[Crustacea • 2026] Stenasellus angiangensis • An updated Phylogeny of the Family Stenasellidae (Isopoda), with A New Species of Stenasellus from southern Vietnam

 

 Stenasellus angiangensis Marin, Palatov, Thinh, Douady & Malard,

in Marin, Palatov, Thinh, Deharveng, Konecny-Dupré, Douady et Malard, 2026. 

 DOI: doi.org/10.3897/subtbiol.55.185185 

Abstract

Our current understanding of the molecular systematics of Stenasellidae, a species-rich family of obligate groundwater isopods known from Africa, Asia, Europe and North-America, is based primarily on specimens of the genus Stenasellus Dollfus, 1897 collected in Europe. Here, we provide an updated phylogeny of the family comprising specimens of Stenasellus collected from multiple countries in Asia, including Iran, Turkmenistan, India, Cambodia, and Vietnam as well as specimens of Metastenasellus Magniez, 1979 collected in Africa. First, we used COI-based molecular species delimitation methods to delimit putative species within the family Stenasellidae. Second, we built a phylogeny of the Stenasellidae comprising 48 putative species, for which two mitochondrial and two nuclear genes were available. Third, we describe Stenasellus angiangensis sp. nov. from the hyporheic zone of streams located in mountainous islands of the Mekong River Delta, the first representative of the family Stenasellidae described from Vietnam. We show that the number of putative species delimited using various COI-based molecular species delimitation methods largely surpass the number of species described based on morphological criteria. The four-gene phylogeny reveals, for the first time, a robustly supported and broadly distributed Asian clade comprising Stenasellus species from Iran, India, Cambodia, and Vietnam, including Stenasellus angiangensis sp. nov. as the sister taxon to Stenasellus cambodianus Boutin & Magniez, 1985 from southern Cambodia. Our phylogeny strongly questions the monophyly of the genus Stenasellus, even though the latter cannot be definitively rejected due to difficulties in resolving the phylogenetic relationships among the clades identified within stenasellids.

Keywords: Asellota, Asia, Diversity, groundwater, Indochina, Peracarida, subterranean

Order Isopoda Latreille, 1816

Suborder Asellota Latreille, 1802

Family Stenasellidae Dudich, 1924

Genus Stenasellus Dollfus, 1897

Stenasellus angiangensis Marin, Palatov, Thinh, Douady & Malard, sp. nov.

The habitat (a) and general view (b–d) of Stenasellus angiangensis sp. nov. in the An Giang Province, Mekong Delta area in southern Vietnam. Specimens were collected using a hand net in the hyporheic zone and springs of mountainous streams.

 Ivan N. Marin, Dmitry M. Palatov, Nguyễn Văn Thinh, Louis Deharveng, Lara Konecny-Dupré, Christophe J. Douady and Florian Malard. 2026. An updated Phylogeny of the Family Stenasellidae (Crustacea, Isopoda), with A New Species of Stenasellus from southern Vietnam. Subterranean Biology. 55: 187-215.  DOI: doi.org/10.3897/subtbiol.55.185185 [15 Apr 2026]

[Botany • 2026] Napeanthus decurrens (Gesneriaceae: Napeantheae) • Taxonomic notes on Napeanthus in Ecuador: Neotypification of Two Species and A New Species from the eastern Andean slopes

Napeanthus decurrens J.L. Clark, 

in Clark, 2026.

DOI: doi.org/10.3897/phytokeys.273.189993

Abstract

Ongoing field expeditions in Ecuador and herbarium research have resulted in the discovery of a new species and the stabilization of two names in Napeanthus (Gesneriaceae). Napeanthus robustus Fritsch and Napeanthus ecuadorensis Fritsch were both described from specimens housed at the Berlin herbarium that were subsequently destroyed; therefore, neotypes are designated to stabilize the application of these names. A third taxon, Napeanthus decurrens J.L.Clark, sp. nov., is described as a narrow endemic from the eastern Andean slopes of the Ecuadorian province of Zamora-Chinchipe.

Key words: Andes, biodiversity, Ecuador, Napeantheae, taxonomy

Field images of Napeanthus decurrens J.L. Clark.
 A. Abaxial leaf surface; B. Habit; C. Calyx; D. Front view of flower; E. Rear view of flower. F. Habit;

(A from J.L. Clark et al. 10808; B from J.L. Clark et al. 15074; C–E from J.L. Clark et al. 10808).

Photos by J.L. Clark.

Napeanthus decurrens J.L.Clark, sp. nov.

 

Diagnosis. Similar to Napeanthus loretensis L.E.Skog in its small (< 9 cm long), decurrent leaves, but N. decurrens is distinguished by entire leaf margins and erect inflorescences (vs. serrate leaf margins and prostrate inflorescences in N. loretensis).

Etymology. The specific epithet decurrens refers to the leaf blades that are decurrent along the petiole, giving the leaves a nearly sessile appearance.

 John L. Clark. 2026. Taxonomic notes on Napeanthus (Gesneriaceae) in Ecuador: Neotypification of Two Species and A New Species from the eastern Andean slopes. PhytoKeys. 273: 161-169.  DOI: doi.org/10.3897/phytokeys.273.189993 [16 Apr 2026]

[Paleontology • 2026] Eosphorosuchus lacrimosa • A Short-snouted ‘sphenosuchian’ with unusual Feeding Anatomy demonstrates that Ecological Specialization occurred early in Crocodylomorph Evolution

 

Eosphorosuchus lacrimosa

Margulis-Ohnuma, Ruebenstahl, Meyer & Bhullar, 2026

 

DOI: doi.org/10.1098/rspb.2026.0130 

Art by Julio Lacerda

Abstract

The early evolution and diversification of Crocodylomorpha is a key component of vertebrate evolution on land but is somewhat poorly understood as a result of limited data. We describe Eosphorosuchus lacrimosa gen. et sp. nov., an early crocodylomorph from the Late Triassic of Ghost Ranch, New Mexico, whose cranial anatomy is divergent from that of other early crocodylomorphs (including Hesperosuchus agilis, to which it had been tentatively assigned), featuring an unusually short and osteologically reinforced facial region. A robust upper temporal arch and prominent surangular ridge indicate the presence of well-developed superficial external adductor musculature, which is divergent relative to pseudosuchians generally. These autapomorphies suggest specialization for a powerful bite. Bayesian and maximum parsimony phylogenetic analyses find E. lacrimosa outside of an H. agilis clade, near the base of Crocodylomorpha. The specializations of E. lacrimosa therefore represent the beginnings of ecological diversification within Crocodylomorpha among animals of a similar size, predating the Late Triassic appearance of Crocodyliformes and the Jurassic radiation of mesoeucrocodylians. Coexistence in the same single-event death assemblage of E. lacrimosa and H. agilis—two small early crocodylomorphs with functionally significant anatomical differences—suggests partitioning of terrestrial carnivorous niches within the ‘sphenosuchian’ grade.

Keywords: Crocodylomorpha, Sphenosuchia, Triassic, Hesperosuchus agilis, phylogenetics

Photographs and line drawings of the skull of Eosphorosuchus lacrimosa as preserved and prepared in right ventrolateral view (a, c) and left dorsolateral view (b, d). Grey shading represents matrix or bones of other individuals; halftone represents areas of breakage.

Abbreviations: an, angular; e, ectopterygoid; f, frontal; j, jugal; l, lacrimal; m, maxilla; n, nasal; pa, prearticular; pb, palpebral; pl, palatine; pm, premaxilla; po, postorbital; pt, pterygoid; sa, surangular; tpt, transverse process of the pterygoid. Scale bar is 2 cm.

 

ARCHOSAURIA Cope, 1869 (Gauthier & Padian [2020])

PSEUDOSUCHIA Zittel, 1887 

CROCODYLOMORPHA Hay, 1930 (emend. Walker [1970])

Eosphorosuchus lacrimosa gen. et sp. nov.

 

 Etymology: Eosphorosuchus derives from ‘Eosphoros,’ one of two Greek gods representing the planet Venus and the counterpart of Hesperos. As Eosphoros was the ‘dawn-bringer’, this name highlights both the dawning of crocodylomorph ecological diversity and the close historic association of this specimen with the genus Hesperosuchus. ‘Suchus’ derives from ‘soukhos’, Greek for crocodile. The specific epithet lacrimosa refers to the distinctive lacrimal region.

 

Miranda Margulis-Ohnuma; Alexander A. Ruebenstahl; Dalton L. Meyer and Bhart-Anjan S. Bhullar. 2026. A Short-snouted ‘sphenosuchian’ with unusual Feeding Anatomy demonstrates that Ecological Specialization occurred early in Crocodylomorph Evolution. Proc Biol Sci . 293 (2069): 20260130. DOI: doi.org/10.1098/rspb.2026.0130 [15 Apr 2026]

[Paleontology • 2026] Ptychotherates bucculentus • A New Taxon of saurischian Dinosaur (Saurischia: Morphoraptor) from the Coelophysis Quarry of New Mexico, USA (Triassic: latest Norian or Rhaetian) highlights herrerasaurian diversity in the latest Triassic

 

Ptychotherates bucculentus 

Srivastava & Nesbitt, 2026

DOI: doi.org/10.1002/spp2.70069 

Abstract

The most complete record of the earliest dinosaur lineages is from the Carnian from the higher latitudes of Pangea (e.g. present-day Brazil, Argentina), but dinosaurian assemblages from the upper stages of the Upper Triassic are better known from the low latitudes of Pangea (present day southwestern USA). How early carnivorous dinosaurian diversity matches or mismatches at various latitudes remains to be documented because of uncertainty around the spatio-temporal ranges and phylogenetic relationships of early dinosaur lineages. We examine low-latitude diversity patterns through the lens of the saurischian dinosaur Tawa hallae and close relatives, including a new species, Ptychotherates bucculentus gen. et sp. nov. The new taxon is known from an incomplete but well-preserved skull (CM 31368) from the uppermost Triassic Coelophysis Quarry in northern New Mexico. The new taxon clearly shares synapomorphies with Tawa hallae, such as distinctive fossae on the quadrate and otoccipital and a dorsoventrally tall and laterally flat jugal. However, the new taxon is distinguishable from all other coeval ornithodirans by a combination of many character states, including the proportionally dorsoventrally deepest jugal known for any Triassic-aged dinosaur. Higher-palaeolatitude ecosystems across Pangea show a complete turnover of carnivorous dinosaurs by neotheropods in the Norian and Rhaetian, but the ‘Chindesaurus–Tawa’ clade (Morphoraptora clade nov.) coexisted with neotheropods possibly until the End-Triassic Extinction Event. This suggests a low-latitude ‘museum’ where early-diverging lineages survived much longer than at higher latitudes, and that the End-Triassic Extinction Event affected dinosaur diversity more than previously hypothesized.

Keywords: biogeography, Saurischia, extinction, skull, phylogenetics, clade longevity

SYSTEMATIC PALAEONTOLOGY

DINOSAURIA Owen 1842 sensu Langer et al. 2020

SAURISCHIA Seeley 1888 sensu Gauthier et al. 2020

Clade MORPHORAPTORA nov.

Derivation of name: Morphe from the Greek for ‘form, shape’ and raptor from the Latin for ‘robber’, describing the morphological convergence between members of this clade and Theropoda, as if this clade is ‘stealing’ morphology. ‘Morphoraptor’ loosely translates to ‘bodysnatcher’, in honour of the 2007 song by Radiohead in the album In Rainbows, which author S. Srivastava listened to hundreds of times while preparing this manuscript.

The posterior portion of the skull Ptychotherates bucculentus (CM 31368) in posterior view.

Abbreviations: ar, articular bo, basioccipital; bt, basituber; f, frontal; fm, foramen magnum; fno, fenestra ovalis; pa, parietal; par, paroccipital process of the otoccipital; mf, metotic foramen; n, nasal; pbs, parabasisphenoid; pf, prefrontal; po, postorbital; ptf, posttemporal fenestra; qj, quadratojugal; qu, quadrate; rap, retroarticular process; so, supraoccipital; sq, squamosal; st, stapes. Crossed circle indicates posterior direction out of page. Scale bar represents 1 cm.

Digital reconstruction of the skull of Ptychotherates bucculentus (CM 31368) in left lateral view. Dashed lines indicate extrapolation and the coloured infill indicates known bone presence.

Abbreviations: eaf, external antorbital fenestra; en, external naris; emf, external mandibular fenestra; itf, infratemporal fenestra; orb, orbit. Arrow indicates anterior direction. Scale bar represents 2 cm.

 

Genus Ptychotherates nov.

 

Derivation of name: Ptycho from the Greek for ‘fold’ because of the numerous and challenging axes of reorientation on elements of the holotype. Therates from the Greek for ‘hunter’, for the carnivorous habits inferred from its teeth.

 Ptychotherates bucculentus sp. nov.  

Derivation of name: The species epithet is Latin for ‘with full cheeks’ in reference to the exceptionally tall jugal.

 

Diagnosis: Ptychotherates bucculentus bears the following combination of character states (local autapomorphies indicated with *): supratemporal fossa present on posterior portion of the frontal and dorsal surface of the parietal; tapering dorsal process of the maxilla; maxilla lacking antorbital fossa on its posterior portion ventral to the antorbital fenestra; prefrontal symmetrical in lateral view*; jugal body proportionally dorsoventrally deep* (i.e. more than three times as deep as the jugal posterior process, deeper than the length of postorbital ventral process, and more than half the height of the quadrate main body; Table 1); laterally extensive ventral process (= crista interfenestralis) of the otoccipital; ventral process of squamosal anteroposteriorly wide with a lateral fossa on the posterior part; retroarticular process upturned immediately posterior to glenoid; anterolateral portion of postorbital dorsally overhanging orbit; postorbital dorsolaterally overlapping the squamosal; posttemporal fenestra as wide as foramen magnum; nasal and frontals flat dorsally; serrated and recurved teeth with fine serrations (4–5 per 1 mm in the maxilla, 5–6 per 1 mm in the dentary) with pointed apices of the serrations.

Artistic rendition of Ptychotherates bucculentus.

Artwork by Megan Sodano 

 

Simba Srivastava and Sterling J. Nesbitt. 2026. A New Taxon of saurischian Dinosaur from the Coelophysis Quarry of New Mexico, USA (Triassic: latest Norian or Rhaetian) highlights herrerasaurian diversity in the latest Triassic. Papers in Palaeontology. 12(2); e70069. DOI: doi.org/10.1002/spp2.70069 [14 April 2026]

[Paleontology • 2026] Isodapedon varzealis • A New hyperodapedontine rhynchosaur (Archosauromorpha: Rhynchosauria) from a Cynodont-dominated Site (Upper Triassic) of southern Brazil

 

Isodapedon varzealis  

Schiefelbein, Garcia, Doering & Müller, 2026

DOI: doi.org/10.1098/rsos.260176 

Artwork by Caio Fantini.

 

Abstract

We describe Isodapedon varzealis gen. et sp. nov., a new hyperodapedontine rhynchosaur from the Carnian deposits of the Candelária Sequence, southern Brazil. Phylogenetic analyses place this taxon outside known South American hyperodapedontines, including Macrocephalosaurus mariensis and ‘Hyperodapedon’ species, and support the restriction of the genus Hyperodapedon to its type species, thereby revealing greater diversity within the group than previously recognized. Isodapedon varzealis gen. et sp. nov. is characterized by symmetrical maxillary tooth bearing areas and distinctive dentary morphology, indicating divergent feeding adaptations relative to known rhynchosaurs. Stratigraphic occurrence in beds correlated with the Exaeretodon sub-zone of the Hyperodapedon Assemblage Zone, and its phylogenetic affinities with early diverging hyperodapedontines from Argentina and Scotland, imply a geographically widespread radiation of conservative morphotypes across southwestern Gondwana. This study highlights the complexity of Late Triassic rhynchosaur evolution and underscores the importance of continued palaeontological investigation in refining the taxonomy, biostratigraphy and palaeoecology of this key herbivorous clade.

Keywords: Rhynchosauria, Late Triassic, Candelária Sequence, Archosauromorpha

Subjects:palaeontology

Geological context of the Várzea do Agudo site and provenance of CAPPA/UFSM 0371. (A) Geologic map of the central region of Rio Grande do Sul (southern Brazil) showing the surface distribution of stratigraphic units of the Paraná Basin. (B) Field photograph of the Várzea do Agudo site. (C) Stratigraphic column of the Várzea do Agudo site depicting its fossiliferous content distribution. (D) Life reconstruction of CAPPA/UFSM 0371 by Caio Fantini. (E) Tridimensional model of the partial cranium of CAPPA/UFSM 0371 in right lateral view.

Abbreviations: cs, coarse-sandstone; Fm, formation; fs, fine-sandstone; g, gravel-sandstone; m, mudstone; ms, medium-sandstone. Silhouettes based on artwork by Caio Fantini and Felipe Elias.

Skull and lower jaws of Isodapedon varzealis gen. et sp. nov. (CAPPA/UFSM 0371).
(A) photographs, interpretative illustration and three-dimensional model from surface scan of the skull of CAPPA/UFSM 0371 in right lateral view. (B) Photographs, interpretative illustration and three-dimensional model from surface scan of the skull of CAPPA/UFSM 0371 in left lateral view.

Abbreviations: a, angular; aoc, anguli oris crest; d, dentary; jug, jugal; max, maxilla; mf, mental foramen; pmx l, left premaxilla; pmx r, right premaxilla; sa, surangular; sp, splenial. Black arrow points anteriorly.

Isodapedon varzealis gen. et sp. nov. craniomandibular elements.
 (A) Left skull in lateral view of Isodapedon varzealis gen. et sp. nov. (CAPPA/UFSM 0371) with emphasis on maxillary dentition area (occlusal view). (B) Left lower jaw in medial view with emphasis on lingual dentition area (oblique occlusal view).

Abbreviations: dg, diagonal gaps; lbt, labial teeth; lgt, lingual teeth; ls, longitudinal sulcus; sg, shallow groove; sms, short medial shelf. Black arrow points anteriorly.

Archosauromorpha 

Rhynchosauria  

Rhynchosauridae 

Hyperodapedontinae 

Isodapedon gen. nov.

Type and only species: Isodapedon varzealis sp. nov.

Etymology. The genus name is derived from the Ancient Greek ἴσος (ísos), meaning ‘equal’ or ‘the same’, as a reference to the equally wide tooth-bearing areas of the maxilla.

Isodapedon varzealis sp. nov.

Etymology. The species name refers to the locality of ‘Várzea do Agudo’ in which the specimen was collected.

Diagnosis. The holotype of Isodapedon varzealis is distinguished from all other known rhynchosaurids by the following unique combination of morphological traits (* asterisk denotes autapomorphies): maxilla divided into two tooth-bearing areas by a single longitudinal sulcus; equally wide maxillary lateral and medial tooth-bearing areas; same number (three) of longitudinal rows of teeth in both maxillary lateral and medial tooth-bearing areas; absence of lingual teeth in the medial surface of the maxilla; straight posterior margin of the parietal; sharp sagittal crest extending up to the posterior margin of the parietal; short and rounded ventral process of the squamosal; distinct posterior process in the squamosal; no contact between the lacrimal and palatine; ‘blunt’ and greatly reduced posteroventral process of the dentary; single dorsal blade in the dentary; medial shelf in the medial surface of the posterior portion of the dentary that does not reach half the length of the bone*; medial shelf separated from the dorsal blade of the dentary by a shallow groove; dorsal margin of the posterior portion of the dorsal blade extending markedly further dorsally than the posterior portion of the medial shelf at the level of the posteriormost lingual tooth; and single well-defined row of small, dorsally projected, closely packed lingual teeth in the dentary.

Artistic representation of a Late Triassic landscape of southern Brazil depicting individuals of Isodapedon varzealis gen. et sp. nov. in the foreground and a proterochampsid in the background.

Artwork by Caio Fantini.

 

Jeung Hee Schiefelbein; Maurício Silva Garcia; Mariana Doering and Rodrigo Temp Müller. 2026. A New hyperodapedontine rhynchosaur from a Cynodont-dominated Site (Upper Triassic) of southern Brazil. R Soc Open Sci. 13(4); 260176. DOI: doi.org/10.1098/rsos.260176 [15 Apr 2026]

[Botany • 2026] Selaginella magna (Selaginellaceae) • A New Species from China

 

Selaginella magna H.J.Wei, 

in Fu, Wei, Guo, Zheng, S.-P. Chen et B. Chen, 2026.

硕大卷柏  ||  DOI: doi.org/10.3897/phytokeys.273.170753 

Abstract

Selaginella magna (Selaginellaceae), a new species in S. subg. Stachygynandrum from Guangxi, Fujian and Hunan, China, is here described and illustrated. It is the largest erect Selaginella species in China, characterized by acropetally shortening branches acropetally. Selaginella magna is most similar to S. willdenowii, but can be differentiated by its erect main stem, rhizophores restricted to rhizomes and stolons, and the absence of auricles at the base of both ventral and axillary leaves. Its triangular frond-like leafy stem with an acuminate apex confers a high degree of distinguishability in its natural habitat.

Key words: Deciduous plant, erect habit, IUCN Red List, Selaginella subg. Stachygynandrum, suborbicular sporophyll

Selaginella magna.
A. Habitat; B. Habit (arrows indicating portion of plant shown in line drawing); C. Abaxial view of portion of plant; D. Adaxial view of portion of plant; E. Megaspores; F. Lower portion of main stem with stolons; G. Microspore; H. Abaxial view of strobile; I. Adaxial view of strobile; J. Adaxial view of ventral leaf with portion of stem; K. Axillary leaf; L. Abaxial view of ventral leaf with portion of stem; M. Dorsal trophophyll.

Selaginella magna H.J.Wei, sp. nov.

Diagnosis. Selaginella magna is closely related to S. willdenowii, but differs by its rhizophores being glabrous (compared to spine-like protuberances at base in the latter), confined to creeping rhizomes and the base of the stem (vs. often extending to the upper part of the main stem in the latter), branches that progressively shorten toward the apex (vs. nearly equal in length except young branches at the apex), ventral and axillary leaves without auricles (vs. with rounded auricles) at the base, and sporophylls that are not white-margined (vs. obviously white-margined).

Etymology. The epithet of the new species is derived from the Latin “magna”, meaning great or large.

Chinese name. 硕大卷柏 (shuò dà juăn băi).

 Hou-Hua Fu, Hong-Jin Wei, Yong-Jun Guo, Shuang-Quan Zheng, Shi-Pin Chen and Bin Chen. 2026. Selaginella magna (Selaginellaceae), A New Species from China. PhytoKeys. 273: 127-136.  DOI: doi.org/10.3897/phytokeys.273.170753 [16 Apr 2026]

[Herpetology • 2026] Cyrtodactylus jayadityai • A New micro-endemic Species of Cyrtodactylus Gray, 1827 (Squamata: Gekkonidae) from the lowlands of Northeast India, with additional morphological notes on Cyrtodactylus khasiensis Jerdon, 1870 based on topotypical specimens from Meghalaya, India

 

Cyrtodactylus jayadityai 

Bohra, Deb, Thongni,  Bhattacharjee, Biakzuala, Lalremsanga, Swargiary & Roy, 2026

 

DOI: doi.org/10.5852/ejt.2026.1048.3255

Abstract

We provide additional morphological notes on Cyrtodactylus khasiensis Jerdon, 1870 sensu stricto based on topotypical specimens from Meghalaya, northeast India, thereby clarifying its diagnostic morphological traits and extending its distribution further westwards based on molecular data. In addition, based on an integrative systematic approach, we describe a new species of bent-toed gecko namely Cyrtodactylus jayadityai sp. nov. from the lowlands of North Tripura, northeast India. Genetically, the new species is a member of the ‘C. khasiensis’ group and is a strongly supported sister to C. tripuraensis Agarwal, Mahony, Giri, Chaitanya & Bauer, 2018 from which it differs by a pairwise genetic distance of 4.7–5.2% in the mitochondrial ND2 gene. The investigation of morphological characters such as the precloacal-femoral pores in males and pre-cloacal pits in females further supports the distinctiveness of the new species and morphologically differentiates it from its congeners. This increases the number of Cyrtodactylus Gray, 1827 in northeast India to 31 species, underscoring the importance of the region as a hotspot for herpetofaunal research and conservation. At present, based on the current population status and distribution, we propose that the new species should be considered as Data Deficient (DD) under the IUCN Red List criteria.

Keywords: systematics, mitochondrial gene, ND2, lizard, sister species

Cyrtodactylus jayadityai sp. nov.

Sanath Chandra Bohra, Arnab Deb, Goldenstar Thongni, Rupankar Bhattacharjee, Lal Biakzuala, Hmar Tlawmte Lalremsanga, Pranjal Swargiary and Rita Roy. 2026. A New micro-endemic Species of Cyrtodactylus Gray, 1827 (Squamata: Gekkonidae) from the lowlands of Northeast India, with additional morphological notes on Cyrtodactylus khasiensis Jerdon, 1870 based on topotypical specimens from Meghalaya, India. European Journal of Taxonomy. 1048(1); 265–303. DOI: doi.org/10.5852/ejt.2026.1048.3255  [2026-04-14]

 

[Herpetology • 2026] Cyrtodactylus raimonaensis • A New Species of Cyrtodactylus Gray, 1827 (Squamata: Gekkonidae) from Kokrajhar District, Assam, India

 Cyrtodactylus raimonaensis

 Basfore, Bharali, Barman, Deka, Islam, Deb, Bohra, Bhattacharjee, Das, Hazarika, Naorem & Purkayastha, 2026

 

DOI: doi.org/10.11646/zootaxa.5792.2.5

 

Abstract

We herein describe a new species of Cyrtodactylus from Kachugaon, in the Kokrajhar District of Assam, India. Morphological characteristics combined with ND2 mitochondrial gene sequence data support its placement within the Cyrtodactylus khasiensis group, identifying Cyrtodactylus raimonaensis sp. nov. as the sister lineage to Cyrtodactylus septentrionalis. It is characterised by a moderate adult size (maximum SVL 71.1 mm), rounded, bluntly conical, and weakly keeled dorsal tubercles arranged in 20 or 21 longitudinal rows, and 36–38 paravertebral tubercles between the axilla and groin. Other diagnostic features include 32–38 mid-ventral scale rows, 13 precloacal pores in male, 13 precloacal pits in females, 17–20 subdigital lamellae beneath the fourth toe, absence of a single row of transversely enlarged subcaudal scales, 7 or 8 pairs of dark dorsal blotches between the axilla and groin, and a tail bearing alternating dark and light bands.

Reptilia, Cyrtodactylus khasiensis, gecko, Northeast India, Systematics, Taxonomy

Cyrtodactylus raimonaensis sp. nov.

 

BIJAY BASFORE, MANMATH BHARALI, RATHIN BARMAN, SANATAN DEKA, NAZRUL ISLAM, ARNAB DEB, SANATH CHANDRA BOHRA, RUPANKAR BHATTACHARJEE, MADHURIMA DAS, ARUP KUMAR HAZARIKA, ANJANA SINGHA NAOREM, JAYADITYA PURKAYASTHA. 2026. A New Species of Cyrtodactylus Gray, 1827 (Reptilia: Squamata: Gekkonidae) from Kokrajhar District, Assam, India.  Zootaxa. 5793(2); 321-337. DOI: doi.org/10.11646/zootaxa.5792.2.5 [2026-04-13]

 

[Botany • 2026] Lobelia janardhananii (Lobeliaceae) • A New Species from the Western Ghats of India

 

Lobelia janardhananii K.M.P.Kumar & Sunil, 

in Sunil, Prabhukumar, Sivadas, Sanilkumar et Robi, 2026.

taiwania.ntu.edu.tw/abstract/2165 

Abstract

A new species of Lobelia, L. janardhananii K.M.P.Kumar & Sunil is described from Kerala, India. It resembles Lobelia heyneana Schult. in herbaceous habit and axillary solitary flowers but differs from the latter by leaf shape, texture, flower length, compressed or ancipitous pedicel, characters of calyx lobe, the colour of corolla tube and lobe, size and colour of stamens, stylar length and seeds. A detailed description and photographs are provided for the identification of the species.

Keyword: Agasthyamala Biosphere Reserve, Kerala, Lobelia heyneana, Lobelia janardhananii, perennial, taxonomy

Lobelia janardhananii sp. nov.
 A–C. Flowering shoot, D. C.S. of stem, E. Leaf adaxial side, F. Leaf abaxial side.

Lobelia janardhananii sp. nov.
A. Flower, B. Pedicel with bracteoles, C. Calyx, D. Calyx lobe, E. Corolla split open, F. Staminal column with anthers, G. Anthers, H. Style and stigma, H1. Stigma closeup view, I. Immature capsule, J. Seeds.

Lobelia janardhananii K.M.P.Kumar & Sunil, sp. nov.  

Diagnosis: Lobelia janardhananii sp. nov. is morphologically similar to L. heyneana, but differs in the rhomboid, elliptic or ovate leaves, 1.5–4 × 0.4–2 cm, attenuate base (vs. elliptic to sub-orbicular, 0.6–0.8 × 0.4– 0.8 cm; base truncate and decurrent); flowers 14–17 mm long (vs. 8.7–9.2 mm long); pedicel compressed or ancipitous, bibracteolate near middle (vs. trigonous, bracteoles absent); sepals toothed, hirsute abaxially (vs. entire, glabrous on both sides); corolla tube blue (vs. tube white); upper lip 3–4 mm long, whitish-blue; lower lip bright blue (vs. upper lip white; lower lip pale violet); filament of stamens 4.5–5 mm long, purplish (vs. 1.3–1.4 mm long, light green).  

Etymology: The specific epithet is to honour the contributions of Sri. N.K. Janardhanan, Gardner, Herb Garden, Arya Vaidya Sala, Kottakkal, for his 45 years of dedicated service towards the conservation of threatened plants, especially medicinal plants. 

Chandrasseril Narayanan Sunil, Konickal Mambetta Prabhukumar, Deepu Sivadas, Malayil Gopalan Sanilkumar and Aloor Jose Robi. 2026. A New Species of Lobelia (Lobeliaceae) from the Western Ghats of India. Taiwania. 71(2); 243-246 DOI: 10.6165/tai.2026.71.243 [2026 March 21] 

https://taiwania.ntu.edu.tw/abstract/2165

 

[Cnidaria • 2026] Chrysogorgia pugnioides, Iridogorgia acutisclerita, I. levisquama • Systematics and Biogeography of Chrysogorgiidae (Anthozoa: Octocorallia) from the Indian Ocean: discovery of New Species on Deep-sea Ridges

Iridogorgia acutisclerita Ge, Zhang & Xu,

in Ge, N. Xu, Hu, Tian, Li, Y. Xu, Wang, Zhang et Q. Xu, 2026. 

DOI: doi.org/10.3897/zse.102.182492 

Abstract

Species of the family Chrysogorgiidae are distributed worldwide in deep-sea environments. However, most recorded species of this family were from the Atlantic and Pacific Oceans, with only a few reports from the Indian Ocean, particularly from ridge regions. This study describes three new species and reports two known species from Indian Ocean ridges, integrating morphological and molecular analyses (mtMutS and 28S rDNA). Chrysogorgia pugnioides Ge, Hu & Xu, sp. nov. is characterized by fist-like polyps; warty spindles in tentacles; flat and irregular spindles and elongate scales in the polyp body wall; and slender and smooth scales with toothed to irregular edges in the coenenchyme. Iridogorgia acutisclerita Ge, Zhang & Xu, sp. nov. resembles I. splendens but differs by possessing needles and pointed elongate scales in the polyp body wall. Iridogorgia levisquama Ge, Zhang & Xu, sp. nov. is differentiated from the congeneric I. squarrosa by slender and smooth scales with sharp ends in the polyp body wall and needles with fine wartiness in the tentacles. Parachrysogorgia chryseis and Metallogorgia melanotrichos are reported as new records for the Indian Ocean ridges. These findings expand the known biodiversity and biogeographic range of Chrysogorgiidae in the Indian Ocean ridges.

Key Words: Carlsberg Ridge, Chrysogorgiidae, Ninetyeast Ridge, phylogeny, taxonomy

Chrysogorgia pugnioides Ge, Hu & Xu, sp. nov.  

Iridogorgia acutisclerita Ge, Zhang & Xu, sp. nov. 

Iridogorgia levisquama Ge, Zhang & Xu, sp. nov.

The external morphology of Iridogorgia acutisclerita Ge, Zhang & Xu, sp. nov.
 A. Holotype FIO-IND72-JLBEN22309 in situ; B. Paratype FIO-IND72-JLBEN22402 in situ; C–E. Holotype FIO-IND72-JLBEN22309, paratype FIO-IND72-JLBEN22402, and FIO-IND72-JLBEN225511 after collection;
F. Single polyp under a light microscope; G. Single polyp under SEM; H. A part of the tentacle under SEM; I. A part of the branch under a light microscope; J. A part of the branch with epidermal tissue removed under SEM; K. A part of the branch with epidermal tissue under SEM.

Scale bars: 20 cm (C–E); 1 mm (F, I); 500 μm (G, K); 250 μm (H, J).

 Meiling Ge, Ningxia Xu, Xuying Hu, Xin Tian, Xinlong Li, Yu Xu, Zongling Wang, Xuelei Zhang and Qingzeng Xu. 2026. Systematics and Biogeography of Chrysogorgiidae from the Indian Ocean: discovery of New Species on Deep-sea Ridges. Zoosystematics and Evolution. 102(2): 621-647.  DOI: doi.org/10.3897/zse.102.182492 [07 Apr 2026]

[Invertebrate • 2025] Alloscopus sago & A. jantapasoae • Two New Species of the Genus Alloscopus Börner, 1906 (Collembola: Orchesellidae: Heteromurinae) from southern Thailand

Alloscopus sago Jantarit & Manee, sp. nov.  
   A. jantapasoae Jantarit, Nilsai & Manee, sp. nov.

in Jantarit, Manee, Nilsai, Mitpuangchon et Pimsai, 2025.

DOI: doi.org/10.3897/zookeys.1245.148100 

Abstract 

Two new species of Alloscopus Börner (Orchesellidae: Heteromurinae) are discovered and described from southern Thailand. The first species, Alloscopus sago Jantarit & Manee, sp. nov. was found in a sago palm forest (Metroxylon sagu Rottb.), a true sago palm species native to Southeast Asia and typically located in lowland freshwater swamps in Phatthalung Province. The second species, A. jantapasoae Jantarit, Nilsai & Manee, sp. nov. was sampled from a dark zone within a cave environment in Trang Province. Both species are characterized by the absence of eyes and mucronal spines, the presence of a PAO, two rows of smooth chaetae on the manubrium, and dental spines. However, they differ in several morphological features, including the number of macrochaetae on the ‘A’ series of the head, Th. II and Abd. IV; labial basis chaetotaxy; the presence of smooth chaetae on tibiotarsi; the number of chaetae on both the anterior and posterior ventral tube; and the number of the inter-teeth on the claw. The discovery of these two new species increases the total number of Alloscopus species recorded in Thailand to six species with a total of 17 recognized species globally. An updated key to the world species of Alloscopus is also provided.   

Key words: Cave, chaetotaxy, Entomobryoidea, sago palm, taxonomy

Alloscopus sago Jantarit & Manee, sp. nov.   

 A. jantapasoae Jantarit, Nilsai & Manee, sp. nov.

 Sopark Jantarit, Nongnapat Manee, Areeruk Nilsai, Natrada Mitpuangchon and Awatsaya Pimsai. 2025. Two New Species of the Genus Alloscopus Börner, 1906 (Collembola, Orchesellidae, Heteromurinae) from southern Thailand. ZooKeys. 1245: 357-381. DOI: doi.org/10.3897/zookeys.1245.148100 

 

 

[Botany • 2026] Asplenium paucipinnatum (Aspleniaceae) • A New fern Species from southern Thailand, based on morphological and molecular data

Asplenium paucipinnatum  K.W.Xu, Li Bing Zhang & Pollawatn, 

in Xu, Pollawatn, L. Zhang, Zhou et L.-B. Zhang, 2026.   

DOI: doi.org/10.3897/phytokeys.272.173645

Abstract

Asplenium paucipinnatum, a new fern species from Nakhon Si Thammarat, Thailand, is described. Morphologically, it closely resembles A. micantifrons in having short-creeping and radial rhizome steles, 1-pinnate laminae, deeply incised pinnae on the basiscopic margin, and sori arranged in two rows close to the costae. However, A. paucipinnatum is readily distinguished by having fewer lateral pinnae (< 14 pairs), obliquely rhombic pinnae with acute apices and obtuse marginal teeth, contrasting the more numerous pinnae (> 15 pairs), lanceolate pinnae with acuminate apices, and acute teeth in A. micantifrons. Phylogenetic analyses based on multiple plastid DNA regions (atpB, rbcL, rps4, rps4-trnS, trnL, and trnL-F) support A. paucipinnatum as a distinct lineage, forming a sister relationship with a clade containing A. lepturus and A. contiguum. The combination of morphological and molecular evidence supports the recognition of this new taxon. Ecological notes, geographic distribution, and a comparison with related species are also provided.

Key words: Asplenium aethiopicum clade, fern phylogeny, Southeast Asian fern flora, taxonomy

Asplenium paucipinnatum. A. Habit; B. Abaxial view of lamina; C. Abaxial view of pinnae showing the venation on the pinnae; D. Showing the lamina apices deeply pinnatifid and becoming gradually decrescent upwards; E. Adaxial view of Pinnae at middle portion of the laminae; F. Short-creeping rhizome; G. Rhizome scales.

(Voucher specimen: Li Bing Zhang, Liang Zhang, R. Pollawatn & X. M. Zhou 10976).

Asplenium paucipinnatum K.W.Xu, Li Bing Zhang & Pollawatn, sp. nov.

 

Description. Asplenium paucipinnatum resembles A. micantifrons (Tuyama) Tuyama ex H.Ohba by its short creeping and radial rhizomes, 1-pinnate laminae, pinnae deeply incised at basiscopic side of margin, and sori borne in 2 rows closely set along to the costa, but the former has lateral pinnae fewer than 14 pairs, pinnae oblique rhombic, pinna apex acute, and marginal teeth obtuse. In contrast, A. micantifrons has lateral pinnae more than 15 pairs, pinnae lanceolate, pinna apex acuminate, and marginal teeth acute.

Ke-Wang Xu, Rossarin Pollawatn, Liang Zhang, Xin-Mao Zhou and Li-Bing Zhang. 2026. Asplenium paucipinnatum (Aspleniaceae), A New fern Species from southern Thailand, based on morphological and molecular data. PhytoKeys. 272: 159-167. DOI: doi.org/10.3897/phytokeys.272.173645 [02 Apr 2026]