Species New to Science

Mitrephora monocarpa R.M.K.Saunders & Chalermglin

in Saunders & Chalermglin, 2019.

พรหมพนม || DOI: 10.3897/phytokeys.121.34271

Abstract

A new species, Mitrephora monocarpa R.M.K.Saunders & Chalermglin, sp. nov. (Annonaceae), is described from Surat Thani Province in Peninsular Thailand. It resembles two other species, M. alba Ridl. and M. keithii Ridl., with which it is broadly sympatric, but can be distinguished by its solitary flowers (not borne in thyrsoid inflorescences as in most other Mitrephora species), single carpel per flower (and hence single monocarp per fruit) and the lack of a monocarp stipe. A key to the nine Mitrephora species in Thailand is provided.

Keywords: Annonaceae, Mitrephora monocarpa, Thailand, new species

Figure 1. Mitrephora monocarpa sp. nov. (P. Chalermglin 581215). A Habit B leaves (left: adaxial; right: abaxial) C flower bud D young flower, shortly after separation of outer petals. Scale bar: 2 cm.

Photos: P. Chalermglin.

Figure 2. Mitrephora monocarpa sp. nov. (P. Chalermglin 581215). A, B Pistillate-phase flowers C–E staminate-phase flowers (insert in D shows abscised stamens suspended by tracheary elements in the xylem) F late-stage flower, with petals turning yellow.

Photos: P. Chalermglin.

Mitrephora monocarpa R.M.K.Saunders & Chalermglin, sp. nov.

Diagnosis: A new species similar to M. alba and M. keithii, but distinguished by its solitary flowers that are not borne in an inflorescence, its single carpel per flower and single sessile monocarp per fruit.

....

Distribution and habitat: Mitrephoramonocarpa is only known from the type collection cited above, from a tropical rain forest over limestone, ca. 250 m elevation.

Etymology: The specific epithet reflects the fact that the flower has only a single carpel and, hence, the fruit consists of a solitary monocarp.

Local name: Phrom Phanom (พรหมพนม).

Richard M.K. Saunders and Piya Chalermglin. 2019. Mitrephora monocarpa (Annonaceae): A New Species from Surat Thani Province, Peninsular Thailand. PhytoKeys. 121: 73-80. DOI: 10.3897/phytokeys.121.34271

Jeekelosoma abadi (Mauriès, 1985)

in Enghoff & Reboleira, 2019.

DOI: 10.5852/ejt.2019.523
twitter.com/SReboleira

Abstract

Jeekelosoma Mauriès, 1985, is upgraded from subgenus status under Eviulisoma Silvestri, 1910 to full genus status. The type species, Jeekelosoma abadi (Mauriès, 1985) is redescribed based on topotypical material from a cave in Morocco. Jeekelosoma heptarachne sp. nov. and J. viginti sp. nov. are described from two further Moroccan caves.

Keywords: taxonomy; Eviulisoma; troglobiont; caves; North Africa

Class Diplopoda de Blainville in Gervais, 1844

Order Polydesmida Leach, 1815

Family Paradoxosomatidae Daday, 1889

Subfamily Paradoxosomatinae Daday, 1889

Tribe Eviulisomatini Brölemann, 1916

Genus Jeekelosoma Mauriès, 1985 stat. nov

Diagnosis: A genus of small, depigmented species (Fig. 1) of the tribe Eviulisomatini sensu Enghoff (2018). Differs from contribal genera by the strongly modified peritremata bearing the ozopores and by the horizontal or oblique row of denticles on each side of each podous body ring. Further differs from contribal genera except Boreviulisoma Brolemann, 1928, by having three transverse rows of setae on postcollar rings.

Included species: Jeekelosoma abadi (Mauriès, 1985) comb. nov., Jeekelosoma heptarachne sp. nov. & Jeekelosoma viginti sp. nov.

Distribution: Morocco, in caves.

Fig. 1. Jeekelosoma abadi (Mauriès, 1985) comb. nov.,
living specimen from the type locality.

Courtesy of Carles Hernando.

Jeekelosoma abadi (Mauriès, 1985)

Diagnosis: A species of Jeekelosoma with 17 podous rings, with the ozopores borne on mushroomlike peritremata each provided with one macroseta, with a horizontal row of tubercles on podous rings 5‑17, and with a terminal curved appendage on the gonopod solenophore.

Known only from the type locality, the Kef Aziza cave, .., near Tazzouguert. ...

Jeekelosoma heptarachne sp. nov.

Diagnosis: A species of Jeekelosoma with 17 podous rings, with the ozopores borne on chimney‑like outgrowths each provided with several macrosetae, with extremely long legs, and without a horizontal row of tubercles on podous rings 5–17.

Etymology: The name is a noun in apposition, composed of Greek ‘hepta’ (= seven) and ‘arachne’ (= spider). A male of the new species has 28 pairs of long, thin walking legs and thus (somewhat) resembles a row of seven spiders.

Known only from“Tazentout, cave Wit Tamdoun”. ....

Jeekelosoma viginti sp. nov.

Diagnosis: A species of Jeekelosoma with 18 podous rings, with the ozopores borne on mushroom‑like outgrowths each provided with two macrosetae, and without a horizontal row of tubercles on podous rings 5–17.

Etymology: The name means ‘twenty’ in Latin and refers to the presence of 20 ‘segments’ (18 podous rings + 1 apodous ring + telson), vs 19 ‘rings’ in the two other species.

Known only from the type locality which is also known as “Kef Tovna” and is located in a wide sinkhole near the village of Douar Tahyannt. ...

Henrik Enghoff and Ana Sofia P.S. Reboleira. 2019. The Genus Jeekelosoma Mauriès, 1985 – Moroccan Cave Millipedes (Diplopoda, Polydesmida, Paradoxosomatidae). European Journal of Taxonomy. 523; 1–16. DOI: 10.5852/ejt.2019.523

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Aenigmachanna gollum

Britz, Anoop, Dahanukar & Raghavan, 2019

DOI: 10.11646/zootaxa.4603.2.10

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Abstract

Aenigmachanna gollum, new genus and species, is described from Kerala, South India. It is the first subterranean species of the family Channidae. It has numerous derived and unique characters, separating it from both the Asian Channa Scopoli and the African Parachanna Teugels & Daget. Uniquely among channids, A. gollum has a very slender (maximum body depth only 11.1–11.3% SL), eel-like body (head length 20.8–21.6% SL), large mouth (jaw length 60.4–61.1 % HL), 43–44 anal-fin rays, 83–85 scales in a lateral series, an unusual colour pattern and it lacks pored lateral-line scales on the body and body buoyancy. In addition, it is distinguished by its DNA barcode sequence, which is 15.8–24.2% divergent from other species of the family Channidae. Morphological modifications usually associated with a subterranean life, such as reduction of eyes and enhancement of non-visual senses (taste, smell, mechanosensory systems) are absent in A. gollum. However, it shares with subterranean fishes a slight reduction of its pigmentation in comparison to epigean channids.

Keywords: Western Ghats-Sri Lanka biodiversity hotspot, relict lineages, laterite, aquifer, Pisces

Ralf Britz, V.K. Anoop, Neelesh Dahanukar and Rajeev Raghavan. 2019. The Subterranean Aenigmachanna gollum, A New Genus and Species of Snakehead (Teleostei: Channidae) from Kerala, South India. Zootaxa. 4603(2); 377–388. DOI: 10.11646/zootaxa.4603.2.10

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Ambopteryx longibrachium

Wang, O’Connor, Xu & Zhou, 2019

DOI: 10.1038/s41586-019-1137-z

Illustration: Chung-Tat Cheung

Abstract

Powered flight evolved independently in vertebrates in the pterosaurs, birds and bats, each of which has a different configuration of the bony elements and epidermal structures that form the wings. Whereas the early fossil records of pterosaurs and bats are sparse, mounting evidence (primarily from China) of feathered non-avian dinosaurs and stemward avians that derive primarily from the Middle–Upper Jurassic and Lower Cretaceous periods has enabled the slow piecing together of the origins of avian flight. These fossils demonstrate that, close to the origin of flight, dinosaurs closely related to birds were experimenting with a diversity of wing structures. One of the most surprising of these is that of the scansoriopterygid (Theropoda, Maniraptora) Yi qi, which has membranous wings—a flight apparatus that was previously unknown among theropods but that is used by both the pterosaur and bat lineages. This observation was not universally accepted. Here we describe a newly identified scansoriopterygid—which we name Ambopteryx longibrachium, gen. et sp. nov.—from the Upper Jurassic period. This specimen provides support for the widespread existence of membranous wings and the styliform element in the Scansoriopterygidae, as well as evidence for the diet of this enigmatic theropod clade. Our analyses show that marked changes in wing architecture evolved near the split between the Scansoriopterygidae and the avian lineage, as the two clades travelled along very different paths to becoming volant. The membranous wings supported by elongate forelimbs that are present in scansoriopterygids probably represent a short-lived experimentation with volant behaviour, and feathered wings were ultimately favoured during the later evolution of Paraves.

Min Wang, Jingmai K. O’Connor, Xing Xu and Zhonghe Zhou. 2019. A New Jurassic Scansoriopterygid and the Loss of Membranous Wings in Theropod Dinosaurs. Nature. 569; 256–259. DOI: 10.1038/s41586-019-1137-z

Newly Discovered Bat-Like Dinosaur Reveals the Intricacies of Prehistoric Flight po.st/FwnL8Q via @SmithsonianMag

New species of bat-wing dinosaur discovered on.natgeo.com/2VQ07Dq via @NatGeoScience

Allium sultanae-ismailii Yıldırım

in Yıldırım, 2019.

DOI: 10.11646/phytotaxa.403.1.3

Abstract

Allium sultanae-ismailii Yıldırım (Amaryllidaceae) is described here as a new species. Diagnostic morphological characters, a full description, and detailed illustrations are given herein. A. sultanae-ismailii is restricted to Mt. Akbabaçalı in Darende district of Malatya province in eastern Anatolia, Turkey. According to its morphological features, it belongs to Allium subgen. Melanocrommyum sect. Melanocrommyum. It shows morphological similarities with A. purpureoviride, which belong to the same subgenus and section. However, it is easily distinguished from this latter species by the dark purple tepals, shorter stem, initially stellate perianth segments, longer style, undivided and very short tripartite stigma, and distribution at higher altitudes.

Keywords: Monocots, eastern Anatolia, Malatya province, subgen. Melanocrommyum, taxonomy

Hasan Yıldırım. 2019. Allium sultanae-ismailii (Amaryllidaceae), A New Species from eastern Turkey. Phytotaxa. 403(1); 39–46. DOI: 10.11646/phytotaxa.403.1.3

Ikakogi ispacue

Rada, Dos Santos Dias, Pérez-Gonzalez, Anganoy-Criollo, Rueda-Solano, et al., 2019

DOI: 10.1371/journal.pone.0215349

Abstract
Ikakogi is a behaviorally and morphologically intriguing genus of glassfrog. Using tadpole morphology, vocalizations, and DNA, a new species is described from the Sierra Nevada de Santa Marta (SNSM), an isolated mountain range in northern Colombia. The new taxon is the second known species of the genus Ikakogi and is morphologically identical to I. tayrona (except for some larval characters) but differs by its genetic distance (14.8% in mitochondrial encoded cytochrome b MT-CYB; ca. 371 bp) and by the dominant frequency of its advertisement call (2928–3273 Hz in contrast to 2650–2870 Hz in I. tayrona). They also differ in the number of lateral buccal floor papillae, and the position of the buccal roof arena papillae. Additionally, the new species is differentiated from all other species of Centrolenidae by the following traits: tympanum visible, vomerine teeth absent, humeral spines present in adult males, bones in life white with pale green in epiphyses, minute punctuations present on green skin dorsum, and flanks with lateral row of small, enameled dots that extend from below eye to just posterior to arm insertion. We describe the external and internal larval morphology of the new species and we redescribe the larval morphology of Ikakogi tayrona on the basis of field collected specimens representing several stages of development from early to late metamorphosis. We discuss the relevance of larval morphology for the taxonomy and systematics of Ikakogi and other centrolenid genera. Finally, we document intraspecific larval variation in meristic characters and ontogenetic changes in eye size, coloration, and labial tooth-rows formulas, and compare tadpoles of related species. Ikakogi tayrona has been proposed as the sister taxon of all other Centrolenidae; our observations and new species description offers insights about the ancestral character-states of adults, egg clutches, and larval features in this lineage of frogs.

Fig 1. Ikakogi ispacue sp. nov. (A) Dorsal and (B) ventral view of holotype (SVL = 29.6 mm; ICN 56204; male; photos not to scale).

Ikakogi ispacue sp. nov.

Diagnosis: Ikakogi ispacue sp. nov. can be distinguished from other centrolenids (the only exception is I. tayrona) by having a slightly sloping snout, rounded lateral profile; a tympanum that is not visible; humeral spines in adult males; vomerine teeth absent; parietal peritoneum 1/2 white; green dorsum with black punctuations along the dorsal surfaces and a flanks with a lateral row of small enameled dots that extends from below the eye to just posterior to the insertion of the arm; color of bones in life white, but with a pale green coloration in bone epiphysis; color in preservative uniformly very pale lavender to cream.

....

Fig 4. Ikakogi ispacue sp. nov. Adult male (A), holotype (ICN 56204; SVL 29.6 mm), adult female (B), paratype (ICN 56202; SVL 29.5 mm) and egg mass (C) of Ikakogi ispacue sp. nov. Note the empty space in the middle of the array and unpigmented eggs in a clear jelly. Photos not to scale.

Natural history: Males and females were observed in subtropical forest perched on the vegetation at heights of 1–2 m. (Fig 4). Males were observed calling from the lower and upper surfaces of leaves along streams at height of 50–350 cm approx. (Fig 4A). Females deposited and cared for egg clutches (referred to the species by association with their mothers perched on clutches) on either the upper side or lower side of leaves overhanging streams (ca. 50–100 cm; Fig 4B). Clutches contained uniformly pale cream or pale green eggs (n = 4; 55 ± 6.21; 48–62 eggs; Fig 4B). The morphology of the egg mass observed near males of I. ispacue sp. nov. is a monolayer mass lacking eggs and jelly in the center of the clutch, which gives an appearance of a "ring" shape (n = 3; Fig 4C). Embryos exhibit cranial hypervascularization, which turned their color reddish or pink; the heart is translucent but colored reddish by blood. Tadpoles of Ikakogi ispacue sp. nov. were found buried in fallen leaves and sand in small pools (area = 1–2 m2; depth = 30–50 cm) located along the edge of streams.
...

Etymology: The specific epithet originates from the Kogi words “tshi” and“spákue”, meaning “twin of”. The word is used as noun in apposition and refers to the high similarity and presumed close relationships of the new species and Ikakogi tayrona.

Marco Rada, Pedro Henrique Dos Santos Dias, José Luis Pérez-Gonzalez, Marvin Anganoy-Criollo, Luis Alberto Rueda-Solano, María Alejandra Pinto-E, Lilia Mejía Quintero, Fernando Vargas-Salinas and Taran Grant. 2019. The Poverty of Adult Morphology: Bioacoustics, Genetics, and Internal Tadpole Morphology reveal A New Species of Glassfrog (Anura: Centrolenidae: Ikakogi) from the Sierra Nevada de Santa Marta, Colombia. PLoS ONE. 14(5): e0215349. DOI: 10.1371/journal.pone.0215349

Mystriosuchus steinbergeri

Butler, Jones, Buffetaut, Mandl, Scheyer & Schultz, 2019

DOI: 10.1093/zoolinnean/zlz014

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Abstract

Phytosaurs are a group of carnivorous, semi-aquatic archosaurian reptiles that attained an almost global distribution during the Late Triassic. We here describe a new species of the phytosaur genus Mystriosuchus from the Norian Dachstein Limestone of Austria, from a marine lagoonal depositional environment. The new Austrian material comprises remains of at least four individuals of similar size (c. 4 m in total length) found in association but disarticulated, and includes one complete and two partial skulls and postcrania. All of these specimens apparently represent a single taxon, which is distinguished by numerous anatomical features from the two previously named Mystriosuchus species. Maximum parsimony analysis of a comprehensive morphological dataset provides strong statistical support for the phylogenetic position of the new Austrian taxon in Mystriosuchus, as the sister taxon to a clade comprising M. planirostris and M. westphali. Histological analysis suggests that the Austrian phytosaur specimens represent individuals that were at least eight years old at time of death, but which had not yet reached skeletal maturity. Taphonomic and palaeoenvironmental data suggest that these phytosaurs were living in the marine lagoon in which they were preserved, providing the strongest evidence to date of marine adaptations in phytosaurs.

Keywords: bone histology, fossils, marine adaptations, morphology, phylogeny, reptiles

Figure 5. Holotype skull of Mystriosuchus steinbergeri sp. nov. (NHMW 1986/0024/0001)
in right lateral (A), posterior (B), medial cross-sectional (C), dorsal (D) and ventral (E) views.

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Figure 1. Photographs taken in 1982 during the collection of the type and referred material of Mystriosuchus steinbergeri sp. nov. A, the type locality. The five figures in the centre of the photograph are clustered around the excavation site. B, the excavation team, including from left-to-right, Johann Segl, Sepp Steinberger, Georg Sverak and Walter Prenner. Georg Sverak is using the pneumatic hammer to drill a hole for a wedge used to split the blocks of limestone for removal. C, Georg Sverak and Walter Prenner in front of their tent. D, photograph of the block, as originally excavated, including the holotype skull (NHMW 1986/0024/0001; bottom right of photograph) and paratype mandible (NHMW 1986/0024/0002; top middle of photograph) in close association.

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Life reconstruction of Mystriosuchus steinbergeri sp. nov. in the Dachstein Limestone depositional environment.

Illustration: Mark Witton.

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SYSTEMATIC PALAEONTOLOGY

Archosauriformes Gauthier, 1986

Phytosauria Jaeger, 1828

Parasuchidae Lydekker, 1885 sensu Kammerer et al., 2015

Mystriosuchinae Huene, 1915 sensu Kammerer et al., 2015

Leptosuchomorpha Stocker, 2010 sensu Jones & Butler, 2018

Mystriosuchini Huene, 1915 sensu Jones & Butler, 2018

Mystriosuchus Fraas, 1896

Mystriosuchus steinbergeri sp. nov.

Etymology: The species is named for Sepp Steinberger, who discovered and helped collect the holotype and referred specimens.

Richard J. Butler, Andrew S. Jones, Eric Buffetaut, Gerhard W. Mandl, Torsten M. Scheyer and Ortwin Schultz. 2019. Description and Phylogenetic Placement of A New Marine Species of Phytosaur (Archosauriformes: Phytosauria) from the Late Triassic of Austria. Zoological Journal of the Linnean Society. zlz014. DOI: 10.1093/zoolinnean/zlz014

twitter.com/ButlerLabBham/status/1126169142447550465

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Atractus marthae

Meneses-Pelayo & Passos, 2019

DOI: 10.1643/CH-18-163

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Abstract

We describe herein a new polychromatic species of the snake genus Atractus from the cloud forests of the northeastern Andes of Colombia. The new species is distinguished from all congeners by having an exclusive combination of phenotypic characters, such as: dorsal scale rows 17, loreal long, seven to ten maxillary teeth, ventrals 156–174 in females and 153–169 in males, subcaudals 20–30 in females and 23–30 in males, dorsum with variable coloration, changing from dark green to orange or red with a black nuchal band (three to four scales long) connected to a black vertebral line and two black dorsolateral continuous stripes from the occipital region to tip of the tail, venter with irregular black blotches, relatively small body size, small tail length in females and moderately long in males, hemipenis moderately bilobed, semicapitate and semicalyculate. We compared the new species with all congeners occurring along the Cordillera Oriental in Colombia, Sierra de Perijá in the Colombia/Venezuela frontier and Cordillera de Mérida in Venezuela. We discussed aspects related to polychromatism and its implication toward a robust taxonomy for the genus Atractus.

General view in life of the four distinctive color patterns of Atractus marthae observed in the type-locality.

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Atractus marthae, new species

Martha’s Groundsnake, Culebras Tierreras de Martha

Etymology.— The new species is named herein in honor of Martha Patricia Ramírez-Pinilla for her invaluable contribution to the knowledge of the biology of Colombian amphibians and reptiles. Furthermore, we would like to acknowledge her dedicated vocation as a professor at the Universidad Industrial de Santander, during which she has contributed to the formation of many generations of herpetologists.

Distribution.— Atractus marthae is known from three localities in the western slope of Cordillera Oriental, department of Santander, Colombia.

...

Elson Meneses-Pelayo and Paulo Passos. 2019. New Polychromatic Species of Atractus (Serpentes: Dipsadidae) from the Eastern Portion of the Colombian Andes. Copeia. 107(2); 250-261. DOI: 10.1643/CH-18-163

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Describimos una nueva especie de serpiente policromática del género Atractus para los bosques nublados del noreste de los Andes de Colombia. La nueva especie se distingue de todos los congéneres por tener una combinación exclusiva de caracteres fenotípicos, como: escamas dorsales en 17 hileras, loreales largas, siete a diez dientes maxilares, ventrales 156–174 en hembras y 153–169 en machos, subcaudales 20–30 en hembras y 23–30 en machos, dorso con coloración variable, cambiando de verde oscuro a naranja o rojo con una banda nucal negra (largo de tres o cuatro escamas) conectada a una línea vertebral negra y dos franjas continuas dorsolaterales negras desde la región occipital hasta la punta de la cola, superficie ventral del cuerpo con manchas irregulares negras, tamaño corporal relativamente pequeño, longitud de la cola pequeña en las hembras y moderadamente larga en los machos, hemipene moderadamente bilobado, semicapitado y semicaliculado. Comparamos las nuevas especies con todos los congéneres que ocurren a lo largo de la Cordillera Oriental en Colombia, Sierra de Perijá en la frontera de Colombia/Venezuela y la Cordillera de Mérida en Venezuela. Discutimos aspectos relacionados con el policromatismo y su implicación hacia una taxonomía sólida para el género Atractus.

Landouria strobiloides

C. Tumpeesuwan & S. Tumpeesuwan, 2019

RAFFLES BULLETIN OF ZOOLOGY. 67.

Abstract

A new species of land snail is described from the Suan Hin Pha Ngam Limestone Area in Loei Province, northeastern Thailand. This species is placed in the genus Landouria Godwin-Austen, 1918 based on the presence of a slightly long club-shaped flagellum with variably sized tubercles, a gametolytic sac with swollen basal part, and absence of dart sacs and mucous glands. This is the first verified record of the genus Landouria in Thailand.

Key words. new species, Landouria, Aegista, Thaitropis, reproductive anatomy, Loei Province, Thailand

Fig. 2. Living specimen of Landouria strobiloides, new species. Photograph by: Benchawan Nahok.

Fig. 3. Empty shell of Landouria strobiloides, new species, holotype (NHMSU-00017). Photograph by: Benchawan Nahok.

Superfamily Helicoidea Rafinesque, 1815

Family Camaenidae Pilsbry, 1895

Genus Landouria Godwin-Austen, 1918

Landouria strobiloides, new species

Diagnosis. Body whorl of shell with very sharp keeled, aperture slightly thickened and with a reflexed rim. Flagellum slightly long, club-shaped, with variably-sized tubercles. Base of gametolytic sac enlarged and swollen.

...

Etymology. The specific epithet strobiloides derived from the strobilus, referring to the flagellum of the new species, which looks similar to the strobilus of non-flowering plants because it possesses many tubercles on its surface.

Remarks. The genitalia of the new species agree in general detail with the genital anatomy of congeneric species, but it has the longest tubercles on the flagellum within the genus. The anatomy of Landouria differs from Aegista by the absence of a well-developed dart sac, lateral accessory sacs, and mucous glands (Schileyko, 2004). In Thailand, the snails that have the last whorl slightly descending in front and large umbilicus were assigned to Aegista, but this needs to be confirmed by a study of their anatomical characters.

Chanidaporn Tumpeesuwan and Sakboworn Tumpeesuwan. 2019. First Verified Record of the Genus Landouria Godwin-Austen, 1918 from Thailand (Gastropoda: Stylommatophora: Camaenidae) with Description of A New Species. RAFFLES BULLETIN OF ZOOLOGY. 67; 298–305. lkcnhm.nus.edu.sg/app/uploads/2018/11/RBZ-2019-0021.pdf

Takahiro Hirano, Yuichi Kameda, Kazuki Kimura and Satoshi Chiba. 2014. Substantial Incongruence Among the Morphology, Taxonomy, and Molecular Phylogeny of the Land Snails Aegista, Landouria, Trishoplita, and Pseudobuliminus (Pulmonata: Bradybaenidae) occurring in East Asia. Molecular Phylogenetics and Evolution. 70; 171-181. DOI: 10.1016/j.ympev.2013.09.020

Limonium dagmarae Mucina

in Mucina & Hammer, 2019.

DOI: 10.11646/phytotaxa.403.2.1

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Abstract

A new species of Limonium from Namaqualand coast, South Africa is here described and named Limonium dagmarae. Shared morphological characters with related South African species place the new species within Limonium sect. Circinaria. Evidence is presented to segregate the new species from relatives based on discrete morphological and environmental characters. The holotype of the L. dagmarae is preserved at NBG.

Key words: Afrolimon, Limonium sect. Circinaria, species nova, strandveld, Succulent Karoo

FIGURE 1. Drawing (original) of Limonium dagmarae (voucher L. Mucina 250901/25M2, Doringbaai):
1. Stem with flowering branches and leaves (leaf scars are visible in the lower part of the stem), 2. side branch showing post-anthesis calyces, 3. outer supportive bract (supporting the flower), 4. dorsal view of the middle supportive bract, 5. side view of the middle supportive bract, 6. inner (most conspicuous) supportive bract, 7. side view of the calyx tube, 8. shape of the top calyx lobes (calyx rim), 9.top-down view of the calyx, 10. corolla with anthers, 11. corolla petal with anther basally attached, 12. anther, 13. stigma, 14. detail of the stigma. The size of the branch (picture 1. serves as the scale; the branch is c. 30 cm long). Artist: Angela Beaumont.

FIGURE 2. Limonium dagmarae in situ (the southernmost population of the species, origin of the voucher L. Mucina 250901/25M2).
A: overall habit (semiglobose-shaped low shrub); B: view of a branch that finished flowering not long ago (the papery calyces are still light pink and brownish ribs prominent; also showing the sparse leafing of the branch; C: fully developed flower, flanked by several calyces which perigone already withered and several buds prepared to flower. D: habitat of L. dagmarae – loamy-sandy strandveld scrub, with associated succulent shrubs (Aizoaceae and Euphorbia decussata E.Mey. and E. mauritanica L.). All photos L. Mucina.

Limonium dagmarae Mucina sp. nov.

Distribution:— Endemic to the Namaqualand coast, between Doringbaai, Western Cape and Kleinzee, Northern Cape Province (Fig. 3).

Etymology:— Named in honour of Dagmar Mucina, the life partner and wife of the first author, in recognition of her indispensable support and her shared passion for the flora of Namaqualand.

Ladislav Mucina and Timothy A. Hammer. 2019. Limonium dagmarae (Plumbaginaceae), A New Species from Namaqualand coast, South Africa. Phytotaxa. 403(2); 71–85. DOI: 10.11646/phytotaxa.403.2.1

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Milenascopia bilineata

de Queiroz & Rafael, 2019

DOI: 10.11646/zootaxa.4603.2.3

Abstract

A new genus of Proscopiidae, Milenascopia gen. nov., is described from Brazil, with two included species, namely Milenascopia bilineata gen. nov., sp. nov. (type-species) and Milenascopia tenuis gen. nov., sp. nov. A pictorial key of Proscopiini, based on the male genitalia is provided.

Keywords: Milenascopia, taxonomy, pictorial key, grasshopper, Orthoptera

Milenascopia gen. nov.

Etymology. Feminine name. Milena, in honor to the memory of Milena Lima de Queiroz, daughter of the senior author; scopia, referring to the generic termination of several Proscopiidae genera.

Included species:

Milenascopia bilineata gen. nov., sp. nov. (type species, pres. des.)

Milenascopia tenuis gen. nov., sp. nov.

Milenascopia bilineata gen. nov., sp. nov.; alive female.

• Milenascopia bilineata gen. nov., sp. nov. (type species, pres. des.)

Etymology. From Latin bi = occurring twice; lineata = marked bya line, referring to the prosternum marked by two parallel lines.

• Milenascopia tenuis gen. nov., sp. nov.

Etymology. From Latin tenuis = thin, in reference to the specimen’s general shape.

Larissa Lima de Queiroz and José Albertino Rafael. 2019. Milenascopia gen. nov. (Orthoptera: Proscopiidae) from the Brazilian Amazon Basin and A Pictorial Key to Proscopiini Genera. Zootaxa. 4603(2); 265–288. DOI: 10.11646/zootaxa.4603.2.3

Barsine sp.

Volynkin & Černý, 2019

biotaxa.org/em/article/view/51588

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Abstract

The Barsine phaeodonta species-group is reviewed. The new combination is established: Barsine phaeodonta (Hampson, 1911), comb. nov. Four new species are described: Barsine joshii, sp. nov. (South and North East India), Barsine meyi, sp. nov. (North West Myanmar), Barsine mophi, sp. nov. (North Laos) and Barsinearrigera, sp. nov. (Central Myanmar and North Thailand). Adults, male and female genitalia of all species are illustrated.

Anton V. Volynkin and Karel Černý. 2019. A Review of the Barsine phaeodonta (Hampson, 1911) Species-group, with Descriptions of Four New Species from Indochina and India (Lepidoptera: Erebidae: Arctiinae). Ecologica Montenegrina. 21; 70-79. biotaxa.org/em/article/view/51588

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Orientopsaltria dongnaiensis Pham & Constant

in Pham, Nguyen & Constant, 2019.

DOI: 10.11646/zootaxa.4603.3.10

Abstract

A new species of cicada, Orientopsaltria dongnaiensis sp. nov., (Hemiptera: Cicadidae) is described from southern Vietnam. Photos of the adult, illustrations of the male genitalia, a distribution map and biological data are provided.

Keywords: Cicada, new species, Orientopsaltria dongnaiensis, Cicadidae, Vietnam, Hemiptera

Thai-Hong Pham, Thi Huyen Nguyen and Jerome Constant. 2019. First Record of the Cicadas Genus Orientopsaltria Kato, 1944 (Hemiptera: Cicadidae) from Vietnam, with Description of One New Species. Zootaxa. 4603(3); 575–582. DOI: 10.11646/zootaxa.4603.3.10

Ficus pongumphaii Chantaras. & Sungkaew

in Chantarasuwan, Sungkaew, Pruesapan, Baas & van Welzen, 2019.

ไทรผ่องอำไพ || DOI: 10.3767/blumea.2019.64.02.02

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Abstract
A deciduous shrub previously included in Ficus talbotii for many years, is now regarded as a new species, Ficus pongumphaii. It is morphologically distinct from F. talbotii with as typical characters the densely brown pubescent to tomentose or villous on leafy twig; the elliptic, suborbicular to obovate leaf blades that are brown tomentellous on the upper surface and brown floccose tomentose to villous underneath; the pedunculate figs are obovate, brown floccose or villous outside and have internal hairs. The leaf anatomy shows a multiple epidermis on both surfaces; enlarged lithocysts on both sides of the lamina, which are more abundant adaxially and with very few abaxially. The species, endemic to Thailand, is named after the great Thai dendrologist, Associate Professor Somnuek Pongumphai.

Keywords: Ficus; Moraceae; leaf anatomy; new species

Fig. 1 Ficus pongumphaii Chantaras. & Sungkaew.
a. Twig with leaves and figs; b. figs; c. fig in longitudinal section; d. staminate flower; e. stamen; f. sessile pistillate flower; g. pedicelled pistillate flower (B. Chantarasuwan 180910-4, THNHM).

— Drawing: Pajaree Inthachup, 2015.

Fig. 2 Photos of live Ficus pongumphaii Chantaras. & Sungkaew.
a. Habit in natural habitat; b–d. twigs with leaves and figs; e. fig; f. fig in longitudinal section. — Photos by Bhanumas Chantarasuwan.

Ficus pongumphaii Chantaras. & Sungkaew, sp. nov.

Shrub, at least up to 3 m high. Leafy twig brown pubescent to tomentose to villous. Leaf lamina elliptic to suborbicular to obovate, upper surface whitish or brown tomentellous, lower surface brown floccose tomentose to villous. Fig pedunculate, basal bracts persistent, strigose. Receptacle obovate, brown floccose or villous. Synconial internal hairs present. Epidermis multi-layers. Enlarged lithocysts abundant adaxially and only few abaxially.

— Type: B. Chantarasuwan 180910-4 (holo THNHM; iso L), Thailand, Lop Buri, Thawung, Wat Khao Samorkhorn, 18 Sept. 2010.

Distribution & Habitat — A species seemingly endemic to Thailand, occurring on limestone hills at a 30–600 m elevation.

Bhanumas Chantarasuwan, Sarawood Sungkaew, Kanchana Pruesapan, Pieter Baas and P.C. van Welzen. 2019. Ficus pongumphaii (Moraceae), A New Species from Thailand, Compared with the Ambiguous Species F. talbotii. Blumea - Biodiversity, Evolution and Biogeography of Plants. DOI: 10.3767/blumea.2019.64.02.02

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Stenocercus canastra

Avila-Pires, Nogueira & Martins, 2019

DOI: 10.3897/zoologia.36.e22909

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Abstract

A new species of the lizard genus Stenocercus Duméril & Bibron, 1837 is described based on six specimens from Serra da Canastra, Minas Gerais, southeastern Brazil. Similar to S. tricristatus (Duméril, 1851), S. dumerilii (Steindachner, 1867), S. quinarius Nogueira & Rodrigues, 2006, and S. squarrosus Nogueira & Rodrigues, 2006, the new species has a pyramidal head and an enlarged, dorsally projected post-supraciliary scale, like a small horn. It is most similar to S. tricristatus, from which it differs in having a more elongated head in ventral view; a larger number of scales around midbody; a distinctly enlarged, smooth preauricular scale; and probably a larger body size. Moreover, the new species has distinctly keeled scales, with phylloid and mucronate dorsals; no enlarged supraoculars; no neck folds; a vertebral, and a pair of dorsolateral and (weak) lateral crests. A redescription of S. tricristatus is presented for comparison with the new species.

Key words: Minas Gerais, new species, Serra da Canastra, Squamata, taxonomy

Figures 1–3. (1) Drawing of Stenocercus tricristatus from Plate XXII in Duméril (1851); (2) photograph (by O.A.V. Marques) of a live adult specimen of Stenocercus canastra sp. nov. (holotype, MZUSP 88873); (3) photograph (by CCN) of a live juvenile specimen ofS. canatra sp. nov. (MZUSP 94456).

Stenocercus canastra sp. nov.

Stenocercus cf. tricristatus; Teixeira et al. 2016: 411, 413.

Diagnosis: Stenocercus canastra sp. nov. is characterized by the following combination of features: (1) Dorsal head scales keeled. (2) Interparietal distinct, moderately enlarged; parietals about as large as, or smaller than interparietal; postparietals large, with a prominent keel; other posterior head scales variable in size. (3) Internasals six. (4) No distinctly enlarged supraoculars, but medial ones larger than lateral ones; all with pronounced keels. (5) An enlarged canthal on each side, in contact anteriorly with two elongate scales that form a double canthal ridge. (6) An enlarged, prominent, pointed scale immediately posterior to supraciliaries; no projecting, blade-like, angulate temporal scales. (7) Gulars and ventrals distinctly keeled. (8) Parietal eye distinct. (9) Neck folds absent. (10) Dorsals phylloid, keeled, mucronate, and imbricate; scales on flanks similar to dorsals. (11) A prominent serrate vertebral crest, a slightly less prominent dorsolateral crest, and an even less prominent lateral crest. (12) Mite pockets absent. (13) Scales on posterior surface of thighs imbricate, keeled. (14) Tail nearly cylindrical to moderately compressed, verticils absent. (15) Dorsal coloration with numerous, bold, dark brown rhomboid marks forming a longitudinal series on back, and dark brown vertical bands on flanks; head with at least a dark brown spot between nostrils, and a large, rhomboid spot between eyes; no sexual dimorphism in color pattern. (16) Scales around midbody 39–41, ventrals between anterior margin of forelimbs and anterior margin of hind limbs 25–28. (17) Ear opening bordered anteriorly by a distinctly enlarged, smooth scale. Stenocercus canastra sp. nov. is distinguished from all other Stenocercus except S. dumerilii, S. tricristatus, S. quinarius and S. squarrosus by the presence of an enlarged, prominent post-supraciliary scale (Figs 5–9); from all others except S. tricristatus, S. quinarius and S. squarrosus by a moderately enlarged interparietal (although not as large as in the Tropidurini; Figs 10–11). It is distinguished from S. dumerilii, S. quinarius and S. squarrosus (character states in parentheses) by the presence of a prominent, serrate vertebral crest (in contrast to a low vertebral crest); two, rarely 3, supraciliaries (4, rarely 3); ear-opening bordered anteriorly by a distinctly enlarged scale projecting over tympanum (no enlarged scale projecting over tympanum; Figs 12–17); dorsals distinctly keeled and mucronate (dorsals with a low keel, not or hardly mucronate); 9–10 scales across midbody from one dorsolateral row to the other (11–13 in S. dumerilii, 13–15 in S. quinarius and S. squarrosus); ventrals between anterior level of fore- and hind limbs 24–28 (28–32 in S. dumerilii, 30–34 in S. quinarius, 28–34 in S. squarrosus); scales on chin subequal and imbricate, or only most anterior ones smaller and subimbricate (scales on chin smaller, polygonal, and subimbricate anteriorly, grading into larger, pointed, and imbricate posteriorly; Figs 18–22); tail 1.4–1.8 times SVL (1.2–1.4 times in S. dumerilii, 1.0–1.1 in S. quinarius and 0.8–0.9 in S. squarrosus); and color pattern (Table 1). From S. tricristatus it differs in presenting head width 0.78–0.89 times head length (0.96); 39–41 scales around midbody (33); and ear-opening bordered anteriorly by a distinctly enlarged, smooth scale (scale not larger than adjacent temporal scales, keeled). Moreover, it probably reaches a larger body size (adult males ≥ 70 mm in S. canastra sp. nov. versus 58 mm in the holotype of S. tricristatus).

....

Distribution: Stenocercus canastra sp. nov. is only known from Serra da Canastra National Park, Minas Gerais, Brazil (Figs 23–24). Besides the type series, two additional individuals of S. canastra sp. nov. were observed, but not collected, in an area very close to (less than 1 km N) the type-locality (O. Marini, pers. comm.).

Etymology: The specific epithet canastra is a noun in apposition and refers to the mountains (‘Serra da Canastra') where all specimens were collected.

Teresa C. Avila-Pires, Cristiano de C. Nogueira and Marcio Martins. 2019. A New ‘horned' Stenocercus from the Highlands of southeastern Brazil, and Redescription of Stenocercus tricristatus (Reptilia: Tropiduridae). Zoologia. 36: 1-16. DOI: 10.3897/zoologia.36.e22909

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Paroedura neglecta

Köhler, Vences, Scherz & Glaw, 2019

SALAMANDRA. 55(2)

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Abstract

We describe the new gecko species Paroedura neglecta sp. n. from the Tsingy de Bemaraha National Park in western Madagascar, belonging to the P. bastardi/tanjaka clade. The species in this clade are characterized by three light dorsal crossbands on the dorsum of juveniles and subadults whereas all other Paroedura species have four such bands. The new species differs from all species in the P. bastardi complex in having the nostril in contact with the rostral scale. It is most similar to the sympatric P. tanjaka, from which it differs by the presence of prominent dorsal tubercles arranged in regular longitudinal rows (versus rather irregular rows of dorsal tubercles), smaller size, details of the dorsal colour pattern and strong genetic divergence.

Key words. Squamata, Gekkonidae, Paroedura neglecta sp. n., systematics, taxonomy, morphology, molecular genetics.

Paroedura neglecta sp. n.from Tsingy de Bemaraha, Madagascar, in life:
(A) Paratype specimen (subadult male) of P. neglecta sp. n. (ZSM 18/2006; SVL 50.4 mm) from Andranopasazy in dorsolateral view, and (B) in portrait.

[lower right] Paroedura tanjaka

Paroedura neglecta sp. n.

Remarks: This species was previously treated

as Paroedura sp. n. (Bemaraha-Andafiabe) by Jackman et al. (2008),

as Paroedura sp. (aff. tanjaka) by Bora et al. (2010), and

as Paroedura sp. (Bemaraha) by Glaw et al. (2018).

Diagnosis: The new species can be distinguished from most other currently recognized Paroedura species by the presence of only three broad light crossbands on the dorsum (between forelimbs and hindlimbs) in juveniles and subadults versus four light crossbands in all other species except for P. bastardi, P. ibityensis, P. tanjaka (which all have only three crossbands) and P. oviceps and P. vahiny (in which the juvenile colouration is still unknown). In addition it can be distinguished from P. androyensis, P. bastardi, P. ibityensis, P. lohatsara, P. maingoka, P. picta, and P. vahiny by having the nostril in contact with the rostral scale; from P. gracilis by absence of a raised vertebral ridge on the dorsum and shorter forelimbs which do not extend forward beyond tip of snout; from P. masobe by much smaller eyes and absence of a dorsal row of paired spines on the tail; from P. fasciata, P. homalorhina, P. hordiesi, P. vahiny, and P. spelaea by presence of spines on the original tail (versus absence); from P. gracilis, P. homalorhina, P. kloki, P. maingoka, P. masobe, P. oviceps from its type locality (Nosy Be), P. picta, P. spelaea, and P. vahiny by the presence of prominent dorsal tubercles arranged in regular longitudinal rows (versus rather irregular rows of dorsal tubercles). Paroedura neglecta is most similar to P. tanjaka, with which it occurs in syntopy in the Tsingy de Bemaraha. Both species share the character of nostril in contact with the rostral scale, presence of only three broad light crossbands on dorsum of juveniles, and similar general colouration. The new species differs from P. tanjaka by the presence of prominent dorsal tubercles arranged in regular longitudinal rows (versus rather irregular rows of dorsal tubercles; Fig. 3), more clearly outlined dorsal crossbands in adults (versus crossbands in adults mostly resolved into irregular blotches and flecks; Fig. 3), smaller size (maximum SVL 61 mm versus 102 mm; see Nussbaum & Raxworthy 2000), and strong genetic divergence (see phylogenetic tree in Jackman et al. 2008). Paroedura neglecta differs genetically from all species in the genus (note: P. vahiny sequences are not available) by pronounced differences in the DNA sequence of the mitochondrial cox1 gene (see Table 1 in Glaw et al. 2018; 18.9–19.6% uncorrected pairwise distance to its sister species, P. tanjaka).

....

Available names: The types of the three available junior synonyms in the genus, Diplodactylus porogaster Boulenger, 1896 (synonym of P. androyensis); Diplodactylus robustus Boulenger, 1896 (synonym of P. picta); Phyllodactylus madagascariensis Mocquard, 1895 (synonym of P. picta), were not studied, but are obviously very different from P. neglecta described herein according to their original descriptions (Mocquard 1895, Boulenger 1896). The paratypes of Paroedura guibeae Dixon & Kroll, 1974 (synonym of P.bastardi) studied by us differ from P. neglecta by having the nostril separated from the rostral scale and the same is apparently true for all specimens in the type series (see Nussbaum & Raxworthy 2000).

Etymology: The species epithet is derived from the Latin adjective ‘neglectus’ meaning neglected. It refers to the fact that although identified as an unnamed species shortly after its collection (see Jackman et al. 2008), we refrained from describing it earlier for sentimental reasons only, due to the somewhat imperfect condition of the voucher specimens.

Jörn Köhler, Miguel Vences, Mark D. Scherz and Frank Glaw. 2019. A New Species of Nocturnal Gecko, Genus Paroedura, from the karstic Tsingy de Bemaraha Formation in western Madagascar. SALAMANDRA. 55(2); 73–81.

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Rakotoarison, Scherz, Bletz, et al., 2019.

SALAMANDRA. 55(2)

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Abstract

Stump-toed frogs (genus Stumpffia Boettger, 1881) are a diverse group of small-bodied frogs endemic to Madagascar. Seven species of this genus occur on Marojejy, a steep massif in northeastern Madagascar. Here we examine the elevational distribution, phylogenetic position, biogeographic origin, and genetic differentiation of this Stumpffia assemblage. We show that none of these species is another’s closest relative, but rather they are all independent lineages that probably colonised the Marojejy Massif through repeated immigration events. All of the lineages on Marojejy are most closely related to species south and southwest of the massif, except one lineage, formerly known as Stumpffia sp. Ca07, but here assigned to S. sorata as a deep conspecific lineage (and referred to as S. cf. sorata), which occurs also in Sorata, 90 km north of Marojejy. The species on Marojejy are typically restricted to narrow elevational ranges, but at least two species, S. cf. sorata and S. tridactyla, occur over elevations spanning 1000 metres. We assessed the genetic variability of these populations, and found considerable haplotype separation in fragments of the mitochondrial 16S rRNA and nuclear Rag-1 genes, suggesting some disruption of gene flow associated with elevation. We discuss the biogeographic implications of our findings and, based on previously published data, the evolution of non-overlapping bioacoustic parameters among the diverse assemblage of Stumpffia species on the Marojejy massif.

Key words. Amphibia, Anura, Stumpffia sorata, Stumpffia sp. Ca07, Stumpffia tridactyla, candidate species, deep conspecific lineage.

Figure 3. Schematic graph showing known elevational distribution of species of Stumpffia on the Marojejy Massif, along with photos of the habitat at various elevations and the elevational profile of the track up the Marojejy summit, with the collection sites mentioned in the text and Supplementary materials.

Figure 2. Stumpffia species occurring in Marojejy National Park: (a) Stumpffia sp. Ca7 (here considered as S. cf. sorata: ZSM 555/2016 (ZCMV 15182); (b) Stumpffia roseifemoralis, ZSM 529/2016 (ZCMV 15172); (c) Stumpffia grandis (not assigned to voucher specimen); (d) Stumpffia diutissima, ZSM 547/2016 (ZCMV 15117); (e) Stumpffia sp. Ca11, ZSM 551/2016 (ZCMV 15214); (f) Stumpffia cf. sorata, ZSM 544/2016 (ZCMV 15181); (g) Stumpffia tridactyla (specimen collected, but specimen number uncertain); (h) Stumpffia achillei, ZSM 536/2016 (ZCMV 15149).

Andolalao Rakotoarison, Mark D. Scherz, Molly C. Bletz, Jary H. Razafindraibe, Frank Glaw and Miguel Vences. 2019. Diversity, Elevational Variation, and Phylogeographic Origin of Stump-toed Frogs (Microhylidae: Cophylinae: Stumpffia) on the Marojejy Massif, northern Madagascar. SALAMANDRA. 55(2); 115-123.

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Nematopogon garganellus

Bryner & Huemer, 2019

DOI: 10.3897/alpento.3.33651

Abstract

The taxon Nematopogon adansoniella (de Villers, 1789), originally described from the south-western Alps, is re-evaluated. Based on DNA barcode examinations and morphological characters Nematopogon prolai Hartig, 1941 from the Apennines (central Italy) is recognized as a separate species and a lectotype is designated. Another cryptic species is Nematopogon garganellus sp. nov. from Monte Gargano (Puglia) and from Basilicata (southern Italy). Diagnostic morphological characters of the three species are outlined and, as far as known, information on distribution, habitat and bionomy is added.

Key Words: Lepidoptera, Nematopogoninae, DNA barcoding, Italy, Apennines, Monte Gargano, new species, lectotype designation

Nematopogon Zeller, 1839

Nematopogon adansoniella (de Villers, 1789)

Nematopogon prolai (Hartig, 1941)

Nematopogon garganellus sp. nov.

Rudolf Bryner and Peter Huemer. 2019. [Revision of the Nematopogon adansoniella species group with Description of A New Species from the Mountainous Regions of southern Italy.] Revision der Nematopogon adansoniella-Artengruppe mit Beschreibung einer neuen Art aus den Bergregionen Süditaliens (Lepidoptera, Adelidae). Alpine Entomology. 3: 93-104. DOI: 10.3897/alpento.3.33651

Zusammenfassung: Das ursprünglich aus den Südwestalpen beschriebene Taxon Nematopogon adansoniella (de Villers, 1789) wird neu bewertet. Auf Grund von DNA-Barcodeuntersuchungen sowie morphologischen Merkmalen wird Nematopogon prolai Hartig, 1941 aus dem Apennin (Mittelitalien) als eigenständige Art anerkannt und ein Lectotypus wird festgelegt. Als weitere, kryptische Art wirdNematopogon garganellus sp. nov. vom Monte Gargano (Puglia) und aus der Basilicata (Süditalien) neu beschrieben. Die morphologischen und genitalmorphologischen Unterscheidungsmerkmale der drei Arten werden aufgezeigt und, soweit bekannt, Angaben zu Verbreitung, Lebensraum und Bionomie gemacht.

Zamia brasiliensis Calonje & Segalla

in Segalla & Calonje, 2019.

DOI: 10.11646/phytotaxa.404.1.1

Abstract

Zamia brasiliensis Calonje & Segalla, a new subterranean-stemmed species of Zamia (Zamiaceae) from Mato Grosso and Rondônia, Brazil, is described and illustrated. It is compared to two morphologically similar species with adjacent geographic distributions: Z. boliviana from the Cerrado biome, and the Amazonian species Z. ulei. The new species shares unarmed petioles with Z. boliviana but is readily distinguishable by its much broader leaflets. Z. brasiliensis has leaflets somewhat resembling those of juvenile individuals of Z. ulei, but the latter species is easily differentiated by the presence of prickles on its petiole.

Keywords: Cerrado-Amazon Rainforest, Cycad, Endangered species, Endemic species, Gymnosperm, IUCN Red List

FIGURE 1. Vegetative characteristics of Zamia brasiliensis. A. Adult individual. B. Leaf, C. Middle leaflet. D. Cataphyll. E. Base of unarmed petiole.

FIGURE 2. Reproductive characteristics of Zamia brasiliensis.
A. Abaxial side of microsporophyll. B. Adaxial side of microsporophyll. C. Cross section of pollen strobilus, abaxial side. D. Apex of pollen strobilus showing characteristic orange-brown tomentum E. Pollen strobili, near mature and immature, and new leaf showing inflexed ptyxis. F. Seed strobilus shortly after receptivity phase. G. Mature seed sclerotesta. H. Mature seed with sarcotesta. I. Mature seed strobilus, adaxial side. J. Distal half of mature seed strobilus. A–G based on material from Itaúba, Mato Grosso, H–J from Cacoal, Rondônia.

FIGURE 3. Zamia brasiliensis in habitat.
A. Submontane semideciduous forest habitat during the dry season (September 2018) at the type locality in Itaúba, Mato Grosso. Photographed with Rosane Segalla. B. Habit of plant at type locality. C. Woodland savanna (Cerradão) habitat in Cacoal (Rondônia) at the beginning of the rainy season (November 2018). Plants most common at boundaries of Cerradão and more open ‘campo cerrado’ habitats. D. Plant growing among grasses in woodland savanna.

Photo credits: A, C, D—Rosane Segalla; B—Márcio Cassiano de Jesus.

Zamia brasiliensis Calonje & Segalla sp. nov.

Diagnosis:— Zamia brasiliensis is distinguishable from Z. boliviana in having much broader leaflets and from Z. ulei in having unarmed petioles.

Etymology:— Zamia brasiliensis is the only species of Zamia endemic to Brazil. The specific epithet refers to its distribution which is restricted to this country.

Rosane Segalla and Michael Calonje. 2019. Zamia brasiliensis, A New Species of Zamia (Zamiaceae, Cycadales) from Mato Grosso and Rondônia, Brazil. Phytotaxa. 404(1); 1–11.

DOI: 10.11646/phytotaxa.404.1.1

Brasilodon quadrangularis

Bonaparte, Martinelli, Schultz & Rubert, 2003

from the Riograndia Assemblage Zone of the Candelária Sequence, Santa Maria Supersequence (Brazil).

Illustration: Jorge Blanco.

in Guignard, Martinelli & Soares, 2019.

DOI: 10.1371/journal.pone.0216672

Abstract

Brasilodon quadrangularis (Cynodontia, Probainognathia) is an iconic non-mammaliaform cynodont from the Late Triassic of Brazil (Riograndia Assemblage Zone, Candelária Sequence), being considered as the sister taxon of Mammaliaformes. Although its phylogenetic position is very important, several aspects of its postcranial anatomy remain unclear or unstudied. Here, we present a detailed description of the postcranial elements referred to Brasilodon, including previously mentioned specimens and new ones, which add relevant information about its postcranial morphology and provide a new insight into the anatomical transition between advanced non-mammaliaform cynodonts and early mammaliaforms. Functional and ecological implications are also investigated, based on the postcranial morphology and muscular reconstructions. The postcranium of Brasilodon differs from most non-mammaliaform cynodonts and presents similarities with tritylodontids, early mammaliaforms and extant therians, such as a ventrally oriented scapular glenoid facet, a distinct and ossified greater humeral tubercle, lack of ectepicondylar foramen, olecranon process, hemispherical humeral and femoral heads and a prominent intertrochanteric crest. The humeral torsion, the length of the deltopectoral crest, the large bicipital groove and the well-developed lesser tubercle, indicate that the forelimb of Brasilodon was hold in a semi-sprawling position, with well-developed adductor muscles to maintain the body off the ground. The short femoral neck and the strong medial projection of the femoral head indicate the femur was held in a more erect posture than in basal non-mammaliaform cynodonts. The anterodorsally projected iliac blade with reduced postacetabular process, reduction of the anterior part of the pubis, medially located lesser trochanter indicate a basically mammalian pattern of pelvic musculature, able to swing the femur in a nearly parasagittal plane.

Fig 13. Paleoartistic reconstruction of Brasilodon quadrangularis (left) and Riograndia guaibensis (right), two abundant probainognathian cynodonts from the Riograndia Assemblage Zone of the Candelária Sequence, Santa Maria Supersequence (Brazil), which exhibits different morphologies in skull, dentition and locomotor apparatus.

Illustration: Jorge Blanco.

Conclusion:

The postcranium of Brasilodon quadrangularis differs from other non-mammaliaform cynodonts and is similar to early mammaliaforms and extant therians (e.g., hemispherical humeral and femoral head, distinct greater tubercle of the humerus, circular acetabulum, salient intertrochanteric crest of the femur). The morphology of the ulnar condyle of the humerus and olecranon process of the ulna suggests more abilities for extension and flexion of the elbow, a necessary component for a parasagittal locomotion. However, the humeral torsion, the length of the deltopectoral crest, the large bicipital groove and the well-developed lesser tubercle, indicate that the forelimb of B. quadrangularis was hold in a semi-sprawling position, with well-developed adductor muscles to maintain the body off the ground. The short femoral neck and the strong medial projection of the femoral head indicate the femur was held in a more erect posture than in basal non-mammaliaform cynodonts. The anterodorsally projected iliac blade with reduced postacetabular process, enlarged obturator foramen, reduction of the anterior part of the pubis, prominent and distinctive greater trochanter, medially located lesser trochanter, narrow intertrochanteric fossa represent a further continuation of trends that indicates a basically mammalian pattern of pelvic musculature, able to swing the femur in a nearly parasagittal plane.

Although fossorial or semifossorial habits appear to have been common in derived non-mammaliaform probainognathians (i.e., Riograndia, Irajatherium and Kayentatherium), the postcranial study of B. quadrangularis shows more generalized adaptations and highlights that distinctive ecological strategies (Fig 13) were developed among small-sized non-mammaliaform cynodonts.

Morgan L. Guignard, Agustin G. Martinelli and Marina B. Soares. 2019. The Postcranial Anatomy of Brasilodon quadrangularis and the Acquisition of Mammaliaform Traits Among Non-mammaliaform Cynodonts. PLoS ONE. 14(5): e0216672. DOI: 10.1371/journal.pone.0216672

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