlow, Verdade & Rodrigues, 2025

DOI: doi.org/10.1206/0003-0090.472.1.1 

 

Abstract

For four decades after 1967, four species of nurse frogs were recognized in the Atlantic Forest, namely Allobates alagoanus (Bokermann, 1967), A. capixaba (Bokermann, 1967), A. carioca (Bokermann, 1967), and A. olfersioides (A. Lutz, 1925), but in 2007 they were synonymized due to a lack of morphological differences. Although growing evidence from DNA and bioacoustics suggests that multiple species of nurse frogs inhabit the Atlantic Forest, their taxonomy has not been updated because populations at the four type localities had all vanished by the 1990s, making it impossible to collect tissues for DNA analysis and other data (e.g., vocalizations) from topotypic material. To overcome the lack of modern tissues, we employed museomics to obtain historical DNA from topotypic material of the four nominal species, which we analyzed together with data from extant populations from throughout the Atlantic Forest and Atlantic Forest enclaves within the Caatinga. We found that the Atlantic Forest nurse frogs comprise a well-supported clade of no fewer than 12 species that arrived in the Atlantic Forest via a single invasion from the Guiana Shield. We propose Dryadobates, gen. nov., for this clade, which is the sister group of all other allobatines. We consider the four nominal species to be valid, redescribe them as D. alagoanus, comb. nov., D. capixaba, comb. nov., D. carioca, comb. nov., and D. olfersioides, comb. nov., describe two sister species (D. bokermanni, sp. nov., and D. lutzi, sp. nov.) from southern Bahia, and summarize available information for the remaining six undescribed species. The type series of D. olfersioides comprises two species, so we designate a lectotype to clarify the application of the name. Dryadobates alagoanus is extant and broadly distributed, but D. capixaba, D. carioca, and D. olfersioides are presumed extinct, representing 50% of the nominal species of Dryadobates. These results provide a clear and consequential example of the essential role museomics and taxonomy play in understanding diversity loss and setting conservation priorities.

 

Keywords: Dendrobatidae, Mata Atlântica, Classification, Frogs, Genetics, Dryadobates, Museomics.

Dryadobates bokermanni, sp. nov., adult in life.
Adult male holotype (MZUSP 160849, 16.7 mm SVL): A, dorsal view; B, ventral view.
C, adult female topoparatype (MZUSP 160848, 17.8 mm SVL), ventral view. Photographs: T.G.

Dryadobates lutzi, sp. nov., adult male paratypes in life.
 A, dorsal view (MZUSP 160544, 14.7 mm SVL; photograph: M.T.R.);
B, ventral view (MZUESC 20074, 15.5 mm SVL; photograph: Omar Rojas Padilla).

Dryadobates gen. nov.

Dryadobates bokermanni sp. nov.

Dryadobates lutzi sp. nov.

Dryadobates olfersioides comb. nov.

Dryadobates alagoanus , D. capixaba , D. carioca (removed from the synonymy of Dryadobates olfersioides)

Dryadobates alagoanus adult male in life (an individual in the series CHUFPE 1817–1823):
A, dorsal view; B, ventral view.

Photographs: Marcos Dubeux.

 

Taran Grant, Mariana L. Lyra, Michael Hofreiter, Michaela Preick, Axel Barlow, Vanessa K. Verdade, Miguel Trefaut Rodrigues. 2025. Museomics and the Systematics of the Atlantic Forest Nurse Frogs (Dendrobatoidea: Aromobatidae: Allobatinae). Bulletin of the American Museum of Natural History. 2025(472); 1-76. DOI: doi.org/10.1206/0003-0090.472.1.1  [6 May 2025]

https://hdl.handle.net/2246/7504