Friday, October 20, 2017

[Botany • 2017] Curcuma cotuana • A New Species (Zingiberaceae: Zingibereae) from Quảng Nam Province, central Vietnam


Curcuma cotuana  Luu, Škorničk. & H.Đ.Trần

in Lu'u, Trần, Nguyễn & Leong-Škorničková, 2017 

Abstract
 A new ginger speciesCurcuma cotuana (subg. Ecomatae), from Tây Giang District, Quảng Nam Province, central Vietnam, is reported here. A detailed description, colour plates, and comparison with the morphologically closest allies are given, together with preliminary conservation assessments and notes on its uses by local people.

Figure 1. Curcuma cotuana sp. nov.
(A) habit, (B) inflorescence, (C) flower close-up, (D) rhizome (scale bar 3 cm), (E) stamen attached to floral tube in side, front and inclined view (scale bar 5 mm), (F) flower dissection with details of ligule in inset (from left: bract supporting two flowers, lateral staminodes, labellum, dorsal and lateral corolla lobes, epigynous glands, calyx, floral tube with ovary and stamen attached, bract) (scale bar = 2 cm).
Photos (A), (C), (D), (E), (F), (G) = Lưu Hồng Trường, (B) = Vũ Ngọc Long. 

Curcuma cotuana Luu, Škorničk. & H.Đ.Trần sp. nov. 

Etymology: We name this species after the local Cơ Tu ethnic minority, who use various parts of the plant in their traditional medicine for its anti-inflammatory properties.

Vernacular name and uses: The vernacular name of this species, Pơr’vih in the Cơ Tu language, conveys an idea of keeping the living environment of people in the village peaceful and protected against bad spirits. The main rhizome is stewed with chicken and eaten by women after birth, giving them strength to work soon afterwards. It also reduces menstrual cramp in women. Raw root tubers are mixed with honey to treat coughs in children. Young leaves are mixed with rock salt to treat toothache and gingivitis. Fresh leaves are also used for wrapping fresh fish to preserve it from spoilage. The local people also believe that the plant possesses magic qualities preventing people from getting lost in the forest.


Hồng Trường Lu'u, Hữu Đăng Trần, Trần Quốc Trung Nguyễn and Jana Leong-Škorničková. 2017. Curcuma cotuana sp. nov. (Zingiberaceae: Zingibereae) from central Vietnam. Nordic Journal of Botany. 35(5); 552–556. DOI: 10.1111/njb.01594



[Ichthyology • 2017] Channa shingon • A New Dwarf Snakehead (Perciformes: Channidae) from western Yunnan


Channa shingon
 Endruweit, 2017 

 Vertebrate Zoology. 67(2) 

Abstract

 Channa shingon, new species, is described from small mountainous rivulets associated with the Irrawaddy drainage in western Yunnan Province, China. Its maximum SL of about 100 mm makes it the smallest pelvic-fin bearing dwarf snakehead. Further specific characters are lateral head length 27–30 % SL; interorbital width 33 –35 % HL; 25–27 anal-fin rays; 44–45 lateral-line scales; 4 –5 scale rows between dorsal-fin origin and lateral line; 8 –9 scale rows between lateral line and anal-fin origin; 1 mandibular scale; 43–44 vertebrae; inferomesial process of parasphenoid very shallow and straight; dorsal profile conspicuously bulging in front of dorsal fin; juveniles without ocellus-like mark on posterior part of dorsal fin; and a pectoral-fin pattern of 3 – 4 broad gray to black bands alternating with cream to white interspaces, bands increasingly wide towards distal edge of the fin, interspaces equally wide as bands or narrower.

Key words: Channa; new species; Irrawaddy; Salween; taxonomy

Fig. 1. Channa shingon; Erganya, Yingjiang; Jieyanghe River: a, KIZ 2014005982, 89.7 mm SL, holotype; b, KIZ 2014005980, 90.2 mm SL, paratype, reversed; c, KIZ 2014005971, 89.4 mm SL; Cangyuan; Nangunhe River. 
  
Channa shingon, new species

Diagnosis. Channa shingon is distinguished from other members of the C. gachua-complex (Britz, 2008) by having a lateral head length 27–30 % SL; interorbital width 33 – 35 % HL; 25–27 [26] anal-fin rays; 44– 45 [45] lateral-line scales; 4 –5 [4] transverse scales to dorsal-fin origin and 8–9 [8] to anal-fin origin; 1 mandibular scale, 43 –44 [44] vertebrae; inferomesial process of parasphenoid very shallow and straight; dorsal profile conspicuously bulging in front of dorsal fin; pelvic fin present; juveniles without ocellus-like mark on posterior part of dorsal fin; a pectoral-fin pattern of 3–4 broad gray to black bands alternating with cream to white interspaces, width of bands increasing towards distal edge of the fin, interspaces equally wide as bands or narrower; and a maximum standard length of about 100 mm.

Distribution. Known from the Irrawaddy and Salween drainages in Dehong and Lincang prefectures, Yunnan, China; expected to occur in the same drainages in Myanmar.

 Ecology. Channa shingon prefers weedy, stagnant water sections of small mountainous rivulets. These rivulets are often redirected to irrigate rice paddies. At the type locality, the ankle-deep water was clear, with a pH of 5.9, a conductivity of 20 µS/cm, and a temperature of 12 ºC in the afternoon. The lower reaches of these rivulets, shortly before the influx into a larger stream are usually also inhabited by Misgurnus anguillicaudatus and juveniles of C. harcourtbutleri. Another habitat of C. shingon, the Mengnaihe River upstream of Xima at an elevation of 1730 m, had a water temperature of just 8 ºC in the morning (pH 6.7; 20 µS/cm); some backwaters had a thin layer of ice after a chilly night. Vast areas of C. shingon’s habitats are ephemeral and desiccate during droughts.

Etymology. The specific epithet is derived from a character in Burmese spiritualism. Shingon, also referred to as Lady Humpback, is one of the 37 officially recognized spirits (nats) in Myanmar; an allusion to the species’ humpbacked appearance; a noun in apposition.


Marco Endruweit. 2017. Description of A New Dwarf Snakehead (Perciformes: Channidae) from western Yunnan.  Vertebrate Zoology. 67(2); 173-178.

     

[Herpetology • 2017] Phyllodytes amadoi • A New Species of Phyllodytes (Anura: Hylidae) from the Atlantic Rainforest of southern Bahia, Brazil


Phyllodytes amadoi
Vörös, Dias & Solé, 2017


Abstract

We describe Phyllodytes amadoi sp. nov.a species of treefrog from the Atlantic Rainforest of southern Bahia, Brazil. The new species can be diagnosed by its small body size (SVL 15.6–23.0 mm) and advertisement call with high dominant frequency (3.789–4.306 Hz). It is known from one locality in the Private Reserve of Natural Heritage Ararauna, in the municipality of Una (15° 18' 38.3" S, 39° 9' 55.9" W, 96 m a.s.l.).

Keywords: Amphibia, Anura, bioacoustics, Hylidae, Lophiohylinae, morphology, Phyllodytes amadoi


Judit Vörös, Iuri Ribeiro Dias and Mirco Solé. 2017. A New Species of Phyllodytes (Anura: Hylidae) from the Atlantic Rainforest of southern Bahia, Brazil. Zootaxa. 4337(4); 584–594. DOI:  10.11646/zootaxa.4337.4.9


Thursday, October 19, 2017

[PaleoOrnithology • 2017] Junornis houi • Flight Aerodynamics in Enantiornithines: Information from A New Chinese Early Cretaceous Bird


Junornis houi 
Liu, Chiappe, Serrano, Habib, Zhang and Meng, 2017

Abstract

We describe an exquisitely preserved new avian fossil (BMNHC-PH-919) from the Lower Cretaceous Yixian Formation of eastern Inner Mongolia, China. Although morphologically similar to Cathayornithidae and other small-sized enantiornithines from China’s Jehol Biota, many morphological features indicate that it represents a new species, here named Junornis houi. The new fossil displays most of its plumage including a pair of elongated, rachis-dominated tail feathers similarly present in a variety of other enantiornithines. BMNHC-PH-919 represents the first record of a Jehol enantiornithine from Inner Mongolia, thus extending the known distribution of these birds into the eastern portion of this region. Furthermore, its well-preserved skeleton and wing outline provide insight into the aerodynamic performance of enantiornithines, suggesting that these birds had evolved bounding flight—a flight mode common to passeriforms and other small living birds—as early as 125 million years ago.


 


Systematic Paleontology

Aves Linnaeus, 1758  
Pygostylia Chiappe, 2001  
Ornithothoraces Chiappe, 1995  

Enantiornithes Walker, 1981 

Junornis houi gen. et sp. nov.

Fig 1. Slab (BMNHC-PH 919a) (A) and counterslab (BMNHC-PH 919b) (B) of Junornis houi.

Holotype: A nearly complete and articulated skeleton (BMNHC-PH 919; Beijing Museum of Natural History) contained in two slabs (a, b). While the skeleton is preserved as voids of the bony elements, it is surrounded by feather impressions defining the surface of its wings and body outline (Fig 1).

Horizon and locality: Yixian Formation, Early Cretaceous (~ 126±4 mya); Liutiaogou Village, Daming Town, Ningchen County, Inner Mongolia Autonomous Region, China.

Etymology: The generic name Jun is derived from a Chinese character () meaning beautiful; ornis is Greek for bird. The species name, houi honors Dr. Hou Lianhai and his important contributions to Chinese paleornithology.

Diagnosis: A small Cathayornis-like bird distinguishable from other similar enantiornithines by the following combination of characters: rounded craniolateral corner of sternum (more angular in Cathayornis yandica and Houornis caudatus); distinct trough excavating ventral surface of mediocranial portion of sternum; triangular process at base of sternal lateral trabecula (absent in H. caudatus and E. walkeri); sternal lateral trabecula broad (much wider than in C. yandica, E. walkeri, and H. caudatus) and laterally deflected (straight in C. yandica and E. walkeri); sternal intermediate trabecula nearly level with mid-shaft of lateral trabecula (significantly shorter in C. yandica, H. caudatus and E. walkeri); sternal xiphoid process level with lateral trabeculae (trabeculae project further caudal in H. cautus and C. yandica); costal processes of last two penultimate synsacral vertebrae three times wider than same process of last synsacral vertebra; and very broad pelvis.

Conclusions
The discovery of Junornis houi, the first published record of a Jehol enantiornithine from Inner Mongolia Autonomous Region, extends the geographic distribution of these early birds into the eastern portion of this region. The well-preserved wings and overall plumage of BMNHC-PH 919 adds significant information to the poor evidence of wing shape in Enantiornithes. Multiple regressions of skeletal elements and remiges allow estimation of key aerodynamic parameters (aspect ratio and wing loading) for this new enantiornithine. The small size, low aspect ratio, and low wing loading of BMNHC-PH 919 indicate that Junornis houi and other similar enantiornithines could have used bounding as their typical flight mode, especially at high speeds. The general morphology of BMNHC-PH 919 thus supports previous interpretations indicating that most avian flight modes have very ancient origins; bounding flight might have evolved among enantiornithines more than 125 million years ago.


 Di Liu, Luis M. Chiappe, Francisco Serrano, Michael Habib, Yuguang Zhang and Qinjing Meng. 2017. Flight Aerodynamics in Enantiornithines: Information from A New Chinese Early Cretaceous Bird. PLoS ONE. 12(10): e0184637.  DOI: 10.1371/journal.pone.0184637

   

[Botany • 2017] A Taxonomic Revision of Four Complexes in the Genus Pourthiaea (Rosaceae)


Pourthiaea arguta


Abstract

The taxonomy of four species complexes of Pourthiaea (i.e., Pourthiaea argutaP. pilosicalyxP. salicifolia, and P. sorbifolia), distributed in E, S, and SE Asia, is extremely controversial among authors. This situation may have been caused by the lack of proper analysis and evaluation of the characters at the population level used previously. The present study is the first comprehensive taxonomic revision of these four complexes. We conducted extensive field observations, population sampling, examination of a large number of specimens, and did subsequent statistical analysis of the characters. All the morphological characters used in previous taxonomic treatments were evaluated one by one at the population level. They are length, width, margin, number of lateral veins, type of base, type of apex, and shape of leaf blade, length of petioles, type of inflorescences, length of pedicels, and density of indumentum on leaf blade and inflorescences. All these characters were found to be extremely variable within population and continuously varied between populations, and thus they are of little value for delimiting species. However, seven characters, i.e., width of leaf blade, lateral veins of leaf blade parallel or not, lower surface of leaf blade glabrescent or not, type of fruit, sepals caducous or not, number of carpels, and ratio of number of fertile seeds to that of total seeds, were found distinctly different (for qualitative characters) or statistically discontinuous (for quantitative characters), and thus they are valuable for species delimitation in these four complexes. As a result, we recognize four species and two subspecies, P. pilosicalyx, P. salicifolia, P. sorbifolia, and P. arguta which consists of two subspecies: subsp. arguta and subsp. pustulata. Two new combinations, P. sorbifolia (W. B. Liao & W. Guo) B. B. Liu & D. Y. Hong and P. arguta subsp. pustulata (Lindl.) B. B. Liu & D. Y. Hong, are proposed herein. Forty-one taxa are reduced as new synonyms, and 20 lectotypes are designated here.

Keywords:  Photinia, population sampling, standard deviation, statistics, typification, Eudicots



Bin-Bin Liu and De-Yuan Hong. 2017. A Taxonomic Revision of Four Complexes in the Genus Pourthiaea (Rosaceae).  Phytotaxa. 325(1); 1–75. DOI:  10.11646/phytotaxa.325.1.1


[Ichthyology • 2017] Roa rumsfeldi • A New Butterflyfish (Teleostei, Chaetodontidae) from Mesophotic Coral Ecosystems of the Philippines


Roa rumsfeldi 
  Rocha, Pinheiro, Wandell, Rocha & Shepherd, 2017
Figure 2. Live specimen of Roa rumsfeldi sp. n. photographed at the California Academy of Sciences’ Twilight Zone exhibit (photo LA Rocha).

Abstract
A new species of the butterflyfish genus Roa is herein described from the Verde Island Passage in the Philippines, West Pacific Ocean. Roa rumsfeldi sp. n. was found on mesophotic coral ecosystems at Puerto Galera and Batangas, and sampled through technical mixed-gas rebreather diving at 100–130 m depth. This represents the fifth known species of Roa. The main differences between Roa rumsfeldi sp. n. and its congeners are the lower number of pored scales in the lateral line, longer snout, longer caudal peduncle, shorter caudal fin, pelvic fin color (dark first spine vs. white in all other Roa), and genetics (8.4% divergence from its closest relative Roa modesta in the mitochondrial COI gene). Roa spp. are usually seen in pairs, but the two specimens we collected were solitary individuals. We have kept one of the specimens alive in the California Academy of Sciences’ Twilight Zone exhibit for more than one year, where it thrives and is feeding on a variety of dried and fresh food.

Keywords: Coral triangle, deep reefs, new species, rebreather diving, reef fish

Figure 1. Roa rumsfeldi sp. n., holotype shortly after death, 77.53 mm SL, PNM 15198 (photo LA Rocha).

Roa rumsfeldi sp. n. 
Deep-blackfin butterflyfish

Diagnosis: Roa rumsfeldi sp. n. differs from all of its congeners by the smaller number of pored scales in the lateral line pored scales (27 versus 37-46 in other Roa), longer snout (35.9% in HL vs. 28.2–35.5%), shorter first dorsal ray (12% in SL vs. 16.6–26.6%), longer caudal peduncle (8.5% in SL vs. 4.2–8.2%), shorter caudal fin (15.9% in SL vs. 19.8–25.9%), and a dark brown pelvic-fin spine (white in all other known Roa species).

Etymology: We name Roa rumsfeldi to honor Donald Rumsfeld who immortalized the quote: “there are known knowns; there are things we know we know. We also know there are known unknowns; that is to say we know there are some things we do not know. But there are also unknown unknowns – the ones we don’t know we don’t know.” He said that when referring to the uncertainties of war, but we think it applies perfectly to the taxonomy of MCE species: We only realized this species was new after we took a good look at it here at the aquarium in San Francisco, so we think it’s a perfect example of an unknown unknown.

Distribution and habitat: Roa rumsfeldi sp. n. is only known to occur in the Verde Island Passage, central Philippines. It was found on MCEs of Puerto Galera, Oriental Mindoro, and Bauan, Batangas, between 100 and 130 m depth. However, the species likely has a wider distribution and remains undetected because of its preferred depth range. The ecosystems where it was found vary from sheltered rocky outcroppings heavily covered by fine sediment to areas exposed to strong currents. The ambient seawater temperature varied between 19 and 21°C during our dives, which were conducted in April-May over several years. Azooxanthellate gorgonians, black corals, and solitary stony corals are the most abundant benthic invertebrates in this habitat.


 Luiz A. Rocha, Hudson T. Pinheiro, Matt Wandell, Claudia R. Rocha and Bart Shepherd. 2017. Roa rumsfeldi, A New Butterflyfish (Teleostei, Chaetodontidae) from Mesophotic Coral Ecosystems of the Philippines. ZooKeys. 709; 127-134.  DOI: 10.3897/zookeys.709.20404

[Entomology • 2017] Carmenta wildishorum • A New Species of Carmenta (Lepidoptera: Sesiidae: Sesiinae: Synanthedonini) from New Mexico supported by Morphology and Mitochondrial Cytochrome Oxidase I Data


Carmenta wildishorum
Taft & Cognato, 2017


Abstract

A preliminary phylogeny of 36 species of Carmenta (Lepidoptera: Sesiidae) was reconstructed based on mitochondrial cytochrome oxidase I DNA sequences using parsimony and Bayesian inference in order to assess the placement of a suspected new species. Although the phylogeny was not completely resolved, there were well-supported species groups associated with geography. Based on these results and diagnostic morphological characters, Carmenta wildishorum, n. sp., is described and illustrated from the Cimarron Mountain Range in northeastern New Mexico. The new species is sister to C. texana with a 5.2% nucleotide difference between the two, which is similar to the distance between other Carmenta species and exceeds the intraspecific difference observed within C. texana (0.3%). The phylogeny also suggests additional hidden species diversity among Carmenta species that have large geographic distributions.

Keywords:  Lepidoptera, mitochondrial, DNA taxonomy, systematics, Sesiidae




William H. Taft and Anthony I. Cognato. 2017. Recognition of A New Species of Carmenta from New Mexico supported by Morphology and Mitochondrial Cytochrome Oxidase I Data (Lepidoptera: Sesiidae: Sesiinae: Synanthedonini). Zootaxa. 4337(3); 436–444. DOI:  10.11646/zootaxa.4337.3.8

[Crustacea • 2017] Epimeria of the Southern Ocean with Notes on Their Relatives (Amphipoda, Eusiroidea)


Epimeria (Drakepimeria) loerzae
E. (Hoplepimeriaquasimodo 
E. (Drakepimeriacyrano 
d'Udekem d'Acoz & Verheye, 2017


Abstract

The present monograph includes general systematic considerations on the family Epimeriidae, a revision of the genus Epimeria Costa in Hope, 1851 in the Southern Ocean, and a shorter account on putatively related eusiroid taxa occurring in Antarctic and sub-Antarctic seas. The former epimeriid genera Actinacanthus Stebbing, 1888 and Paramphithoe Bruzelius, 1859 are transferred to other families, respectively to the Acanthonotozomellidae Coleman & J.L. Barnard, 1991 and the herein re-established Paramphithoidae G.O. Sars, 1883, so that only Epimeria and Uschakoviella Gurjanova, 1955 are retained within the Epimeriidae Boeck, 1871. The genera Apherusa Walker, 1891 and Halirages Boeck, 1891, which are phylogenetically close to Paramphithoe, are also transferred to the Paramphithoidae. The validity of the suborder Senticaudata Lowry & Myers, 2013, which conflicts with traditional and recent concepts of Eusiroidea Stebbing, 1888, is questioned. Eight subgenera are recognized for Antarctic and sub-Antarctic species of the genus Epimeria: Drakepimeria subgen. nov., Epimeriella K.H. Barnard, 1930, Hoplepimeria subgen. nov., Laevepimeria subgen. nov., Metepimeria Schellenberg, 1931, Pseudepimeria Chevreux, 1912, Subepimeria Bellan-Santini, 1972 and Urepimeria subgen. nov. The type subgenus Epimeria, as currently defined, does not occur in the Southern Ocean. Drakepimeria species are superficially similar to the type species of the genus Epimeria: E. cornigera (Fabricius, 1779), but they are phylogenetically unrelated and substantial morphological differences are obvious at a finer level. Twenty-seven new Antarctic Epimeria species are described herein: Epimeria (Drakepimeria) acanthochelon subgen. et sp. nov., E. (D.) anguloce subgen. et sp. nov.E. (D.) colemani subgen. et sp. nov.E. (D.) corbariae subgen. et sp. nov.E. (D.) cyrano subgen. et sp. nov.E. (D.) havermansiana subgen. et sp. nov.E. (D.) leukhoplites subgen. et sp. nov.E. (D.) loerzae subgen. et sp. nov.E. (D.) pandora subgen. et sp. nov.E. (D.) pyrodrakon subgen. et sp. nov.E. (D.) robertiana subgen. et sp. nov., Epimeria (Epimeriella) atalanta sp. nov., Epimeria (Hoplepimeria) cyphorachis subgen. et sp. nov., E. (H.) gargantua subgen. et sp. nov., E. (H.) linseae subgen. et sp. nov., E. (H.) quasimodo subgen. et sp. nov., E. (H.) xesta subgen. et sp. nov., Epimeria (Laevepimeria) anodon subgen. et sp. nov., E. (L.) cinderella subgen. et sp. nov., Epimeria (Pseudepimeria) amoenitas sp. nov., E. (P.) callista sp. nov., E. (P.) debroyeri sp. nov., E. (P.) kharieis sp. nov., Epimeria (Subepimeria) adeliae sp. nov., E. (S.) iota sp. nov., E. (S.) teres sp. nov. and E. (S.) urvillei sp. nov. The type specimens of E. (D.) macrodonta Walker, 1906, E. (D.) similis Chevreux, 1912, E. (H.) georgiana Schellenberg, 1931 and E. (H.) inermis Walker, 1903 are re-described and illustrated. Besides the monographic treatment of Epimeriidae from the Southern Ocean, a brief overview and identification keys are given for their putative and potential relatives from the same ocean, i.e., the Antarctic and sub-Antarctic members of the following eusiroid families: Acanthonotozomellidae Coleman & J.L. Barnard, 1991, Dikwidae Coleman & J.L. Barnard, 1991, Stilipedidae Holmes, 1908 and Vicmusiidae Just, 1990. This overview revealed the existence of a new large and characteristic species of Alexandrella Chevreux, 1911, A. chione sp. nov. but also shows that the taxonomy of that genus remains poorly known and that several ‘variable widespread eurybathic species’ probably are species complexes. Furthermore, the genera Bathypanoploea Schellenberg, 1939 and Astyroides Birstein & Vinogradova, 1960 are considered to be junior synonyms of Alexandrella. Alexandrella mixta Nicholls, 1938 and A. pulchra Ren in Ren & Huang, 1991 are re-established herein, as valid species. It is pointed out that this insufficient taxonomic knowledge of Antarctic amphipods impedes ecological and biogeographical studies requiring precise identifications. Stacking photography was used for the first time to provide iconographic support in amphipod taxonomy, and proves to be a rapid and efficient illustration method for large tridimensionally geometric species. A combined morphological and molecular approach was used whenever possible for distinguishing Epimeria species, which were often very similar (albeit never truly cryptic) and sometimes exhibited allometric and individual variations. However in several cases, taxa were characterized by morphology only, whenever the specimens available for study were inappropriately fixed or when no sequences could be obtained. A large number of Epimeria species, formerly considered as eurybathic and widely distributed, proved to be complexes of species, with a narrower (overlapping or not) distribution. The distributional range of Antarctic Epimeria is very variable from species to species. Current knowledge indicates that some species from the Scotia Arc and the tip of the Antarctic Peninsula are narrow range endemics, sometimes confined to one island, archipelago, or ridge (South Georgia, South Orkney Islands, Elephant Island or Bruce Ridge); other species have a distribution encompassing a broader region, such as the eastern shelf of the Weddell Sea, or extending from the eastern shelf of the Weddell Sea to Adélie Coast. The most widely distributed species are E. (D.) colemani subgen. et sp. nov., E. (E.) macronyx (Walker, 1906), E. (H.) inermis Walker, 1903 and E. (L.) walkeri (K.H. Barnard, 1930), which have been recorded from the Antarctic Peninsula/South Shetland Islands area to the western Ross Sea. Since restricted distributions are common among Antarctic and sub-Antarctic Epimeria, additional new species might be expected in areas such as the Kerguelen Plateau, eastern Ross Sea, Amundsen Sea and the Bellingshausen Sea or isolated seamounts and ridges, where there are currently no Epimeria recorded. The limited distribution of many Epimeria species of the Southern Ocean is presumably related to the poor dispersal capacity in most species of the genus. Indeed with the exception of the pelagic and semi-pelagic species of the subgenus Epimeriella, they are heavy strictly benthic organisms without larval stages, and they have no exceptional level of eurybathy for Antarctic amphipods. Therefore, stretches deeper than 1000 m seem to be efficient geographical barriers for many Epimeria species, but other isolating factors (e.g., large stretches poor in epifauna) might also be at play. The existence of endemic shelf species with limited dispersal capacities in the Southern Ocean (like many Epimeria) suggests the existence of multiple ice-free shelf or upper slope refugia during the Pleistocene glaciations within the distributional and bathymetric range of these species. Genera with narrow range endemics like Epimeria would be excellent model taxa for locating hotspots of Antarctic endemism, and thus potentially play a role in proposing meaningful Marine Protected Areas (MPAs) in the Southern Ocean.

Keywords: Alexandrella; Amphipoda; Epimeria; Eusiroidea; Senticaudata; Southern Ocean






Cédric d'Udekem d'Acoz and Marie L. Verheye. 2017. Epimeria of the Southern Ocean with Notes on Their Relatives (Crustacea, Amphipoda, Eusiroidea).  European Journal of Taxonomy. 359;  1–553.  DOI: 10.5852/ejt.2017.359

28 New Amphipod Species Discovered in Antarctica  NaturalSciences.be/en/news/item/9067    via @RBINSmuseum

Tuesday, October 17, 2017

[Herpetology • 2017] Hemidactylus kangerensis • A New Large Species of Gecko of the Genus Hemidactylus Oken, 1817 (Sauria: Gekkonidae) from the Eastern Ghats, India


Hemidactylus kangerensis
Mirza, Bhosale & Patil, 2017

A new large species of gecko superficially resembling Hemidactylus maculatus Duméril & Bibron and its allied large Hemidactylus is described from Eastern Ghats. The new species, Hemidactylus kangerensis sp. nov. can be easily distinguished from members of the H. maculatus complex based on the number of femoral pores, i.e. 18–21 on each side, separated medially by 4 non-pored scales. A phylogenetic analysis based on partial sequence of mitochondrial gene cytochrome b shows that the gecko is a member of the “H. prashadi” clade and is sister to H. maculatus, from which it differs in an uncorrected pairwise sequence divergence of 10%. The discovery of a new large gecko from Eastern Ghats advocates the need for biodiversity assessment across the neglected Eastern Ghats.

Keywords: Hemidactylus maculatus; India; New species; Species complex; Taxonomy; mtDNA; cyt b


Fig. 7. Hemidactylus kangerensis sp. nov. coloration in life, paratype female BNHS 2487.
 Photo: Zeeshan Mirza.

 Systematics
Hemidactylus kangerensis sp. nov.

Hemidactylus maculatus Sanyal & Dasgupta 1990: 18; Ingle 2003:2
Hemidactylus subtriedrus Sanyal & Dasgupta 1990: 18–19; Javed et al., 2009: 368 (in part)
Hemidactylus cf. maculatus Mahony 2009: 60–61; Javed et al., 2011: 10 (in part)
Hemidactylus sp. Agarwal et al., 2011: 36; Mirza & Sanap 2014: 16 (in part

Etymology: The species is named after Kanger Valley National Park, where the type locality is located.

Suggested common name: Kanger valley rock gecko.


Zeeshan A. Mirza, Harshal Bhosale and Rishikesh Patil. 2017. A New Large Species of Gecko of the Genus Hemidactylus Oken, 1817 (Reptilia: Sauria: Gekkonidae) from the Eastern Ghats, India. Comptes Rendus Biologies.  In Press.  DOI:  10.1016/j.crvi.2017.09.003

  

Mangaluru: New species of gecko found in Eastern ghats - Bangalore Mirror  bangaloremirror.indiatimes.com/news/state/mangaluru-new-species-of-gecko-found-in-eastern-ghats/articleshow/61093359.cms  @bangaloremirror

[Tunicata • 2017] Shallow-water Ascidians from Matua Island (central Kuril Islands, NW Pacific), part 2


Synoicum polyzoinum
Sanamyan & Sanamyan, 2017


Abstract

The paper reports several ascidians, previously not known from central group of Kurile Islands, including two new species, Synoicum polyzoinum n. sp. and Aplidium matua n. sp. In order to systematize our knowledge on numerous members of these genera, reported from NW Pacific, we provide an overview of all Synoicum and Aplidium species, known from Far Eastern Seas of Russia, including comments on the species erroneously identified in the past.

Keywords: Tunicata, Ascidiacea, Aplidium, Synoicum, Kuril Islands, Matua Island, NW Pacific




Karen Sanamyan and Nadya Sanamyan. 2017. Shallow-water Ascidians from Matua Island (central Kuril Islands, NW Pacific), part 2. Zootaxa. 4337(1);  121–131.  DOI: 10.11646/zootaxa.4337.1.6



[Herpetology • 2017] Hypogeophis pti • A New Species of Small and Highly Abbreviated Caecilian (Gymnophiona: Indotyphlidae) from the Seychelles Island of Praslin, and A Recharacterization of Hypogeophis brevis


 Hypogeophis pti 
Maddock, Wilkinson, Nussbaum & Gower, 2017


Abstract

A new species of indotyphlid caecilian amphibian, Hypogeophis pti sp. nov., is described based on a series of specimens from the Seychelles island of Praslin. The type series was collected in 2013 and 2014, and a referred specimen previously identified as H. brevis Boulenger, 1911 was collected from an unspecified Seychelles locality in 1957. The new species most closely resembles the Seychelles endemic Hypogeophis brevis in being short (maximum known total length in life ca. 120 mm) and long snouted, but differs by having a less anteriorly positioned tentacular aperture and fewer primary annuli and vertebrae. In having only 67–69 vertebrae, H. pti sp. nov. is the most abbreviated extant species of caecilian reported to date.

Keywords:  Amphibia, herpetology, Indian Ocean, taxonomy, Vallée de Mai


FIGURE 5. Hypogeophis brevis, specimens in life collected in 2014 on Mahé from two localities: (a) Casse Dents, specimen BMNH 2005.1984, 1985 or 1986, (b) Brûlée, BMNH 2005.1793.
FIGURE 11. Hypogeophis pti sp. nov., paratype specimens in life collected from Fond Peper, Praslin, 2014. (a) BMNH 2005.1830 or 1832; (b) BMNH 2005.1833.




Hypogeophis pti sp. nov.

Etymology. The specific epithet is in reference to the very small size of the species, one of the smallest of known caecilians. ‘Pti’ is a typical spelling in Seychellois Creole of the French petit/petite (small, in English). For nomenclatural purposes the specific epithet is considered to be a noun in apposition. 

Suggested ‘common’ name. Petite Praslin caecilian.


Simon T. Maddock, Mark Wilkinson, Ronald A. Nussbaum and David J. Gower. 2017. A New Species of Small and Highly Abbreviated Caecilian (Gymnophiona: Indotyphlidae) from the Seychelles Island of Praslin, and A Recharacterization of Hypogeophis brevis Boulenger, 1911Zootaxa. 4329(4); 301–326.  DOI:  10.11646/zootaxa.4329.4.1

   

[Botany • 2017] Dendrobium chiangdaoense • A New Species (Orchidaceae) from northern Thailand


Dendrobium chiangdaoense
Promm., Kidyoo, Buddhawong & Suddee 

เอื้องข้าวตอกเชียงดาว || DOI: 10.11646/phytotaxa.307.1.8   facebook.com/BotGeneCHULA

Abstract

Dendrobium chiangdaoense, a new species belonging to Dendrobium section Stachyobium is described and illustrated. It is only known from the type locality in mixed deciduous forest at ca. 800 m elev. on limestone hills in Chiang Dao District, Chiang Mai Province, northern Thailand. It most closely resembles Ddixonianum, a more widespread northern Thailand species occurring in upper montane rain forest at 1,650–1,800 m elev.

Keywords: Orchidaceae, Dendrobium sect. StachyobiumDendrobium chiangdaoense, new species, Monocots

FIGURE 2. Dendrobium chiangdaoense (Buddhawong & Suddee 018); plants in natural habitat.
photo by W. Buddhawong. 

Dendrobium chiangdaoense (Buddhawong & Suddee 018); flowers and inflorescence.
photo by W. Buddhawong. 

Dendrobium chiangdaoense Promm., Kidyoo, Buddhawong & Suddee sp. nov. 

Dendrobium chiangdaoense is most similar to D. dixonianum but differs in having bract longer than pedicel plus ovary, inflorescences not exceeding leaves, lateral sepals obliquely falcate-triangular not recurved, labellum bright green, apex of keel acute and not divided to lobes.

Type:—THAILAND. Chiang Mai Province: Chiang Dao District, ..., ca. 800 m elev.,
October 2015, Buddhawong & Suddee 018 (holotype BKF!).


Distribution.—Northern Thailand (Chiang Mai Province). 

Habitat & Ecology.—Epiphytic herb on tree trunks in mixed deciduous forest on limestone hills at ca. 800 m elev. Flowering from October to November. 

Etymology.—The epithet “chiangdaoense” refers to the Chiang Dao District, the locality where the plants were found and collected.


Phattaravee Prommanut, Manit Kidyoo, Wins Buddhawong and Somran Suddee. 2017. Dendrobium chiangdaoense (Orchidaceae), A New Species from Thailand.  Phytotaxa. 307(1); 84-88. 


กล้วยไม้ชนิดใหม่ของโลก: เอื้องข้าวตอกเชียงดาว
Dendrobium chiangdaoense Prommanut, Suddee, Buddhawong & Kidyoo
เอื้องข้าวตอกเชียงดาวเป็นกล้วยไม้ชนิดใหม่ของโลก พบขึ้นตามต้นไม้ในป่าเต็งรังบนเขาหินปูนทางภาคเหนือของไทย ตีพิมพ์ในวารสาร Phytotaxa เล่มที่ 307(1) หน้าที่ 84–88 ปี 2017 โดยนายภัทธรวีร์ พรมนัส ดร. สมราน สุดดี นักวิทยาศาสตร์ชำนาญการพิเศษ สำนักงานหอพรรณไม้ (BKF) สำนักวิจัยการอนุรักษ์ป่าไม้และพันธุ์พืช กรมอุทยานแห่งชาติ สัตว์ป่าและพันธุ์พืช นายวิน พุทธวงศ์ นักวิจัยอิสระ และ รศ. ดร. มานิต คิดอยู่ ภาควิชาพฤกษศาสตร์ คณะวิทยาศาสตร์ จุฬาลงกรณ์มหาวิทยาลัย 
.
ในประเทศไทยพบกล้วยไม้ชนิดนี้ได้ที่จังหวัดเชียงใหม่เท่านั้น คำระบุชนิด “chiangdaoense” หมายถึง ดอยเชียงดาว สถานที่ที่พบเป็นครั้งแรก กล้วยไม้ชนิดนี้เป็นพืชถิ่นเดียว (endemic species) ของไทย

   

[Ichthyology • 2017] Gymnocranius obesus • A New Large-eye Seabream from the Coral Triangle


Gymnocranius obesus 
Chen, Miki & Borsa, 2017

Obese Large-eye Seabream  | DOI: 10.1016/j.crvi.2017.08.004  

Abstract
Two previously recorded new species of the large-eye seabream genus Gymnocranius (Gymnocranius sp. D and Gymnocranius sp. E) remain undescribed. Here we describe Gymnocranius sp. E as Gymnocranius obesus sp. nov. This new species is morphologically distinct from all other known species under Gymnocranius by the following combination of characters: relatively deep body, with ratio of standard length to body depth 2.2–2.4; protruding large eye, with eye diameter about equal to or slightly larger than inter-orbital width; caudal fin moderately forked; no blue spots or wavy blue lines on cheek and snout in adults; fourth transversal dark bar on flank running from the sixth spine of the dorsal fin to the origin of the anal fin; anal, caudal and dorsal fins drab with yellowish to yellow margins. Gymnocranius obesus sp. nov. is distinct from G. griseus, with which it has been previously confused by a relatively larger head, scales above lateral line without dark basal patch, and a smaller number of front scales on the dorsal side of the head. Gymnocranius obesus sp. nov. is genetically distinct from its closest known relative, Gymnocranius sp. D by 104 diagnostic nucleotide characters, which translates into a 9.6% sequence divergence at the mitochondrial cytochrome b gene. Gymnocranius obesus sp. nov. reaches a length of at least 295 mm. Its distribution, from the Ryukyu Islands to Bali, including Taiwan and the Flores Sea, mostly coincides with the western half of the Coral Triangle.

Keywords: New species, Indo-West Pacific, Gymnocranius sp. D, Gymnocranius griseus




Gymnocranius obesus sp. nov. 
 Previously referred to as Gymnocranius sp. E [Borsa, et al., 2013],
Gymnocranius sp. 1 [Anonymous, 2016],
Gymnocranius griseus [Chiang, et al., 2014],
and Gymnocranius grandoculis [Shao, 2016].

Diagnosis: Gymnocranius obesus sp. nov. differs from its morphologically close congeners G. griseus and Gymnocranius sp. D by the number of front scales on the top of the head, and by the dark-bar patterns on flanks. While the fourth transversal dark bar in G. obesus sp. nov. runs from the basis of the sixth spine of the dorsal fin down to the origin of the anal fin, the one in Ggriseus, when visible, runs down from the base of the sixth dorsal spine to the abdomen (Table 3). That in Gymnocranius sp. D descends from the sixth dorsal spine to the extremity of abdomen, before the anus (Table 3).

Along the cytochrome b gene, the following apomorphic sites have nucleotides shared by all five specimens of G. obesus sp. nov. examined so far, that are not present in G. elongatus, G. euanus, G. grandoculis, G. griseus, G. oblongus, G. satoi, G. superciliosus and Gymnocranius sp. D: Nos. 61, 108, 117, 135, 153, 165, 300, 303, 318, 375, 501, 564, 627, 630, 684, 756, 765, 816, 967, 972, and 1032. These nucleotide sites can be used for the diagnosis of G. obesus sp. nov. relative to G. griseus and Gymnocranius sp. D.


Etymology: Epithet obesus is the Latin translation of obese, a reference to the deep and relatively thick body shape of the specimens of this species. We propose the Obese Large-eye Seabream as vernacular name for G. obesus sp. nov.



Fig. 1. Type series of Gymnocranius obesus sp. nov. 
A. Specimen NTUM 12079 (sample Let1006), holotype, standard length (SL) 270 mm, collected 3 October 2013 from off Fugang, Taitung, Taiwan (photographed by WJC). B. Specimen MUFS 25522, paratype, SL 295 mm, from off Anbo, Yaku-shima Island, Kagoshima prefecture, Japan (30°19′N, 130°39′E), 11 August 2008 (photographed by the MUFS fish team). C. Specimen MUFS 41271, paratype, SL 209 mm, purchased at Tomari-Fish Market (26°14′N, 127°41′E), Okinawa Island, Japan, 27 October 2012 (photographed by RM). D. Specimen MUFS 41272, paratype, SL 244 mm, purchased at the same place and same date (photographed by RM). E. Specimen NTUM 10766 (Let998), paratype, SL195 mm, from Fugang fishing port, Taiwan, 03 October 2013 (photographed by WJC). F. Specimen NTUM 10766 (Let999), paratype, SL220 mm, from Fugang fishing port, Taiwan, 03 October 2013 (photographed by WJC). G. Specimen NTUM 10766 (Let1004), paratype, SL192 mm, from Fugang fishing port, Taiwan, 03 October 2013 (photographed by WJC). H. Specimen NTUM 10766 (Let1005), paratype, SL239 mm, from Fugang fishing port, Taiwan, 03 October 2013 (photographed by WJC). 




 Wei-Jen Chen, Ryohei Miki and Philippe Borsa. 2017. Gymnocranius obesus, A New Large-eye Seabream from the Coral Triangle. Comptes Rendus Biologies. In Press. DOI: 10.1016/j.crvi.2017.08.004 

2017. Gymnocranius obesus, un nouveau bossu blanc du Triangle de Corail. 
Résumé: Deux nouveaux bossus blancs du genre Gymnocranius, précédemment signalés comme Gymnocranius sp. D et Gymnocranius sp. E, restent non décrits. Nous décrivons ici Gymnocranius sp. E comme Gymnocranius obesus sp. nov. Cette nouvelle espèce est morphologiquement distincte de toutes les autres espèces connues du genre Gymnocranius par la combinaison de caractères suivante : corps relativement haut, où le rapport de la longueur standard à la hauteur du corps est 2,2–2,4 ; œil saillant, large, dont le diamètre est approximativement égal ou légèrement supérieur à la distance interorbitaire ; nageoire caudale modérément fourchue ; pas de taches bleues ni de lignes bleues ondulées sur la joue et le museau chez les adultes ; quatrième barre transversale sombre sur le flanc allant de la base du sixième rayon de la nageoire dorsale à l’origine de la nageoire anale ; bord externe des nageoires anale, caudale et dorsale jaunâtre à jaune. Gymnocranius obesus sp. nov. se distingue de G. griseus, avec lequel il a été précédemment confondu, par une tête relativement plus grande, des écailles au-dessus de la ligne latérale sans patch basal sombre, et un plus petit nombre d’écailles frontales sur le dos de la tête. Gymnocranius obesus sp. nov. est génétiquement distinct de son plus proche parent connu, Gymnocranius sp. D, par 104 caractères nucléotidiques diagnostiques au gène mitochondrial du cytochrome b, ce qui se traduit par une divergence de séquence de 9,6 %. Gymnocranius obesus sp. nov. atteint au moins 295 mm de longueur. Sa distribution, des îles Ryukyu à Bali en passant par Taïwan et la mer de Flores, coïncide essentiellement avec la moitié ouest du Triangle de Corail.
Mots clés: Nouvelle espèce, Indo-Pacifique ouest, Gymnocranius sp. D, Gymnocranius griseus