[Ichthyology • 2008] Symphurus thermophilus • A New Western Pacific Tonguefish (Pleuronectiformes: Cynoglossidae): The First Pleuronectiform discovered at active Hydrothermal Vents

October 29, 2016, 12:37 pm

≫ Next: [Herpetology • 2016] Sphenomorphus sungaicolus • The First Riparian Skink (Genus: Sphenomorphus Strauch, 1887) from Peninsular Malaysia and Its Relationship to other Indochinese and Sundaic Species

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Symphurus thermophilus     Munroe & Hashimoto, 2008

Abstract

Symphurus thermophilus n. sp., described from 16 specimens collected by submersibles, ROV, epibenthic sled and dredge, occurs on a variety of substrata at several active hydrothermal sites located at 239–733 m between 21°N and 35°S in the western Pacific Ocean. Symphurus thermophilus, the only pleuronectiform fish known to inhabit hydrothermal vent areas, is characterized by the combination of a 1–2–2–2–2 pattern of interdigitation of dorsal proximal pterygiophores and neural spines, 14 caudal-fin rays, 5 hypurals, 9 abdominal vertebrae, 47–51 total vertebrae, 88–94 dorsal-fin rays, 74–80 anal-fin rays, 100–112 scales in longitudinal series, ocular-side pigmentation pattern featuring 5–8, black, mostly incomplete crossbands, uniformly white blind side, and black peritoneum. Of specimens examined, seven including the holotype, were collected on Kaikata Seamount off southern Japan; one specimen was collected at the Kasuga-2 hydrothermal vent, Marianas Islands; and six were collected at sites on the Kermadec Ridge. In addition to specimens captured, many other S. thermophilus were observed from submersibles and ROVs at hydrothermal sites in the western Pacific including those in the Marianas Islands, at Nikko Seamount near Minami-Iohjima Island, and at Minami-Ensei Knoll, Mid-Okinawa Trough. Many of the specimens examined have skeletal anomalies including fused bones in the caudal skeleton, and missing or partially developed and/or misshapen fin rays.

Key words: flatfish, Symphurus, hydrothermal vents

Symphurus thermophilus    Munroe & Hashimoto, 2008  FIGURE 3. Photographs of the hydrothermal vent tonguefish, Symphurus thermophilus.  A. In situ photograph of S. thermophilus observed at Rumble 3 site, western Pacific, an area where this species occurs in high abundance. B. In situ photograph of S. thermophilus (most individuals <10 cm TL) observed at Daikoku Seamount, western Pacific, an area where this species occurs in high abundance. C. Photo of recently captured juvenile S. thermophilus taken at the Barnacle Boulders site at Kasuga-2, Mariana Islands.  Figures 3A–C provided courtesy of NOAA’s Ocean Exploration Program and available from oceanexplorer.NOAA.gov  and oceanexplorer.NOAA.gov/explorations (Accessed 3 June 2008)

Thomas A. Munroe and Jun Hashimoto. 2008. A New Western Pacific Tonguefish (Pleuronectiformes: Cynoglossidae): The First Pleuronectiform discovered at active Hydrothermal Vents.  Zootaxa. 1839; 43–59.

  http://www.mapress.com/zootaxa/2008/f/zt01839p059.pdf

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[Herpetology • 2016] Sphenomorphus sungaicolus • The First Riparian Skink (Genus: Sphenomorphus Strauch, 1887) from Peninsular Malaysia and Its Relationship to other Indochinese and Sundaic Species

October 29, 2016, 1:14 pm

≫ Next: [Ichthyology • 2016] A Review of the Genus Garra Hamilton 1822 of Bhutan (Cypriniformes: Cyprinidae), including the Descriptions of Two New Species and Three Additional Records

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Sphenomorphus sungaicolus  Sumarli, Grismer, Wood, Ahmad, Rizal, Ismail, Izam, Ahmad & Linkem, 2016 (A) Holotype of Sphenomorphus sungaicolus sp. nov. (LSUHC 11722) from Hutan Lipur Sekayu, Terengganu, Peninsular Malaysia. . Photograph by L. Grismer. (B) Juvenile S. sungaicolus sp. nov. (not collected) from the Korbu Forest Reserve, Perak. Photograph by Z. Dzulkafly.  flickr.com    DOI: 10.11646/zootaxa.4173.1.3

Abstract

Recently discovered populations of skinks of the genus Sphenomorphus from central Peninsular Malaysia represent a new species, Sphenomorphus sungaicolus sp. nov., and the first riparian skink known from Peninsular Malaysia. Morphological analyses of an earlier specimen reported as S. tersus from the Forest Research Institute of Malaysia (FRIM), Selangor indicate that it too is the new riparian species S. sungaicolus sp. nov. Additionally, two specimens from the Tembat Forest Reserve, Hulu Terengganu, Kelantan and another from Ulu Gombak, Selangor have been diagnosed as new the species. The latter specimen remained unidentified in the Bernice Pauahi Bishop Museum, Honolulu, Hawaii since its collection in June 1962. Morphological and molecular analyses demonstrate that S. sungaicolus sp. nov. forms a clade with the Indochinese species S. maculatus, S. indicus, and S. tersus and is the sister species of the latter. Sphenomorphus sungaicolus sp. nov. can be differentiated from all other members of this clade by having a smaller SVL (66.5–89.6 mm); 39–44 midbody scale rows; 72–81 paravertebral scales; 74–86 ventral scales; a primitive plantar scale arrangement; and 20–22 scale rows around the tail at the position of the 10th subcaudal.

Keywords: Reptilia, Integrative taxonomy, New species, Scincidae, Southeast Asia, Sundaland





Etymology.“Sungai” is the Malaysian word for river and “colus” is derived from the Latin meaning “dweller in”. The specific epithet sungaicolus refers the obligate riparian nature of this new species.

Distribution. Sphenomorphus sungaicolus sp. nov. is known from Hutan Lipur Sekayu, Hutan Lipur Chemerong, and the Tembat Forest Reserve, Hulu Terengganu, Terengganu, Peninsular Malaysia—localities east of the Banjaran Titiwangsa. Localities on the western side of the Banjaran Titiwangsa are FRIM and Ulu Gombak, Selangor and the Korbu Forest Reserve, Perak to the north (Fig. 1). It is likely this species has a greater distribution throughout Peninsular Malaysia similar to what has been reported for other species of lizards whose distribution wraps around the southern end of the Banjaran Titiwangsa (Grismer 2011).

Juvenile Sphenomorphus sungaicolus sp. nov.  from the Korbu Forest Reserve, Perak.  (not collected) Photograph by Z. Dzulkafly.  flickr.com

Natural history.Sphenomorphus sungaicolus sp. nov. is a lowland species not known to occur above 300 m in elevation and found only in riparian areas coursing through lowland dipterocarp forest. All specimens were found along the edges of watercourses. ZRC.2.4915 from FRIM was found on boulders next to a large stream (Leong et al. 2002) and the holotype was found at night running in water at the edge of a small stream amongst rocks at Hutan Lipur Sekayu. The Hutan Lipur Chemerong and Ulu Gombak specimens were collected from along riverbanks. The Hulu Terengganu specimens were collected from pitfall traps located approximately 2.5–3 meters from the edge of a river. Sphenomorphus sungaicolus sp. nov. is the first obligate riparian skink known from Peninsular Malaysia. A hatchling S. sungaicolus sp. nov. from the Korbu Forest Reserve, Perak (Fig. 7) was photographed along the sandy edge of a rocky stream at an elevation of approximately 300 m (Zaharil Dzulkafly in litt. 2015).

Sumarli, Alexandra, L. L. Grismer, JR. P. L. Wood, Amirrudin B. Ahmad, Syed A. Rizal, Lukman H. B. Ismail, Nur A. M. Izam, Norhayati Ahmad and Charles W. Linkem. 2016. The First Riparian Skink (Genus: Sphenomorphus Strauch, 1887) from Peninsular Malaysia and Its Relationship to other Indochinese and Sundaic Species.
Zootaxa. 4173(1); 29–44.  DOI: 10.11646/zootaxa.4173.1.3

flickr.com/photos/zaharil/10976926546

[Ichthyology • 2016] A Review of the Genus Garra Hamilton 1822 of Bhutan (Cypriniformes: Cyprinidae), including the Descriptions of Two New Species and Three Additional Records

October 29, 2016, 1:25 pm

≫ Next: [Herpetology • 2007] Dendrelaphis kopsteini • A New Species of Dendrelaphis (Serpentes: Colubridae) from Southeast Asia

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Garra arupi  Nebeshwar, Vishwanath & Das, 2009 Garra bimaculacauda & Garra parastenorhynchus   Thoni, Gurung & Mayden, 2016  DOI: 10.11646/zootaxa.4169.1.5

Abstract

Seven species of Garra are herein accounted for in Bhutan. Three new records of known species, Garra arupi, G. birostris, and G. lissorhynchus, and two new species, Garra bimaculacauda sp. nov. and Garra parastenorhynchus sp. nov., are reported from central and southern Bhutan. Garra bimaculacauda sp. nov. is most notably different from its congeners by the presence of two dark spots on the lobes of the caudal fin, having one spot on each lobe. Meristic and morphometric differences from northeastern Indian congeners exist as well. Garra parastenorhynchus sp. nov. is differentiated from its congeners by the presence of a prominent, overhanging, club-shaped proboscis, and a suite of meristic and morphometric characters. Notes on the taxonomy are provided for some species. Notes are provided on the biology and ecology for most species, which have been inferred from field observations. Ranges are expanded for two recently described taxa from Northeast India G. arupi, and G. birostris. A key is provided to the currently known species of Garra within Bhutan.

Keywords: Pisces, Garrinae, Garra bimaculacauda sp. nov., Garra parastenorhynchus sp. nov.

Thoni, R. j., Dhan B. Gurung & R. L. Mayden. 2016. A Review of the Genus Garra Hamilton 1822 of Bhutan, including the Descriptions of Two New Species and Three Additional Records (Cypriniformes: Cyprinidae). Zootaxa. 4169(1): 115–132.  DOI: 10.11646/zootaxa.4169.1.5

ResearchGate.net/publication/308301471_A_review_of_the_genus_Garra_Hamilton_1822_of_Bhutan_including_the_descriptions_of_two_new_species_and_three_additional_records_Cypriniformes_Cyprinidae

  

[Herpetology • 2007] Dendrelaphis kopsteini • A New Species of Dendrelaphis (Serpentes: Colubridae) from Southeast Asia

October 30, 2016, 12:30 am

≫ Next: [Paleontology • 2016] Palaeoamyda messeliana nov. comb. (Testudines, Pan-Trionychidae) from the Eocene Messel Pit and Geiseltal localities, Germany, Taxonomic and Phylogenetic insights

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Dendrelaphis kopsteini  Vogel & van Rooijen, 2007

Abstract

A new species of the colubrid genus Dendrelaphis Boulenger 1890 is described. Dendrelaphis kopsteini sp. nov. ranges from Thailand through Peninsular Malaysia and Singapore to Sumatra. A detailed statistical analysis of the differences between D. kopsteini sp. nov., D. formosus (Boie, 1827) and D. cyanochloris (Wall, 1921) is provided as the three species have been mixed up frequently in the literature. D. kopsteini sp. nov. differs from all other Dendrelaphis species by a brick red neck coloration. A neotype is designated and described for D. formosus and a lectotype is designated and described for D. cyanochloris.

Keywords:  Serpentes: Colubridae: Dendrelaphis: Dendrelaphis kopsteini sp. nov., Dendrelaphis cyanochloris; Dendrelaphis formosus, Dendrelaphishumayuni, Southeast Asia

Dendrelaphis kopsteini sp. nov.

Ahaetulla formosa (non Dendrophis formosus Boie, 1827): Taylor (1965: 814).

Dendrelaphis formosus: Flower (1896: 883); Tweedy (1983: 63, 154, plate 4); Lim & Lee (1989: 53); Vogel (1990: 10,Abb. 4); Lim & Lim (1992 : 64) ; Manthey & Grossman (1997: 337, Abb. 246); Ziegler & Vogel (1999: 206); Pauwels et al. (2000: 141); Nutphand (2001: 148).

Dendrophis formosa: Frith (1977: 278)?

Dendrelaphis  formosus  (non  Dendrophis  formosus  Boie,  1827)  part.:  Flower  (1899:  605,  660);  Inger  &  Voris  (2001:889); Iskandar & Colijn (2002: 53).

Dendrelaphis spec. A: Rubeli (1988: 133.) 

Diagnosis. A rather stout species of the Dendrelaphis formosus group, with 15 dorsal scale rows at mid-body, 167-181 ventral scales, 140-154 subcaudal scales, 2 supralabials touching the eye and a first sublabialthat touches 2 infralabials. The eye is rather large. The vertebral scales are larger than the lowest dorsal row.There is one loreal plate. A black postocular stripe covers only the lower half of the temporal region and endsat the rear of the jaw. Vertebral scales with a broad black posterior margin. It differs from all other species ofthis genus by the red colour that is visible in life on the skin between the scales of the first part of the body. 

Etymology. This species is named after Dr. Felix Kopstein (1893-1939), who contributed so much to our knowledge of the snake fauna of Indonesia. Several of the specimens we used for our studies were collected by him. He was also the first to report delayed fertilisation.

Suggested English name: Kopstein’s Bronzeback.  

Range. The examined specimens of D. kopsteini originated from Peninsular Thailand, Peninsular Malaysia, Singapore and Sumatra.

G. Vogel and J. Van Rooijen. 2007. A New Species of Dendrelaphis (Serpentes: Colubridae) from Southeast Asia. Zootaxa. 1394: 25–45.
 http://www.mapress.com/j/zt/article/view/1527/0

ResearchGate.net/publication/235615690_A_new_species_of_Dendrelaphis_Serpentes_Colubridae_from_Southeast_Asia

[Paleontology • 2016] Palaeoamyda messeliana nov. comb. (Testudines, Pan-Trionychidae) from the Eocene Messel Pit and Geiseltal localities, Germany, Taxonomic and Phylogenetic insights

October 30, 2016, 3:08 am

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Figure 2: Palaeoamyda messeliana  SMF ME 1211.  (A) articulated skeleton in dorsolateral view. (B) outline of the carapace and lateral plastral elements in dorsolateral view. (C) close-up of the right hindlimb. (D) close-up of the tail. (E) close-up of the right forelimb. Abbreviations: co, costal bone; hyo, hyoplastron; hyp, hypoplastron; ne, neural bone; nu, nuchal bone.    DOI: 10.7717/peerj.2647

Abstract

Background

Abundant pan-trionychid (soft-shell) turtles specimens have been found in Eocene sequences of central Europe, particularly from two localities in Germany, the Messel Pit (a UNESCO World Natural Heritage Site) and Geiseltal, traditionally attributed to Trionyx messelianus or Rafetoides austriacus. Over the last two decades new specimens of this taxon from these two localities have been discovered and fully prepared. However, they have remained unstudied, as well as their phylogenetic position inside Pan-Trionychidae is unknown.

Results

Five new specimens ofPalaeoamyda messeliana nov. comb. from Messel Pit and Geiseltal localities are fully described here. A revised diagnosis for the species is also presented here, together with its inclusion in a phylogenetic analysis of Pan-Trionychidae that shows that this species is sister to the extant Amyda cartilaginea, one of the most abundant pan-trionychid (soft-shell) turtles from Asia, both members of the clade Chitrini. The specimens described in here are among the best and most complete fossil pan-trionychid skeletons so far known.

Systematic Paleontology

TESTUDINES Batsch, 1788

CRYPTODIRA Cope, 1868

PAN-TRIONYCHIDAE Sensu Joyce, Parham & Gauthier, 2004

Palaeoamyda nov. gen.

Etymology: A fossil version of the extant genus Amyda, based on the important similarities between these two genera.

Type species: Palaeoamyda (orig. Trionyx) messeliana nov. comb. (Reinach, 1900).

Included species: Palaeoamyda messeliana nov. comb.

Diagnosis: Same as for the type species, Palaeoamyda messeliana nov. comb.

Palaeoamyda messeliana nov. comb. (Reinach, 1900)

Revised diagnosis: Palaeoamyda messeliana nov. comb., shares the following synapomorphies with Pan-Trionychidae: contribution of the jugal to the upper temporal emargination, loss of a contribution of the fused premaxilla to the external nares, absence of carapacial and plastral scutes, the absence of pygal bones, sculpturing pattern that covers all metaplastic portions of the shell bones, V-shape entoplastron. Palaeoamyda messeliana nov. comb. shares with Trionychinae the following synapomorphies: a nuchal bone at least three times wider than long, complete absence of peripheral bones, neural series always containing at least one reversal of neural orientation, and a short bridge. Inside Trionychinae (sensu Meylan, 1987), Palaeoamyda messeliana nov. comb. resembles members of Chitrini in particular Amyda cartilaginea by: having a hypoplastron having only one processus hypoplastrales medialis posterior, a pair of processus cardinus masculi anterior, and a very short processus hypoplastralis medialis anterior, a narrow and well developed metischial process of ischium, a very advanced temporal emargination reducing the area of exposure of parietals at the roof top of the skull. Differs from other chitrinins by the following plesiomorphies: costals 7 having a medial contact between each other for half of more of their total medial margin, a shallow medial notch at the anterior margin of nuchal, seven neurals, with the neural reversal of orientation at neural 6. Potential autapomorphies of Palaeoamyda messeliana nov. comb., suggested by Karl (1998) brachial horn II with several ossifications, triturating surface completely flat or with solid symphyseal notch, entoplastron having acute angle and being straight at symphysis.

Taxonomic history

Trionyx messelianus Reinach, 1900

Trionyx messelianus var. lepsiusi Harassowitz, 1919

Trionyx (Amyda) messelianus var. kochi Hummel, 1927 (new combination)

Rafetoides austriacus Karl, 1997 (junior synonym).

Localities and horizons: SMF ME specimens were collected in the Messel Pit, near Darmstadt, Germany, middle Eocene (early Lutetian, MP11, ∼47 Ma) (Lenz et al., 2015). WDC specimen was collected in Geiseltal locality, Saxony-Anhalt region, Germany. The age for this locality is middle Eocene Haubold & Hellmund (1998). However, not specific information about the horizon or any other details of the collection are known.

Edwin Cadena​. 2016. Palaeoamyda messeliana nov. comb. (Testudines, Pan-Trionychidae) from the Eocene Messel Pit and Geiseltal localities, Germany, Taxonomic and Phylogenetic insights.    PeerJ. 4:e2647. DOI: 10.7717/peerj.2647

[Ichthyology • 2016] A Review of the Callogobius (Teleostei: Gobiidae) from the Red Sea with the Description of A New Species, Callogobius pilosimentum

October 30, 2016, 8:32 pm

≫ Next: [Botany • 2014] Notes on Benstonea (Pandanaceae) from the Islands of Halmahera, New Guinea and Sulawesi

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Callogobius pilosimentum   Delventhal, Mooi, Bogorodsky & Mal, 2016 FIGURE 2. Callogobius pilosimentum sp. nov., live coloration: A. SMF 35756, holotype, female, 36.4 mm SL, Farasan Island, Saudi Arabia;  C. SMF 35760, paratype, female, 55.8 mm SL, Obhur, Jeddah, Saudi Arabia. Photos by SVB.  DOI: 10.11646/zootaxa.4179.2.3

Abstract

Five species of Callogobius Bleeker have been previously reported from the Red Sea: C. amikami Goren, Miroz & Baranes, C. clarki (Goren), C. dori Goren, C. flavobrunneus (Smith), and C. maculipinnis (Fowler). Records of C. bifasciatus (Smith) in the Red Sea are referable to C. clarki. Callogobius amikami has been previously known only from a single specimen, the holotype from the Red Sea, and two photographs, a live juvenile from Oman and a live specimen at an aquarium at Coral World, Eilat. We obtained a possible additional juvenile from the Red Sea, although we are unable to definitively determine its identity. Red Sea specimens previously identified as C. maculipinnis [or C. irrasus (Smith)] represent a new species, distinguished from the latter by normally having four sets of transverse mandibular rows on each side (rather than three); this species is described here as Callogobius pilosimentum sp. nov. Four specimens of an additional, undescribed species of Callogobius, C. sp. A, have been collected from the Red Sea, but we withhold a formal description because this species is currently under study by colleagues. Callogobius sclateri (Steindachner), previously known from the Indo-West Pacific, is reported from the Red Sea for the first time. A key to all seven species is provided. Each species is photographed, habitat is described and a brief description with detailed comparisons is provided. The new species and C. clarki are endemic to the Red Sea.

Keywords: Pisces, taxonomy, endemism, key

Callogobius pilosimentum sp. nov.

Hairy-chinned Flapheaded Goby

Drombus irrasus (non Smith)—Goren 1979: 36.

Callogobius irrasus (non Smith)—Goren 1980: 213; Dor 1984: 241.

Callogobius maculipinnis (non Fowler)—Goren et al. 1991: 299; Goren & Dor 1994: 53; Golani & Bogorodsky 2010: 46.

Diagnosis.Callogobius pilosimentum is distinguished from all other known Callogobius species by the following combination of characters: interorbital canal normally containing pores B’, C, D, E, F, G and H’; preopercular canal containing pores M’, N, and O’; temporal canal containing pores K’ and L’; scales in lateral series 21–25 (usually 24); normally four transverse mandibular papillae rows (Row 16) on each side.

Etymology. The species name is derived from the Latin pilosus meaning “hairy” and mentum meaning “chin”, referring to the extra rows of papillae on the chin. Specific epithet to be treated as a noun in apposition. Suggested common name: hairy-chinned flapheaded goby.

Distribution and habitat. Restricted to the Red Sea. It is usually collected in shelters or close to shelters on small sand flats (about 0.5–1 m across) of steep slopes, sometimes at the base of coral reefs, in closed areas in bays and lagoons, at depths of 1–20 m.

FIGURE 3. Callogobius amikami Goren, Miroz & Baranes: B. Aquarium specimen in 1993, Coral World, Eilat, about 40 mm TL, collected by A. Miroz. C. Callogobius cf. amikami, live coloration, SMF 35770, juvenile, 7.2 mm SL, Al Wajh bank, Saudi Arabia. Photos by J.E. Randall (B) used with permission, SVB (C).

Delventhal, Naomi R., Randall D. Mooi, Sergey V. Bogorodsky and Ahmad O. Mal. 2016. A Review of the Callogobius (Teleostei: Gobiidae) from the Red Sea with the Description of A New Species. Zootaxa. 4179(2); 225–243.  DOI: 10.11646/zootaxa.4179.2.3

[Botany • 2014] Notes on Benstonea (Pandanaceae) from the Islands of Halmahera, New Guinea and Sulawesi

October 31, 2016, 12:07 am

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Figure 1.A–D. Benstonea verruculosa. E–G. Benstonea stenocarpa. H. Benstonea celebica. A, E. Axillary syncarp. B. Peduncle covered by prophylls. C, D, F. Details of pileus and stigmas. G. Habit. H. Polysyncarpic pending infructescence. A–C: From Callmander & Lasut 1551 (Photos: M. Callmander). F: Munzinger & Bau 6745 (Photo: J. Munzinger). E, G. Bau s.n. (Photos: B. Bau). H. Purwanto & al. PSU42 (Photo: Y. Purwanto & R. Polosakan). DOI:  10.11646/phytotaxa.175.3.6

Abstract

Benstonea (Pandanaceae) was circumscribed to include 57 species formerly placed in the genus Pandanus. Field observations, accompanied by the study of available herbarium material have brought new insights for the delimitation of certain problematic species, especially in the difficult group of species characterized by an axillary infructescence on a short peduncle covered by prophylls and the abscission of the basal portion of the drupe at maturity. New combinations, based on names in Pandanus previously treated as synonyms of Benstonea stenocarpa, are proposed for three distinct species of this group from Halmahera (Indonesia) and Papua New Guinea. The identity of Benstonea celebica, endemic to Sulawesi (Indonesia), is also elucidated and an epitype is designated for this species.

Keywords: Benstonea, Pandanaceae, Halmahera, New Guinea, Sulawesi

Benstonea celebica(Warburg 1900: 80) Callmander & Buerki in Callmander & al. (2012: 332).

Benstonea jacobsii(Stone 1984: 210) Callm., Buerki & A.P. Keim, comb. nov.

Benstonea misimaensis(St. John ex Stone 1978: 54) Callm., Buerki & A.P. Keim, comb. nov. 

Benstonea verruculosa (Backer ex Stone 1978: 55) Callm., Buerki & Phillipson, comb. nov.    

Martin W. Callmander, Sven Buerki,  Ary P. Keim  and Peter B. Phillipson. 2014. Notes on Benstonea (Pandanaceae) from the Islands of Halmahera, New Guinea and Sulawesi. Phytotaxa. 175 (3): 161–165. DOI:  10.11646/phytotaxa.175.3.6

http://mapress.com/phytotaxa/content/2014/f/pt00175p165.pdf

[Paleontology • 2016] Aquilonifer spinosus • Tiny Iindividuals attached to A New Silurian Arthropod from Herefordshire Lagerstätte of England, Suggest A Unique Mode of Brood Care

October 31, 2016, 12:36 am

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Aquilonifer spinosus  Briggs, Siveter, Siveter, Sutton & Legg, 2016     DOI:  10.1073/pnas.1600489113

Significance

The paper reports a remarkable arthropod from the Silurian Herefordshire Lagerstätte of England. The fossil reveals a unique association in an early Paleozoic arthropod involving tethering of 10 tiny individuals each by a single thread to the tergites so that their appearance is reminiscent of kites. The evidence suggests that these are juveniles and that the specimen records a unique brooding strategy. This is part of a diversity of complex brooding behaviors in early arthropods heralding the variety that occurs today. The possibility that the small individuals represent a different arthropod, possibly parasitic, which colonized the larger individual, seems less likely.

Abstract

The ∼430-My-old Herefordshire, United Kingdom, Lagerstätte has yielded a diversity of remarkably preserved invertebrates, many of which provide fundamental insights into the evolutionary history and ecology of particular taxa. Here we report a new arthropod with 10 tiny arthropods tethered to its tergites by long individual threads. The head of the host, which is covered by a shield that projects anteriorly, bears a long stout uniramous antenna and a chelate limb followed by two biramous appendages. The trunk comprises 11 segments, all bearing limbs and covered by tergites with long slender lateral spines. A short telson bears long parallel cerci. Our phylogenetic analysis resolves the new arthropod as a stem-group mandibulate. The evidence suggests that the tethered individuals are juveniles and the association represents a complex brooding behavior. Alternative possibilities—that the tethered individuals represent a different epizoic or parasitic arthropod—appear less likely.

Keywords: Arthropod; Silurian; brood care; juvenile; Herefordshire Lagerstätte

Aquilonifer spinosus is a new genus and species of arthropod from the Herefordshire Lagerstätte, a late Wenlock (mid-Silurian) volcaniclastic deposit in Herefordshire, United Kingdom. It is preserved, as are the other fossils from this Lagerstätte, in three dimensions as a calcitic void fill in a carbonate concretion. The name of the new taxon refers to the fancied resemblance between the tethered individuals and kites, and echoes the title of the 2003 novel The Kite Runner by Khaled Hosseini (aquila, eagle or kite; -fer, suffix meaning carry; thus aquilonifer, kite bearer; spinosus, spiny, referring to the long lateral spines on the tergites). The material is a single specimen, the holotype OUMNH C.29695, registered at the Oxford University Museum of Natural History (Fig. 1 and Movie S1).

Diagnosis. Features include a head shield with rostrum-like anterior projection, large uniramous antenna, chelate limb, and two other biramous appendages in the head, the last similar to those of the trunk; an elongated trunk with long, slender lateral spines on the 11 tergites, with all trunk somites bearing limbs of which all but the last are biramous; and a short telson and long cerci.

......

Derek E. G. Briggs, Derek J. Siveter, David J. Siveter, Mark D. Sutton and David Legg. 2016. Tiny Iindividuals attached to A New Silurian Arthropod Suggest A Unique Mode of Brood Care.
Proceedings of the National Academy of Sciences. 113(16) DOI:  10.1073/pnas.1600489113

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[Entomology • 2016] Loboschiza cambodiensis & L. flavobasis • Two New Species of Loboschiza (Lepidoptera: Tortricidae: Olethreutinae: Enarmoniini) from Cambodia and Vietnam

October 31, 2016, 1:16 am

≫ Next: [Ichthyology • 2016] Molecular Phylogeny and Patterns of Diversification in Syngnathid Fishes (Syngnathidae)

≪ Previous: [Paleontology • 2016] Aquilonifer spinosus • Tiny Iindividuals attached to A New Silurian Arthropod from Herefordshire Lagerstätte of England, Suggest A Unique Mode of Brood Care

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Loboschiza cambodiensis   Heppner & Bae, 2016     DOI:  10.11646/zootaxa.4169.1.9

Abstract

Two new species of Loboschiza are described and illustrated: Loboschiza cambodiensis n. sp., from Cambodia and Loboschiza flavobasis n. sp., from Vietnam. The two new species bring the number of described species in the genus to 19.

Keywords: Lepidoptera, Asia, Cambodia, distribution, Enarmoniini, Loboschiza, Olethreutinae, Southeast Asia, taxonomy, Tortricidae, Vietnam

 John B. Heppner and Yang-Seop Bae. 2016. Two New Species of Loboschiza from Cambodia and Vietnam (Lepidoptera: Tortricidae: Olethreutinae: Enarmoniini).
Zootaxa.  4169(1); 171–178. DOI:  10.11646/zootaxa.4169.1.9

[Ichthyology • 2016] Molecular Phylogeny and Patterns of Diversification in Syngnathid Fishes (Syngnathidae)

November 1, 2016, 2:30 am

≫ Next: [Ichthyology • 2015] Sebastes diaconus • A New Species of Sebastes (Scorpaeniformes: Sebastidae) from the northeastern Pacific, with A Redescription of the Blue Rockfish, S. mystinus (Jordan & Gilbert, 1881)

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Highlights

• Expanded taxonomic and genetic sampling reveals new patterns of syngnathid evolution.

• Molecular patterns suggest convergence in traditional morphological characters.

• Complex brood pouches, prehensile tails, and pygmy morphology evolved multiple times.

• Biogeographic patterns reveal multiple drivers of evolutionary diversification.

• Two subfamilies are formally recognized and further taxonomic revisions are required.

Abstract

The family Syngnathidae is a large and diverse clade of morphologically unique bony fishes, with 57 genera and 300 described species of seahorses, pipefishes, pipehorses, and seadragons. They primarily inhabit shallow coastal waters in temperate and tropical oceans, and are characterized by a fused jaw, male brooding, and extraordinary crypsis. Phylogenetic relationships within the Syngnathidae remain poorly resolved due to lack of generic taxon sampling, few diagnostic morphological characters, and limited molecular data. The phylogenetic placement of the threatened, commercially exploited seahorses remains a topic of intense interest, with conflicting topologies based on morphology and predominantly mitochondrial genetic data. In this study, we integrate eight nuclear and mitochondrial markers and 17 morphological characters to investigate the phylogenetic structure of the family Syngnathidae at the generic level. We include 91 syngnathid species representing 48 of the 57 recognized genera, all major ocean basins, and a broad array of temperate and tropical habitats including rocky and coral reefs, sand and silt, mangroves, seagrass beds, estuaries, and rivers. Maximum likelihood and Bayesian analyses of 5160 bp from eight loci produced high congruence among alternate topologies, defining well-supported and sometimes novel clades. We present a hypothesis that confirms a deep phylogenetic split between lineages with trunk- or tail-brood pouch placement, and provides significant new insights into the morphological evolution and biogeography of this highly derived fish clade. Based on the fundamental division between lineages - the tail brooding “Urophori” and the trunk brooding “Gastrophori” - we propose a revision of Syngnathidae classification into only two subfamilies: the Nerophinae and the Syngnathinae. We find support for distinct principal clades within the trunk-brooders and tail-brooders, the latter of which include seahorses, seadragons, independent lineages of pipehorses, and clades that originated in Southern Australia and the Western Atlantic. We suggest the seahorse genus Hippocampus is of Indo-Pacific origin and its sister clade is an unexpected grouping of several morphologically disparate Indo-Pacific genera, including the Pacific pygmy pipehorses. Taxonomic revision is required for multiple genera, particularly to reflect deep evolutionary splits in nominal lineages from the Atlantic versus the Indo-Pacific.

Keywords: Syngnathidae; seahorse; pipefish; DNA; morphological evolution; Australia

Healy Hamilton, Norah Saarman, Graham Short, Anna B. Sellas, Beth Moore, Tinya Hoang, Christopher L. Grace, Martin Gomon, Karen Crow and W. Brian Simison. 2016.  Molecular Phylogeny and Patterns of Diversification in Syngnathid Fishes. Molecular Phylogenetics and Evolution. In Press.   DOI: 10.1016/j.ympev.2016.10.003

[Ichthyology • 2015] Sebastes diaconus • A New Species of Sebastes (Scorpaeniformes: Sebastidae) from the northeastern Pacific, with A Redescription of the Blue Rockfish, S. mystinus (Jordan & Gilbert, 1881)

November 1, 2016, 7:00 am

≫ Next: [Herpetology • 2017] Phylogeographic Structure Across One of the Largest Intact Tropical Savannahs: Molecular and Morphological Analysis of Australia’s Iconic Frilled Lizard Chlamydosaurus kingii

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Sebastes diaconus Frable, Wagman, Frierson, Aguilar & Sidlauskas, 2015 Deacon rockfish  ||  DOI: 10.7755/FB.113.4.1

Abstract

The diverse predatory rockfishes (Sebastes spp.) support extensive commercial fisheries in the northeastern Pacific. Although 106 species of Sebastes are considered valid, many of the ecological, geographical, and morphological boundaries separating them lack clarity. We clarify one such boundary by separating the blue rockfish Sebastes mystinus (Jordan and Gilbert, 1881) into 2 species on the basis of molecular and morphological data. We redescribe S. mystinus, designate a lectotype, and describe the deacon rockfish, Sebastes diaconus n. sp. Aside from its unambiguous distinction at 6 microsatellite loci, the new species is most easily differentiated from S. mystinus by its possession of a solid in contrast with a blotched color pattern. Sebastes diaconus also possesses a prominent symphyseal knob versus a reduced or absent knob, a flat rather than rounded ventrum, and longer first and second anal-fin spines. Se bastes diaconus occurs from central California northward to British Columbia, Canada, and S. mystinus occurs from northern Oregon south to Baja California Sur, Mexico, indicating a broad region of sympatry in Oregon and northern California. Further collection and study are necessary to clarify distributional boundaries and to understand the ecology and mechanisms of segregation for this species. Additionally, fisheries assessments will need revision to account for the longstanding conflation of these 2 species.

Etymology: Sebastes diaconus is derived from the Latinized ancient Greek διa;κονος, the name for an acolyte or assistant to a priest. This name complements the species name of S. mystinus, which was intended to mean “priest” (Jordan and Evermann, 1898). This name highlights the similarity between the 2 species and the previous lack of differentiation.

  

  Frable, B.W., Wagman, D.W., Frierson, T.N., Aguilar, A. and Sidlauskas, B.L. 2015. A New Species of Sebastes (Scorpaeniformes: Sebastidae) from the northeastern Pacific, with A Redescription of the Blue Rockfish, S. mystinus (Jordan and Gilbert, 1881).
Fishery Bulletin. 113(4); 355–377.  DOI: 10.7755/FB.113.4.1 

 https://ir.library.oregonstate.edu/xmlui/handle/1957/57884

http://aweofnature.com/2015/07/a-new-species-of-sebastes-scorpaeniformes-sebastidae-from-the-northeastern-pacific/

[Herpetology • 2017] Phylogeographic Structure Across One of the Largest Intact Tropical Savannahs: Molecular and Morphological Analysis of Australia’s Iconic Frilled Lizard Chlamydosaurus kingii

November 1, 2016, 8:11 am

≫ Next: [Entomology • 2016] Taxonomy and Molecular Phylogeny of the Platystictidae (Insecta: Odonata) of Sri Lanka

≪ Previous: [Ichthyology • 2015] Sebastes diaconus • A New Species of Sebastes (Scorpaeniformes: Sebastidae) from the northeastern Pacific, with A Redescription of the Blue Rockfish, S. mystinus (Jordan & Gilbert, 1881)

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Highlights

• Genetic data from five loci show three shallow genetic clades within frilled lizards.

• Clades are broadly consistent with clinal variation in frill color.

• Data from 279 specimens shows only subtle morphological differentiation between clades.

• Biogeographic patterns are consistent with other taxa in the Australian monsoon tropics.

• Extremely low divergences suggest recent gene flow between, and extensive gene flow within, clades.

Abstract

The spectacular threat display of the savannah specialist Australo-Papuan frilled lizards has made them one of the world’s most iconic reptiles. They are increasingly used as a model system for research in evolutionary biology and ecology but little is known of their population structure. Their distribution across northern Australia and southern New Guinea also provides an opportunity to examine biogeographic patterns as they relate to the large-scale movement of savannah habitat during the Plio/Pleistocene and the associated increase in aridity. We generated sequence data for one mitochondrial and four nuclear DNA loci (5052 base pairs) for 83 frilled lizards sampled throughout their range. We also quantified body proportion variation for 279 individuals. Phylogenetic analyses based on maximum likelihood and Bayesian species-tree methods revealed three shallow clades that replace each other across the monsoon tropics. We found the expected pattern of male biased sexual size dimorphism in both maximum body size and head size but there was no sexual dimorphism in overall body shape or in frill size, relative to head size, supporting the hypothesis that the frill is used primarily as a threat display rather than a sexual display. The genetic clades are broadly consistent with known clinal variation in frill color that gradually shifts from west to east (red, orange, yellow/white) but otherwise show little morphological differentiation in body proportion measures. The biogeographic breaks between clades occur at the Carpentaria Gap and the lowlands surrounding the Ord River, and our ecological niche modeling predicts lower habitat suitability for Chlamydosaurus kingii in these regions. While this biogeographic pattern is consistent with numerous other taxonomic groups in northern Australia, the overall low genetic diversity in frilled lizards across the entire monsoon tropics and southern New Guinea contrasts starkly to patterns seen in other terrestrial vertebrates. Extremely low intra-clade genetic diversity over vast geographic areas is indicative of recent gene flow that would likely have been facilitated by widespread savannah during interglacials, or alternatively may reflect population bottlenecks induced by extreme aridity during Pleistocene glacials. The shallow divergence between Australian and New Guinean samples is consistent with recent connectivity between Australia and New Guinea that would have been possible via a savannah corridor across the Torres Strait. Based on our molecular and morphological data, we do not support taxonomic recognition of any of the frilled lizard clades and instead consider C. kingii a single species with shallow phylogeographic structure and clinal variation in frill color.

 Keywords:  Monsoon tropics; Phylogeography; Trans-Fly; Torres Strait; Carpentarian Gap; Ord River

Mitzy Pepper, David G. Hamilton, Thomas Merkling, Nina Svedin, Bori Cser, Renee A. Catullo, Sarah R. Pryke and J. Scott Keogh. 2017. Phylogeographic Structure Across One of the Largest Intact Tropical Savannahs: Molecular and Morphological Analysis of Australia’s Iconic Frilled Lizard Chlamydosaurus kingii. Molecular Phylogenetics and Evolution. 106;  217-227. DOI:  10.1016/j.ympev.2016.09.002

ResearchGate.net/publication/308495349_Phylogeographic_structure_across_one_of_the_largest_intact_tropical_savannahs_Molecular_and_morphological_analysis_of_Australias_iconic_frilled_lizard_Chlamydosaurus_kingii

[Entomology • 2016] Taxonomy and Molecular Phylogeny of the Platystictidae (Insecta: Odonata) of Sri Lanka

November 1, 2016, 11:09 pm

≫ Next: [Arachnida • 2016] Edwardsya, A New Genus of Jumping Spiders (Araneae: Salticidae: Freyina) from South America

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Ceylonosticta anami  (Bedjani, 2010)  DOI:  10.11646/zootaxa.4182.1.1

Abstract

The 22 Sri Lankan representatives of the family Platystictidae, all endemic to the island and belonging to the distinct endemic subfamily Platystictinae, are revised, and a new reconstruction of the phylogeny based on molecular characters is provided. Five new species are described: Ceylonosticta venusta sp. nov. (holotype ♂: Rambodde Falls, at the tunnel; Nuwara Eliya District, Central Province; N7.0489, E80.6961; 12-vii-2012; to be deposited at National Museum of Natural History, Colombo, Sri Lanka), Ceylonosticta inferioreducta sp. nov. (holotype ♂: Norton Bridge, stream on the B43 road 1.5km WNW of Norton Bridge; Nuwara Eliya District, Central Province; N6.9171, E80.5075; 28-vii-2009; to be deposited at National Museum of Natural History, Colombo, Sri Lanka), Ceylonosticta mirifica sp. nov. (holotype ♂: Uwella, primary forest on the road Uwella-Ratnapura, 11.5km NW of Balangoda; Ratnapura District, Sabaragamuwa Province; N6.6968, E80.6059; 16-vii-2012; to be deposited at National Museum of Natural History, Colombo, Sri Lanka), Platysticta secreta sp. nov. (holotype ♂: Hasalaka; Kandy District, Central Province; N7.3535, E80.9509; 31-v-1975; deposited at National Museum of Natural History, Smithsonian Institution, Washington, USA) and Platysticta serendibica sp. nov. (holotype ♂: Kanneliya; Galle District, Southern Province; N6.2291, E80.3834; 8 & 9-vi-1975; deposited at National Museum of Natural History, Smithsonian Institution, Washington, USA). Additionally, a determination key, figures showing morphological details and coloration in life, as well as distribution maps for all species are presented. Based on molecular analysis of 21 taxa, the phylogeny of Platystictinae is presented and discussed from the zoogeographical and paleogeographical point of view. Sri Lankan species, traditionally placed in the genera Platysticta Selys and Drepanosticta Laidlaw / Ceylonosticta Fraser, separated into distinct clades within the subfamily as presently defined, but the monophyletic nature of the Platystictinae and its Sri Lankan endemicity is confirmed. For the South Indian species, formerly known as Platysticta deccanensis, morphological and molecular analyses demonstrated that it does not belong to the Sri Lankan clade and a new genus Indosticta gen. nov. is erected to accommodate it.

Keywords: Odonata, Zygoptera, Platystictidae, Platystictinae, new species, new genus, Ceylonosticta, Platysticta, Indosticta, Sri Lanka, India

M. Bedjanič, K. Conniff, R.A. Dow, F. R. Stokvis,  R. Verovnik and J Van Tol. 2016. Taxonomy and Molecular Phylogeny of the Platystictidae of Sri Lanka (Insecta: Odonata). 
Zootaxa. 4182(1); 1–80. DOI:  10.11646/zootaxa.4182.1.1

[Arachnida • 2016] Edwardsya, A New Genus of Jumping Spiders (Araneae: Salticidae: Freyina) from South America

November 2, 2016, 11:05 pm

≫ Next: [Herpetology • 2016] Fritziana tonimi • A New Polymorphic Species of Egg-Brooding Frog of the Genus Fritziana (Anura: Hemiphractidae) from southeastern Brazil

≪ Previous: [Entomology • 2016] Taxonomy and Molecular Phylogeny of the Platystictidae (Insecta: Odonata) of Sri Lanka

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Edwardsya simoni  Taczanowski, 1871   DOI:  10.11646/zootaxa.4184.1.7

Abstract

Edwardsya gen. nov. is proposed to include the type species Attus simoni Taczanowski, 1871 from lower Amazon River, and E. igapo sp. nov. from upper Amazon River, both known only from Brazil. The male of Edwardsya simoni comb. nov. is redescribed and the correct female is described for the first time. Both sexes of the second species are described and illustrated. A modified endite apophysis is described, and a stimulatory role in copulation is proposed for it.

Keywords: Araneae, Amazon, ground dweller, igapó, várzea

 Gustavo R. S. Ruiz and Abel Bustamante. 2016. Edwardsya, A New Genus of Jumping Spiders from South America (Araneae: Salticidae: Freyina). 

Zootaxa. 4184(1); 117–129. DOI:  10.11646/zootaxa.4184.1.7

[Herpetology • 2016] Fritziana tonimi • A New Polymorphic Species of Egg-Brooding Frog of the Genus Fritziana (Anura: Hemiphractidae) from southeastern Brazil

November 3, 2016, 2:31 am

≫ Next: [Herpetology • 2016] Brachycephalus albolineatus • A New Species of Brachycephalus (Anura: Brachycephalidae) from Santa Catarina, southern Brazil

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Fritziana tonimi  Walker, Gasparini & Haddad, 2016

Abstract 

We describe a new species of egg-brooding frog of the genus Fritziana from the Atlantic Forest in the state of Espírito Santo, Brazil. The new species was historically considered to represent Fritziana goeldii, but is diagnosed by having small snout–vent length for the genus, snout tip mucronate, limbs striped, distal subarticular tubercles simple and round on all fingers and toes, open dorsal pouch in females carrying eggs, and tadpoles deposited in bromeliads. It is also the first species of the genus to exhibit two distinct dorsal patterns: 1) a triangle covering the entire dorsum or 2) an interorbital triangle with a short “V” beginning at its apex. New molecular data is provided and used for comparing the new species with topotypes of three other species of the genus.

Key words. Amphibia, Atlantic Forest, Fritziana goeldii, polymorphism, DNA analysis.

Figure 3. Holotype of Fritziana tonimi sp. n. (female CFBH 24809, from the Município de Santa Teresa, Espírito Santo state, Brazil) in life, with eggs in an open dorsal pouch. Note the reduced pouch that is formed by small lateral folds that cover the egg clutch laterally, and the red mites.

Geographical distribution: Fritziana tonimi sp. n. occurs at the type locality, Reserva Biológica Augusto Ruschi, Município de Santa Teresa, in Município de Domingos Martins, and in the Área de Proteção Ambiental do Goiapaba Açu, Município de Fundão, all in the Atlantic Forest of the state of Espírito Santo, Brazil (Fig. 5). 

Etymology: The specific epithet tonimi pays homage to Antônio de Pádua Almeida (Tonim) for his contributions to the knowledge and conservation of the herpetofauna of the state of Espírito Santo.

Marina Walker, João Luiz Gasparini and Célio F. B. Haddad. 2016. A New Polymorphic Species of Egg-Brooding Frog of the Genus Fritziana from southeastern Brazil (Anura: Hemiphractidae). SALAMANDRA. 52(3); 221–229.  

Resumo. Descrevemos uma nova espécie de perereca-marsupial para o gênero Fritziana, que ocorre na Mata Atlântica no estado do Espírito Santo, Brasil. A nova espécie foi historicamente identificada como Fritziana goeldii, mas é diagnosticada por possuir comprimento rostro–cloacal pequeno para o gênero, extremidade do focinho mucronada, membros listrados, tubérculos subarticulares distais simples e redondos em todos os dedos e artelhos, bolsa dorsal aberta em fêmeas carregando ovos e girinos depositados em bromélias. A nova espécie é também a primeira do gênero a apresentar dois padrões de desenhos dorsais distintos: 1) um triângulo cobrindo todo o dorso ou 2) um triangulo interorbital com um “V” curto começando a partir do seu ápice. Novos dados moleculares são usados para comparar a nova espécie com topótipos de três espécies do gênero.

Palavras-Chave. Amphibia, Mata Atlântica, Fritziana goeldii, polimorfismo, análises de DNA.

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[Herpetology • 2016] Brachycephalus albolineatus • A New Species of Brachycephalus (Anura: Brachycephalidae) from Santa Catarina, southern Brazil

November 4, 2016, 1:44 am

≫ Next: [Herpetology • 2016] Bolitoglossa aurae • A Beautiful New Yellow Salamander, Genus Bolitoglossa (Caudata: Plethodontidae), from the northeastern Slopes of the Cordillera de Talamanca, Costa Rica

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Brachycephalus albolineatus    Bornschein, Ribeiro, Blackburn, Stanley & Pie, 2016 DOI:  10.7717/peerj.2629

Abstract

A new species of Brachycephalus (Anura: Brachycephalidae) is described from the Atlantic Forest of northeastern state of Santa Catarina, southern Brazil. Nine specimens (eight adults and a juvenile) were collected from the leaf litter of montane forests 790–835 m above sea level (a.s.l.). The new species is a member of the pernix group by its bufoniform shape and the absence of dermal co-ossification and is distinguished from all its congeners by a combination of its general coloration (dorsal region of head, dorsum, legs, arms, and flanks light, brownish green to dark, olive green, with darker region in the middle of the dorsum and a white line along the vertebral column in most specimens) and by its smooth dorsum. The geographical distribution of the new species is highly reduced (extent of occurrence estimated as 25.04 ha, or possibly 34.37 ha). In addition, its habitat has experienced some level of degradation, raising concerns about the future conservation of the species. Preliminary density estimates suggest one calling individual every 3–4 m2 at 815–835 m a.s.l. and every 100 m2 at 790 m a.s.l. Together with the recently described Brachycephalus boticario and B. fuscolineatus, the new species is among the southernmost species of Brachycephalus known to date.

Figure 1: Holotype of Brachycephalusalbolineatus in life. DOI:  10.7717/peerj.2629

Diagnosis.Brachycephalus albolineatus is a member of the genus Brachycephalus based on diagnostic morphological traits, including phalangeal reduction, an arciferal pectoral girdle in which the ossified procoracoid and epicoracoid cartilages are fused to the clavicle, coracoid, and scapula, a suprascapula expanded with a prominent cleithrum, and the absence of a sternum (modified from Kaplan (2002), Izecksohn (1971), Ford & Cannatella (1993), Ribeiro et al. (2005), Alves et al. (2006) and Da Silva, Campos & Sebben (2007); Fig. 5). Brachycephalus albolineatus is a member of the pernix group, as defined by Ribeiro et al. (2015), by having a bufoniform body and lacking dermal co-ossification. Within Brachycephalus, B. albolineatus is distinguished from all of the species in the genus by the following combination of characters: (1) body bufoniform; (2) absence of dermal co-ossification; (3) adult size SVL 9.9–11.4 mm; (4) dorsum smooth (Fig. 1); (5) fusion of the last presacral (VIII) and sacral vertebrae; (6) general color (in life) of the dorsal region of head, dorsum, legs, arms and flanks light, brownish green to dark, olive green, always with a dark green region along the middle of the dorsum and a white line along the vertebral column in most specimens.

Figure 3: Variation in dorsal coloration among paratypes of Brachycephalus albolineatus. (A), MHNCI 10295; (B), MHNCI 10299. Figure 5: Juvenile of Brachycephalus albolineatus (MHNCI 10293). (A) dorsal view; (B) ventral view; (C) general view next to the tip of a pencil, for scale. DOI:  10.7717/peerj.2629

Figure 3: Variation in dorsal coloration among paratypes of Brachycephalus albolineatus.  (A), MHNCI 10295; (B), MHNCI 10299; (C), MHNCI 10297; (D), MHNCI 10298; (E), MHNCI 10300; (F), MHNCI 10296. Notice a line of protruding glands on the dorsolateral region of body (although the degree of conspicuousness of this line varied among individuals). Also, the white line on the middle of the dorsum is completely absent in specimen “F”. DOI:  10.7717/peerj.2629

Etymology. The specific epithet is from the Latin albus (“white”) and lineatus (“of a line”), in reference to the characteristic white stripe across the dorsum of the new species, present in most specimens.

Distribution. Brachycephalus albolineatus is known only from the type locality, being found in altitudes between 790–835 m a.s.l. Given the dense sampling of other potential locations with climatic and vegetation conditions similar to the type locality (Fig. 7), it likely that B. albolineatus has a microendemic distribution, as found in other species of the pernix group (Bornschein et al., 2016). For instance, we searched for the new species on a mountain named Pedra Branca just 4.8 km from the type locality (26°32′52″S, 49°05′11″W) on the border of the municipalities of Jaraguá do Sul and Massaranduba, Santa Catarina, on 6 March 2016. In this mountain, we worked from 700 m a.s.l. up to the top, at 730 m a.s.l., and we did not find the new species.  ....

Figure 8: General view of the vegetation in the type locality (at 830 m above sea level).

Ecology. Brachycephalus albolineatus lives on the leaf litter of the forest floor of montane forests (Floresta Ombrófila Densa Montana; with a canopy between 10–18 m in height; Fig. 8). While we disturbed the litter while searching for specimens, some individuals were seen moving further down, with some specimens being detected in the soil between roots. It was raining on 25 October 2012 we heard no calling activity; we only collected one individual by randomly searching the leaf litter. On 5 and 6 February 2016, the species showed high calling activity on the upper limit of their occurrence (830 m a.s.l.), becoming gradually scarcer downward. We estimate about one calling individual in each 3–4 m2 at 815–835 m a.s.l. and every 100 m2 at 790 m a.s.l., respectively in the highest and lowest altitudinal limits of records of the species. On 05 and 06 February 2016, we verified that the species became silent after the sunset (at least for 30 min, when we left the site), and on 6 March 2016 we did not hear any individual calling at night (we arrived at the site 30 min after sunset and waited for 20 min).

Marcos R. Bornschein, Luiz F. Ribeiro, David C. Blackburn, Edward L. Stanley and Marcio R. Pie​. 2016. A New Species of Brachycephalus (Anura: Brachycephalidae) from Santa Catarina, southern Brazil.  PeerJ. 4:e2629. DOI:  10.7717/peerj.2629

  

[Herpetology • 2016] Bolitoglossa aurae • A Beautiful New Yellow Salamander, Genus Bolitoglossa (Caudata: Plethodontidae), from the northeastern Slopes of the Cordillera de Talamanca, Costa Rica

November 4, 2016, 9:57 pm

≫ Next: [Ichthyology • 2016] Garra fluviatilis • A New Hillstream Fish Species (Cypriniformes: Cyprinidae) from the Kwai Noi River system, Mae Khlong basin, Thailand

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Bolitoglossa aurae   Kubicki & Arias, 2016   DOI: 10.11646/zootaxa.4184.2.5

Abstract

A new yellow salamander belonging to the genus Bolitoglossa, subgenus Eladinea, is described from a premontane rainforest in the vicinity of Moravia de Chirripó, on the northeastern slopes of the Cordillera de Talamanca in Costa Rica at an elevation of ca. 1300 m. This new taxon is distinguished from its congeners by its chromatic and morphological characteristics, and by differentiation in DNA sequences of the mitochondrial 16S rRNA and cytochrome b genes. 

Keywords: Amphibia, Central America, Bolitoglossa aurae sp. nov., Bolitoglossa robinsoni clade, caudate, Eladinea, 16S rRNA, cytochrome b

Bolitoglossa aurae sp. nov.

Aura’s golden salamander

Generic Placement. Assigned to the genus Bolitoglossa due to having fewer than 14 costal grooves and lacking a sublingual fold, and to the subgenus Eladinea based the molecular evidence presented herein. 

Etymology. The name “aurae” is in dedication to Aura Reyes, the wife of BK, who co-discovered the holotype and has supported and encouraged BK’s research and conservation efforts with the amphibians of Costa Rica for many years, this in addition to her own contributions to increase the knowledge of Costa Rica’s amphibians made possible through dedicating her time to accompanying BK on numerous field trips, many of which consisted of enduring prolonged periods of cold conditions while being soaking wet within the cloud forests of Costa Rica to search for elusive anuran and caudate species. The name also alludes to the Latin aureus, meaning golden, for the yellow coloration the holotype possessed in life.

Distribution. Bolitoglossa aurae is known only from a single site within the Tropical Premontane Rain Forest life zone (Holdridge 1967) along the mid-elevation slopes of northeastern Cordillera de Talamanca, in the vicinity of Moravia de Chirripó, ca.1300 m (Fig. 1).

Kubicki, Brian and Erick Arias. 2016. A Beautiful New Yellow Salamander, Genus Bolitoglossa (Caudata: Plethodontidae), from the northeastern Slopes of the Cordillera de Talamanca, Costa Rica. Zootaxa. 4184(2); 329–346.  DOI: 10.11646/zootaxa.4184.2.5

facebook.com/cramphibian/photos/777769139027741

Resumen: Se describe una nueva salamandra amarilla perteneciente al género Bolitoglossa, subgénero Eladinea, del bosque lluvioso premontano en las proximidades de Moravia de Chirripó en la vertiente noreste de la Cordillera de Talamanca en Costa Rica, a una elevación aproximada de 1300 m.s.n.m. Esta nueva especie se diferencia de sus congéneres por sus caracteristicas cromáticas, morfológicas y su diferenciación molecular en los genes mitocondriales 16S rARN y citocromo b. 

Palabras clave: América Central, Amphibia, Bolitoglossa aurae sp. nov., caudado, clado Bolitoglossa robinsoni, Eladinea, 16S rARN, citocromo b

[Ichthyology • 2016] Garra fluviatilis • A New Hillstream Fish Species (Cypriniformes: Cyprinidae) from the Kwai Noi River system, Mae Khlong basin, Thailand

November 4, 2016, 11:25 pm

≫ Next: [Fungi • 2016] Acervus stipitatus & A. globulosus • Two Novel Acervus Species extend their Distribution within Yunnan, China

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Garra fluviatilis   Kangrang, Thoni, Mayden & Beamish, 2016   DOI: 10.11646/zootaxa.4175.4.3

Abstract

Garra fluviatilis is a new species described herein from the Kwai Noi, Mae Khlong basin, in the Thong Pha Phum District of Kanchanaburi Province in western Thailand. It is diagnosed by the following combination of morphological characters: well developed upper lip with unculiferous papillae, mottled pigmentation pattern, a pleated papilliferous fold at the junction of the anterolateral lobe and anteromedial fold on the lower lip, 4–5 anal scales, relatively deep body, keeled nape, and a laterally straight anterior margin of the anteromedial fold. Based on shared apomorphic morphological characters, we hypothesize that the new species is most closely related to G. spilota in nearby Myanmar.

Keywords: Pisces, Mae Khlong basin, new species

FIGURE 4. Garra fluviatilis, live specimen, Pakkok River, tributary to Vajiralongkorn Reservoir, Kwai Noi River drainage of the Mae Khlong basin at Ban Huay Khayeng, Thong Pha Phum District, Kanchanaburi Province, Thailand. (14°40’51”N, 98°31’13.3”E). Photo by Sakda Arbsuwan, 26 April 2011. Specimen deposited at National Inland Fisheries Institute (NIFI 5089, 52.75 mm SL).   DOI: 10.11646/zootaxa.4175.4.3

Etymology. The name, fluviatilis, is a Latin adjective meaning “of the river”, in reference to the habitat where this species lives.

Distribution. This species is currently known from tributaries to the Kwai Noi River, Mae Khlong basin in Kanchanaburi Province, Thailand (Fig. 1).

Kangrang, Punnatut, R. j. Thoni, Richard L. Mayden and F. W. H. Beamish. 2016. Garra fluviatilis, A New Hillstream Fish Species (Cypriniformes: Cyprinidae) from the Kwai Noi River system, Mae Khlong basin, Thailand. Zootaxa. 4175(4); 335–344.  DOI: 10.11646/zootaxa.4175.4.3

Researchgate.net/publication/309196788_Garra_fluviatilis_a_new_hillstream_fish_species_Cypriniformes_Cyprinidae_from_the_Kwai_Noi_River_system_Mae_Khlong_basin_Thailand

[Fungi • 2016] Acervus stipitatus & A. globulosus • Two Novel Acervus Species extend their Distribution within Yunnan, China

November 5, 2016, 2:22 am

≫ Next: [Herpetology • 2014] Agama hulbertorum • A New Cryptic Species of the Agama lionotus complex from south of the Ngong Hills in Kenya

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Acervus globulosus  Ekanayaka, Zhao, Jones, Pu & Hyde, 2016 DOI: 10.11646/phytotaxa.283.1.5

   

Abstract

Acervus is a small genus in Pyronemataceae. Most of the species in this genus have been recorded from China. In the present study, two species of Acervus from Yunnan Province, in southwestern China, were investigated by using morphology and DNA sequence data. This paper introduces two new species, Acervus stipitatus and Acervus globulosus, with morphological descriptions, and compares them with morphologically similar taxa. Multi-gene phylogenetic analyses inferred from 28S, TEF1 and RPB2 sequence data strongly support the lineages for taxa of Acervus, corresponding to morphological features. We also provide a summarized comparison of the important morphological characteristics of Acervus species.

Keywords: apothecia, discomycetes, inoperculate, phylogeny, taxonomy, Fungi

 Anusha H. Ekanayaka, Qi Zhao, Gareth E. B. Jones, En-Da Pu and Kevin D. Hyde. 2016. Two Novel Acervus Species extend their Distribution within Yunnan, China. Phytotaxa. 283(1); 74-83. DOI: 10.11646/phytotaxa.283.1.5

    

[Herpetology • 2014] Agama hulbertorum • A New Cryptic Species of the Agama lionotus complex from south of the Ngong Hills in Kenya

November 5, 2016, 2:51 am

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Agama hulbertorum Wagner, 2014

Abstract

East Africa, especially if including the Horn of Africa, is a centre of diversity for African Agamid lizards and harbours the endemic lineage of the Agama lionotus complex, which currently comprises nine species. Species of the complex are mainly characterized by their throat pattern in adult males, which can be used for species identification. Among them, Agama lionotus and Agama dodomae show a very distinct colouration of a blue body and a white/blue annulated tail – a colour pattern that is otherwise only known from the southern African Agama kirkii. Within the complex, Agama lionotus is the most widely distributed taxon, ranging from Ethiopia to northern Tanzania and being replaced by Agama dodomae farther south in Tanzania. Other taxa of the complex are more restricted in their distribution. In this study, specimens from a larger area south of the Ngong Hills are examined and compared with other members of the complex, because they show an overall similarity to Agama lionotus, but are distinctly smaller. Examining the morphological (62 characters) and genetical (16S, ND4, CMOS) data indicates that these specimens represent a new species. Furthermore, phylogenetic analyses support the new taxon as not closely related to Agama lionotus itself, but as a member of the complex. The new species is especially characterized by its small size. Adult males have a vertebral stripe, a blue body colouration and an annulated white/blue tail. Further typical characters are the low number of scale rows around midbody, the pear-shaped and keeled

nasal scale, the minute nuchal crest, and the feebly keeled vertebral scales, followed by dorsal and lateral keeled scales. The results of this study improve our understanding of the diversity of agamid lizards in East Africa and support the value of adult male throat coloration for the identification of species within the Agama lionotus complex.

Key words. Agamidae, Agama, Agama dodomae, new species, East Africa, Tanzania.

Agama hulbertorum sp. n. 

Diagnosis: A small Agama of the A. lionotus complex. It can be identified by the following combination of characters: nasal scale pear-shaped, keeled and tubular; nasal scale in contact with the first canthus scale; nuchal crest minute, consisting of few, indistinctly raised scales; ear opening surrounded by five tufts of spiny scales, with two additional tufts on the neck; vertebral scales feebly keeled, dorsal and lateral scales keeled, ventral and gular scales smooth; dorsal and lateral caudal scales keeled, ventral caudal scales smooth; and males with one discontinuous row of precloacal pores. Males in nuptial colouration exhibit a red throat, without any pattern, a vertebral stripe, and a narrowly annulated blue and white colour pattern on the tail.

Etymology: This species is named in honour of Andrea and Felix Hulbert, in recognition of their contributions to the captive breeding of African reptiles and, of course, our glorious friendship

Ecology: A rupicolous lizard with individuals inhabiting rocky outcrops or solitary larger stones and rocks in an arid landscape with Acacia shrub vegetation. It is diurnal and lives in harem groups of one dominant male and several females and juveniles (A. Burmann, pers. com. 2006). Specimens at the Ngong Hills were active around noon at temperatures of about 27°C and a humidity of 60% (Burmann 2006).

Philipp Wagner. 2014. A New Cryptic Species of the Agama lionotus complex from south of the Ngong Hills in Kenya. SALAMANDRA. 50(4); 187–200.