[Entomology • 2023] Sympetrum thailandensis • The Genus Sympetrum Newman, 1833 (Odonata: Libellulidae) in Thailand, with Description of A New Species from northern Thailand

 

Sympetrum thailandensis 

Makbun, 2023

 

แมลงปอบ้านดอยถิ่นไทย  ||  DOI: doi.org/10.11646/zootaxa.5296.4.6 

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Abstract

The records of genus Sympetrum Newman, 1833 from Thailand were analysed. The unidentified Sympetrum sp. reported from Chiang Mai and Loei provinces in the past is confirmed as S. hypomelas (Selys, 1884) and additional provincial records of this species are also provided. Sympetrum thailandensis sp. nov. is described and figured based on the adult specimens of both sexes from Hin Tung, Muang, Nakhon Nayok province, Central Thailand. The new species belongs to infuscatum-group and is most similar to S. darwinianum (Selys, 1883). However, it is different from the congener by a combination of morphological and colouration characters. The key to species of Sympetrum known from Thailand is also presented.

Keywords: Odonata, dragonfly, Anisoptera, Sympetrum hypomelas, new record, new species

Sympetrum thailandensis sp. nov. 

NOPPADON MAKBUN. 2023. The Genus Sympetrum Newman, 1833 in Thailand, with Description of S. thailandensis sp. nov. (Odonata: Libellulidae). Zootaxa. 5296(4); 569-581. DOI: doi.org/10.11646/zootaxa.5296.4.6  

 facebook.com/NoppadonMAKBUN2024/posts/264072712847186

[Botany • 2024] Dipcadi mukaianum (Asparagaceae: Scilloideae) • Molecular Phylogenetic Reconstruction improves the Taxonomic Understanding of Indian Dipcadi and reveals A New Species from the bank of Hiranyakeshi River, Maharashtra, India

 

 

Dipcadi mukaianum Shelke, S.R.Yadav & Lekhak, 

in Shelke, Tamboli, Surveswaran, Yadav, Choo, Pak et Lekhak, 2024.

   DOI: doi.org/10.1007/s10265-024-01558-9

  Researchgate.net/publication/378990016 

  x.com/JPR_news

Abstract

Dipcadi (Scilloideae: Asparagaceae) is a genus of bulbous monocots with approximately 40 species, of which 13 occur in India. Species delimitation within the genus has been troublesome hindering a comprehensive phylogenetic analysis. The most recent phylogeny of the subfamily Ornithogaloideae included six species of Dipcadi only from Africa. Here, we reconstructed the phylogeny of Ornithogaloideae including 23 accessions comprising 13 recognized taxa (11 species and two varieties) of Indian Dipcadi. The phylogenetic analyses were based on nucleotide sequences of three plastid regions (rbcL, matK and trnL-F spacer) and one nuclear region (ITS). Pseudogaltonia clavata exhibited sister relationship to Dipcadi. Our combined nuclear + plastid dataset analyses revealed a monophyletic Dipcadi with five clades, Clade I-V. Clade I, II and III included mainly Indian species whereas Clade V included mostly African species. Clade IV comprised D. serotinum. Clade I included nine taxa including our newly described species, D. mukaianum. The new species was phylogenetically placed with D. erythraeum, D. saxorum and D. ursulae. Morphologically, the species resembled D. montanum and D. ursulae but differed in characters such as tepal cohesion, number of ovules per locule and foul-smelling flowers. Clade II and III included 11 and six taxa, respectively. D. erythraeum which has a native range from Egypt to western India was found in Clades I and V. The widespread Dipcadi species, viz. D. erythraeum and D. serotinum showed polyphyly however, the monophyly of Dipcadi is established. Our studies suggest that additional molecular markers (plastid as well as nuclear) should be tested for their taxonomy utility. Further work on the historical biogeography of Dipcadi on the subfamily Ornithogaloideae with more genetic data will yield insights how aridification of the landscape would have shaped the evolution of the geographical clades.

Keywords:  cpDNA, Dipcadi, ITS, Monocots, Scilloideae, Taxonomy

Dipcadi mukaianum.
 a Inflorescence; b Side view of the flower showing reflexed tepals; c Bract; d Inner tepal; e Outer tepal; f Flower split open and gynoecium removed; g Stamen (adaxial surface); h Stamen (abaxial surface); i Pistil; j Infructescence; k T.S. of ovary; l Seed m Bulb; n Leaf

Dipcadi mukaianum
a Habitat; b Habit; c Inflorescence; d Infructescence; e Front view of the flower showing trilobed stigma and reflexed tepals; f L.S. of the flower showing pistil with small stipe

Dipcadi mukaianum Shelke, S.R.Yadav & Lekhak sp. nov.  

 

Ecology: Dipcadi mukaianum grows near the Hiranyakeshi River, preferring sandy and gravelly soil and grasslands with Hypoxis aurea Lour., Iphigenia indica (L.) A.Gray ex Kunth, I. pallida Baker, Ledebouria revoluta (L.f.) Jessop and Curculigo orchioides Gaertn.

Etymology: The species is named after Prof. Yasuhiko Mukai, Osaka Kyoiku University, Osaka, Japan for his contributions in the field of plant molecular cytogenetics in general and wheat cytogenetics in particular.

 

P. E. Shelke, A. S. Tamboli, S. Surveswaran, S. R. Yadav, Y.-S. Choo, J. H. Pak and M. M. Lekhak. 2024. Molecular Phylogenetic Reconstruction improves the Taxonomic Understanding of Indian Dipcadi (Asparagaceae) and reveals A New Species from the bank of Hiranyakeshi River, Maharashtra, India. Journal of Plant Research. 137; 829–845.   DOI: doi.org/10.1007/s10265-024-01558-9

  x.com/JPR_news/status/1815250640571896161

  Researchgate.net/publication/378990016_Molecular_phylogeny_taxonomy_of_Indian_Dipcadi

[Entomology • 2026] Covellana niomalan, Sosxetra mamanina & S. thutakanay • Revision of the Comose Flame Moths of the Genus Sosxetra Walker (Lepidoptera: Noctuidae: Dyopsinae), with Descriptions of A New Genus and Three New Species

 [16, 17, 27] Covellana niomalan Martinez, Homziak, Plotkin & Castillo-Argaez gen. et sp. nov.; 

[5, 6, 26] Sosxetra grata Walker, 1862; 

[9, 10] Sosxetra mamanina Martinez, Homziak, & Castillo-Argaez, sp. nov. 

[11, 12] S. thutakanay Martinez, Homziak, & Castillo-Argaez, sp. nov.

in Martinez, Homziak, Pierson, Campo, Plotkin et Castillo-Argaez, 2026. 

DOI: doi.org/10.3897/zookeys.1268.138260

Abstract

As part of our Neotropical Dyopsinae Project, a revision of the Neotropical genus Sosxetra Walker is proposed. Morphological and molecular evidence challenge its previous monotypic classification. The genus is redescribed and a neotype is designated for Sosxetra grata Walker, previously considered the only species in the genus. Two new species are described: Sosxetra mamanina Martinez, Homziak, & Castillo-Argaez, sp. nov. and Sosxetra thutakanay Martinez, Homziak, & Castillo-Argaez, sp. nov. Finally, Covellana Martinez, Homziak, Plotkin & Castillo-Argaez, gen. nov., is established based on Covellana niomalan Martinez, Homziak, Plotkin & Castillo-Argaez, sp. nov., previously misidentified as Sosxetra grata.

Key words: Barcoding, cryptic species, Lepidoptera, morphology, neotropics, systematics, taxonomy

Adult head structure. 2. Sosxetra grata, ♂, Yucatan, Mexico, MGCL; 3. S. grata, ♀, Alajuela, Costa Rica, MGCL;
4. Covellana niomalan, Paratype, ♂, Madre de Dios, Peru, MGCL.

Adult habitus of Sosxetra and Covellana.
5. Sosxetra grata, ♂, neotype, Espirito Santo, Brazil, MPM; 6. S. grata, syntype of S. agatha, ♂, Suriname, MfN; 7. S. grata, ♂, Napo, Ecuador, MGCL; 8. S. grata, ♂, Yucatan, Mexico, MGCL;
9. S. mamanina, ♂, holotype, Madre de Dios, Peru, MGCL; 10. S. mamanina, ♂, paratype, Madre de Dios, Peru, MGCL; 11. S. thutakanay, ♂, holotype, Napo, Ecuador, MGCL; 12. S. thutakanay, ♂, paratype, French Guiana, MGCL;
13. S. grata, syntype of S. agatha, ♀, Suriname, MfN; 14. S. grata, ♀, Pichincha, Ecuador, MGCL; 15. S. grata, ♀, paratype, Alajuela, Costa Rica, MGCL;
16. Covellana niomalan, ♂, holotype, Canal Zone, Panama, MGCL; 17. C. niomalan, ♂, paratype, Madre de Dios, Peru, MGCL.

Resting position of Sosxetra and Covellana.
 26. S. grata, ♂, Cayo District, Belize photo by Thomas Shahan;
27. Covellana niomalan Barro Colorado Island, Panama photo by Maxim Larrivée.

Sosxetra mamanina Martinez, Homziak, & Castillo-Argaez, sp. nov. 

Sosxetra thutakanay Martinez, Homziak, & Castillo-Argaez, sp. nov. 

 Covellana Martinez, Homziak, Plotkin & Castillo-Argaez, gen. nov., 

Covellana niomalan Martinez, Homziak, Plotkin & Castillo-Argaez, sp. nov.

 Jose I. Martinez, Nicholas T. Homziak, Taylor L. Pierson, Rhys J. L. Campo, David M. Plotkin and Raiza J. Castillo-Argaez. 2026. Revision of the Comose Flame Moths of the Genus Sosxetra Walker (Noctuidae, Dyopsinae), with Descriptions of A New Genus and Three New Species. ZooKeys. 1268: 227-248.  DOI: doi.org/10.3897/zookeys.1268.138260 [06 Feb 2026]

[Botany • 2026] Mentha deleoi (Lamiaceae) • A New Species from Sicily

Mentha deleoi Raimondo,   

in Raimondo, 2026.

DOI: doi.org/10.3390/plants15040563 

Abstract

Mentha deleoi is described from Isola Grande, an islet in the Stagnone of Marsala (Trapani, NW Sicily), included within the homonymous Regional Oriented Nature Reserve. It is a perennial herb with an ephemeral annual cycle; in several morphological characters, it shows affinity with M. pulegium, a Eurimediterranean hemicryptophyte widely distributed in Sicily from coastal areas to high mountain habitats. Diagnostic and differential characters are provided, together with analyses of the biology, ecology, and chemistry of this new Sicilian endemic species. Owing to its extremely restricted distribution, small population size, and the potential impacts affecting the islet and its fragile habitat, resulting from centuries saliculture, a conservation plan is proposed, aimed at both in situ and ex situ protection. 

Keywords: Mediterranean flora; taxonomy; endemism; Sicily; biodiversity conservation; economic valorization 

Mentha deleoi in flowering: 

(a–c) in the spring; (d,e) in the summer; (e,f) plants with white flowers.

Mentha deleoi Raimondo sp. nov. 

Diagnosis: Species herbacea perennis, ciclo effimero, omnibus organis aeriis dense villosa. Differt a Mentha pulegium L. foliis ovatis ad oblongis, plerumque convolutis; scapis floriferis erectis vel decumbentibus-ascendentibus, in plantis maiore magnitudine longioribus; verticillasteribus numerosis, densis, contiguis et globosis; floribus plerumque lilacinis, rarius albis.

Etymology: The name of the new species commemorates Prof. Antonino De Leo (1905–1971), chemist and phytologist, and Professor of Systematic Botany at the University of Palermo. On 3 July 1971—just days after graduating in Agricultural Sciences from the University of Palermo—Prof. De Leo appointed the author as Curator of the Botanical Garden, introducing him to environmental and applied botany, which he pursued continuously for over fifty years. He was among the first researchers in Italy to initiate applied studies on the biology and chemistry of tropical and subtropical plants introduced and cultivated at the Botanical Garden, fields that he directed from 1968 until his untimely death in November 1971.

 Francesco Maria Raimondo. 2026. Mentha deleoi (Lamiaceae): A New Species from Sicily. Plants. 15(4); 563. DOI: doi.org/10.3390/plants15040563 [11 February 2026]

[Invertebrate • 2025] Taxonomy and Ecological insights into Melinnopsis shinkaiae sp. nov., A Polychaete with a vertical tube from the Daiichi-Kashima Seamount (Northwest Pacific)

 

Melinnopsis shinkaiae 

Jimi, Hookabe, Woo & Fujiwara, 2025

DOI doi.org/10.3800/pbr.20.29 

 

Abstract  

Melinnopsis shinkaiae sp. nov. represents the fifth species of the genus Melinnopsis to be discovered in Japan. The new species was collected using the submersible Shinkai 6500 at 3623 m depth of Daiichi-Kashima Seamount, a locality with relatively unexplored biodiversity. Our in-situ observation revealed that the species inhabits the upper end of a vertical tube built on the seafloor. The species is differentiated from its congeners by combination of the following morphological characteristics: i) the presence of 12 thoracic uncinigers; ii) the absence of a postbranchial dorsal membrane; iii) the arrangement and shape of four pairs of branchiae; iv) thoracic uncini with a small basal tooth on each three teeth above the rostral tooth; v) absence of longitudinal groove in the large buccal tentacle.

Keywords: Terebelliformia, taxonomy, Melinnidae, Polychaeta, seamount

Melinnopsis shinkaiae sp. nov.
A–C, in situ observations of tubes. D, a collected tube.
E, drawing of tubes. White arrows indicate tubes.  

Scale bar: B–C, 30 cm; D, 2 cm

 Melinnopsis shinkaiae sp. nov. 

Etymology. The specific name shinkaiae derives from HOV Shinkai 6500, that was used for sampling of the new species. The new Japanese name “Takeuma-kazarigokai” is derived from the vertical tube that evokes “Takeuma,” which refers to Japanese stilts.

Naoto Jimi, Natsumi Hookabe, Sau Pinn Woo and Yoshihiro Fujiwara. 2025. Taxonomy and Ecological insights into Melinnopsis shinkaiae sp. nov., A Polychaete with a vertical tube from the Daiichi-Kashima Seamount (Northwest Pacific). Plankton and Benthos Research. 20(1); 29-35. DOI doi.org/10.3800/pbr.20.29 [February 28, 2025]

[Botany • 2026] Impatiens ngariensis (Balsaminaceae) • A New Species from Xizang, China

 

Impatiens ngariensis S.Peng, G.W.Hu & Q.F.Wang,

Li, Yuan, T. Hu, G.-W. Hu, Peng et Wang, 2026. 

DOI: doi.org/10.3897/phytokeys.271.177400 

 

Abstract

A new species, Impatiens ngariensis (Balsaminaceae) from western Xizang, China, is described in this study. Morphological and phylogenetic evidence supports its taxonomic placement within I. sect. Racemosae. Phylogenetic analyses indicate that I. ngariensis forms a clade with I. thomsonii, I. bomiensis, I. fragicolor, I. edgeworthii and I. glandulifera. Morphologically, the new species closely resembles I. sulcata in petiole with 2 basal glands, subcorymbose-racemose inflorescences, lateral sepals ovate, dorsal petal suborbicular and capsule linear, but can be distinguished by several key characteristics, including a suborbicular dorsal petal with a cordate base and a shorter spur.

Key words: Impatiens, New Taxon, Phylogeny, Xizang

Impatiens ngariensis. A. Habitat; B. Whole plant; C. Adaxial and abaxial view of leaf; D. Glands; E. Roots and basal part of stem, showing node; F. Inflorescences; G. Front view of flower; H. Lateral view of flower; I. Dissection of a flower (a. dorsal petal; b. lateral sepals; c. lateral united petals; d. lower sepal; e. stamens and pedicel); J. Inflorescences with immature fruit; K. Seeds.

Photographed by Shuai Peng and Ru-Ping Li.

Impatiens ngariensis S.Peng, G.W.Hu & Q.F.Wang, sp. nov.

Diagnosis. Impatiens ngariensis is morphologically allied to I. thomsonii and I. sulcata, but differs from the former by its larger flowers, suborbicular (vs. orbicular) dorsal petal and a markedly shorter spur (4–6 mm vs. 1 cm); from the latter, it is distinguished by the oblong (vs. broadly dolabriform to broadly elliptic or ovate) upper petal, dolabriform (vs. subdolabriform to oblong-ovate) lower petal and a broadly funnel-form (vs. saccate) lower sepal.

 Ru-Ping Li, Tao-Hua Yuan, Tian Hu, Guang-Wan Hu, Shuai Peng and Qing-Feng Wang. 2026.  Impatiens ngariensis (Balsaminaceae), A New Species from Xizang, China. PhytoKeys. 271: 1-13.  DOI: doi.org/10.3897/phytokeys.271.177400 [10-02-2026]

[Herpetology • 2026] Philodryas pseudomamba • Morphological and Molecular Variation reveal Cryptic Diversity in the Racer Philodryas patagoniensis (Girard, 1858) (Squamata: Colubridae)

[B, E, H] Philodryas patagoniensis (Girard, 1858); 

[C, F, I] Philodryas pseudomamba Pietro, Sánchez, Poljak & Alcalde, 2026 

 

DOI: doi.org/10.3897/vz.76.e169219

Abstract

We analysed the genetic and morphological variation in Philodryas patagoniensis, a widely distributed South American racer snake. Two well-differentiated haplogroups were identified using mitochondrial gene sequences (12S and 16S) and the nuclear gene c-mos. Genetic divergence between these haplogroups correlates strongly with morphological differences, allowing the recognition of two morphotypes within P. patagoniensis. We integrated genetic and morphological data into a total evidence analysis using parsimony. Our results support the distinction between the two haplogroups/morphotypes, consistent with recognising two species within P. patagoniensis. Accordingly, we re-describe P. patagoniensis, refining its morphological variation and geographical distribution to reflect the observed genetic differentiation, and describe a new species. Morphological characteristics can distinguish the two species, including body measurements, scale patterns, and cranial osteology. The new species differs from P. patagoniensis sensu stricto in traits associated with arboreal habits, which are strongly correlated with the distribution of the two taxa across forested and open habitats in South America. Furthermore, P. patagoniensis sensu stricto has a significant Lycosa spider component in its diet, which is absent in the newly described species.

Keywords: Biodiversity, Dipsadinae, Philodryadini, Serpentes, South America, systematics, taxonomy

In-life colouration of
A a Monte of Plains and Plateaus specimen of P. patagoniensis (Rio Negro, Chipauquil, Meseta de Somuncura),
B a Pampa specimen of  P. patagoniensis (Buenos Aires, Sierra de Curamalal), and
C a Humid Chaco specimen of P. pseudomamba sp. nov. (Chaco, Tres Isletas).

Photos are not to scale. Photo credits: David Vera (A), Eduardo Schaeffer (B).

Lateral (A–C), dorsal (D–F), and ventral (G–I) views of the heads of representative specimens from both morphotypes.
The left column (A, D, G) shows a B-morphotype specimen from the Monte of Plains and Plateaus (Rio Negro province, MLP.R 5313). The middle column (B, E, H) features a B-morphotype specimen from the Pampa (Buenos Aires province, MLP.R 6039). The right column (C, F, I) presents an A-morphotype specimen from the Humid Chaco (Corrientes province, MLP.R 5449, holotype). Arrows and asterisks highlight character states (see File S2). Photographs A–F include a line-drawing diagram highlighting in grey the scales involved in each character state, as indicated by arrows and asterisks in the corresponding images. Scale bars = 5 mm.

Philodryas pseudomamba sp. nov.

Diagnosis. Philodryas pseudomamba sp. nov. differs from all other species of the genus by the following combination of characters: (1) dorsal scale rows 19–19–15, (2) HL/TTL between 2 and 3.4%, (3) SVL/TTL between 68 and 77.7%, (4) TL/TTL between 22.2 and 32%, (5) ventral scales between 166 and 199, (6) subcaudal scales between 81 and 124, (7) loreal scale rectangular, longer than tall, (8) dorsal half of the preocular markedly exceeding the posterior margin of the loreal, (9) supralabials 7 (3,4), (10) lateral border of the supraocular straight in dorsal view, (11) first temporal scale large (height being less than 40% of the length), (12) dorsal scales of the head with completely immaculate olive colouration featuring tiny black scale margins, (13) dorsal body design dotted, not maculated, and (14) ventral scales lacking lateral black spots.

Etymology. The prefix pseudo of the epithet derives from Greek, meaning “falseness” or “falsehood”. Mamba refers to the term “imamba” used in the Bantú language (spoken by various African ethnic groups) to designate snakes of the genus Dendroaspis, commonly known in English and other languages as “mambas”. The species name was explicitly inspired by D. polylepis (the black mamba), due to the general physical resemblance and notably aggressive behaviour shared by both species.

 Diego Omar Di Pietro, Julieta Sánchez, Sebastián Poljak and Leandro Alcalde. 2026. Morphological and Molecular Variation reveal Cryptic Diversity in the Racer Philodryas patagoniensis (Girard, 1858) (Squamata: Colubridae). Vertebrate Zoology. 76: 93-119. doi.org/10.3897/vz.76.e169219 [10 Feb 2026]

[Botany • 2025] Columnea cumanday (Gesneriaceae) • A New Species from the Central Cordillera in the Northern Andes (Colombia)

Columnea cumanday  Solano-C., Parra-Lizc. & Sierra-Ariza,

in Sierra-Ariza, Parra-Lizcano et Solano‑C., 2025. 

DOI: doi.org/10.14522/darwiniana.2025.132.1312

A new species of Columnea, endemic to the Colombian Andes and discovered in very humid montane forests of the Central Cordillera, is described and illustrated. Columnea cumanday Solano-C., Parra-Lizc. & Sierra-Ariza is distinguished by its lanceolate bracts and calyx lobes with a laciniate margin, each lacinia bearing a gland (green when fresh) at the apex. Both structures are covered with a dense hirsute indumentum of red-purple trichomes. The corolla is uniformly purple, with the outer surface densely covered with transparent, multicellular, glandular trichomes. The species bears four glandular nectaries: one dorsal nectary, bilobed to trilobed, and three deltoid ones. The berry is orange-red, ovate to rounded, villose, and covered with purple-red multicellular trichomes. Discuss and compare their differences with morphologically similar species, and a preliminary conservation status is proposed according to the IUCN Red List criteria.

Keywords. Andes; Central Cordillera; Colombia; Gesnerioideae; taxonomy

Columnea cumanday.
A, habit. B, leaf, adaxial and abaxial surface. C, flower, lateral view. D, flower, front view. E, calyx lobe. F, flower, open corolla. G, flower, androecium and gynoecium. H, fruits.

Photographs and LCDP by M. A. Sierra-Ariza.

Columnea cumanday Solano-C., Parra-Lizc. & Sierra-Ariza, sp.nov.

Etymology. The epithet cumanday is a noun in apposition; it refers to the name given by the Carrapa and Quimbaya pre-Hispanic peoples to the snow-capped Volcán Nevado del Ruiz, which means “White Mountain”, where the new species occurs. This name also honors the rich biodiversity of this region.

Mario Alexei Sierra-Ariza, Nicolas Parra-Lizcano and Carlos A. Solano‑C. 2025. A New Species of Columnea (Gesneriaceae) from the Central Cordillera in the Northern Andes (Colombia).  Darwiniana, nueva serie. 13(2); 383-393. DOI: doi.org/10.14522/darwiniana.2025.132.1312

Researchgate.net/publication/396887358_A_new_species_of_Columnea_from_the_Central_Cordillera_in_the_Northern_Andes_Colombia

[Crustacea • 2026] Leiogalathea samudragiri • A New deep-sea munidopsid squat lobster of the Genus Leiogalathea Baba, 1969 (Decapoda: Anomura: Munidopsidae) from the southeastern Arabian Sea, India

  

Leiogalathea samudragiri  

Tiwari, Padate & Cubelio, 2026

DOI: doi.org/10.1007/s44289-026-00117-5

Abstract

The present study describes a new species of the deep-water munidopsid squat lobster genus Leiogalathea Baba, 1969. Leiogalathea samudragiri sp. nov. resembles L. achates Rodríguez-Flores, Macpherson & Machordom, 2019, L. evander Rodríguez-Flores, Macpherson & Machordom, 2019, and L. laevirostris (Balss, 1913) by the unarmed hepatic margin of the carapace. However, the new species differs from these congeners mainly in having uninterrupted mesogastric and mid-transverse ridges on the carapace and the presence of six transverse ridges on the posterior half of the carapace.

 

Keywords: Anomura, Arabian Sea, New species, Seamount, Taxonomy

Leiogalathea samudragiri sp. nov. Holotype, ovigerous female (IO/SS/ANO/00195; PCL 4.8 mm, CW 3.7 mm).
a carapace, dorsal view, b thoracic sternum, ventral view, c left eye, antennular article 1 and antennal peduncle, ventral view, d left mxp3, lateral view, e right P1, dorsal view, f right P2, lateral view, g right P2 dactylus, lateral view, h right P3, lateral view, i right P4, lateral view

Leiogalathea samudragiri sp. nov. Holotype, ovigerous female (IO/SS/ANO/00195; PCL 4.8 mm, CW 3.7 mm). Dorsal habitus

Leiogalathea samudragiri sp. nov.  

 

 Etymology: The species name is derived from a combination of the Sanskrit “samudra” meaning ocean, and “giri” meaning mountain, which refers to the seamount habitat of this species.

Shivam Tiwari, Vinay P. Padate and Sherine Sonia Cubelio. 2026. A New deep-sea munidopsid squat lobster of the Genus Leiogalathea Baba, 1969 (Decapoda: Anomura) from the southeastern Arabian Sea, India.  Discover Oceans. 3, 6. DOI: doi.org/10.1007/s44289-026-00117-5 [04 February 2026]

[Arachnida • 2026] Titanidiops kolhapurensis • A New Species of the Trapdoor Spider Genus Titanidiops Simon (Araneae: Idiopidae) from western Maharashtra, India

 

Titanidiops kolhapurensis

Gangalmale, Thackeray, Khandekar & Gaikwad, 2026

DOI: doi.org/10.1080/00222933.2025.2603654

ABSTRACT

A new species, Titanidiops kolhapurensis sp. n., is described on the basis of six adult female and three adult male specimens collected from the outskirts of Kolhapur City, western Maharashtra, India. Specimens of both sexes are described in detail and they are distinguished from all other known peninsular Indian congeners of Titanidiops and Idiops in several non-overlapping morphological characters. Notes on natural history, and on intraspecific variation of genital characters, as well as measurements and meristic data of the new species are provided. Additionally, we present preliminary observations on occurrence of the new species and other sympatric habitat specialist taxa in natural and altered/modified habitats from the type locality and nearby localities. We emphasise the urgent need to halt further alteration or modification of the natural habitat of T. kolhapurensis sp. n. and to implement habitat restoration measures to safeguard the new species and other habitat specialists from the imminent risk of local extinction.

KEYWORDS: Anthropogenic pressure, grassland and savanna, habitat loss, morphology, taxonomy, urban biodiversity

 Live habitus of Titanidiops kolhapurensis:
(A) holotype, (NRC-AA-1191) and (B) paratype, (NRC-AA-1196).

Photos by: Akshay Khandekar.

 Titanidiops kolhapurensis sp. n.

Satpal Gangalmale, Tejas Thackeray, Akshay Khandekar and Sunil M. Gaikwad. 2026. A New Species of the Trapdoor Spider Genus Titanidiops Simon (Araneae: Idiopidae) from western Maharashtra, India. Journal of Natural History. 60(5-8); 401-421. DOI: doi.org/10.1080/00222933.2025.2603654 [28 Jan 2026]

[Herpetology • 2026] Leptobrachium widianai • A New Species of Leptobrachium Tschudi, 1838 (Anura: Megophryidae) from Bali and East Java, Indonesia

 

 Leptobrachium widianai

 Fauzan, Smith, Amarasinghe, Farajallah, Racho, Matsui & Hamidy, 2026 

Widiana’s Litter Frog | Katak Serasah Widiana  || 

RAFFLES BULLETIN OF ZOOLOGY. 74; 

Abstract

The fauna of Indonesia's Lesser Sunda and eastern Java areas harbour lineages of Leptobrachium that have been historically assigned to L. hasseltii Tschudi, 1838. Here, using an integrative dataset—mtDNA (12S–tRNA^Val–16S; 1,979 bp), adult and larval morphology, and advertisement calls—we delimit and describe a new species from Buleleng (Bali) and Kediri (East Java). Phylogenetic analyses (ML/Bayesian) recover two well-supported clades within L. hasseltii sensu lato: (1) West–Central Java and southern Sumatra (true L. hasseltii) and (2) Bali–East Java (new species), with 16S uncorrected p-distance 3.2–5.2% to L. hasseltii. Morphologically, the new species differs from L. hasseltii by the combination of brown iris with a light-blue scleral arc (eye fully open), very large oval femoral glands (dark edged), no vomerine teeth and rictal glands, distinctive dorsal pattern (dark blotches with paired transverse bars) and ventral patterning, and tadpoles having LTRF 7(1–6)/5(1–4) versus 5(1–4)/5(1–4) in L. hasseltii. The advertisement call is an elongated series of short barks followed by low-frequency squawks and differs markedly in temporal structure from L. hasseltii. We discuss biogeographic implications and provide an IUCN preliminary assessment following current guidelines. 

Key words. Amphibia, bioacoustics, Leptobrachium hasseltii, morphology, phylogeny

Two species of Bali and Javan Leptobrachium in life.
(A, B) Adult male Leptobrachium widianai, new species, from Buleleng, Bali (MZB Amph. 33320, 32734); (C) adult male from Kediri, East Java (MZB Amph. 26959); (D) juvenile (MZB Amph. 32735);
(E) adult male L. hasseltii from Mt. Slamet, Central Java (MZB Amph. 32743); (F) adult male L. hasseltii from Cisarua, West Java (MZB Amph. 32735).

Leptobrachium widianai, new species 

Diagnosis. A medium-sized Leptobrachium (adult male SVL 36.2 mm; adult female SVL to 54.1 mm) assigned to the Leptobrachium hasseltii group (subgenus Leptobrachium sensu Matsui et al., 2010) based on iris colour pattern, femoral gland morphology, and absence of upper lip spines. Distinguished from all congeners by the following combination of characters: (1) Iris and sclera: iris uniformly brown in adults with a narrow light blue scleral arc visible when the eye is fully open (juveniles with distinctive white spot-ring on iris); (2) Femoral glands: very large, oval (occasionally circular), conspicuous, with dark surrounding pigmentation; (3) Humeral glands: present, circular, flat; (4) Dentition and projections: vomerine teeth absent; snout without projections; no dermal palpebral projection; no rictal glands; ventrolateral glandular ridges absent; no upper lip spines. (5) Digital morphology: inner palmar tubercle circular, not extending along first metacarpal; subarticular tubercles reduced, replaced by low callous pads; fingers and toes with rounded, swollen tips, lacking circummarginal grooves; toe webbing poorly developed (I 0–2+, II 0–3+, III 2+–4, IV 4–2 V); (6) Dorsal pattern: typically dark brown with large irregular blotches and paired transverse bars; sometimes with orange vertebral line or orange dots; interorbital–parietal region with darker markings; (7) Lateral and ventral pattern: lateral surfaces dark grey with scattered white granules and a distinct black spot between axilla and groin; ventrum grey to light grey, throat darker, chest densely granular with white spots; (8) Call structure: elongated series of short “barks” followed by low-frequency “squawks,” temporally and structurally distinct from L. hasseltii; (9) Larvae: LTRF 7(1–6)/5(1–4) (vs. 5(1–4)/5(1–4) in L. hasseltii), marginal papillae conical and acute.

Etymology. The specific epithet honours Mr. I Made Widiana Darma Santosa, Director of the Bali Reptile Park, whose longstanding dedication to the conservation of Indonesian reptiles and amphibians — particularly those of Bali — has significantly advanced both in-situ and ex-situ conservation awareness. The name is formed as a genitive singular noun.

 Proposed English name: Widiana’s Litter Frog; 

Proposed Indonesian name: Katak Serasah Widiana.

Muhammad F. FAUZAN, Eric N. SMITH, A. A. Thasun AMARASINGHE, Achmad FARAJALLAH, Asrael RACHO, Masafumi MATSUI and Amir HAMIDY. 2026. A New Species of Leptobrachium Tschudi, 1838 (Anura: Megophryidae) from Bali and East Java, Indonesia. RAFFLES BULLETIN OF ZOOLOGY. 74; 62–86. 

[Entomology • 2026] Xistra balinsasayaoensis • A New Species of the Genus Xistra Bolívar, 1887 (Orthoptera: Tetrigidae) from Negros Island, the Philippines

 

 Xistra balinsasayaoensis

Patano, Skejo, Amoroso, Coritico & Kasalo, 2026

 jibs.modares.ac.ir 

 Researchgate.net/publication/400563499

facebook.com/RomeoPatano

Abstract

A new species of genus Xistra Bolívar, 1887, subgenus Xistra, from Negros Island, Visayas (the Philippines) is described here—Xistra balinsasayaoensis sp. nov. (Balinsasayao’s horned pygmy grasshopper). It was first documented in May 2017 by an amateur photographer and was finally collected in October 2023. The species belongs to the subgenus Xistra due to its smooth pronotum with a low median carina and moderately high horns. There are now a total of six species of Xistra, three of which are members of the subgenus Xistra. The photographic records of living specimens and their microhabitats, including their bryophyte associates, are provided as well.

Graphical Abstract

 Keywords: Balinsasayao Twin Lakes Natural Park, Montane forest, New species, Oriental, Taxonomy

 Xistra balinsasayaoensis sp. n. and its respective microhabitats (tree trunks covered with bryophytes), dorso-lateral views of live specimens. A. Male; B. Female.

Microhabitat of Xistra balinsasayaoensis sp. n. in Balinsasayao Twin Lakes Natural Park, Negros Island. Specimens were observed.
A. Old-growth secondary forest perched on B. Tree trunks (Lauraceae) covered with C. Bryophytes (Neckeropsis sp. of the family Neckeraceae).

Xistra balinsasayaoensis sp. nov. 

 

Romeo Jr. R. Patano, Josip Skejo, Victor B. Amoroso, Fulgent P. Coritico and Niko Kasalo. 2026. A New Species of the Genus Xistra Bolívar, 1887 (Orthoptera, Tetrigidae) from Negros Island, the Philippines. Journal of Insect Biodiversity and Systematics. 12(1); DOI: 10.48311/jibs.12.01.67 https://jibs.modares.ac.ir/article_27966.html

facebook.com/RomeoPatano/posts/25666680792964103

 Researchgate.net/publication/400563499_A_new_species_of_Xistra_from_Negros_Island_the_Philippines

 

[Paleontology • 2026] Tyrannoroter heberti • Carboniferous recumbirostran elucidates the origins of terrestrial herbivory

Tyrannoroter heberti 

Mann, Xiong, Calthorpe, Sues & Maddin, 2026

 

DOI: doi.org/10.1038/s41559-025-02929-8

Abstract

The evolution of herbivory is one of the most important ecological events in the evolution of terrestrial vertebrates and impacted the ecosystems they inhabited. Herbivory independently developed in a number of tetrapod clades during the Late Carboniferous and Permian, eventually leading to the establishment of the basic structure of modern terrestrial ecosystems. Here we describe a Late Carboniferous pantylid ‘microsaur’, Tyrannoroter heberti gen. et sp. nov., with expansive occluding palatal and coronoid dental batteries. The shape of the teeth, as revealed by high-resolution micro-computed tomography data, indicates wear from both shearing and grinding motions consistent with herbivory. New data from historical pantylid fossils show that similar adaptations can be traced back as far as the Bashkirian (~318 million years ago), indicating that terrestrial herbivory was already widespread within this group, and originated rapidly following the terrestrialization of tetrapods. The placement of recumbirostran ‘microsaurs’ on the amniote stem suggests that terrestrial herbivory is not an amniote innovation, although the phylogenetic position of ‘microsaurian’ tetrapods remains uncertain. Under any phylogenetic scenario, the data presented here reveal that pantylids acquired adaptations to herbivory independently, probably via durophagous omnivory, feeding on insects, shelled animals and tough plant material.

Tyrannoroter heberti gen. et sp. nov.

Arjan Mann, Zifang Xiong, Ami S. Calthorpe, Hans-Dieter Sues and Hillary C. Maddin. 2026. Carboniferous recumbirostran elucidates the origins of terrestrial herbivory. Nature Ecology & Evolution. 10; 193–202. DOI: doi.org/10.1038/s41559-025-02929-8 [10 February 2026]