[Herpetology • 2025] Ichthyophis griseivermis • Integrative Taxonomy reveals A New unstriped Ichthyophis Fitzinger, 1826 (Gymnophiona: Ichthyophiidae) from Vietnam and provides new data on diagnostic osteological traits for Asian tailed caecilians

Ichthyophis griseivermis 

Poyarkov, Skorinova, Bragin, Kolchanov, Gorin, Trofimets, Yuzefovich, Le, Nguyen & Skutschas, 2025 

DOI: doi.org/10.3897/vz.75.e149399

Abstract

Herein we examined the cranial osteology of 15 species of Ichthyophis (I. asplenius, I. beddomei, I. glutinosus, I. kohtaoensis, I. larutensis, I. mindanaoensis, I. multicolor, I. nguyenorum, I. nigroflavus, I. sikkimensis, I. singaporensis, I. supachaii, I. tricolor, I. weberi, and Ichthyophis sp. from northern Vietnam) with a special emphasis on the temporal region. We presented the first detailed description of the cranium and the atlas of an Ichthyophis species based on micro-CT scanning data. We discuss the implications of temporal region composition for the systematics of this group and the evolution of the cranium in Gymnophiona as a whole. We further provided comments on a jaw-closing mechanism and reported on the presence of phylogenetically basal cranial features in ichthyophiids that are also found in stem caecilians. Our detailed morphological description was based on a specimen from a previously unknown population of unstriped Ichthyophis from northern Vietnam. We consequently described this population as a new species based on morphological and molecular (3967 bp from cyt b, 12S rRNA, and 16S rRNA mitochondrial DNA genes) lines of evidence. We provide comparisons of external morphological traits of the new species with its congeners and further compare its cranial osteological features with other Ichthyophis for which skull descriptions exist. The new species differs from the morphologically similar species I. yangi and I. chaloensis by a significant divergence in cyt b and 16S rRNA mitochondrial DNA gene sequences (p = 6.5%–6.9% and p = 4.5%, respectively). The new species is currently known only from evergreen forests of Xuan Lien National Park (Thanh Hoa Province) and Pu Hoat (Nghe An Province) Nature Reserve, northern Vietnam, and was recorded at elevations of 700–800 m asl. We suggest the new species be considered Data Deficient (DD), following the IUCN’s Red List categories.

Keywords: Ichthyophis griseivermis sp. nov., micro-CT scanning, molecular analyses, morphology, Nghe An, osteology, Pu Hoat, taxonomy, Thanh Hoa, Xuan Lien

Family Ichthyophiidae Taylor, 1968

Genus Ichthyophis Fitzinger, 1826

Details of external morphology of the holotype of Ichthyophis griseivermis sp. nov. in life (ZMMU A-8208, adult female). A Lateral view of the head, right side; B lateral view of the head, right side; C dorsal view of the head; D ventral view of the head; E lateral view of the tail, left side; F lateral view of the tail, right side; G dorsal view of the tail; H ventral view of the tail. Scale bar equals 5 mm (all photographs shown in one scale).

Photographs by A. M. Bragin.

The holotype of Ichthyophis griseivermis sp. nov. in life in situ (ZMMU A-8208, adult female).

Photograph by A. M. Bragin.

Ichthyophis griseivermis sp. nov.

Diagnosis. The new species Ichthyophis griseivermis sp. nov. differs from other members of the genus Ichthyophis by the following combination of the morphological characters: unstriped body lacking lateral yellow stripe; adult total length 206–242 mm (based on two available specimens); snout blunt and rounded (snout length/head length ratio 0.06–0.08); tentacle aperture located closer to eye than to naris (tentacle aperture-naris distance/tentacle aperture-eye distance ratio 2.1–2.2); premaxillary and maxillary teeth 44–48, vomero-palatine teeth 43–48, dentary teeth 38, inner mandibular teeth 25–33; tail very short, acuminate, ending in a nipple-like cap; annuli angulate, total 301–306 (dorsal count), four interupted by cloacal disc, one posterior to cloacal disc, the degree of annuli angulation decreasing from head to cloaca with grooves appearing almost orthoplicate at mid-body and posteriorly; vertebrae 111–112; scales in one series per annulus (dosolaterally), present only in the posterior half of body.

 

Etymology. The specific name “griseivermis” is a Latin noun in the nominative singular, given in apposition, derived from the Latin adjective “griseus” for “grey” and the Latin noun “vermis” for “worm.” The new species is named in reference to its characteristic uniform grey body coloration. The specific epithet also alludes to Grey Worm, the commander of the Unsullied, the warrior-eunuchs of Astapor with an unparalleled reputation for combat in George R. R. Martin’s fictional work “A Song of Ice and Fire” (also known as “Game of Thrones”). We suggest the following common names for the new species: “Grey Worm Caecilian” (in English), “ếch giun xám ___” (in Vietnamese), and “Seryi rybozmey” (“____,” in Russian). 

 Nikolay A. Poyarkov, Dana D. Skorinova, Andrey M. Bragin, Veniamin V. Kolchanov, Vladislav A. Gorin, Alexey V. Trofimets, Alexander P. Yuzefovich, Dac Xuan Le, Tan Van Nguyen and Pavel P. Skutschas. 2025.  Integrative Taxonomy reveals A New unstriped Ichthyophis Fitzinger, 1826 from Vietnam and provides new data on diagnostic osteological traits for Asian tailed caecilians (Gymnophiona: Ichthyophiidae). Vertebrate Zoology. 75: 405-440. DOI: doi.org/10.3897/vz.75.e149399

[Chilopoda • 2025] Strigamia asiatica, S. laterisetosa, S. obliquidentata, ... • Taxonomy of the Strigamia Centipedes (Geophilomorpha: Geophilidae) from the East Asian Mainland

H. Strigamia longiglanda sp. nov., holotype; I. S. dianguiensis sp. nov., holotype; J. S. obliquidentata sp. nov., holotype;
L. S. ziyunensis sp. nov., holotype; M. S. asiatica sp. nov., holotype.
G.  S. laterisetosa sp. nov., holotype; N, O. live specimens of S. laterisetosa (Zhoushan, Zhejiang Province, China; photo by Chao Jiang).

Jiang & Yu, 

in Yu, You et Jiang, 2025. 

DOI: doi.org/10.3897/zse.101.160146 

Abstract

In this study, 15 centipede species of the genus Strigamia Gray, 1843 were recorded from the East Asian mainland, including 7 newly discovered species: S. asiatica Jiang & Yu, sp. nov., S. dianguiensis Jiang & Yu, sp. nov., S. laterisetosa Jiang & Yu, sp. nov., S. longiglanda Jiang & Yu, sp. nov., S. obliquidentata Jiang & Yu, sp. nov., S. xizangensis Jiang & Yu, sp. nov. and S. ziyunensis Jiang & Yu, sp. nov. Strigamia monoporus (Takakuwa, 1938) was proposed as a nomen dubium because it was likely derived from immature specimens and lacked sufficient diagnostic information. A key to Strigamia species from the East Asian mainland is provided.

Key Words: Chilopoda, distribution, morphology, new species, taxonomic key

Forcipular segments of Strigamia spp. (A–M).
A. S. svenhedini (Verhoeff, 1933) (spm. CMMI 20220903086); B. S. japonica (Verhoeff, 1935) (spm. CMMI 20231128001D); C. S. tenuiungulata (Takakuwa, 1938) (spm. CMMI 20230414002D); D. S. bicolor Shinohara, 1981 (spm. CMMI 20210227106);
E. S. platydentata Shinohara, 1981 (spm. CMMI 20210702003D); F. S. korsosi Bonato, Bortolin, Drago, Orlando, Dányi, 2017 (spm. CMMI 20191031044);
G.  S. laterisetosa sp. nov., holotype; H. S. longiglanda sp. nov., holotype; I. S. dianguiensis sp. nov., holotype; J. S. obliquidentata sp. nov., holotype; K. S. xizangensis sp. nov., paratype; L. S. ziyunensis sp. nov., holotype; M. S. asiatica sp. nov., holotype.
N, O. live specimens of S. laterisetosa (Zhoushan, Zhejiang Province, China; photo by Chao Jiang).

Scale bars: 250 μm (A–M).

 Yifei Yu, Chunxue You and Chao Jiang. 2025. Taxonomy of the Strigamia centipedes from the East Asian Mainland (Geophilomorpha, Geophilidae). Zoosystematics and Evolution. 101(4): 2065-2101. DOI: doi.org/10.3897/zse.101.160146 

[Botany • 2025] Begonia elegantifolia (Begoniaceae, sect. Platycentrum) • A New Species from northern Sumatra, Indonesia

 Begonia elegantifolia Ritonga, Girm. & Mustaqim.

in Ritonga, Girmansyah et Mustaqim, 2025. 

DOI: doi.org/10.11646/phytotaxa.720.1.9   

instagram.com/floraindonesia_id 

 

Abstract

A new species of Begonia is described from lowland northern Sumatra, Indonesia named Begonia elegantifolia Ritonga, Girm. & Mustaqim. The species belongs to section Platycentrum and is unique from other species in having a combination of narrowly lanceolate leaves and flowers with six tepals. The new species is the first species in sect. Platycentrum that posseses staminate flowers with six tepals. Detailed description, diagnoses and photographs are given.

Cucurbitales, herb, lowland, Malesia, taxonomy, Eudicots

Begonia elegantifolia Ritonga, Girm. & Mustaqim sp. nov.

 

Yusran E. RITONGA, Deden GIRMANSYAH and Wendy A. MUSTAQIM. 2025. Begonia elegantifolia (Begoniaceae), A New Species from northern Sumatra, Indonesia.  Phytotaxa. 720(1); 87-92. DOI: doi.org/10.11646/phytotaxa.720.1.9 [2025-09-26]

instagram.com/p/DPD8m3dk6hc/floraindonesia_id

[Cnidaria • 2025] Physalia mikazuki (Hydrozoa: Siphonophorae) blown into Japan’s northeast (Tohoku) at the whim of Marine Ecosystem Change

 Physalia mikazuki Yongstar, Ochiai & Lewis Ames, 
collected from Gamo Beach, Sendai City, Miyagi Prefecture, Japan.  

in Yongstar, Ochiai, Nugraha, Tan, Totsu, Sato-Okoshi et Lewis Ames. 2025. 

DOI: doi.org/10.3389/fmars.2025.1653958 

The discovery of Physalia mikazuki sp. nov. from the temperate waters of Gamo Beach, Sendai Bay (Miyagi Prefecture) in the Tohoku (northeast) region of Japan, represents a significant addition to the taxonomic and ecological understanding of this genus. Morphological analysis reveals key diagnostic traits, distinguishing it from all known Physalia species. Phylogenetic analyses of the 16S rRNA gene and COI (cytochrome c oxidase subunit 1) regions further confirm its classification as a distinct species, forming a well-supported monophyletic clade separate from other Physalia species. Oceanographic data and Lagrangian particle trajectory simulations suggest that P. mikazuki may have dispersed northward via the recent 100 km northward extension of the Kuroshio Current (KE) in tandem with record-breaking sea surface temperature changes (SST) of more than 2°C in the Tohoku region between 2022 and 2024. Long-term monitoring confirmed no previous reports of Physalia at the type locality of Gamo Beach, Sendai City (Tohoku) prior to 2023, indicating a likely recent introduction. Molecular barcode sequences matching samples from both Pakistan and Mexico indicate a broad Indo-Pacific connectivity for the new species. The occurrence of P. mikazuki sp. nov. in the Tohoku region poses potential ecological and public health concerns, particularly due to its predation on fish larvae and risk of envenomation during beach recreation. This study underscores the importance of integrative experimental design combining taxonomy, molecular data, and oceanographic modeling to understand species range shifts and cryptic diversity in a changing ocean.

Keywords: Portuguese man-of-war, new species, ecosystem change, Kuroshio Extension (KE), distribution range

Phylum Cnidaria Verrill, 1865

Subphylum Medusozoa Peterson, 1979

Class Hydrozoa Owen, 1843

Subclass Hydroidolina Collins, 2000

Order Siphonophorae Eschscholtz, 1829

Family Physaliidae Brandt, 1835

Genus Physalia Lamarck, 1801

 Morphological characteristics of Physalia mikazuki sp. nov. collected from Gamo Beach, Sendai City, Miyagi Prefecture, Japan. Type 112960 (Tohoku University Museum).; Central image: Entire colony displaying the gas-filled pneumatophore and trailing tentacles (scale bar = 5 cm).;
 (A) Lateral view of the pneumatophore with a well-defined wrinkled crest and transparent, sail-shaped float.; (B) Close-up of the dorsal surface beneath the pneumatophore, highlighting clusters of gonodendra, tentacular palpons, and gastrozooids with yellow-tipped oral regions.; (C) Multiple principal tentacles exhibiting characteristic coiled morphology.; (D) Zooid clusters divided into the posterior zone (right), containing six zooid clusters (I–VI) and a protozooid (PZ), and the main zone (left), with densely packed tripartite zooid groups extending aborally. Colony orientation is indicated (anterior, posterior, dorsal, ventral).; (E) Close-up view of the gastrozooids elongate with distally swollen, balloon-like yellow tips, highlighting their feeding structures. Photographs taken of live specimens under natural and aquarium lighting to preserve color and morphology.

Physalia mikazuki sp. nov. Yongstar, Ochiai & Lewis Ames 

Diagnosis: Physalia mikazuki sp. nov. Yongstar, Ochiai & Lewis Ames is distinguished from other members of the genus Physalia by a combination of morphological traits: Pneumatophore length range 9.25–72.4 mm, with maximum known size smaller than that reported for P. physalis (8.1–134 mm) but overlapping with P. utriculus. Coloration of the crest is bluish with deep blue to purple hues and membrane is a translucent bluish-green (vs. dark green/carmine in P. physalis, blue and clear-glassy in P. utriculus, transparent with green patch at anterior apex in P. minuta). Up to six zooid clusters are present in the ...

Distribution: Tohoku and Kanto regions of Japan; Pakistan and Mexico.

Type locality: Gamo Beach, Sendai City, Miyagi Prefecture, Japan.

Etymology: The Japanese word “mikazuki” refers to the “crescent moon” shape of the warrior helmet worn by Samurai Masamune Date (1567 – 1636) of the Tohoku region who founded Sendai City. Vernacular “mikazuki no eboshi” (Japanese), “crescent helmet man-of-war” (English).

Chanikarn Yongstar, Yoshiki Ochiai, Muhammad Izzat Nugraha, Kei Chloe Tan, Ayane Totsu, Waka Sato-Okoshi and Cheryl Lewis Ames. 2025. Physalia mikazuki sp. nov. (Phylum Cnidaria; Class Hydrozoa) blown into Japan’s northeast (Tohoku) at the whim of Marine Ecosystem Change. Front. Mar. Sci. 12:1653958. DOI: doi.org/10.3389/fmars.2025.1653958 [30 October 2025]

[Herpetology • 2025] Centrolene zoeterra • Bioacoustics and Molecular Genetics reveal A New Species of Glassfrog, Genus Chimerella (Anura: Centrolenidae), from white sand outcrops in the Yungas Ecoregion of northeastern Peru

 

Chimerella zoeterra 

Venegas, García-Ayachi, Köhler & Vences, 2025 

  

SALAMANDRA. 61(4);  

Researchgate.net/publication/397057415 

Abstract

 Based on molecular genetics, bioacoustics, and morphological comparisons, we provide independent lines of evidence for the recognition and description of a new species of Chimerella from the Amazonian slopes of the eastern Andes in northeastern Peru, departments of Amazonas and San Martín. Chimerella zoeterra sp. n. is distinguished from C. corleone and C. mira by exhibiting a light yellow-green dorsum covered with dark green punctuation and scattered black flecks in life, and the iris bearing an orange or grayish-red median streak. However, in life, the new species is morphologically indistinguishable from C. mariaelenae, differentiated from it only by the dorsal coloration in preservative (ethanol 70%): cream with a lavender hue in the new species and distinctly lavender in C. mariaelenae. The advertisement call of the new species differs from the calls of all other nominal Chimerella species by qualitative and quantitative character traits. Its call consists of 3 to 5 high-pitched, pulsed notes of 26–35 ms duration. Genetically, samples of the new species form a divergent mitochondrial lineage with uncorrected pairwise distances for the 16S rRNA gene of 2.3–4.2% to the other three nominal species of Chimerella. Furthermore, there is a lack of haplotype sharing with other nominal species in certain nuclear markers studied (RAG-1, KIAA 1239, and SACS). The new species inhabits riparian vegetation of black water streams in humid montane forest on white sand outcrops.

Key words. Amphibia, Chimerella zoeterra sp. n., C. mariaelenae, Marañón River, bioacoustics, molecular genetics, morphology, phylogeny, taxonomy.

 Uncollected individuals of Chimerella zoeterra sp. n. and an egg clutch in situ, photographed at night on 22 January 2020 at Fundo Alto Nieva, Amazonas department, Peru: (A, B) amplectant couples; (C) a metamorph at Gosner stage 44 at ca. 20 cm height on a leaf; and (D) an egg clutch containing fifteen eggs.

Photographs by L. A. García-Ayachi.

 Adult male specimens of Chimerella zoeterra sp. n. in life:
 (A) dorsolateral and (B) ventral views of male holotype CORBIDI 24684; (C) dorsal view of CORBIDI 24688; (D) dorsolateral view of CORBIDI 24717; (E) dorsal view of CORBIDI 24677; (F) dorsolateral and (G) ventral views of CORBIDI 24685; (H) and (I) frontal views of CORBIDI 24691 and 24715, respectively.

Photographs by E. Quispe.

Chimerella zoeterra sp. nov. 

 Pablo J. Venegas, Luis A. García-Ayachi, Jörn Köhler and Miguel Vences. 2025. Bioacoustics and Molecular Genetics reveal A New Species of Glassfrog, Genus Chimerella (Anura: Centrolenidae), from white sand outcrops in the Yungas Ecoregion of northeastern Peru. SALAMANDRA. 61(4); [2025-10-30]

https://www.salamandra-journal.com/index.php/contents/2025-vol-61/2203-venegas,-p-j-,-l-a-garc%C3%ADa-ayachi,-j-k%C3%B6hler-m-vences

 Researchgate.net/publication/397057415_a_new_species_of_Chimerella_from_white_sand_outcrops_in_the_Yungas_ecoregion_of_NE_Peru

[PaleoEntomology • 2021] Ankyloleon caudatus • X-ray Microtomography and Phylogenomics provide insights into the Morphology and Evolution of an enigmatic Mesozoic Insect Larva

 

 Ankyloleon caudatus  

Badano, Fratini, Maugeri, Palermo, Pieroni, Cedola, Haug, Weiterschan, Velten, Mei, Di  Giulio & Cerretti, 2021

DOI: 10.1111/syen.12482 

  Researchgate.net/publication/352213053

Scale bar: 500 μm. 

  

Abstract

Fossils sometimes show unusual morphological features absent in living organisms, making it difficult to reconstruct both their affinity and their function. We describe here a new lacewing larva, Ankyloleon caudatus gen. et sp.n. (Neuroptera) from the Cretaceous amber of Myanmar, characterized by an abdomen unique among insects, with ‘tail-like’ terminal segments bearing a ventral pair of vesicles. Phase-contrast X-ray microtomography reveals that these structures were dense and equipped with a median duct, suggesting that they were likely pygopods used for locomotion, holding the position through adhesive secretions. Our phylogenetic analyses, combining genomic and morphological data from both living and fossil lacewings, proved critical to placing Ankyloleon gen. n. on the lacewing tree of life as an early representative of the antlion clade, Myrmeleontiformia. These results corroborate the view that derived myrmeleontiform lacewings ‘experimented’ with unusual combinations of features and specializations during their evolutionary history, some of which are now lost.

 Ankyloleon caudatus gen. et sp. n. holotype (MZURPAL00111):
(A) dorsal view and (B) ventral view.

Scale bar: 500 μm. 

 Phylogeny of Neuroptera, highlighting the relationships of Ankyloleon. Based on the ML analysis of partitioned combined dataset including genomic and morphological data, see also Fig. S4. Fossil taxa are in bold characters. (i-vii) selected representatives of the diversity of lacewing larvae (not in scale): (i) Osmylidae larva indet. (photo by G. Montgomery); (ii) Dilar sp., Dilaridae; (iii) Mantispa styriaca (Poda), first instar, Mantispidae; (iv) Chrysoperla mediterranea Hölzel, Chrysopidae; (v) Ankyloleon caudatus gen. et sp. n. reconstruction; (vi) Nemoptera bipennis (Illiger) Nemopteridae; (vii) Libelloides ictericus (Charpentier) Ascalaphidae and (viii) Brachynemurus ferox (Walker), Myrmeleontidae.   

 

Davide Badano, Michela Fratini, Laura Maugeri, Francesca Palermo, Nicola Pieroni, Alessia Cedola, Joachim T. Haug, Thomas Weiterschan, Jürgen Velten, Maurizio Mei, Andrea Di  Giulio, Pierfilippo Cerretti. 2021. X-ray Microtomography and Phylogenomics provide insights into the Morphology and Evolution of an enigmatic Mesozoic Insect Larva. Systematic Entomology. 46(3); 672-684. DOI: 10.1111/syen.12482

  Researchgate.net/publication/352213053_morphology_and_evolution_of_an_enigmatic_Mesozoic_insect_larva

[Botany • 2022] Ceratozamia schiblii (Zamiaceae) • A New Cycad Species from the Eastern Mountains of Oaxaca, Mexico

Ceratozamia schiblii Pérez-Farr. & Gut.Ortega, 

in Pérez-Farrera, Gutiérrez-Ortega, Gregory, Chemnick, Salas-Morales, Calonje et Díaz-Jiménez, 2022.

 DOI: doi.org/10.3390/taxonomy2030025 

 twitter.com/SocBotMex

 

Abstract

Ceratozamia schiblii (Zamiaceae), a new species endemic to the highlands of eastern Oaxaca, Mexico, is described. The new species is part of the C. robusta species complex, which is a group of closely related species with very similar morphology. Among them, the new species can be distinguished by its brown leaflets in emerging leaves, a very long peduncle in seed cones, and the green color of mature pollen cones. Compared with the other species in the C. robusta species complex, C. schiblii has one of the longest rachides, and the highest number of leaflet pairs. The recognition of C. schiblii apparently resolves the total number of species within the C. robusta species complex. The region where C. schiblii populations occur coincides with the Neogene refugia areas of the Neotropical flora, which adds evidence to the importance of the mountain systems from Oaxaca and Chiapas, Mexico, in the diversification history of cycads.

Keywords: cycads; floristic refugia; Mesoamerica; morphological analyses; species complex

Ceratozamia schiblii sp. nov. in habitat.
(A) Adult plants. (B) Erect leaves and details of leaflets. (C) Seedlings. 

 Some of the distinctive features of Ceratozamia schiblii sp. nov.
 (A) Leaves are one of the longest and with the highest number of leaflet pairs among the species of the C. robusta species complex (left: M. Calonje; right, M.A. Pérez Farrera).
(B) Megastrobili (seed cones) are pendulous and peduncles long.
(C) Emerging leaves are of brown color.

Photo A by Cesar Daniel Coutiño Ovando. Photos B and C by Miguel Angel Pérez Farrera.

Ceratozamia schiblii sp. nov.

Megastrobilus (seed cone) of Ceratozamia schiblii. 

(A) Lateral view (scale = 10 cm); (B) view from above (scale = 5 cm), (C) view from below (scale = 5 cm). 

Microstrobilus of Ceratozamia schiblii at near pollen dehiscence phase.

 (A) Lateral view (scale = 10 cm); (B) view from above (scale = 2 cm), (C) view from below (scale = 2 cm). 

Photos by José García González.

Ceratozamia schiblii Pérez-Farr. & Gut.Ortega sp. nov. 

Etymology: The specific epithet was chosen to honor Leo Schibli (1958–2004), a founding member of Sociedad para el Estudio de los Recursos Bióticos de Oaxaca, Asociación Civil (SERBO, A.C.). His field explorations and specimen collections in Oaxaca resulted in the discovery of several new cycad species.

 

 Miguel Angel Pérez-Farrera, José Said Gutiérrez-Ortega, Timothy J. Gregory, Jeffrey Chemnick, Silvia Salas-Morales, Michael Calonje and Pedro Díaz-Jiménez. 2022. Ceratozamia schiblii (Zamiaceae): A New Cycad Species from the Eastern Mountains of Oaxaca, Mexico. Taxonomy. 2(3), 324-338. DOI: doi.org/10.3390/taxonomy2030025 [27 July 2022]

twitter.com/SocBotMex/status/1553022316224937988

[Herpetology • 2025] Ablepharus flammeus • A New Species Himalayan Skink of the Genus Ablepharus (Scincidae) from Uttarakhand, northern India

Ablepharus flammeus 

Bragin, Decemson, Lalremsanga, Mirza & Poyarkov, 2025

Fire-bellied Ground Skink | Laiteldulsen ||  SALAMANDRA. 61(4); 

www.salamandra-journal.com/index.php

Abstract

Based on morphological and genetic evidence, we evaluated the taxonomic status of a deeply divergent highland population of Himalayan ablepharine skinks (genus Ablepharus Fitzinger in Lichtenstein, 1823) from Uttarakhand state in northern India. This lineage, here described as a new species, forms a well-supported clade of Ablepharus and differs from the morphologically similar species by a significant divergence in the 16S rRNA and cytochrome b mitochondrial DNA gene sequences. From the phylogenetic analysis of a 2,961 bp concatenated alignment of the ND2, cyt b, 16S, and 12S rRNA mitochondrial DNA genes and diagnostic morphological characters, we allocate the newly discovered population from Duggal Bittha village, Chopta region to the A. tragbulensis-A. ladacensis species complex (Clade 1 according to Bragin et al. 2024) and describe it as Ablepharus flammeus sp. n. Our discovery brings the number of Ablepharus species in India to seven and in the Himalayan region to eleven and emphasizes the incompleteness of knowledge on the herpetofaunal diversity of this highland region. In this study, we also compare known morphological data for ablepharine skinks from the Himalayan region and discuss the hidden cryptic diversity within this group of skinks. 

Key words. Sauria, Ablepharus, biodiversity, India, morphology, phylogenetics, taxonomy

Head scale nomenclature and their positional relationship and size illustrated in a schematic line drawing of the adult male holotype of Ablepharus flammeus sp. n. (ZSI-R-29457) (SVL  = 41.57 mm) from the type locality of Chopta, Uttarakhand, India: (A) left lateral view; (B) dorsal view; (C) ventral view. Terminology is modified from Ouboter (1986) and Grismer et al. (2019).

 AL – Anterior loreal; C – ciliary; Cs – chin shield; F – frontal; FN – frontonasal; FP – frontoparietal; IF – infralabial; IP – interparietal; LST – lower secondary temporal; LTT – lower tertiary temporal; LPT – lower pretemporal; LPSL – lower postsupralabial; M – mental; N – nasal; Nu – nuchal; P – parietal; PF – prefrontal; PL – posterior loreal; PM – postmental; PR – preocular; PRS – presubocular; PT – primary temporal; PSO – postsubocular; PO – postocular; R – rostral; SC – supraciliary scales; SL – supralabial; SO – supraocular; UPT – upper pretemporal; UPSL – lower postsupralabial; UST – upper secondary temporal; and UTT – upper tertiary temporal. Drawing by Andrey M. Bragin.

Holotype of Ablepharus flammeus sp. n. (ZSI-R-29457, male) in life.

 Photograph by Andrey M. Bragin.

. The appearance of type specimens of Ablepharus flammeus sp. n. from the type locality of Chopta, Uttarakhand, India in life:
(A) lateral view of the head of male (paratype, MZMU3660); (B) lateral view of the head of female (paratype, MZMU3656); (C) dorsolateral view of male (paratype, MZMU3660); (D) dorsolateral view of female (paratype, MZMU3656); (E) dorsolateral view of juvenile (paratype, MZMU3654). Scale bars: A, B = 2 mm; C–E = 15 mm. Photographs by Andrey M. Bragin.

Ablepharus flammeus sp. n.

Diagnosis: Ablepharus flammeus is a medium-sized, robust ablepharine skink with (1) snout–vent length (SVL) 41.6–50.6 mm; (2) head length (HL2) 7.7–9.1 mm; (3) tail length (TaL) 52.6–68.3 mm; (4) head, body, and caudal scales smooth; (5) supranasals absent; (6) nasal semi-divided; (7) the lower eyelid is movable, covered with small arranged granules and with large transparent window; (8) tympanum rounded, deeply sunk, with one (70%), two (20%) or three (10%) projecting lobules on the anterior border; (9) prefrontals two, separated by frontonasal and frontal or, rarely, prefrontals touch at one point; (10) frontal elongated, in contact with 1st and 2nd supraoculars laterally, ...

Etymology: The specific epithet of the new species “flammeus” is an adjective in nominative singular, in masculine gender, formed from the Latin words “flamma”, meaning “fire”. The name of the new species reflects the fiery coloration of the neck, belly, inner thighs, forearms, and the ventral part of the tail in males and juveniles, as well as the intense yellow coloration of these body parts in females. Notably, these small ectothermic lizards thrive at high altitudes exceeding 3,000 meters above sea level, with some individuals observed basking near the edges of snowfields. The name also symbolizes the ardent disposition of these lizards and their resilient struggle for survival. Furthermore, the species’ habitat lies near the Tungnath Temple – the highest mountain temple dedicated to the god Shiva – which also serves as the type locality for the species. Fire, as one of Shiva’s symbols, represents both destruction and the fight for life, reinforcing the essence of the species’ name. We propose “Fire-bellied Ground Skink” as the English common name, “Ognennobryukhii gologlaz” (“Огненнобрюхий гологлаз”) as the Russian common name, and “Laiteldulsen” as the Mizo common name for this species. 

Andrey M. Bragin, Ht. Decemson, Hmar Tlawmte Lalremsanga, Zeeshan A. Mirza and Nikolay A. Poyarkov. 2025. A New Species of Himalayan Skink of the Genus Ablepharus (Squamata: Scincidae). SALAMANDRA. 61(4); 373–394. [2025-10-30] 

https://www.salamandra-journal.com/index.php/contents/2025-vol-61/2201-bragin,-a-m-,-ht-decemson,-h-t-lalremsanga,-z-a-mirza-n-a-poyarkov

[Paleontology • 2025] Manouria morla • the Ancient One: An Early Miocene large Tortoise (Cryptodira: Testudinidae) from the Swamps of Ahníkov, Czechia

Manouria morla   

Chroust, Szczygielski & Luján, 2025

  

DOI: doi.org/10.1186/s13358-025-00400-6

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Digital painting by Rudolf Hima

Abstract

Tortoises (Testudinidae) are a clade of turtles highly specialized to terrestrial environments, mainly living in semi-arid conditions. Herein, we present Manouria morla sp. nov., a new species of the genus Manouria, which is considered to be the most basal extant testudinid genus. The studied material comes from the Ahníkov I fossil site, formerly known as Merkur or Merkur-North, located in the Most Basin in NW Bohemia (Czechia), dated to the Early Miocene (Burdigalian, MN 3). Manouria morla sp. nov. is the oldest member of the Manouria lineage, which nowadays inhabits SE Asia only, and therefore its biogeography and plausible European origin are discussed. The specific type of multiplication of plastral scutes in the inguinal region is discussed as a new morphological character diagnostic for the genus. Based on zoological studies, specific environmental requirements of the genus Manouria allow us to use this taxon as a proxy for the paleoclimate reconstruction of the Ahníkov I fossil site which suggests a broadleaf evergreen tropical wet forest. The simplified use of fossil testudinids as a proxy for reconstructing semi-arid palaeoclimate is therefore disproven.

Manouria morla sp. nov. (Ahníkov I, Early Miocene),
anterior part of the plastron in A internal view (photograph), B external view (photograph), C internal view, D external view, E left lateral view, F anterior (epiplastral) view, G right lateral view. Posterior part of the plastron in H internal view (photograph), I external view (photograph), J internal view, K external view

Hypothetical reconstruction of the shell of Manouria morla sp. nov. (Ahníkov I, Early Miocene).
A dorsal view of the carapace, B ventral view of the plastron, C dorsal view of the plastron. Preserved parts indicated in grey color

Systematic palaeontology

Testudinata Klein, 1760

Cryptodira Cope, 1868

Testudinoidea Fitzinger, 1826

Pan-Testudinidae Joyce et al., 2004

Testudinidae Gray, 1825

Genus Manouria Gray, 1854

Manouria morla sp. nov. 

Diagnosis: The genus Manouria can be diagnosed by the following autapomorphies: prominent visceral rims associated with the body wall attachment, developed close to the sutures between the peripherals and costals (also on the nuchal and the pygal); thin carapacial elements (costals/neurals); axillary buttresses long and thin and just barely in contact with costal bones; the visceral surface of costal 5 shows the attachment for the inguinal buttress; the sinusoidal shape of the posterior carapacial edge; the presence of the pygal notch; the presence of 12 marginal pairs; coincidence between the costo-peripheral suture and the pleuro-marginal sulcus; significant serration of the posterior peripherals; posterior sulcus of the fifth vertebral coinciding with the suprapygal-pygal suture; overlap of the plastral scutes into the dorsal surface of the anterior and posterior plastral lobes; lateral portion of the humero-pectoral sulcus perpendicular to the axial plane and anteriorly deflected; pectorals medially short; contact between the inguinal and femoral scutes is present; the presence of the multiplication of inguinal scutes.

Etymology. The species is named after Morla, a fantasy character from the book The Neverending Story (orig. Die unendliche Geschichte) written by Michael Ende (1929–1995), firstly published in 1979, later adapted as a movie in 1984. Morla, the Ancient One, is a giant tortoise who lives in the Swamps of Sadness. The new species described herein is the oldest known species of the genus from the Early Miocene of Czechia; therefore, the Ancient One. Its remains come from the swamp deposits of Ahníkov, a parallel to the Swamps of Sadness.

Life restoration of Manouria morla sp. nov.  

Digital painting by Rudolf Hima

 

Conclusion: 

We describe Manouria morla sp. nov., the oldest member of the extant genus Manouria, from the Ahníkov I (formerly known as Merkur or Merkur-North) fossil site from Czechia (MN 3, Early Miocene). To aid the description, Manouria morla sp. nov. was scored and included in a phylogenetic analysis. According to our results, it seems that the genus Manouria originated in Europe just before the MMCO and later spread to Asia, where it persists until now. In the end, the use of the genus Manouria as an environmental indicator is coherent with the knowledge of the swamp ecosystem of the Most Basin.

 

Milan Chroust, Tomasz Szczygielski and Àngel H. Luján. 2025. Manouria morla sp. nov., the Ancient One: an Early Miocene large tortoise from the Swamps of Ahníkov, Czechia. Swiss Journal of Palaeontology. 144, 63. DOI: doi.org/10.1186/s13358-025-00400-6 [03 October 2025]

  facebook.com/MilanChroust9/posts/10240994382540118

  x.com/HimaRudolf/status/1974115834210725948

[Paleontology • 2025] Nanotyrannus and Tyrannosaurus coexisted at the close of the Cretaceous

Nanotyrannus   

in Zanno et Napoli, 2025.

 DOI: doi.org/10.1038/s41586-025-09801-6 

Artwork: Anthony Hutchings

 x.com/JGN_Paleo

Tyrannosaurus rex ranks among the most comprehensively studied extinct vertebrates1 and a model system for dinosaur paleobiology. As one of the last surviving non-avian dinosaurs, Tyrannosaurus is a crucial datum for assessing terrestrial biodiversity, ecosystem structure, and biogeographic exchange immediately preceding the end-Cretaceous mass extinction —one of Earth’s greatest biological catastrophes. Paleobiological studies of Tyrannosaurus, including ontogenetic niche partitioning, feeding, locomotor biomechanics, and life history have drawn upon an expanding skeletal sample comprising multiple hypothesized growth stages—and yet the Tyrannosaurus hypodigm remains controversial. A key outstanding question relates to specimens considered to exemplify immature Tyrannosaurus, which have been argued to represent the distinct taxon Nanotyrannus. Here, we describe an exceptionally well-preserved, near somatically mature tyrannosaur skeleton (NCSM 40000) from the Hell Creek Formation that shares autapomorphies with the holotype specimen of N. lancensis. We couple comparative anatomy, longitudinal growth models, observations on ontogenetic character invariance, and a novel phylogenetic dataset to test the validity of Nanotyrannus, demonstrating conclusively that this taxon is distinguishable from Tyrannosaurus, sits outside Tyrannosauridae, and unexpectedly contains two species—N. lancensis and Nanotyrannus lethaeus, sp. nov. Our results prompt a re-evaluation of dozens of existing hypotheses based on currently indefensible ontogenetic trajectories. Finally, we document at least two co-occurring, ecomorphologically distinct genera in the Maastrichtian of North America, demonstrating that tyrannosauroid alpha diversity was thriving within one million years of the end-Cretaceous extinction.

A pack of Nanotyrannus attacks a juvenile Tyrannosaurus rex.

Artwork: Anthony Hutchings

  Lindsay E. Zanno and James G. Napoli. 2025. Nanotyrannus and Tyrannosaurus coexisted at the close of the Cretaceous. Nature.  DOI: doi.org/10.1038/s41586-025-09801-6  [30 October 2025]

http://x.com/JGN_Paleo/status/1983926921898660347