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[Ornithology • 2020] The Status and Distribution of the Masked Finfoot Heliopais personatus—Asia’s Next Avian Extinction?

February 15, 2021, 1:38 am
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 Masked Finfoot Heliopais personatus

in Chowdhury, Yong, Round, ... et Eames, 2020
 Forktail. 36
 image taken by Sayam U. Chowdhurybirdguides.com
 
Abstract  
The Masked Finfoot Heliopais personatus is among Asia’s most threatened waterbirds. The species formerly ranged widely across north-east India, Bangladesh and South-East Asia, but recent records are few. In this review, we aim to address the gaps in knowledge on the conservation status and ecology of the Masked Finfoot by (1) synthesizing recent information on its occurrence in all range states, (2) re-estimating the global population based on best guesses of national populations, and (3) identifying priority conservation actions. Based on a combination of our survey data (Bangladesh) and best-guess estimates from key sites, we estimate the current population at 108–304 individuals, far lower than the last estimate of 600–1,700 individuals in 2009. Our estimate of population size and rate of decline indicates that Masked Finfoot should be uplisted to Critically Endangered. Masked Finfoot may now breed only in Bangladesh and Cambodia, and there have been no records within the past five years in Malaysia and Thailand, where it once occurred regularly, despite a marked increase in observer effort. Habitat loss and disturbance is the single most important threat to the Masked Finfoot (and many riverine waterbird species), given that low-lying, forested wetlands across South-East Asia are increasingly encroached upon by human activities, or are cleared. There is an urgent need to re-survey areas where it was formerly known, especially in Myanmar. All remaining known breeding populations must be adequately protected or it may become Asia’s next avian extinction.

Global distribution and present population status of Masked Finfoot Heliopais personatus based on best-guess estimates at sites where it has been recently recorded (post-2000). Green circles represent sites with recent breeding records (post-2010). Blue circles represent sites that may hold breeding populations. Red dots represent isolated, likely non-breeding records (post-2005).


Individual differences in facial markings of four adult Masked Finfoots Heliopais personatus (a-c: male; d: female). Apart from the varying width and length of the white stripe on the side of the neck, the shape and size of the yellow horn at the base of the bill are also different in different individuals. The fleshy knob above the base of the bill may be present throughout the year (not only during breeding season) and occurs in both males and females, but is visibly shorter in the female.
 All images taken by Sayam U. Chowdhury
 

Sayam U. Chowdhury, Ding Li Yong, Philip David Round,  Robert Tizard, Simon P. Mahood and Jonathan Charles Eames. 2020. The Status and Distribution of the Masked Finfoot Heliopais personatus—Asia’s Next Avian Extinction? Forktail. 36; 16-24. 
Researchgate.net/publication/349094908_Heliopais_personatus

    

Masked Finfoot sliding towards extinction
A new study published in Forktail, the journal of the Oriental Bird Club, has concluded that Masked Finfoot could become Asia's next avian extinction if its remaining populations are not afforded adequate protection.
Masked Finfoot is a secretive and poorly known waterbird, thinly distributed from north-east India and Bangladesh east to Vietnam, and south to Sumatra and Java, Indonesia. It was formerly found widely across its range, yet recent records are few and far between.
...
birdguides.com/articles/masked-finfoot-sliding-towards-extinction

 

Gertrud Neumann-Denzau, E. Fahrni Mansur and R. Mansur. 2008. Nests, Eggs, Hatchlings and Behaviour of the Masked Finfoot Heliopais personatus from the Sundarbans in Bangladesh, with First Nesting Observations. FORKTAIL. 24; 92–99. orientalbirdclub.org/forktail24

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[Herpetology • 2021] Leiocephalus roquetus • Historical and Fossil Evidence of An Extinct Endemic Species of Leiocephalus (Squamata: Leiocephalidae) from the Guadeloupe Islands

February 15, 2021, 2:05 am
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Leiocephalus roquetus 
 Bochaton, Charles & Lenoble, 2021


Abstract
Documenting recent extinction events against the backdrop of increasing human-induced environmental pressure is complicated by the lack of historical and subfossil evidence for most parts of the world. This paucity of data renders it particularly difficult to evaluate the human impact on fragile environments, such as small islands, that may have been heavily altered by historical human exploitation. Here we describe a new species of an extinct Leiocephalus lizard from Guadeloupe, Leiocephalus roquetus sp. nov. based on recent discoveries of both a previously undocumented historically taxidermy specimen and of a large assemblage of subfossil bone remains from La Désirade Island. This new species presents a primitive morphology compared to all extant species of its genus and provides evidence for the past existence of a Lesser Antillean clade of Leiocephalus lizards that was completely wiped out in the centuries following the European colonization of these islands. Our study demonstrates how paleontological approaches can help to better understand the history of human environmental impact as well as the degree of degradation of modern ecosystems.

Keywords: Reptilia, Curlytail lizard, Extinction, Human Impact, Lesser Antilles, Osteology


 Leiocephalus roquetus sp. nov.  

Corentin Bochaton, Laurent Charles and Arnaud Lenoble. 2021. Historical and Fossil Evidence of An Extinct Endemic Species of Leiocephalus (Squamata: Leiocephalidae) from the Guadeloupe Islands. Zootaxa. 4927(3); 383–409. DOI: 10.11646/zootaxa.4927.3.4
  twitter.com/PACEA_Bordeaux/status/1361238775372935168

[PaleoIchthyology • 2021] Louwoichthys pusillus • A New Stem-neopterygian Fish from the Middle Triassic (Anisian) of Yunnan, China, with A Reassessment of the Relationships of early Neopterygian Clades

February 15, 2021, 2:41 am
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Louwoichthys pusillus Xu, 2021


Abstract
Neopterygii is a taxonomically diverse group of ray-finned fishes, including Teleostei, Holostei and their closely related fossil taxa. Here, a new small-sized stem-neopterygian with extraordinarily long teeth, Louwoichthys pusillus gen. et sp. nov., is described based on 14 well-preserved specimens from the Middle Triassic (Anisian) marine deposits of Yunnan, China. Louwoichthys is closely related to Luopingichthys from the same fossil beds and Ctenognathichthys from the Middle Triassic of the Monte San Giorgio area in Europe; the three genera are grouped into the family Louwoichthyidae fam. nov., which is recovered as sister to the ‘perleidiform’ Pseudobeaconiidae. Given that ‘Perleidiformes’ is notoriously paraphyletic, a new order, Louwoichthyiformes ord. nov., is introduced to group both families. The louwoichthyiform monophyly is strongly supported by a series of derived features, such as a relatively short maxilla, an anteriorly inclined preopercle, a subopercle with a prominent anteroventral extension, and two or three pairs of branchiostegal rays. Louwoichthys is one of the smallest louwoichthyiforms, having a largest standard length of 39 mm. It is deduced to be a scavenger that might use its long and sharp teeth to grasp and tear the prey from the substrate or to bite a piece from a larger prey item.

Keywords: fossil record, neopterygian, osteology, phylogeny, taxonomy




Specimen and reconstruction of Louwoichthys pusillus.
 A, IVPP V20424. B, reconstruction.

SYSTEMATIC PALAEONTOLOGY 

Actinopterygii Cope, 1887 
Neopterygii Regan, 1923 

Louwoichthyiformes ord. nov.

Content: Louwoichthyidae and Pseudobeaconiidae López-Arbarello & Zavattieri, 2008.

Louwoichthyidae fam. nov.

Content: Ctenognathichthys Bürgin, 1992, Luopingichthys Sun et al., 2009 and Louwoichthys.


Louwoichthys gen. nov. 

 Etymology: The generic epithet ‘Louwo’, the ancient name of Luoping County, and the Greek suffix ιχθύς, ichthys, fish. 

Geographical distribution and age: Luoping and Luxi, Yunnan, China; Pelsonian, Anisian, Middle Triassic. 


Louwoichthys pusillus sp. nov.

Etymology: The epithet is the Latin word pusillus, very little or petty, referring to the small size of the fish body.

 Holotype: IVPP V 20421, a nearly complete, laterally compressed specimen from Luoping. 

Locality and horizon: Luoping and Luxi, Yunnan, China; Second (Upper) Member of Guanling Formation, Pelsonian (~244 Mya), Anisian, Middle Triassic (Zhang et al., 2009; Huang et al., 2013). 

the phylogenetic position of Louwoichthys pusillus within the Neopterygii.

 
Guang-Hui Xu. 2021. A New Stem-neopterygian Fish from the Middle Triassic (Anisian) of Yunnan, China, with A Reassessment of the Relationships of early Neopterygian Clades. Zoological Journal of the Linnean Society. 191(2); 375–394. DOI: 10.1093/zoolinnean/zlaa053
 
    

     

[Botany • 2020] Etlingera tjiasmantoi (Zingiberaceae) • A New Species from Central Sulawesi, Indonesia

February 15, 2021, 6:18 pm
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Etlingera tjiasmantoi Ardiyani & Ardi 

in Ardiyani, Ardi, Santoso & Poulsen, 2020.


Abstract

 A new species of Etlingera, Etlingera tjiasmantoi Ardiyani & Ardi, was discovered at Tentena, Central Sulawesi, and is described here. This species resembles Etlingeraflexuosa A.D.Poulsen and Etlingeramamasarum A.D.Poulsen & Ardiyani but differs from both in having thecae dehiscing through their entire length and in the obovoid, glabrous and spineless fruits. The DNA barcode data, the line drawings of flower and fruit and the plate of E. tjiasmantoi were presented.
               
Keywords: DNA barcode, Etlingera flexuosa, E. mamasarum, Indonesia, Zingiberales.



Inflorescences of Etlingera species.
A. Etlingera flexuosa (Poulsen et al. 2655, the type).
B. E. mamasarum (Ardiyani et al. Sulbar 004, the type).
C. Etlingera tjiasmantoi (M. Ardiyani et al. 1007, the type).
Photos by A. D. Poulsen, M. Ardiyani & W. H. Ardi.


Fig. 1. Etlingera tjiasmantoi Ardiyani & Ardi spec. nov.
A. Leaves (upper surface). B. Leaves (lower surface). C. Leaf base, ligule and petiole. D. Base of leafy shoot and inflorescence arising from the rhizome. E. Inflorescence with three freshly opened flowers. F. Infructescence. G. a. Two flowers with a fertile bract each. b. Bract. c. Bracteole. d. Calyx. e. Flower with bracteole and calyx removed. f. Corolla lobes. g. Labellum. h. Flower with calyx, corolla lobes and labellum removed. i. Fruit.
From M. Ardiyani et al. 1007. Photos by M. Ardiyani & W.H. Ardi.


Etlingera tjiasmantoi Ardiyani & Ardi spec. nov. 

Etlingera tjiasmantoi is similar to E. flexuosaA.D.Poulsen and E. mamasarum A.D.Poulsen & Ardiyani in having entire ligules with ± emarginate apex, long petioles (around 4 cm), elongated elliptic to narrowly ovate laminas, pointed calyces, and ± pink flowers but E. tjiasmantoi differs from both in having thecae dehiscing through their entire length (vs. in upper part) and in the obovoid, glabrous and spineless fruits (vs. pyriform or round, pubescent and with small spines).

Habitat & Ecology. Grows in secondary forest by the road between Tentena and Bada, near a waterfall and a stream at about 1,700 m asl.

 Etymology. The epithet honours Mr. WewinTjiasmanto who funded the botanical trip to Central Sulawesi, and who is greatly concerned for wildlife, taxonomy, exploration and conservation.

 
 Marlina Ardiyani, Wisnu Handoyo Ardi, Wahyudi Santoso and Axel Dalberg Poulsen. 2020. Etlingera tjiasmantoi (Zingiberaceae), A New Species from Central Sulawesi. Reinwardtia. 19(2); 103‒108. DOI: 10.14203/reinwardtia.v19i2.3972

Congratulations to Dr. Marlina Ardiyani @MarlinaArdiyani and Wisnu Ardi @Begonia_Wisnu who in March this year, discovered a new species of Etlingera in Central Sulawesi. Today, E. tjiasmantoi is published in REINWARDTIA bringing the number of Etlingera species in Sulawesi to 48.


       

[Entomology • 2021] Megacraspedus laseni • A New Species (Lepidoptera: Gelechiidae) from the Dolomites of north-eastern Italy

February 15, 2021, 7:06 pm
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Megacraspedus laseni
Timossi & Huemer, 2021


Abstract
Megacraspedus laseni sp. nov. is described from Dolomiti Bellunesi (Veneto Region, Prov. Belluno, Italy). The habitus of the adult and male genitalia are described and illustrated whereas the female sex remains unknown. The new species belongs to the Megacraspedus pentheres species group and is closely related to the southern alpine M. eburnellus Huemer & Karsholt, 2001 from which it differs in morphological characters and in DNA barcode sequence. Megacraspedus carolustertius Gastón & Vives, 2020 is synonymized with M. quadristictus Lhomme, 1946, syn. nov.

Keywords: Lepidoptera, Alps, Belluno, Anomologinae, morphology, DNA barcoding, new species, new synonymy



 Giovanni Timossi and Peter Huemer. 2021. Megacraspedus laseni sp. nov. (Lepidoptera: Gelechiidae) from the Dolomites of north-eastern Italy. Zootaxa. 4927(4); 559–566. DOI: 10.11646/zootaxa.4927.4.6

[Herpetology • 2021] Stenocercus ica • A New Species of the Genus Stenocercus (Iguania: Tropiduridae) from the Peruvian Pacific Coast (Ica Region)

February 15, 2021, 8:33 pm
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Stenocercus ica 
Mendoza, Ramírez, Barrera & Aguilar-Puntriano, 2021

SALAMANDRA. 57(1);
Photos by A. Mendoza.

Abstract
 A new species of the genus Stenocercus is described from the Peruvian coastal desert in the Ica region. The new species is similar in ecology and morphology to Stenocercus modestus, but differs from it in lacking an oblique neck fold, a distinct patch of small scales posterior to the lateral region of the neck, and bright yellow lateral dots on the head and body in males. The new species also has more subdigital lamellae on the fourth toe than S. modestus, and females exhibit a wide dark stripe between the subocular and antehumeral regions, as well as dark reticulations in the gular region. Distribution models of the new species and S. modestus suggest no geographical overlap. In conclusion, morphology and species distribution models strongly imply the new Stenocercus species to be an undescribed lineage and different from all other species of the genus. This new species is the most southerly distributed Stenocercus in the Pacific coastal desert of Peru thus far. We propose the new species be classified as ‘Endangered’ based on its area of occupancy and threat-defined locations. 

Key words. Squamata, new species, coastal desert, distribution model, taxonomy. 


 Coloration in life of Stenocercus ica sp. n.:
dorsolateral view of adult male holotype (MUSM 40418);
dorsolateral view of adult female paratype (MUSM 40415).
Photos by A. Mendoza.

 Stenocercus ica sp. n.
Adult male (MUSM 39364, SVL 81.5 mm) from Arrabales (Ica region).
Photos by A. Mendoza.

Stenocercus ica sp. n.

Diagnosis: (1) Maximum SVL in males 81.5 mm (N = 5); (2)  maximum SVL in females 62.3 mm (N = 4); (3) vertebrals 44–48 (N = 11); (4) paravertebrals 44–48 (N = 11); (5) scales around midbody 35–38 (N = 11); (6) supraoculars 5–6 (N = 11); (7) internasals 2–4 (N = 11); (8) postrostrals 2–5 (N = 11); (9) loreals 1–3 (N = 11); (10) gulars 15–19 (N = 11); (11) lamellae on Finger IV 20–23 (N = 11); (12) lamellae on Toe IV 28–32 (N = 11); (13) posthumeral mite pockets absent (Type I of Torres-Carvajal 2007b); (14) postfemoral mite pockets present (Type II de Torres-Carvajal 2007b); (15) parietal eye visible; (16) smooth, juxtaposed, or slightly imbricate occipital scales; (17) projecting angular temporals absent; (18) enlarged supraoculars occupying most of the supraocular region in one row absent; (19) scales in the frontonasal region smooth, weakly imbricate anteriorly or juxtaposed (20) preauricular fringe present; (21) antehumeral and longitudinal folds present; (22) lateral nuchals similar in size to dorsal nuchals; (23) posterior gulars smooth, cycloid, imbricate , with or without notches or apical pits; (24) a caudad notch on ventral scales; (25) lateral body scales similar in size to dorsal scales; (26) vertebrals similar in size to adjacent dorsals; (27) dorsolateral crests absent; (28) ventrals smooth, imbricate, sub-rhomboidal, similar in size to dorsals; (29) scales on the posterior faces of thighs granular; (30) prefemoral fold absent; (31) inguinal groove absent; (32) preanals not projected; (33) tail slightly compressed laterally in adult males; (34) tail length 70–73% of total length; (35) three caudal whorls per autotomic segment; (36) caudals not spinose; (37) dark stripe from the subocular region to superciliars absent; (38) colour pattern of dark reticulations in the gular region in adult females; (39) dark streaks that form a reticulum in the gular region in adult males absent; (40) black spot on ventral face of neck in adult males absent; (41) dark midventral stripe in adult males absent; (42) black patches on ventral faces of thighs in adult males absent; (43) background colour of dorsum olive yellowish to brown in life.

Etymology. The specific epithet ica is a noun in apposition and refers to the Ica region of Peru where all type specimens were collected. It also refers to Ica as being the southernmost distribution record for the genus on the Peruvian Pacific coast. 

Distribution: Stenocercus ica sp. n. is as yet only known from the valley of the Ica river basin, with the highest number of individuals recorded at two localities (Arrabales and Ocucaje) in the Ica region between 300 to 450 m a.s.l. on the Peruvian Pacific coast. Stenocercus ica sp. n. appears to be restricted to low altitudes (Figs 6–7). 

Natural history: Stenocercus ica sp. n. has been found in dense shrub vegetation close to riverside forest and the irrigation installations in agricultural areas in the Ica river basin (Fig. 5A). Specimens were observed basking at the edge of a bushy area, mainly on dry leaf litter, fallen branches, and on the, usually in dappled or diffused sunlight. Two specimens were observed escaping into holes at the base of bushes, under accumulations of leaf litter. This species probably utilizes these cavities as burrows and nests. 


Alejandro Mendoza, César Ramírez, Diego Barrera and César Aguilar-Puntriano. 2021. A New Species of the Genus Stenocercus (Iguania: Tropiduridae) from the Peruvian Pacific Coast (Ica Region). SALAMANDRA. 57(1); 1-14.

Resumen. Se describe una nueva especie del género Stenocercus del desierto costero peruano en el Departamento de Ica. La nueva especie es similar en ecología y morfología a Stenocercus modestus, pero difiere al carecer de un pliegue oblicuo en el cuello, un parche visible de pequeñas escamas posteriores a la región lateral del cuello y puntos amarillos brillantes sobre la cabeza y el cuerpo en los machos. La nueva especie también tiene un mayor número de lamelas subdigitales en el cuarto dedo de la pata posterior que S. modestus, y las hembras muestran una ancha franja oscura entre la región subocular y antehumeral, así como reticulaciones oscuras en la región gular. Los modelos de distribución de la nueva especie y S. modestus no muestran superposición en sus distribuciones potenciales. En conclusión, la morfología y los modelos de distribución de especies sugieren fuertemente que la nueva especie de Stenocercus es un linaje no descrito y diferente de otras especies del género. La nueva especie es el registro más sureño de su género en el desierto costero del pacifico en Perú. Así mismo, recomendamos que se clasifique como En peligro basado en el área de ocupación y localidades con amenazas.
Palabras clave. Squamata, desierto costero, modelo de distribución, taxonomía.

[Herpetology • 2021] Aplastodiscus heterophonicus • A New Cryptic Species of the Aplastodiscus albosignatus Group (Anura: Hylidae)

February 15, 2021, 8:53 pm
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Aplastodiscus heterophonicus 
Pinheiro, Pezzuti, Berneck, Lyra, Lima & Leite, 2021

SALAMANDRA. 57(1) 

Abstract
 The genus Aplastodiscus currently includes 15 valid species, and a further five candidate species have already been pointed out in the literature. We here describe one of these candidate species, assigned to the A. albosignatus group, from the southeastern slopes of the Espinhaço Range, State of Minas Gerais, Brazil. The new species is cryptic with A. cavicola, being morphologically similar in both adult and larval stages. However, the two species are not sister taxa. The advertisement call of the new species is markedly distinct from all other known species of its genus. Examination of topotypic samples of A. cavicola corroborates the presence of this species in the Espinhaço Range, but also indicates the need for a revision of the taxonomic status of populations from the state of Rio de Janeiro assigned to this taxon. 

Key words. Amphibia, Anura, bioacoustics, conservation status, Neotropics, phylogeny, tadpoles, taxonomy, systematics.

Figure 3. Coloration in life of the holotype of Aplastodiscus heterophonicus sp. n. (UFMG 21556):
A) dorsolateral, B) lateral, C) dorsal, and D) ventral views of body; E) lateral and F) frontal views of head;
Images not to scale. Photo credits: H. Thomassen.


Aplastodiscus heterophonicus sp. n.  

Diagnosis: A green treefrog species of the genus Aplastodiscus characterized by adults with (1) small size (SVL 26.9–33.6 mm in males; 28.3–33.6 mm in females); (2) a well-developed supracloacal crest (character “present, restricted to the supracloacal region” of Berneck et al. 2016); (3) presence of webbing between fingers and toes; (4) presence of lateral fimbriae on forearms and shanks; (5) absence of nuptial pad in males; (6) in life, iris red to orange with a dark grey to silvery ring around the pupil; (7) small fringe of guanophores on lower lip margin (same as “white submandibular dermal fold” of Berneck et al. 2016; Bezerra et al. 2020); (8) no sexual dimorphism in SVL. Advertisement call (9) composed of scratchy notes partially pulsed to pulsatile; (10) presence of ascending frequency modulation; (11) call duration 167–280 ms; (12) peak frequency between 661.3 and 947.5 Hz. (13) Tadpoles with LTRF 2(2)/4(1); (14) oral disc with single row of marginal papillae; (15) with an anterior gap; (16) absence of posterior gap; (17) presence of few submarginal papillae laterally in the oral disc; (18) absence of small flaps with labial teeth laterally in the oral disc; (19) absence of paired light spots in the posterior portion of the body; (20) presence of dark longitudinal stripes in the tail, one between dorsal and ventral myotomes of muscle, restricted to the proximal quarter of tail length, and an interrupted narrow brown line on the dorsal margin of the muscle; (21) tail homogeneously marbled along its length; (22) presence of translucent fins.

Etymology: The specific epithet derives from the Greek words ἕτερος (“heteros”), which means different, and φωνή (“phoné”), which means sound (and, also, the voice or cry of animals). The radicals heter- and phon- are linked through the connecting vowel -o-, followed by the Greek suffix -ικός, latinized as -icus, to form an adjective. The resulting specific epithet, heterophonicus, means “the one with a different voice”, in allusion to the very distinct call of the new species of Aplastodiscus described here. 

Figure 5. Tadpoles of Aplastodiscus heterophonicus sp. n. photographed in life:
A) lateral view of a specimen at Gosner stage 33 (lot UFMG-G 2455a); B) detail of the body of a specimen at stage 38 (lot UFMG-G 2455b); C) detail of the body of a specimen at stage 40 with a coppery coloured iris (lot UFMG-G 2455b); D) specimens side by side at stages 40 and 41 (lot UFMG-G 2455b). Note that the one on the first plane (stage 41) has a more greenish background colour on its body and tail, and the eyes are reddish; E) a froglet with a greenish coloration, black dots distributed along the dorsum, and an orange iris (lot UFMG-G 2455c).
Images not to scale.




Paulo D. P. Pinheiro, Tiago L. Pezzuti, Bianca v. M. Berneck, Mariana L. Lyra, Raphael C. L. Lima and Felipe S. F. Leite. 2021. A New Cryptic Species of the Aplastodiscus albosignatus Group (Anura: Hylidae). SALAMANDRA. 57(1); 27-43. 

[PaleoEntomology • 2021] Baltosidis gen. nov. • The First Fossil Microweiseini (Coleoptera: Coccinellidae) from the Eocene of Europe and Its Significance for the Reconstruction of the Evolution of Ladybird Beetles

February 16, 2021, 12:58 am
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Baltosidis damgaardi
Szawaryn, 2021


Abstract
Molecular studies on the evolution of ladybird beetles date their origin somewhere in the Cretaceous, but no fossils are known from that period. The oldest representatives come from the Eocene, with the richest diversity found in Baltic amber. Until now, representatives of only three tribes (from around 40 known) have been recognized. Recent investigation of Baltic amber have revealed representatives of the fourth tribe (Microweiseini), which are described here as Baltosidis gen. nov. with three new species: B. damgaardi sp. nov., B. damzeni sp. nov. and B. szadziewskii sp. nov. In order to test the systematic placement of this extinct genus, a phylogenetic analysis of Microweiseinae was conducted. The results place Baltosidis in a cluster with four modern genera of Microweiseini distributed exclusively in the New World. Such a distribution pattern is surprising because no close relatives of the newly described fossil genus are known from Europe or even from the Palaearctic region. Analysis of the distribution of Microweiseini genera leads to the conclusion of a possible Gondwanan origin of the tribe. Further comparison of the diversity of the ladybird beetles from modern ecosystems with those known from Baltic amber suggests substantial differences between these communities and a recent radiation of modern fauna.

Keywords: Baltic amber, biogeography, Coccinelloidea, Eocene, evolution, new genus, palaeontology

Baltosidis damgaardi.
A, habitus ventral. B, habitus dorsal. C, details of tarsus. D, details of setation on elytra. E, tip of elytra with sutural lines. F, meso- and metaventrite. G, head, prosternum, mesoventrite. H, postcoxal lines on ventrite 1. I, details of an eye and antenna. J, tip of abdomen and female genitalia.
Holotype, GPIH 5030 (A–D, F–I); paratype, ALD Co80 (E); paratype, GPIH 5031 (J).

Systematic palaeontology
Order Coleoptera Linnaeus, 1758
Suborder Polyphaga Emery, 1886

Superfamily Coccinelloidea Latreille, 1807
Family Coccinellidae Latreille, 1807
Subfamily Microweiseinae Leng, 1920
Tribe Microweiseini Leng, 1920

Genus †Baltosidis gen. nov.
  
Type species: Baltosidis damzeni.

Diagnosis: Baltosidis is most similar to the genus Parasidis, having ten antennomere antenna with three-antennomere club, ventrite 1 with complete or almost complete v-shape abdominal postcoxal lines and four tarsomeres. However, it can be distinguished by a presence of distinct sutural carinae placed in the apical half of elytra. From similar-looking Coccidophilus Brèthes, 1905 and Stictospilus Brèthes, 1924, it can be separated by four-segmented tarsi (three segmented in both genera) and an antennal club consisting of three antennomeres (in Coccidophilus it consists of two antennomeres).
 
Etymology: First part of the name is derived from the Baltic Sea, the second refers to the genus Parasidis to which it is related.


Baltosidis damgaardi sp. nov.

Diagnosis: Baltosidis damgaardi can be distinguished from congeners by pronotum and elytra covered with two types of setae: long, stiff bristles intermixed with short hairs. Moreover, its abdominal postcoxal lines are widely separated from accessory lines. Ventral surface setose.

Etymology: The specific epithet is dedicated to Anders L. Damgaard (Copenhagen, Denmark), collector of one of the paratypes, who allowed me to examine his collection of coccinellid beetles.

Locality and horizon: Eocene, Baltic amber, Gulf of Gdańsk area (secondary deposit).


Baltosidis damzeni sp. nov.

Diagnosis: Baltosidis damzeni can be distinguished from other Baltosidis species by glabrous pronotum and elytra, abdominal postcoxal lines almost fused with accessory lines, but not forming distinctly closed v-shape. Ventral surface glabrous.

 Etymology: The specific epithet is dedicated to my friend Jonas Damzen (Vilnius, Lithuania) collector and donator of the type specimens to the MAIG.

Locality and horizon: Eocene, Baltic amber, Gulf of Gdańsk area (secondary deposit).


Baltosidis szadziewskii sp. nov.

Diagnosis: Baltosidis szadziewskii is characterized by fine, short setae on pronotum and elytra, abdominal postcoxal lines fused with accessory lines apically forming v-shape. Ventral surface setose.

Etymology: The specific epithet is dedicated to Prof. Ryszard Szadziewski (University of Gdańsk, Poland), entomologist and expert on recent and fossil Ceratopogonidae (Diptera), who encouraged me to investigate Baltic amber coleopterans.

Locality and horizon: Eocene, Baltic amber, Gulf of Gdańsk area (secondary deposit).

 
Karol Szawaryn. 2021. The First Fossil Microweiseini (Coleoptera: Coccinellidae) from the Eocene of Europe and Its Significance for the Reconstruction of the Evolution of Ladybird Beetles. Zoological Journal of the Linnean Society. zlaa180. DOI: 10.1093/zoolinnean/zlaa180

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[Entomology • 2021] Revision of the Morphology, Phylogenetic Relationships, Behaviour and Diversity of the Iberian and Italian Ant-like Tachydromia Meigen, 1803 (Diptera: Hybotidae)

February 16, 2021, 1:32 am
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Habitus of live specimens of ant-like Tachydromia Meigen, 1803.
Tachydromia cantabrica; T. ebejeri; T. nigrohirtaT. stenoptera; ...
 Gonçalves, Grootaert & Andrade sp. nov. I–J. 

in Gonçalves, Grootaert, ... et Mengual, 2021. 

ABSTRACT
Phylogenetic inference, based on five molecular markers (COI, 28S, AATS, 12S, PGD), corroborates the synonymy of the flightless genera Pieltainia Arias, 1919 and Ariasella Gil, 1923 with Tachydromia Meigen, 1803. The secondary structure of the 28S rRNA gene is used for the first time in this family to align the multiple sequences. Molecular and morphological data are largely congruent for all known species of flightless Tachydromia. This paper treats ten western Mediterranean species (nine Iberian and one Italian) in detail, including the description of four new species: T. ebejeri Gonçalves, Grootaert & Andrade sp. nov., T. stenoptera Gonçalves, Grootaert & Andrade sp. nov., T. cantabrica Gonçalves, Grootaert & Andrade sp. nov. and T. nigrohirta Gonçalves, Grootaert & Andrade sp. nov. The male of Tachydromia pieltaini (Gil Collado, 1936) and the female of Tachydromia apterygon Plant & Deeming, 2006 are described for the first time, while a lectotype is assigned to Tachydromia pandellei (Séguy, 1941). A key to all non-macropterous Tachydromia is supplied. Knowledge on the geographic distribution of most species is considerably enhanced. The mating behaviour of Tachydromia semiaptera (Gil Collado, 1923) and Tachydromia iberica (Arias, 1919) is documented for the first time, and we propose a change in the definition of terms apterous and micropterous to properly accommodate the diversity of wing states in this cluster of species.
 
Keywords: Iberian Peninsula, Hybotidae, flightless, molecular phylogeny, synonym, new species


Phylum Arthropoda Latreille, 1829
Class Insecta Linnaeus, 1758

Order Diptera Linnaeus, 1758
Infraorder Muscomorpha Sharp, 1894

Superfamily Empidoidea Latreille, 1804
Family Hybotidae Meigen, 1820
Subfamily Tachydromiinae Meigen, 1822

Genus Tachydromia Meigen, 1803


Tachydromia apterygon Plant & Deeming, 2006
Tachydromia iberica (Arias, 1919)
Tachydromia lusitanica (Grootaert, Shamshev & Andrade, 2009)
Tachydromia pandellei (Séguy, 1941)
Tachydromia pieltaini (Gil Collado, 1936)
Tachydromia semiaptera (Gil Collado, 1923)





Fig. 16. Habitus of live specimens of the Iberian ant-like Tachydromia Meigen, 1803 and the Italian flightless Tachydromia. Males are pictured in the left column, females in the right.
A–B. T. iberica (Arias, 1919). C–D. T. semiaptera (Gil Collado, 1923).
E–F. T. pieltaini (Gil Collado, 1936).  G–H. T. pandellei (Séguy, 1941).
 I–J. T. apterygon Plant & Deeming, 2006 (Italy).

Fig. 15. Habitus of live specimens of the Iberian ant-like Tachydromia Meigen, 1803. Males are pictured in the left column, females in the right.
A–B. T. lusitanica (Grootaert, Shamshev & Andrade, 2009).
C–D. T. nigrohirta Gonçalves, Grootaert & Andrade sp. nov. E–F. T. ebejeri Gonçalves, Grootaert & Andrade sp. nov. 
G–H. T. stenoptera Gonçalves, Grootaert & Andrade sp. nov. I–J. T. cantabrica Gonçalves, Grootaert & Andrade sp. nov.


Tachydromia cantabrica Gonçalves, Grootaert & Andrade sp. nov.

Diagnosis: Overall dark. Wing dimorphic: male stenopterous; wing with lobed distal apex, no veins distinguishable, dark brown for most part, with black and white lobe; female micropterous, wing bilobate, with 1 seta on each lobe. Palpi, proboscis and antennae black; postpedicel sub-conical, ca1.5  times  as  long  as  pedicel. Legs with a colour pattern of yellowish and dark brown to black; male fore tibia with ciliation of long hairlike setae. Abdomen black, tergites and sternites with evenly distributed setae, covered with grey microtrichia. It shares similarities with T. nigrohirta sp. nov. and T. stenoptera sp. nov., but can be distinguished from these species by the darker leg colouration, lobed distal apex of male wing without any trace of apical digitation, sub-conical postpedicel, and male terminalia.

Etymology: This species is named after the Spanish Cantabrian mountain range, where it was found.

Distribution: Spain. Currently only known from the Cantabrian Mountains.


Tachydromia ebejeri Gonçalves, Grootaert & Andrade sp. nov.

Diagnosis: Overall dark. Micropterous, with minute squamiform wings in both sexes. Palpi, proboscis and antennae black; postpedicel lanceolate, ca1.5 times longer than pedicel. Legs with a colour pattern of yellowish and dark brown to black; fore tibia with ciliation of long hair-like setae. Abdomen black, covered with grey microtrichia and with distinct, strong, setae on posterior margin of first sternite. It shares general similarities with T. cantabrica sp. nov., T. stenoptera sp. nov. T. nigrohirta sp. nov. and T. lusitanica, from which it can be mainly distinguished by microptery in both sexes - while the males of the other species are stenopterous - and male terminalia.

Etymology: The species is named after the dipterologist Martin J. Ebejer for his contribution to the advancement of the knowledge on Portuguese Diptera.

Distribution: Portugal and Spain. Mostly distributed in the northwestern Iberia (North and Central Portugal and Galicia), with just one locality south of the Tagus river (Santa Maria de Marvão).


Tachydromia nigrohirta Gonçalves, Grootaert & Andrade sp. nov.


Diagnosis: Overall very dark and hirsute. Wing dimorphic: male stenopterous; lobed distal apex, suboval, with minute digitation on apical margin. Stalk-like process dark brown on basal half, pale on distal half; distal ⅔ of lobe black, basal ⅓ and digitation translucid; female micropterous, wing bilobate. Palpi, proboscis and antennae black. Postpedicel lanceolate, 2 times as long as pedicel; stylus 1.5 times as long as scape, pedicel and postpedicel combined. Legs mostly black except for yellowish to pale brown trochanters, knees and tarsomeres 1 and 2. Abdomen black, tergites uniformly covered by grey microtrichia and long setae. It closely resembles T. lusitanica, from which it can mainly be distinguished by the noticeably darker leg colouration, male wing with only a minute digitation on apical margin, and male terminalia.

Etymology: Name composed of two Latin words: ‘niger’(nigro) meaning ‘black’ and ‘hīrtus’ (hirta) meaning ‘hairy’. The name combination indicates that this is a characteristically dark and hairy species.


Tachydromia stenoptera Gonçalves, Grootaert & Andrade sp. nov.

 Diagnosis: Overall very dark. Wing dimorphic: male stenopterous; wing with slightly lobed distal apex, dark for most part and lobe black and white; female micropterous, wing bilobate. Palpi, proboscis and antennae black; postpedicel lanceolate, ca1.5 times as long as pedicel. Legs almost completely black. Abdomen black, tergites mostly glabrous and without grey microtrichia.

Etymology: The name of this species means ‘narrow wing’ and derives from the combination of two Greek words: the prefix steno- (stenos), meaning ‘narrow’, with the suffix -ptera (pterá), meaning ‘wing’. Hence, the name reflects the very narrow lobed distal apex of the male wing.


Ana Rita Gonçalves, Patrick Grootaert, Rui Andrade, Octávio S. Paulo and Ximo Mengual. 2021. Revision of the Morphology, Phylogenetic Relationships, Behaviour and Diversity of the Iberian and Italian Ant-like Tachydromia Meigen, 1803 (Diptera: Hybotidae). European Journal of Taxonomy. 732(1), 1-56. DOI 10.5852/ejt.2021.732.1213


[Botany • 2020] Involucrella lithophila (Rubiaceae: Spermacoceae) • A New Species from Guangxi, China

February 16, 2021, 11:31 pm
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Involucrella lithophila M.D.Yuan & R.J.Wang,

in Yuan & Wang, 2020.

Abstract
Involucrella lithophila from the limestone area of Guangxi, China, is described and illustrated here. It is most similar to Hedyotis kurzii and Involucrella chereevensis in having tetragonal stems, slender pedicels and loculicidally dehiscent capsules, but it differs from the former by its 3–5 (–7)-lobed stipules, heterostylous and white flowers and depressed seeds, and from the latter by its 2–4 secondary leaf veins and heterostylous flowers. The molecular phylogenetic analysis revealed that this new species was embedded in the Involucrella clade and closely related to I. chereevensis. It is evaluated as Least Concern according to IUCN Red List Categories and Criteria.

Keywords: Hedyotis-Oldenlandia complex, palynology, Phylogenetic analysis, seed morphology, taxonomy, Eudicots
 

Involucrella lithophila M.D.Yuan & R.J.Wang.
A: Habit; B: Inflorescence; C: Tetragonal stem and its transverse section; D: Stipule; E: Leaf blade; F & G: Short-styled flower; H: Long-styled flower; I: Young capsule; J: Dehisced capsule; K: Seeds.
(A & B: from Rui-Jiang Wang 2596; C: from Guo-Bin Jiang et al. 1491; D-G & I–K: from Sheng Chen YS49; H: from Rui-Jiang Wang 2597). 

Involucrella lithophila M.D.Yuan & R.J.Wang, sp. nov. 

Diagnosis:— Involucrella lithophila is similar to Hedyotis kurzii and Involucrella chereevensis and in their tetragonal stem, slender pedicels and cymose to paniculate inflorescences, but it differs from Hedyotis kurzii in its glabrous stipules, heterostylous and white flowers, turbinate or hemispherical capsule, and depressed seeds. It also distinguishes from Involucrella chereevensis in its smaller leaves, 2–4 secondary veins at each side, 3–5 (–7)-lobed stipules, and heterostylous flowers (Table 2).  

Etymology:— The specific epithet refers to the habitat of this species, which usually grows on the cliffs or gaps of limestone rocks.
 

 Ming-Deng Yuan and Rui-Jiang Wang. 2020. Involucrella lithophila (Rubiaceae: Spermacoceae): A New Species from Guangxi, China. Phytotaxa. 464(1); 59–68. DOI:  10.11646/phytotaxa.464.1.4
  Researchgate.net/publication/344646391_Involucrella_lithophila_A_new_species_from_Guangxi_China

[Botany • 2020] Allium nerimaniae (Amaryllidaceae) • A New Species of Allium sect. Codonoprasum from Turkey

February 16, 2021, 11:59 pm
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Allium nerimaniae Koçyiğit & E. Kaya,

in Koçyiğit & Kaya, 2020. 

Abstract
Allium nerimaniae from Van (East Anatolia) is described and illustrated. It is compared with the related Allium hirtovaginum according to distinct morphological characteristics. The seed morphology and leaf anatomy of A. nerimaniae and A. hirtovaginum are also presented and discussed. A key for identification of the hairy taxa of sect. Codonoprasum is presented.

Keywords: Allium, new species, leaf anatomy, seed morphology, SEM, Monocots

FIGURE 2. Details of Allium nerimaniae Koçyiğit & E. Kaya:
A) Inflorescence, B) Perigone, C) Bulb and scape, D) Tepals and filaments, E) Ovary, F) Capsule, G) Leaf sheaths, H) Indumentum of scape, I) Indumentum of leaf sheaths, J) Outer tunic.

FIGURE 1. Allium nerimaniae Koçyiğit & E. Kaya (ISTE voucher number: 100000/Van).
 A) Inflorescence, B) Perigone, C) Scape, D) Leaf sheaths.

Allium nerimaniaeKoçyiğit & E. Kaya, sp. nov.

Etymology:— The species is named in honor of the eminent Turkish botanist Prof. Dr. Neriman Özhatay, who is one of the experts for the genus Allium in the world and dedicated her life to better understand the Turkish Flora, on the occasion of her retirement from Istanbul University. 

FIGURE 4. The habitat of Allium nerimaniae 
(Photo by Ş. Alp)


Mine Koçyiğit and Erdal Kaya. 2020. Allium nerimaniae (Amaryllidaceae), A New Species of A. Sect. Codonoprasum from Turkey. Phytotaxa. 435(1); 16–24. DOI: 10.11646/phytotaxa.435.1.2
  Researchgate.net/publication/339693283_Allium_nerimaniae_a_new_species_of_from_Turkey

[Botany • 2020] Spigelia elbakyanii (Loganiaceae) • A New Species from Oaxaca, Mexico

February 17, 2021, 12:31 am
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Spigelia elbakyanii S. Islas & L.O. Alvarado

in Islas-Hernández & Alvarado-Cárdenas, 2020. 

Abstract
A new species of Spigelia (Loganiaceae) from Oaxaca, Mexico, is described here. This species is similar to S. humboldtiana and S. anthelmia, due to its size and white flowers, but the leaf texture, phyllotaxy below the inflorescence, and the style length are characters that allow to recognize it as a new species. With this addition, Mexico reaches a total of 23 species of the genus, of which more than 50% are endemic or microendemic. This places the country as the second area of high diversity after Brazil. A detailed description and illustration of the new species, a dichotomous key and a distribution map of Spigelia species in Oaxaca are included.

Keywords: Eudicots, Diversity, endemism, restricted, Santa María Chimalapa.


Spigelia elbakyanii S. Islas & L.O. Alvarado, sp. nov. 
 

C. Sofia Islas-Hernández and Leonardo O. Alvarado-Cárdenas. 2020. Spigelia elbakyanii, A New Species from Oaxaca, Mexico. Phytotaxa. 477(2); 277–283. DOI: 10.11646/phytotaxa.477.2.12

[Ichthyology • 2021] Coralliozetus clausus • A New Species of Tube Blenny (Blenniiformes: Chaenopsidae) endemic to Isla del Coco, Costa Rica

February 17, 2021, 6:09 pm
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Coralliozetus clausus Hastings, 2021


Abstract
Coralliozetus clausus, a new species of chaenopsid blenny, endemic to Isla del Coco, Costa Rica, is described. This small species, not exceeding 15 mm SL, is a short-bodied member of the genus along with Coralliozetus cardonae (Caribbean), Coralliozetus angelicus, and Coralliozetus springeri (both eastern Pacific). It differs from its closest relative, C. springeri, known from mainland waters from Costa Rica to Ecuador, in having a single tiny supraorbital cirrus and dark dots on the operculum and branchiostegal membrane of males while C. springeri has paired supraorbital cirri (one of which is substantial in size) and no dots on the operculum. Although two other species of Coralliozetus have been reported from Isla del Coco, this appears to be only member of the genus present on the island. It is the second chaenopsid endemic to Isla del Coco and brings the number of cryptobenthic fishes endemic to Isla del Coco to twelve.

Keywords: Pisces, Chaenopsidae, Coralliozetus, tube blennies, Isla del Coco, Costa Rica, island endemic, small body size
 


 Philip A. Hastings. 2021. The Pandemic Blenny, Coralliozetus clausus, A New Species of Tube Blenny endemic to Isla del Coco, Costa Rica (Teleostei: Chaenopsidae). Zootaxa. 4926(2); 296–300. DOI: 10.11646/zootaxa.4926.2.10 

[Crustacea • 2020] Lacunipotamon yuanshi & L. cymatile • The Freshwater Crab Genus Lacunipotamon (Decapoda, Brachyura, Potamidae), with Descriptions of Two New Species from southwestern China

February 17, 2021, 7:14 pm
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 Lacunipotamon yuanshi L. cymatile
Huang, Shih & Ahyong, 2020


Abstract
The poorly known genus Lacunipotamon Dai, Song, He, Cao, Xu & Zhong, 1975, is studied and reviewed. Two new species, Lacunipotamon yuanshi sp. nov. and Lacunipotamon cymatile sp. nov. from Yunnan Province and Guangxi Zhuang Autonomous Region, respectively, are described based on morphology and mitochondrial cytochrome c oxidase subunit I (COI) sequences. Both superficially resemble Lacunipotamon albusorbitum Dai, Song, He, Cao, Xu & Zhong, 1975, the type and previously only known species in the genus, but can be distinguished by the combination of live colour, size, maxilliped III, male thoracic sternum, male pleon, male gonopod, and female gonopore characters. Phylogenetic analysis of the molecular data corroborates the novelty of the two species.

Keywords: Lacunipotamon; COI; new species; Potamidae; systematics; China; freshwater crab



 Chao Huang, Hsi-Te Shih and Shane T. Ahyong. 2020.The Freshwater Crab Genus Lacunipotamon Dai, Song, He, Cao, Xu & Zhong, 1975 (Decapoda, Brachyura, Potamidae), with Descriptions of Two New Species from southwestern China. Crustaceana.  93(11-12); 1361–1379. DOI: 10.1163/15685403-bja10067
院士潭蟹(Lacunipotamon yuanshi
与蓝潭蟹(Lacunipotamon cymatile


[Invertebrate • 2021] New Species and Records of Orbiniidae (Annelida, Polychaeta) from Continental Shelf and Slope Depths of the Western North Atlantic Ocean

February 17, 2021, 11:45 pm
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Phylo ornatus (Verrill, 1873)
in Blake, 2021. 


Abstract
Twenty-four species of Orbiniidae, 12 new to science, are reported from continental shelf and slope (deep-sea) habitats of the western North Atlantic. The majority of new material was collected during reconnaissance and monitoring surveys along the entire U.S. Atlantic coast from New England to the Carolinas that were intended to understand the potential impacts of oil and gas exploration in poorly known offshore environments. Additional materials from shallow water and shelf habitats off New England and New York as part of other projects are also included. New collections of Califia schmitti (Pettibone, 1957), Leitoscoloplos acutus (Verrill, 1873), L. fragilis (Verrill, 1873), L. obovatus Mackie, 1987, L. robustus (Verrill, 1873), Scoloplos intermedius (Hartman, 1965), Orbinia swani (Pettibone, 1957), Phylo felix (Kinberg, 1866), P. norvegicus (Sars, 1872), P. ornatus (Verrill, 1873), and Questa trifurcata (Hobson, 1970) provide additional morphological details, variability, and extended geographic and bathymetric distributions of previously known species. New species include Leitoscoloplos pustulus n. sp., Scoloplos papillatus n. sp., S. pettiboneae n. sp., S. pseudoarmiger n. sp., S. verrilli n. sp., Leodamas cuneatus n. sp., L. mucronatus n. sp., L. notoaciculatus n. sp., Phylo paraornatus n. sp., Orbiniella acsara n. sp., O. armata n. sp., and O. mimica n. sp. Juveniles of some species of Leitoscoloplos and Scoloplos were found to resemble known species of the meiofaunal orbiniid genus Schroederella Laubier, 1962. As such, S. berkeleyi Laubier, 1971 is referred to synonymy with Leitoscoloplos acutus. More importantly, the genus Schroederella was found to be pre-occupied by Schroederella Enderlein, 1921 in the Insecta, Diptera, family Helomyzidae. Gesaschroederella nomen nov. is therefore proposed as a replacement name for the polychaete homonym.

Keywords: Annelida, New England, North Carolina, South Carolina, deep-sea, Califia, Leodamas, Leitoscoloplos, Orbinia, Orbiniella, Phylo, Questa, Schroederella, Scoloplos



Phylo ornatus (Verrill, 1873)


James A. Blake. 2021. New Species and Records of Orbiniidae (Annelida, Polychaeta) from Continental Shelf and Slope Depths of the Western North Atlantic Ocean. Zootaxa. 4930(1); 1-123. DOI: 10.11646/zootaxa.4930.1.1

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[Entomology • 2021] Thirteen New Species of Agromyzidae (Diptera) from the United States, with New Host and Distribution Records for 32 Additional Species

February 18, 2021, 12:03 am
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 Phytomyza flavilonicera Eiseman & Lonsdale

in Eiseman, Lonsdale, ... et Palmer, 2021.
 
Abstract
We present novel rearing records of Agromyzidae (Diptera) from throughout the United States. We describe leaf mines or other larval habits for 27 species, plus five others whose identification is tentative, and another five that are identified only to genus due to the absence of male specimens. We review host and distribution data for the known species, reporting 26 new host species records (including the first rearing records for Phytomyza flexuosa Spencer, P. notopleuralis Spencer, and (tentatively identified) Ophiomyia frosti Spencer) and 25 new state records (including the first USA records for P. krygeri Hering, P. thermarum (Griffiths), and (tentatively identified) Liriomyza cracentis Lonsdale). We also describe and provide natural history information for the following 13 new species: Haplopeodes loprestii Eiseman & Lonsdale, Liriomyza euphorbivora Eiseman & Lonsdale, L.hypopolymnia Eiseman & Lonsdale, Melanagromyza arnoglossi Eiseman & Lonsdale, M. gentianivora Eiseman & Lonsdale, M. hieracii Eiseman & Lonsdale, M. rudbeckiae Eiseman & Lonsdale, M. urticae Eiseman & Lonsdale, M. verbenivora Eiseman & Lonsdale, Ophiomyia nabali Eiseman & Lonsdale, O. rugula Eiseman & Lonsdale, Phytomyza flavilonicera Eiseman & Lonsdale, and P. triostevena Eiseman & Lonsdale.

Keywords: Diptera, leafminer, plant-insect interactions, rearing




Charles S. Eiseman, Owen Lonsdale, John van der Linden, Tracy S. Feldman and Michael W. Palmer. 2021. Thirteen New Species of Agromyzidae (Diptera) from the United States, with New Host and Distribution Records for 32 Additional Species. Zootaxa. 4931(1); 1-68.  DOI: 10.11646/zootaxa.4931.1.1

[Ichthyology • 2020] Strophidon tetraporus • A Review of the Genus Strophidon (Anguilliformes: Muraenidae), with Description of A New Species

February 18, 2021, 1:12 am
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 Strophidon tetraporus  Huang & Liao

in Huang, Mohapatra, ... et Liao, 2020. 

  Abstract
Strophidon McClelland is a muraenid genus with characteristic appearance of a very elongated body, a large mouth cleft and anteriorly placed eyes. The nomenclature and taxonomic history of species within Strophidon are contentious and its members are easily misidentified. In the present study, species of the genus Strophidon are revised based on morphological and molecular data, and five species are considered valid, including S. dawydoffi Prokofiev, S. dorsalis (Seale), S. sathete (Hamilton), S. ui Tanaka and a new species, S. tetraporus. Strophidon tetraporus sp. nov. is described based on 15 specimens from Indonesia, the Philippines, Taiwan and Vietnam with the unique characteristic of the constant presence of the fourth infraorbital pore among species of Strophidon. The intraspecific variation of vertebral formula within S. dorsalis is discussed based on molecular data. Muraena macrurus Bleeker and Thyrsoidea longissima Kaup are synonyms of S. sathete that can be distinguished from the most similar congener S. ui by a longer tail, smaller eyes and more inner maxillary and inner dentary teeth. A key to identify species of Strophidon is provided. The distribution and maximum size of each species are also re‐evaluated.

Keywords: Muraenidae, new species, phylogeny, redescription, Strophidon, taxonomy



Genus Strophidon McClelland 1844


Strophidon dorsalis (Seale, 1917)

Strophidon sathete (Hamilton, 1822)

Strophidon ui Tanaka, 1918






Strophidon tetraporus sp. nov. Huang & Liao
 
Common name: Four Pores Slender Giant Moray

Etymology: Name from Greek words tetra (four) and póros (pore), in reference to the uniquely constant presence of the fourth infraorbital pore in this species of Strophidon. A noun in apposition.


Wen‐Chien Huang, Anil Mohapatra, Pham The Thu, Hong‐Ming Chen and Te‐Yu Liao. 2020. A Review of the Genus Strophidon (Anguilliformes: Muraenidae), with Description of A New Species. Journal of Fish Biology. DOI: 10.1111/jfb.14514 
  facebook.com/100001798487931/posts/4569890516414186


[Botany • 2021] Ephedra chengiae (Ephedraceae) • A New Species from Xizang of China

February 18, 2021, 1:45 am
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Ephedra chengiae  Y. Yang & D.K. Ferguson
Ephedra chengiae var. spinosa Y. Yang & D.K. Ferguson

in Yang & Ferguson, 2021. 
 
Abstract
A new species of Ephedraceae, i.e. Ephedra chengiae sp. nov., is described and illustrated here. This new species is similar to E. rituensis Y.Yang & al. and E. intermedia Schrenk & C.A.Mey. in the erect habit with prominent woody stems, elongated twigs with many nodes, and the long micropylar tube. However, it differs from E. rituensis by the synangia being prominently stipitate (vs. sessile), the female cone having fewer bract pairs (3–4 vs. 4–5), its glossy seeds, and from E. intermedia by the prominently stipitate synangia (vs. sessile or nearly so), the female cone having fewer bract pairs (3–4 vs. 2–5), the glossy seeds (vs. seeds not glossy), and the micropylar tube being more or less straight (vs. twisted). Ephedra chengiae var. spinosa var. nov. differs from var. chengiae in its cushion-like habit and the spinose twigs.

Keyword: China, Ephedra rituensis, Ephedra intermedia, Ephedraceae, morphology, new species, taxonomy, Xizang



Fig. 2. Ecological photos of Ephedra chengiae sp. nov. displaying habit and habitat.
A, female plant; B, male plant.

Fig. 1. Illustrations of Ephedra chengiae sp. nov. (A-F)
and var. spinosa var. nov. (G-H);
A, a plant displaying the erect habit; B, a female cone showing the fleshy bracts and the enclosed chlamydosperms; C & D, chlamydosperms displaying the ovoid-ellipsoid shape and the long and straight micropylar tube; E, a male cone revealing the exposed synangia with apical openings; F, a pair of bracteoles subtending a median synangiophore with terminal stipitate synangia;
G, a plant of var. spinosa exhibiting the cushion-like habit and the spinose twigs; H, a twig displaying the spinose shape.
Abbreviations: br, bracts; bt, bracteoles; mt, micropylar tube; si, synangium.
 

Ephedra chengiae Y. Yang & D.K. Ferguson, sp. nov.
 誠氏麻黃 

Diagnosis: This species is similar to Ephedra rituensis Y.Yang et al. and E. intermedia Schrenk & C.A.Mey. in the long micropylar tube, but differs from the latter two species by the stipitate synangia (vs. sessile synangia), female cones having fewer pairs of bracts (3– 4 vs. up to 5), and the glossy seeds (vs. seeds not glossy).

Etymology: The specific epithet is derived from Ching-Yung Cheng for her contributions to taxonomic knowledge of Chinese gnetophytes. Prof. Cheng was the author of the Chlamydospermopsida in Flora Reipublicae Popularis Sinicae (Cheng, 1978). 

Habitat: The species lives in rock crevices or on slopes of sand dunes. 

Distribution: The species is distributed in western Xizang of China (Fig. 3, black solid square).


Ephedra chengiae var. spinosa Y. Yang & D.K. Ferguson, var. nov. 
刺枝麻黃 

Diagnosis: The new variety differs from E. chengiae var. chengiae in the dwarf and cushion-like habit, straight and spinose twigs with 1–2 internodes (vs. erect shrub, twigs not spinose with more than 3 nodes). 

Etymology: The specific epithet is derived from the spinose twigs

Distribution: This new variety is only known from Lhozhag County of Xizang in China (Fig. 3, triangle).  


Yong Yang and David K. Ferguson. 2021. Ephedra chengiae (Ephedraceae), A New Species from Xizang of China. Taiwania. 66(1); 57 - 60. DOI: 10.6165/tai.2021.66.57
 taiwania.ntu.edu.tw/abstract.php?type=abstract&id=1734

[Herpetology • 2020] Gonatodes machelae • A New Diurnal Gecko in the Genus Gonatodes (Squamata: Sphaerodactylidae) from Margarita Island, Venezuela

February 18, 2021, 2:06 am
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Gonatodes machelae 
Rivero-Blanco & Schargel, 2020


Abstract
We describe a new species of diurnal gecko, Gonatodes machelae sp. nov., from Cerro El Copey, Margarita Island, Venezuela. The new species is distinguished from all congeners by a combination of the following characters: small size, subcaudal pattern C (1’1’’), typically three lateral scale rows on the digits, and aspects of coloration. The new species exhibits polychromatism similar to what has been described in some other species of Gonatodes. It is found in humid forests and shrublands from about 450 m to 900 m above sea level.

Keywords: Reptilia, Caribbean, Gekkota, Reptilia, endemic, taxonomy


Figure 2. Individuals in life of Gonatodes machelae sp. nov. from Cerro El Copey, Margarita Island, Venezuela.
An adult male with dark markings on the head (top), an adult male without dark markings on the head (middle), and an adult female (bottom).
Photos by W. Schargel.

Figure 1. Photos of the head in dorsal (top left) and ventral (top right) views and of the left hand (bottom left) and left foot (bottom right) of the holotype of Gonatodes machelae sp. nov. The scale sutures on the anterior portion of the ventral view of the head were accentuated with black lines.

Figure 4. Habitat of Gonatodes machelae sp. nov. in Cerro El Copey, Margarita Island, Venezuela (top). Juvenile specimen of G. machelae found inside the tank bromeliad Glomeropitcarnia erectiflora.
Photos by G. Rivas.

Gonatodes machelae sp. nov.

Etymology. The new species is dedicated by Carlos Rivero-Blanco to Machela, wife for 53 years and counting, in recognition to her support while studying different species of Gonatodes in the field, including the new species in Cerro El Copey. 


Carlos Rivero-Blanco and Walter E. Schargel. 2020. A New Diurnal Gecko in the Genus Gonatodes (Squamata: Sphaerodactylidae) from Margarita Island, Venezuela. Zootaxa. 4729(3); 429–439. DOI: 10.11646/zootaxa.4729.3.9
  Researchgate.net/publication/338923089_A_new_Gonatodes_from_Margarita_Island_Venezuela

Resumen: Describimos una nueva especie de gecko diurno, Gonatodes machelae sp. nov. proveniente del Cerro El Copey, Isla de Margarita, Venezuela. La nueva especie se diferencia de todas las especies en el género por la combinación de los siguientes caracteres: tamaño pequeño, patrón subcaudal C (1’1’’), típicamente tres hileras de escamas laterales en los dígitos, y en aspectos de su coloración. La nueva especie exhibe un policromatismo similar al que ha sido descrito en algunas otras especies de Gonatodes. Se encuentra en bosques y matorrales húmedos en elevaciones desde 450 a 900 m sobre el nivel del mar.
 

[Ichthyology • 2021] Genome Sequences reveal Global Dispersal Routes and Suggest Convergent Genetic Adaptations in Seahorse Evolution

February 18, 2021, 2:10 am
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Genetic diversity and phylogenetic relationships of Hippocampus.

in Li, Olave, Hou, ... et Lin, 2021. 

Abstract
Seahorses have a circum-global distribution in tropical to temperate coastal waters. Yet, seahorses show many adaptations for a sedentary, cryptic lifestyle: they require specific habitats, such as seagrass, kelp or coral reefs, lack pelvic and caudal fins, and give birth to directly developed offspring without pronounced pelagic larval stage, rendering long-range dispersal by conventional means inefficient. Here we investigate seahorses’ worldwide dispersal and biogeographic patterns based on a de novo genome assembly of Hippocampus erectus as well as 358 re-sequenced genomes from 21 species. Seahorses evolved in the late Oligocene and subsequent circum-global colonization routes are identified and linked to changing dynamics in ocean currents and paleo-temporal seaway openings. Furthermore, the genetic basis of the recurring “bony spines” adaptive phenotype is linked to independent substitutions in a key developmental gene. Analyses thus suggest that rafting via ocean currents compensates for poor dispersal and rapid adaptation facilitates colonizing new habitats.


Fig. 1: Genetic diversity and phylogenetic relationships of 358 seahorse specimens.



Independent evolution in the phylogenetic tree reconstructed for the protein encoded by bmp3. Seahorses illustrations by Geng Qin.
 

Chunyan Li, Melisa Olave, Yali Hou, Geng Qin, Ralf F. Schneider, Zexia Gao, Xiaolong Tu, Xin Wang, Furong Qi, Alexander Nater, Andreas F. Kautt, Shiming Wan, Yanhong Zhang, Yali Liu, Huixian Zhang, Bo Zhang, Hao Zhang, Meng Qu, Shuaishuai Liu, Zeyu Chen, Jia Zhong, He Zhang, Lingfeng Meng, Kai Wang, Jianping Yin, Liangmin Huang, Byrappa Venkatesh, Axel Meyer, Xuemei Lu and Qiang Lin. 2021. Genome Sequences reveal Global Dispersal Routes and Suggest Convergent Genetic Adaptations in Seahorse Evolution. Nature Communications. 12, 1094. DOI: 10.1038/s41467-021-21379-x 

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