Wednesday, December 3, 2025

[Botany • 2025] Angiopteris guangdongensis (Marattiaceae) • A New Species From Guangdong, China

 

Angiopteris guangdongensis Wufeng Chen and Y.H. Yan,  

in W.-F. Chen, Sun, L.-J. Chen, Shu, Liang, Zheng et Yan, 2025.  
 广东观音座莲  ||  DOI: doi.org/10.1002/ece3.72447 

ABSTRACT
In this study, we confirm that the population of Angiopteris from Guangdong Province represents a distinct new species, which we describe as Angiopteris guangdongensis. Morphologically, A. guangdongensis resembles Angiopteris fokiensis but can be distinguished by its arborescent habit (reaching up to 5 m in height), robust scaly stipes, linear-lanceolate pinnules, abaxially scaly slender pinnules, sori with 7–16 sporangia, and a higher basal pinnule aspect ratio. Plastid phylogenomic analyses place A. guangdongensis as a monophyletic lineage sister to A. fokiensis. According to IUCN guidelines, the species is preliminarily assessed as ‘Data Deficient (DD)’. In addition, we report the complete plastid genome of this new species. This discovery not only provides important insights into the evolution and speciation of Angiopteris but also highlights the taxonomic oversimplification within the genus.

Keywords: ferns, Marattiaceae, morphology, phylogeny, plastid genome, taxonomy

Angiopteris guangdongensis Wufeng Chen and Y.H. Yan, sp. nov.
 (A) Habit; (B) pinnule; (C) detail of pinnule; (D) spore; (E) scale on the abaxial surface of the pinnule; (F) scale on the abaxial surface of the pinna rachis.

Angiopteris guangdongensis Wufeng Chen and Y.H. Yan, sp. nov.
(A) Habitat; (B) lamina; (C) pinnae; (D) rhizome and stipe; (E) sporangia.
Photographs by Jin-Gang Liu (A–E).

Angiopteris guangdongensis Wufeng Chen and Y.H. Yan, sp. nov. 

Diagnosis: Angiopteris guangdongensis is similar to both A. fokiensis (type locality: Fujian Province, China) and A. muralis (type locality: Guangdong Province, China), but it can be distinguished by the following diagnostic characters: (1) arborescent habit, 3–5 m tall (vs. 2–4 m in A. fokiensis and 2–3 m in A. muralis); (2) robust stipes, 9 cm in diameter, densely scaly (vs. 6 cm, sparsely scaly in both species); (3) linear-lanceolate pinnules (vs. lanceolate in A. fokiensis; ovate, lanceolate, acuminate in A. muralis); (4) pinnules densely scaly on the abaxial surface (vs. glabrous in A. fokiensis and sparsely scaly in A. muralis); (5) higher basal pinnule AR (Figures 5-8; Table 2).

Etymology: The specific epithet guangdongensis refers to Guangdong Province, China, the geographical origin of the type specimen. The species shows narrow endemism, being restricted to this region based on current distribution records.

Vernacular name: 广东观音座莲 (guang dong guan yin zuo lian).

 
Wu-Feng Chen, Wei-Yue Sun, Li-Jun Chen, Jiang-Ping Shu, Jun-Jie Liang, Yue-Bing Zheng and Yue-Hong Yan. 2025. Angiopteris guangdongensis (Marattiaceae): A New Species From Guangdong, China. Ecology and Evolution.15(11) DOI: doi.org/10.1002/ece3.72447 [09 November 2025]


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[Botany • 2025] Thismia selangorensis (Thismiaceae) • A New mitriform Species of Thismia sect. Geomitra from Selangor, Malaysia

 

Thismia selangorensis  Siti-Munirah & Gim Siew,  

in Siti-Munirah, Siew, Mat-Tahir et Azhar, 2025. 

Abstract
Thismia selangorensis, a distinct mitriform species of the mycoheterotrophic genus Thismia, is described herein. It was first discovered in a tree hole on a riverbank in Taman Eko Rimba Sungai Chongkak, Selangor, Malaysia. This new species is superficially similar to members of Thismia section Geomitra in that it has coralliform roots, inner tepals forming a mitre with three appendages on top, and stamens with a prominent dorsal rib. However, T. selangorensis differs from known species of T. sect. Geomitra in several morphological features, including the colour of the flowers, the shape of the mitre, the shape of the inner tepal lobes forming the mitre, and the presence of translucent reticulation on the inner surface of the floral tube. Thismia selangorensis is provisionally classified as Critically Endangered according to the IUCN Red List categories and criteria.

Key words: Ecopark, endemic, Geomitra, mitre, achlorophyllous plant, Southeast Asian flora, taxonomy

Thismia selangorensis.
 A. Plants with flowers and roots; B. Top view of mitre (inner tepals); C. Side view of inner tepal; D. Ovary, stigma, and style; E. Floral tube with mitre removed and minute triangular outer tepal; F. Longitudinal section of floral tube with three stamens; G. Outer view of three pendulous stamens; H, I. View of inner side of floral tube, upper part (H), lower part (I); J. Bract; K. Leaf. Drawn by Mohammad Aidil Nordin from the spirit material (FRI 79179 & 79180).

Thismia selangorensis.
A. A plant with full flower and coralliform roots; A1. Claviform tip of mitre appendage; B. Outer tepal and filaments; C. Inner tepal forming a mitre; D. Floral tube and mitre; E. Mitre viewed from above; F. Floral tube with ovary and flower bud surrounded by bracts and tepals split on apex; G. Longitudinal section of floral tube, showing inner part (H); H. Inner surface of floral tube; I. Top view of stamens; J. Inner view of a stamen; K. Outer view of a stamen; L. Six stamens viewed from below; M. Stigma. Photos by Siti-Munirah MY and Mohd Faizal; all from FRI 79179 & 79180; images not to scale (see dimensions in description and Fig. 2).

Thismia selangorensis in its natural habitat.
A. Young flower that is not yet fully developed (uncollected plant); B. Mature flower living just beside the roots of a tree buttress (uncollected plant); C. A clump of T. selangorensis at different stages in its natural habitat (FRI 79182); D. A clump of flowers showing a different stage of mitre (FRI 79179 & FRI 79180). Photos by Gim Siew (A–C) and Mohd Faizal (D).

 Thismia selangorensis Siti-Munirah & Gim Siew, sp. nov.
 
Diagnosis. Thismia selangorensis differs from other species of Thismia sect. Geomitra in the following combinations of characteristics: the flower is white to brownish with peach colouration; the distal part of inner tepals is arrow-like with distinct basal lobes, perfectly connate to each other when young, partly splitting on the sutures with age; mitre is wide and resembling a large umbrella, convex and trilobed when viewed from above in younger flowers, flat and irregularly hexalobed in old flowers.


 Mat Yunoh Siti-Munirah, Tan Gim Siew, Mohd Faizal Mat-Tahir and Ahmad Azhar. 2025. Thismia selangorensis (Thismiaceae): A New mitriform Fairy Lantern Species from Selangor, Malaysia.  PhytoKeys. 267: 9-21. DOI: doi.org/10.3897/phytokeys.267.157968 [28 Nov 2025]

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[Ichthyology • 2025] Gambusia nobilis, G. pyrros & G. echelleorum • A Total Evidence Approach justifies Taxonomic Splitting of the Endangered Pecos gambusia (Cyprinodontiformes: Poeciliidae: Gambusia) into Three Species


 Gambusia nobilis (Baird & Girard 1853)

Gambusia pyrros 
Gambusia echelleorum 
 Portnoy, Bretzing-Tungate, Fields, Bean, Smith, Dolan, Blanchard & Conway, 2025 

Abstract
Gambusia nobilis is a federally endangered species found across a fragmented distribution within the Pecos River Drainage of Texas and New Mexico, USA. Drought, human water usage, and potential hybridization and competition with introduced congeners threaten species persistence. Therefore, a population genomics study was conducted to provide critical information for conservation planning. Unsupervised clustering suggested hierarchical structure, with a primary K = 3, and deep divergences were detected among samples grouped into the Leon Creek watershed, the Toyah Creek watershed, and water bodies within the Bitter Lake National Wildlife Refuge (F’ST = 0.55–0.76 for putatively neutral data). Phylogenetic analyses showed three distinct clades corresponding to these groups, with divergence times estimated to be in the last 50 000 years. Complimentary morphological analyses detected differences among the three groups, including features of male colour pattern, and the number of caudal-fin rays in both sexes. Taken as a whole, the results indicate that the endangered G. nobilis comprises three species (two of which are named herein as G. pyrros n. sp. and G. echelleorum n. sp.), rather than one, and the study highlights the daunting yet critical task of documenting species diversity during a period of unprecedented diversity loss.

Keywords: Chihuahua desert, genetic drift, taxonomy, Poeciliidae, species delimitation
Subjects:biology, evolution, genomics, taxonomy and systematics

Distribution and relationships of the Gambusia nobilis species complex.
  (a) Map showing distribution of G. nobilis, G. pyrros n. sp. and G. echelleorum n.sp. within Chihuahuan desert ecoregion of western Texas and southeastern New Mexico. (b) Closer view of area surrounded by dashed rectangle (b) in (a), showing location of G. echelleorum samples from Bitter Lake watershed in New Mexio, type locality indicated by black asterisk (*). (c) Closer view of area surrounded by dashed rectangle (c) in (a), showing location of G. nobilis samples from Leon Creek watershed and G. pyrros samples from Toyah Creek watershed in Texas, type localities indicated by black asterisk (*).
(d) Clade equivalent to the Gambusia nobilis species complex from the Maximum Likelihood phylogram based on 5989 loci showing relationships of G. nobilis, G. pyrros and G. echelleorum, numbers above branches represent bootstrap values (full topology available in electronic supplementary material, figure S7). (e) Discriminant analysis of principal components using the unsupervised clustering algorithm, K-means (= 3), using 3502 single nucleotide polymorphism-containing loci and 212 individuals (G. nobilis, n = 63; G. pyrros, n = 79; G. echelleorum, n = 70). Basemap in (a) created with SimpleMappr. Satellite images in (b) and (c) obtained from Google Earth.



Male individuals of the three members of the Gambusia nobilis species complex photographed in life against different background and in different views (lateral and dorsal) to document variation in colour pattern.
(a) Left side, lateral view, against light grey background: (i) G. nobilis (TCWC 21102.01); (ii, iii) G. pyrros (TCWC 21103.02, paratypes); (iv) G. echelleorum (TCWC 21104.01, holotype); (v-vii) G. echelleorum (TCWC 21105.01, paratypes). (b) Left side, lateral view, against dark grey background: (i, ii) G. nobilis (TCWC 21102.01); (iii) G. pyrros (TCWC 21103.02, paratype); (iv) G. echelleorum (TCWC 21104.01, holotype); (v) G. echelleorum (TCWC 21105.01, paratype). (c) Dorsal view (background variable): (i, ii) G. nobilis (TCWC 21102.01); (iii, iv) G. pyrros (TCWC 21103.02, paratypes); (v) G. echelleorum (TCWC 21104.01, holotype); (vi) G. echelleorum (TCWC 21105.01, paratype

 Gambusia nobilis (Baird & Girard 1853)

  Gambusia pyrros new species

Diagnosis: A member of the Gambusia nobilis species group (sensu Rauchenberger [1989]) most similar to G. nobilis and G. echelleorum. The characters distinguishing G. pyrros from G. nobilis are listed in the diagnosis of the latter. Gambusia pyrros is distinguished from G. echelleorum by the same characters that distinguish G. nobilis from G. echelleorum, plus: body colour of males orange-red or yellow-orange (figures 1d and 2b(ii); electronic supplementary material, figure S8) (versus yellow-grey to light cream; figures 1d and 2b(iii); electronic supplementary material, figure S8), anal fin of male orange-red at base in life (figure 2d(ii)) (versus orange; figure 2d(iii)), a higher modal number of total caudal-fin rays (29–32, mode 31 versus 25–29, mode 27; figure 2e), a higher modal number of branched caudal-fin rays (12–15, mode 14 versus 9–14, mode 12).

Etymology: From the Greek pyrros, meaning flame-coloured, a reference to the bright yellow, orange and red colours of the median fins of males in life. A noun in apposition. Proposed common name: flame gambusia.


  Gambusia echelleorum new species

Diagnosis: A member of the Gambusia nobilis species group (sensu Rauchenberger [1989]) most similar to G. nobilis and G. pyrros. The characters distinguishing G. echelleorum from G. nobilis and G. pyrros are listed in the diagnoses provided for the latter two.

Etymology: Named for Alice and Anthony Echelle in honour of their work on Gambusia nobilis. A noun in the genitive. Proposed common name: New Mexico Gambusia.


David S. Portnoy; Robert J. Bretzing-Tungate; Andrew T. Fields; Megan G. Bean; Ryan K. Smith; Elizabeth P. Dolan; Rose Blanchard and Kevin W. Conway. 2025. A Total Evidence Approach justifies Taxonomic Splitting of the Endangered Pecos gambusia into Three Species. R Soc Open Sci. (2025) 12 (11): 251025. DOI: doi.org/10.1098/rsos.251025 [26 Nov 2025]
 
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Tuesday, December 2, 2025

[Herpetology • 2025] Hemidactylus kalinga • A New Species of Hemidactylus Goldfuss, 1820 (Squamata: Gekkonidae) from the Northern Eastern Ghats, Odisha, India

 

 Hemidactylus kalinga
Mohapatra, Ray, Das, Bhupathi, Sarkar, Mohalik, Nair & Dutta, 2025 

Kalinga rock gecko | DOI: doi.org/10.3897/herpetozoa.38.e175753

Abstract
We describe a new species of large-bodied, rock-dwelling gecko of the genus Hemidactylus from the Eastern Ghats of Odisha, India. The new species is genetically distinct, as already indicated in previous studies, and differs from all other congeners in a combination of morphological characters, such as dorsal scalation of small granules intermixed with large, pointed, trihedral tubercles that form 15–19 fairly regularly arranged longitudinal rows at midbody; 9–11 subdigital lamellae below the first and 12–14 below the fourth digit; 22–26 femoral pores separated by five poreless scales in males; and 11–13 supralabials and 9–11 infralabials. The new species is from the Eastern Ghats clade of large-bodied, tuberculated Hemidactylus and can be readily diagnosed morphologically from the two sister species, H. sushilduttai and H. kangerensis, in having characters such as the second postmental distinct and ~70% of the first postmental; the first postmental touching infralabial I and the second postmental touching infralabials I and II; and one post-cloacal spur on each side. The new species is distributed in the northern Eastern Ghats range of Odisha, inhabiting moist and dry deciduous forests and rock boulders and occasionally entering human habitations.

Key Words: Deccan Peninsula, Eastern Highlands, Hemidactylus kangerensis, Hemidactylus sushilduttai, morphology, taxonomy

Live uncollected specimen of Hemidactylus kalinga sp. nov.
A. Juveniles showing variant colouration; B. An individual preying on Gryllotalpa africana.

 Hemidactylus kalinga sp. nov.

Diagnosis. A large-sized and tuberculated Hemidactylus, SVL up to 105.4 mm (n = 6). Dorsal pholidosis heterogeneous, composed of subcircular granular scales intermixed with enlarged, fairly regularly arranged, strongly keeled, conical tubercles in 15–19 longitudinal rows, extending from occiput to tail base, that are heterogeneous in shape and size; enlarged tubercles on the two most medial parasagittal rows smaller, 27–30 tubercles in paravertebral rows; those on dorsolateral aspect of flank largest, gradually decreasing in size downwards, last two rows on flank marginally larger or equal to medial parasagittal rows, weakly keeled. Ventrolateral folds indistinct; about 32–35 scale rows across the belly. Digits with enlarged scansors, lamellae in straight transverse series, all divided except the apical and 1–3 basal lamellae, 9–12 lamellae beneath first digit and 12–14 beneath fourth digit of manus and pes. Males with 22–26 femoral pores on each side separated by five poreless scales. Tail with much enlarged, strongly keeled, conical tubercles forming whorls; median row of subcaudal plates large, covering almost entire portion of the tail; single postcloacal spur of unequal size on each side that are smooth and much smaller than dorsal tubercles at mid-body. Dorsal coloration rusty-brown with four transversely arranged light bands, edged with black or dark brown, between the occiput and sacrum; head lighter than body in life, with a narrow lighted collar edged by dark brown that is continuous with the post-ocular marking.

Etymology. The specific epithet is a toponym for the Kalinga Ghati, the Eastern Ghats hill ranges in the Kandhamal District of Odisha, and the type locality of the species. Furthermore, the present known distribution range of the species is within the historical “Kalinga Kingdom”, comprising present-day south Odisha. The specific name is a noun in apposition to the generic name.

Suggested common English name. Kalinga rock gecko.


 Pratyush P. Mohapatra, Sumidh Ray, Ashis K. Das, Bharath Bhupathi, Vivek Sarkar, Rakesh K. Mohalik, Manoj V. Nair and Sushil K. Dutta. 2025. A New Species of Hemidactylus Goldfuss, 1820 (Squamata, Gekkonidae) from the Northern Eastern Ghats, Odisha, India. Herpetozoa. 38: 365-378. DOI: doi.org/10.3897/herpetozoa.38.e175753 [01-12-2025]

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[Botany • 2025] Balanophora xinfeniae (Orobanchaceae) • A New Species from Xizang, China


Balanophora xinfeniae C.L. Fu, M. Li & B. Xu, 

in Fu, Zhou, Liao, Zhang, Xu et Li, 2025. 
 
Abstract
Balanophora xinfeniae C.L.Fu, M.Li & B.Xu, a new species discovered in Xizang, China, is described and illustrated here. Molecular phylogenetic analyses and morphological comparisons strongly support B. xinfeniae as a new species within the genus Balanophora. The most distinctive characteristic of the new species is its dioecious sexual system, with male flowers having a 3-lobed perianth, opposite leaves with serrated tips, and yellow scapes. Although it shares morphological similarities with B. henryi, B. xinfeniae can be distinguished by its flat spheroid tubers without stellate lenticels, yellow scape, prominently serrated apical leaf margins, and nearly spherical or ovoid-ellipsoid female inflorescences.

Key words: Balanophora xinfeniae, China, holoparasitic plants, phylogeny, taxonomy

Line illustration of Balanophora xinfeniae C.L. Fu, M. Li & B. Xu.
 A. Male individual; B. Male flower; C. Female individual; D. Female flowers surrounding one claviform body.
Drawn by Zi-Heng Yu based on YLZB11691-A and YLZB11691-B specimens stored in CDBI.

Balanophora xinfeniae C.L. Fu, M. Li & B. Xu.
 A, B. Habitats (both male and female; arrows point to female individuals); C. Female individual (upper) and male individual (lower); D. Male individual; E. Female individual; F. Leaves and scape; G. Leaves; H. Tuber; I. Male inflorescence; J. Female inflorescence; K. Female flower and claviform body.
Photos by Meng Li and Chen-Long Fu.

Morphology of Balanophora xinfeniae (A–C), B. henryi (D–F),
B. involucrata (G–I), and B. flava (J–M).
A, D, G, J, K. Male and female individuals; B, E, H, L. Leaves; C, F, I, M. Tubers.
Photos by Meng Li and Wei-Hua Liao.

 Balanophora xinfeniae C.L.Fu, M.Li & B.Xu, sp. nov.
  
Diagnosis. Balanophora xinfeniae is morphologically similar to B. henryi, but the two species can be distinguished by several features. The tuber branching shape of B. xinfeniae is characterized as flat spheroid or subglobose, whereas that of B. henryi is irregularly spherical or oblate. The scapes of B. xinfeniae are yellow, in contrast to the red or red-to-yellow scapes of B. henryi. In B. xinfeniae, the apical margins of the leaves are prominently serrate, whereas those of B. henryi are entire. The female inflorescence of B. xinfeniae is nearly spherical or ovoid-ellipsoid, while that of B. henryi is broadly ovoid. The flowering period of B. xinfeniae is from April to May, compared to September to November for B. henryi (Table 2; Fig. 2).

Etymology. The species epithet xinfeniae honors Prof. Xin-Fen Gao (former curator of the CDBI Herbarium), a distinguished botanist who made significant contributions to the taxonomy of seed plants, lycopods, and pteridophytes.

Vernacular name. Chinese Mandarin: Xìn fēn shé gū (信芬蛇菰).


Chen-Long Fu, Jia-Ning Zhou, Wei-Hua Liao, Tong Zhang, Bo Xu and Meng Li. 2025. Balanophora xinfeniae (Balanophoraceae), A New Species from Xizang, China. PhytoKeys. 266: 241-252. DOI: doi.org/10.3897/phytokeys.266.147400 [19 Nov 2025]

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[Mammalogy • 2025] Oreoryzomys huancabambensis • Introduction to the Systematics of Oreoryzomys balneator (Rodentia: Cricetidae) with the Description of A New Species from Peruvian montane forests


[B, D] Oreoryzomys huancabambensis sp. nov. Llancachahua-Tarqui, Ruelas, Escobar & Pacheco,  
[A, E] Oreoryzomys balneator  (Thomas, 1900)

in Llancachahua-Tarqui, Ruelas, Escobar et Pacheco Torres, 2025. 

Abstract
Oreoryzomys is a monotypic genus represented solely by Oreoryzomys balneator and has long been considered enigmatic due to the scarce information available since its description more than a century ago. In this study, we present a systematic revision of O. balneator with an integrative approach, focusing on Peruvian populations. We analyzed 73 specimens using morphological methods, complemented with phylogenetic analyses based on two mitochondrial genes. Our results reveal that the Peruvian populations previously referred as O. balneator represent a new and unnamed species. This species is genetically and morphologically differentiated, and geographically isolated from O. balneator sensu stricto (from Tungurahua Province, the type locality) and from the western Ecuadorian populations of El Oro Province. We formally describe this new species which inhabits montane forests from southeastern Ecuador (Zamora Chinchipe Province) to northeastern Peru (Piura and Cajamarca departments), at elevations between 1520 to 2990 m a.s.l. This work represents the first systematic revision of this genus, providing novel insights into its phylogenetic relationships, distribution, and natural history.

Keywords: Andes, Huancabamba Depression, Oryzomyini, Piura Department, Yungas

External comparisons between Oreoryzomys balneator (AMNH 67569, A, C, E)
and Oreoryzomys huancabambensis sp. nov. (MUSM 10701, B, D, F).

Live specimen of Oreoryzomys huancabambensis sp. nov. (MUSM 55512, holotype) from Habaspite, Carmen de la Frontera, Piura Department. Note the presence of three commensal staphylinid beetles on the head of the specimen.
Photograph taken by Víctor Pacheco.

Oreoryzomys huancabambensis sp. nov.

 A) Panoramic view of the type locality of  Oreoryzomys huancabambensis sp. nov. in Habaspite, Carmen de la Frontera Province, Piura Department, in 2021.
B) Typical habitats within forest patches, and C) low-scale mining activities in the type locality.
Photographs taken by Víctor Pacheco.

 
Daniel Llancachahua-Tarqui, Dennisse Ruelas, Elizabeth Escobar and Víctor Raúl Pacheco Torres. 2025. Introduction to the Systematics of Oreoryzomys balneator (Rodentia; Cricetidae) with the Description of A New Species from Peruvian montane forests. Revista peruana de biología. 32(4): e31354. DOI: doi.org/10.15381/rpb.v32i4.31354 


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[Ichthyology • 2025] Cetopsorhamdia ramirezi • Phylogenetic Relationships and Historical Biogeography of Cetopsorhamdia (Siluriformes: Heptapteridae), with Description of a New Species from the Orinoco Basin, Colombia


(A) Cetopsorhamdia ramirezi Cortés-Hernández & DoNascimiento, ,
Holotype, IAvH-P 9723, 87.9 mm SL, Colombia, Casanare, Aguazul, río Únete;
(B) C. boquillae, IAvH-P 13552, 62.0 mm SL, Colombia, Quindío, Finlandia, El Membrillal; (C) C. cf. insidiosa, MHNU-I 1159, 59.5 mm SL, Colombia, Meta, Villavicencio, río Ocoa; (D) C. nasus, CIUA 7809, 68.4 mm SL, Colombia, Valle del Cauca, Ansermanuevo, quebrada el Chanco (photo by José Luis Londoño-López); 

in Cortés-Hernández, Márquez et DoNascimiento, 2025. 
 
Abstract
Cetopsorhamdia as currently classified is corroborated as non-monophyletic, based on a comprehensive multilocus phylogenetic analysis, with complete taxonomic representation from northern South America, and including its type species. However, a subgroup of species that agrees with a previous phylogenetic definition of the genus, based on morphology, is recovered as monophyletic and is designated herein as Cetopsorhamdia sensu stricto. A new species from piedmont tributaries of the Meta and Guaviare Rivers, Orinoco basin in Colombia, was recovered as sister to remaining cis-Andean species of the sensu stricto concept of the genus and is described here. The new species is distinguished from all sensu stricto congeners by a unique combination of characters: distal end of pectoral fin surpassing dorsal-fin origin, adipose-fin base short (12.9–15.9% of SL), lower lobe of caudal fin longer than upper lobe (31.7–37.3% of SL), body homogeneously brown, and 35–36 total vertebrae. A clear vicariant cis- and trans-Andean pattern is obtained for species of Cetopsorhamdia sensu stricto, predating isolation of present Magdalena and Lake Maracaibo basins by orogenesis of the Eastern Cordillera and Mérida Andes, respectively.

Left lateral view of (A) Cetopsorhamdia ramirezi, holotype, IAvH-P 9723, 87.9 mm SL, Colombia, Casanare, Aguazul, río Únete;
(B) C. boquillae, IAvH-P 13552, 62.0 mm SL, Colombia, Quindío, Finlandia, El Membrillal; (C) C. cf. insidiosa, MHNU-I 1159, 59.5 mm SL, Colombia, Meta, Villavicencio, río Ocoa;
 (D) C. nasus, CIUA 7809, 68.4 mm SL, Colombia, Valle del Cauca, Ansermanuevo, quebrada el Chanco (photo by José Luis Londoño-López); (E) C. picklei, IAvH-P 11805, 125.5 mm SL, Colombia, Norte de Santander, río Zulia. Scale bar 5 mm.

Cetopsorhamdia ramirezi Cortés-Hernández and DoNascimiento, new species 

Etymology.—The specific epithet honors Hernando Ramírez Gil, for his invaluable contribution to the knowledge and conservation of ornamental and food fishes in Colombia


Miguel Ángel Cortés-Hernández, Edna J. Márquez, and Carlos DoNascimiento. 2025. Phylogenetic Relationships and Historical Biogeography of Cetopsorhamdia (Siluriformes: Heptapteridae), with Description of a New Species from the Orinoco Basin, Colombia. Ichthyology & Herpetology. 113(4), 667-681. DOI: doi.org/10.1643/i2025051 (28 November 2025). 
  x.com/IchsAndHerps/status/1995693220760854554

Cetopsorhamdia como es actualmente clasificado es corroborado como no monofilético, con base en un análisis filogenético multilocus exhaustivo, con representación taxonómica completa del norte de Sudamérica, e incluyendo su especie tipo. Sin embargo, un subgrupo de especies que concuerda con una definición filogenética previa del género, con base en morfología, es recuperado como monofilético y es designado aquí como Cetopsorhamdia sensu stricto. Una especie nueva de tributarios de piedemonte de los ríos Meta y Guaviare, cuenca del Orinoco en Colombia, fue recuperada como hermana de las especies cisandinas del concepto sensu stricto del género y es descrita aquí. La especie nueva se distingue de todos sus cóngeneres sensu stricto por una combinación única de caracteres: extremo distal de la aleta pectoral sobrepasando el origen de la aleta dorsal, base de la aleta adiposa corta (12,9–15,9% de LE); lóbulo inferior de la aleta caudal más largo que el lóbulo superior (31,7–37,3% de LE), cuerpo homogéneamente marrón y 35–36 vértebras totales. Un claro patrón vicariante cis y transandino es obtenido para las especies de Cetopsorhamdia sensu stricto, antecediendo el aislamiento de las actuales cuencas del Magdalena y del lago de Maracaibo, por la orogénesis de la cordillera oriental y de los Andes de Mérida, respectivamente.

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[Ornithology • 2025] Tinamus resonans • A New Species of Tinamus (Aves: Tinamiformes) from the western Amazon, Brazil

 
Tinamus resonans
 Morais, Crozariol, Godoy, Plácido & Raposo, 2025 
  
 Slaty-masked Tinamou | Sururina-da-serra  ||  DOI: doi.org/10.11646/zootaxa.5725.2.6

Abstract
We describe Tinamus resonans sp. nov., a new species of tinamou from the montane forests of the Serra do Divisor, western Amazonia, Brazil. The species is distinguished by a unique combination of plumage pattern, vocal repertoire, and ecological characteristics, including a conspicuous dark slate facial mask, vivid rufous-cinnamon underparts, and a uniform brownish-gray back. Its vocalizations are remarkable, consisting of long and powerful songs that echo strikingly across the steep montane slopes, producing a characteristic resonant effect. The species was documented exclusively at higher elevations within a transitional zone between submontane and stunted forests, where the understory is densely structured by root mats. A preliminary population estimate, based on field detections and spatial extrapolation, suggests approximately 2,106 individuals restricted to the Serra do Divisor massif. Although no immediate anthropogenic pressures were observed within its range, the species may be highly vulnerable to climate change and to proposed infrastructure projects that threaten the integrity of this federally protected region. The discovery of T. resonans highlights the biological uniqueness of the Serra do Divisor, reinforces its status as a center of montane endemism, and underscores the critical importance of maintaining its long-term conservation.

Aves, Amazon rainforest, endemic species, extinction, Tinamidae, Serra do Divisor National Park, Acre


Tinamus resonans sp. nov. 
at Morro Queimado, Serra do Divisor National Park, Mâncio Lima, Acre, Brazil,
photos by Luis A. Morais.

Tinamus resonans sp. nov.
Proposed Portuguese name: Sururina-da-serra
Proposed English name: Slaty-masked Tinamou

Diagnosis: This species differs from all other Tinamidae by presenting, at least in females (the three individuals whose sex could be determined were female), a distinctive dark slate-colored crown, which extends into a prominent stripe down the hindneck and into the post-ocular region, forming a conspicuous facial mask (Fig. 1 and 2). The ferruginous  coloration  of  the  breast  places  it  near  the T.  variegatus/brevirostris  group,  from  which  it  is  readily distinguished by its uniform brownish-gray dorsum lacking any barring, a condition otherwise shared only with T. soui. It can be further separated from T. soui by its ferruginous breast, neck, and cheeks and the presence of white on the lower belly. Its vocalization is unique and therefore diagnostic among the vocalizations attributed to other Tinamidae. As described below, it is distinguished by its overall structure and note modulation.

Holotype of Tinamus resonans sp. nov. (MN 53848).
Ventral view (A), lateral view (B), dorsal view (C), flanks (D), dorsal surface of the wing (E), ventral surface of the wing (F).

Etymology: From Latin, resonans is the present participle of the verb resonare (“to resound,” “to echo”), used here in its adjectival sense meaning “resounding” or “echoing.” The verb is composed of the prefix re- (“again” or “back”) and the root sonare (“to sound”), which derives from the noun sonus (“sound”). The name refers to the striking echoing effect of the species’ song, which reverberates across the steep montane slopes of its habitat as a result of strong acoustic diffusion. 
The common name “sururina” is an onomatopoeic term used by local riverine people to refer to ground-dwelling tinamous with modulated songs and is commonly applied to several species in the region, including Tinamus soui and T. variegatus. The addition of “-da-serra” (“from the mountains”) highlights the distinct identity and montane habitat of this species, setting it apart from other sympatric taxa.


Luis A. MORAIS, Marco A. CROZARIOL, Fernando I. GODOY, Ricardo A. A. PLÁCIDO and Marcos A. RAPOSO. 2025. A New Species of Tinamus (Aves: Tinamiformes) from the western Amazon, Brazil.  Zootaxa. 5725(2); 279-291. DOI: doi.org/10.11646/zootaxa.5725.2.6 [2025-12-02]

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[PaleoEntomology • 2025] Shaykayatcoris michalskii • A New fossil plesiomorphic Flat Bug (Aradidae) suggests widespread flower visiting in Heteroptera during the Mesozoic

  

 Shaykayatcoris michalskii
Kóbor & Szabó, 2025
  
artistic reconstruction by Márton Zsoldos

Abstract 
The phenomenon of flower visiting (anthophily) and the pollination, though becoming prevalent with the rise of flowering angiosperms, hypothesized to have originated from the antagonistic relationship of florivory between insects and gymnosperms in the Upper Jurassic. Though not commonly known, this behaviour has been documented in several instances among the representatives of the suborder Heteroptera, i.e., the true bugs. Here, we describe Shaykayatcoris michalskii gen. nov., sp. nov., the first known representative of the plesiomorphic flat bug (Aradidae) subfamily Prosympiestinae in the Upper Cretaceous Burma Terrane amber fauna (Lowermost Cenomanian, ca. 99 Mya). Besides expanding the knowledge on the heteropteran insect fauna of the Lagerstätte, the discovery of this new true bug provides intriguing insights into the evolutionary history of true bugs. First, the new record corroborates that the subfamily Prosympiestinae is a Gondwanan relict group among the representatives of flat bugs. Second, this insect presents the first known incidence of iridescent colouration in flat bugs with a tentative role of camouflage, suggesting a more exposed lifestyle compared to the apomorphic lineages of flat bugs, which have adapted to live under tree bark. Third, the iridescence and the high amount of pollen among the syninclusions suggest that the insect was likely to be anthophilous. The suspected presence of anthophily in such a specialised heteropteran insect group like Aradidae suggests that anthophily was more widespread among the Mesosoic true bugs than it can be observed in the case of extant taxa.

Keywords: Heteroptera, Aradidae, Fossil, Iridescence, Anthophily

Reconstructions of Shaykayatcoris michalskii gen. et sp. nov.
(a) line drawing of the second author (parts of femora visible in dorsal view were omitted), (b) artistic reconstruction by Márton Zsoldos, Hungarian palaeoartist.


Systematic palaeontology

Order Hemiptera Linnaeus, 1758.
Suborder Heteroptera Latreille, 1810.

Infraorder Pentatomomorpha Leston, Pendergrast and Southwood, 1954.

Superfamily Aradoidea Brullé, 1836.
Family Aradidae Brullé, 1836.
Subfamily Prosympiestinae Usinger and Matsuda, 1959.

Shaykayatcoris Kóbor and Szabó gen. nov.

Differential diagnosis: Shaykayatcoris gen. nov. possesses the following synapomorphies shared with representatives of the tribe Prosympiestini: gular area smooth (in Llaimacorini gular area with a shallow longitudinal groove), peritreme situated anteriorly to hind coxa (in Llaimacorini peritreme situated close to the middle coxa). The bristle of the peritreme characteristic of tribe Prosympiestini is not observable, but it may have been broken off when trapped in resin. Shaykayatcoris gen. nov. is macropterous, possessing a triangular scutellum (shared synapomorphy with Prosympiestus Bergroth, 1894; other prosympiestine genera are brachypterous), length of head greater than the width (shared synapomorphy with Prosympiestus, length of head distinctly shorter than width in the other prosympiestine genera), antenniferous tubercle reduced (autapomorphy, antenniferous tubercles well-developed or even produced laterally in other prosympiestine genera), postocular region slightly concave (autapomorphy, postocular region convex or straight in other prosympiestine genera), width of pronotum is 1.3× greater than length (width of pronotum is at least twice greater than length in other prosympiestine genera), scutellum is slightly shorter than pronotum (autapomorphy, scutellum is at least somewhat shorter in other prosympiestine genera), hemelytron with fine, sparse punctuation at claval furrow and along veins of corium (autapomorphy, hemelytron extensively and strongly punctate in Prosympiestus).

Etymology: Generic name masculine. The name of the genus is derived from the Burmese word ရှေးခေတ် (shayyhkayat), meaning ’ancient’ and the Greek κοριός (koriós = coris), meaning ’bug’.

Shaykayatcoris michalskii Kóbor and Szabó sp. nov.

Type locality and horizon: Upper Cretaceous, lower Cenomanian (98.79 ± 0.62 Ma, according to Shi et al.24; from an amber mine in Hukawng Valley, Tanai Township, Myitkyina District, Kachin State, northern Myanmar.

Etymology: The species is named after Artur Michalski, a Polish amber collector (predominantly specialized in Baltic amber) who donated the specimen to the authors for scientific purposes. With the naming, authors intend to encourage collectors and traders to cooperate with scientists to reveal the palaeobiodiversity trapped in amber.
 

Péter Kóbor & Márton Szabó. 2025. A New fossil plesiomorphic Flat Bug (Aradidae) suggests widespread flower visiting in Heteroptera during the Mesozoic. Scientific Reports. 15: 30282. DOI: doi.org/10.1038/s41598-025-15559-8 [19 August 2025]

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Monday, December 1, 2025

[Entomology • 2025] Tenomaculosa hexapunctata • A New monotypic Genus of the Tribe Tenoderini (Mantodea: Mantidae: Tenoderinae) from the southern Thailand


Tenomaculosa hexapunctata  
Tarapipattanakun & Unnahachote, 2025
 

A new genus and species Tenomaculosa hexapunctata gen. et sp. n. of praying mantis (Mantodea) is described from the southern Thailand. The new genus distinguished from related genera by the presence of six distinct black spots on the internal surfaces of the profemur and, in lateral view, by widened posterior part of the pronotum. Additionally, unidentified species of the genus Mesopteryx Saussure, 1870 is found in Thailand for the first time. A key to the genera of the subtribe Tenoderina in the Oriental region is also given.

Key words: Mantodea, praying mantises, Mantidae, Tenoderinae, Tenoderini, Oriental region.

Tenomaculosa hexapunctata gen. et sp. n.:
 A – holotype male in dorsal view; B – head in frontal view; C – inner side of prothoracic leg.

Fore legs of the subtribe Tenoderina genera:
A – Mesopteryx sp.; B – Tenodera cf. fasciata; C – Tenodera aridifolia; D – Tenospilota nova;
E, F – Tenomaculosa hexapunctata gen. et sp. n.

Tenomaculosa hexapunctata gen. et sp. n., male genitalia and terminalia.
A – ventral view of left phallomere; B – ventral view of ventral phallomere; C – ventral view of right phallomere; D – supraanal plate and cerci; E – subgenital plate.

Genus Tenomaculosa Tarapipattanakun et Unnahachote, gen. n.

DIFFERENTIAL DIAGNOSIS. Tenomaculosa gen. n. can be distinguished from Tenospilota by the pronotum being thicker towards the end in lateral view (in Tenospilota, the thickness is equal throughout the entire pronotum). The internal surfaces of the profemur presents six distinct black spots (only one large black spot is present around the tibial spur groove). The forewings without any pattern (with dark patches present in the discoidal areas), and the hindwings are transparent (with five black horizontal stripes patterns on the discoidal area).

ETYMOLOGY. The genus name is a combination of the word “Teno” referring to the related genus Tenodera, which shares some characteristics, and the Latin word “maculosa”, meaning spotted, in reference to the black spots on the profemur. 


Tenomaculosa hexapunctata Tarapipattanakun et Unnahachote, sp. n. 

ETYMOLOGY. The specific name “hexapunctata” is a combination of the word “hexa” meaning six, and the word “punctata” which is a Latin word meaning points. The name refers to the six black points on the inner side of the profemur of a new species.     


 Tarapipattanakun P. and Unnahachote T. 2025. A New monotypic Genus of the Tribe Tenoderini (Mantodea: Mantidae: Tenoderinae) from the southern Thailand. Far Eastern Entomologist. 538: 1-11. DOI: doi.org/10.25221/fee.538.1
https://www.biosoil.ru/FEE/Issues/2025 
 facebook.com/pannphathn.tharaphiphathnkul/posts/1349561093332018

  

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