Saturday, November 28, 2015

[Botany • 2015] Selaginella chuweimingii • A New Lycophyte Species (Selaginellaceae) from central Yunnan, China

Selaginella chuweimingii Xin M. Zhou, Z. R. He, Liang Zhang & Li Bing Zhang

A new lycophyte speciesSelaginella chuweimingii, from central Yunnan, China is described and illustrated. Selaginella chuweimingii is similar to S. sinensis in the habit and the morphology of strobili and sporophylls, but the new species can easily be distinguished from the latter by having ovate or oblong-ovate ventral leaves, extremely asymmetrically dorsal leaves, and oblong-ovate to ovate-lanceolate axillary leaves. Also the new species has lamellate ornamentation on megaspore surfaces and less prominent verrucae and ridges on microspore surfaces. The two species are further separated in geographical distribution with the new species occurring in central Yunnan Province while S. sinensis in northern and eastern China.

Keywords: Articulate group, megaspores, microspores, sporangial arrangement, Selaginella sinensis, Bryophytes, China

Xin-Mao Zhou, Zhao‐Rong He, Liang Zhang and Li-Bing Zhang. 2015. Selaginella chuweimingii (Selaginellaceae) sp. nov. from Yunnan, China. PHYTOTAXA. 231(3): 283–288.  DOI:  10.11646/phytotaxa.231.3.6

[Herpetology • 2015] A Reappraisal of The Rhacophorid Bush Frog Raorchestes flaviventris (Boulenger, 1882), with An Evaluation of The Taxonomic Status of R. emeraldi Vijayakumar, Dinesh, Prabhu and Shankar, 2014

FIGURE 1. Raorchestes flaviventris (Boulenger, 1882) (in life); A. male from Valparai; B. male from Kadalar.


Raorchestes flaviventris, a species of rhacophorid bush frog described from the Western Ghats by George Albert Boulenger in 1882, has never been reported from the region since its description. However, we herewith report a record of the species after almost 132 years and redescribe the species and also clarify confusions that prevailed over the taxonomic status of the species and its closely-related congeners, along with shedding light on literature regarding its distribution. Also, the recently described R. emeraldi Vijayakumar et al., 2014, which we suggest to be the same species, becomes a junior subjective synonym of R. flaviventris.

Keywords: Amphibia, Raorchestes flaviventris, rediscovery, Western Ghats, India

FIGURE 5. Map showing distribution range (marked by blue outline) of Raorchestes flaviventris in the Western Ghats.

Abraham, Robin K., Anil Zachariah & Vivek P. Cyriac. 2015. A Reappraisal of The Rhacophorid Bush Frog Raorchestes flaviventris (Boulenger, 1882), with An Evaluation of The Taxonomic Status of R. emeraldi Vijayakumar, Dinesh, Prabhu and Shankar, 2014.
 Zootaxa. 4048(1): 90–100. DOI: 10.11646/zootaxa.4048.1.5

Friday, November 27, 2015

[Herpetology • 2015] Dixonius taoi • A New Species of Dixonius (Squamata: Gekkonidae) from Phu Quy Island, Vietnam

Dixonius taoi
Botov, Trung, Truong, Bauer, Brennan & Ziegler, 2015
FIGURE 3. Dorsolateral view of Dixonius taoi sp. n. from Phu Quy Island, Vietnam. Adult male holotype (A: IEBR A.2014.26) and adult female paratype with partially regenerated tail (B: IEBR A2014.27).
Photos: Phùng Mỹ Trung. || DOI: 10.11646/zootaxa.4040.1.4


We describe a new species of Dixonius on the basis of five specimens from Phu Quy Island, Binh Thuan Province, in southern Vietnam. The new species can be distinguished from congeners based on molecular and morphological differences. Diagnostic features are: small size (SVL up to 44 mm); 7 or 8 supralabials; 11 or 12 rows of keeled tubercles on dorsum; 21–23 ventral scale rows; 5 or 6 precloacal pores in males; a canthal stripe running from rostrum through the eye and terminating behind the head; second pair of postmentals about one third to one half size of first pair; ground color of dorsum brown, with one or two rows of light yellow or orange spots in one or two rows along flanks, and irregular bands or a reticulated network of dark marks on dorsum. This is the fifth species of Dixonius known to occur in Vietnam. 

Keywords: Reptilia, Dixonius taoi sp. nov., coastal forest, molecular phylogeny, taxonomy, Binh Thuan Province, southern Vietnam, South China Sea

Etymology. The new species is named in honor of our colleague and friend Dr. Nguyen Thien Tao from the Vietnam National Museum of Nature in Hanoi, in recognition of his numerous and groundbreaking scientific contributions towards a better understanding of the herpetofauna of Vietnam.

Distribution. Phu Quy Island, Binh Thuan Province, Vietnam (Fig. 4).

FIGURE 3. Dorsolateral view of Dixonius taoi sp. n. from Phu Quy Island, Vietnam. Adult male holotype (A: IEBR A.2014.26) and adult female paratype with partially regenerated tail (B: IEBR A2014.27).
Photos: Trung My Phung. || DOI: 10.11646/zootaxa.4040.1.4

Natural history. The type series were found in secondary forest just above sea level (Fig. 5). The predominant vegetation, which is interspersed with large volcanic stones, consists of small prickly shrubs and species of the families Pandanaceae, Ebenaceae, and Fabaceae. The geckos were collected during a rainy night, when they had left their shelters between stones and shrubs. A few specimens were found in the small shrubs in agricultural lands. Most of the forests in this area have been destroyed, and only a few small patches are left along the coast.

Botov, Andreas, Trung M. Phung, Truong Q. Nguyen, Aaron M. Bauer, Ian G. Brennan and Thomas Ziegler. 2015. A New Species of Dixonius (Squamata: Gekkonidae) from Phu Quy Island, Vietnam. Zootaxa. 4040(1): 48–58. DOI: 10.11646/zootaxa.4040.1.4

Loài thằn lằn mới phát hiện trong đêm mưa
Trong cơn mưa nặng hạt, giữa đêm tối mịt mùng, nhà nghiên cứu Phùng Mỹ Trung lặng lẽ tìm kiếm ở đám cây bụi nằm sát biển và điều kỳ diệu đã đến - anh tìm ra loài mới thằn lằn chân ngón tạo.

Thursday, November 26, 2015

[Botany • 2015] Cycas chenii • A New Species (Cycadaceae) from China, and its Phylogenetic Position

Fig. 1. Cycas chenii X. Gong & W. Zhou sp. nov.
A, Whole plant and habitat. B, Female cone. C, Male cone. D, Megasporophylls andseed. E, Seedlings and female plant.

Cycas chenii X. Gong & W. Zhou sp. nov., a new species of Cycas L., is described and illustrated here. The morphological and karyomorphological comparisons are made between C. chenii and the closely related taxa for defining its taxonomical status as a new species. Moreover, the phylogenetic position of C. chenii within 16 Cycas species is determined using DNA sequences of two plastid regions, nuclear ribosomal internal transcribed spacers, and two nuclear regions. Cycas chenii is readily distinguished from the related C. guizhouensis K. M. Lan & R. F. Zou by an acaulescent stem. Phylogenetic evidence indicates that C. chenii is a distinct group related to C. guizhouensis in the Section Stangerioides. The distribution and conservation status of C. chenii are also discussed.

Keywords: China; Cycas chenii; new species; phylogenetic position

Wei Zhou, Meng-Meng Guan and Xun Gong. 2015. Cycas chenii (Cycadaceae), A New Species from China, and its Phylogenetic Position. Journal of Systematics and Evolution. 53(6); 489–498. DOI: 10.1111/jse.12153

[Botany • 2014] Three New Species of Annonaceae from West Kalimantan, Indonesian Borneo; Cyathocalyx tsukayae, Mitrephora imbricatarum-apicum & Orophea sagittalis

Fig. 1. A: Flower of Cyathocalyx tsukayae. About ×1/3. B: Fruit of C. tsukayae. About ×1/4.
C: branch with flower of Mitrephora imbricatarum-apicum. Scale = 1 cm. D: Closeup of flower of M. imbricatarum-apicum. Note recurved outer petals, and imbricate, but not cohering apexes of inner petals. Scale = 1 mm.
E: Flower of Orophea sagittalis. Scale = 1 mm. 

Three new species of Annonaceae; Cyathocalyx tsukayae, Mitrephora imbricatarum-apicum and Orophea sagittalis, are described based on materials newly collected from Betung-Kerihun National Park, West Kalimantan, Indonesia. 

Keywords: Annonaceae, biodiversity, Borneo, Cyathocalyx, Mitrephora, new species, Orophea, West Kalimantan, wet tropics

Fig. 1. A: Flower of Cyathocalyx tsukayae. About ×1/3. B: Fruit of C. tsukayae. About ×1/4. C: branch with flower of Mitrephora imbricatarum-apicum. Scale = 1 cm. D: Closeup of flower of M. imbricatarum-apicum. Note recurved outer petals, and imbricate, but not cohering apexes of inner petals. Scale = 1 mm. E: Flower of Orophea sagittalis. Scale = 1 mm. F: Nectary pattern of adaxial surface of inner petal of slightly immature flower (pickled material). Scale = 1 mm.

Hiroshi Okada. 2014. Three New Species of Annonaceae from West Kalimantan, Indonesian Borneo. Acta Phytotax. Geobot. 65(1): 17–24.

Wednesday, November 25, 2015

[Herpetology • 2015] Calotes minor || A Taxonomic Mystery for More than 180 Years: The Identity and Systematic Position of Brachysaura minor (Hardwicke & Gray, 1827)

Calotes minor (Hardwicke & Gray, 1827)
photo: V. Deepak  
Deepak, Vyas, Giri & Karanth. 2015. VERTEBRATE ZOOLOGY. 65(3): 371–381.

Brachysaura is a monotypic genus of agamid lizard found in the Indian subcontinent; the identity and systematic position of B. minor has been long debated, and it has at times been subsumed into Agama, Charasia and Laudakia, with some authors suggesting affinities to Calotes. We constructed nuclear and mitochondrial phylogenetic trees including Brachysaura and allied agamid genera to resolve its phylogenetic position. We also compared osteology and external morphology with the genera Agama, Calotes and Laudakia. Hemipenial morphology was compared with Calotes and some other agamids from South Asia. Both nuclear and mitochondrial phylogenies demonstrate that Brachysaura is nested within the widespread South and Southeast Asian genus Calotes, with which it also shares certain external morphological, osteological and hemipenial characters. Adaptations to ground dwelling in Brachysaura minor has resulted in unique modifications to its body plan, which is likely why generic allocation has been long confused. This study also highlights the need for an integrated systematic approach to resolve taxonomic ambiguity in Asian agamids.

Key words: Brachysaura, Calotes, genus, habit, morphology.

Notes on distribution
Brachysaura minor was considered to be one of the widespread species of agamid in the Indian subcontinent. However, most recent and confirmed records on the distribution of B.minor are from western and central India (see Ingle et al. 2012; Khan & Kumar 2010). The record of this species from Angul, Odisha by Chakraborty & Gupta (2009) is that of Psammophilus cf. blanfordianus. The voucher specimen (ZSI 25833) is deposited at the Zoological Survey of India, Calcutta. We identified this specimen as Psammophilus cf. blanfordianus based on the small scales on the body and strong fold in the shoulder region. Additionally, Brachysaura minor have plate like scales between the eye and above tympanum, which is missing in this specimen. The only record of B. minor from eastern part of the subcontinent is the type locality (Chittagong). Previous authors have raised their doubts about the occurrence of B. minor in Chittagong (see Khan & Kumar 2010). We also suspect this record is erroneous as the habitat at Chittagong is forested with high rainfall compared to open grassland in semi-arid and arid regions of western and central India. While rest of the areas where they occur have mean annual rainfall between 200–1500 mm, Chittagong has more than 2500 mm mean annual rainfall (Fig. 7). Interestingly, the closest sister species to Brachysaura minor, Calotes jerdoni is distributed in North Eastern India, Myanmar and Bhutan (Smith 1935, Uetz & Hošek 2015).

Fig. 7. Rainfall pattern in the India sub-continent and the distribution of Brachysaura minor.
Red triangle: type locality of B. minor, black triangle: location where Blyth’s specimens were collected; black circles are place where we collected the samples, green circles previous records.

Taxonomic implications
Subsuming Brachysaura into Calotes warrants reassessment of diagnostic characters for the genus Calotes. This is because many of the characters used to differentiate between Pseudocalotes, Calotes and Bronchocela are body ratios (Hallermann & Bӧhme 2000). However B. minor is unique among Calotes in that it has body ratios that are very different from other Calotes spp. This study shows that there are unique hemipenial characters that can be used to diagnose the genus Calotes. Though the osteology of agamids is well documented in Moody (1980), it requires extensive revision in the light of new advances in agamid taxonomy. Further studies are required on both hemipenis and osteology to resolve taxonomic ambiguities and for a better understanding of the evolutionary relationships within Draconinae.
The inclusion of genus Brachysaura to Calotes will not have much taxonomic implications for Brachysaura minor, which becomes Calotes minor (Hardwicke & Gray 1827). Although Gray (1845) listed Agama minor in the synonymy of Calotes minor but the latter is a different agamid, presently considered as Oriocalotes paulus (Günther 1864, Smith 1935, Ananjeva et al. 2011). The specimens of O. paulus referred by Gray (1845) under C. minor were misidentified and they were not types of the new species. The interpretation by Smith (1935) was wrong, which was corrected by Wermuth (1967). Thus the name Calotes minor is not preoccupied and is available for Brachysaura minor

Convergence in morphological characters driven by its ground dwelling habits probably caused confusion in the genus allocation of Brachysaura minor. This highlights the need to revise diagnostic characters for the genus Calotes. The genus Trapelus and Bufoniceps are the only Agaminae found in Western India. Therefore our finding also limits the distribution of members of Agaminae to the arid regions ( <  500 mm rainfall) of Western India. 

V. Deepak, Raju Vyas, V. B. Giri and K. Praveen Karanth. 2015. A Taxonomic Mystery for More than 180 Years: The Identity and Systematic Position of Brachysaura minor (Hardwicke & Gray, 1827). VERTEBRATE ZOOLOGY. 65(3): 371–381

Tuesday, November 24, 2015

[Herpetology • 2015] Ghatixalus magnus • A Novel Third Species of the Western Ghats Endemic Genus Ghatixalus (Anura: Rhacophoridae), with Description of its Tadpole

Ghatixalus magnus Abraham, Mathew, Cyriac, Zachariah, Raju & Zachariah, 2015  

The Western Ghats biodiversity hotspot is a recognized center of rhacophorid diversity as demonstrated by several recent studies. The endemic genus Ghatixalus is represented by two species from two separate high-elevation regions within the Ghats. Here, we describe a third species that can be distinguished by morphological and larval characters, as well as by its phylogenetic placement.

Keywords: Amphibia, Rhacophoridae, Ghatixalus, New species, Tadpole, Western Ghats, India

Abraham, Robin K., Jobin K. Mathew, Vivek P. Cyriac, Arun Zachariah, David Raju & Anil Zachariah. 2015. A Novel Third Species of the Western Ghats Endemic Genus Ghatixalus (Anura: Rhacophoridae), with Description of its Tadpole.
 Zootaxa. 4048(1): 101–113.  DOI: 10.11646/zootaxa.4048.1.6


Monday, November 23, 2015

[PaleoEnvironment • 2015] Sawfishes and Other Elasmobranch Assemblages from the Mio-Pliocene of the South Caribbean (Urumaco Sequence, Northwestern Venezuela)

Fig 11. Restoration of diverse sharks and rays in coastal lagoon-estuarine at late Miocene times in Urumaco.
 (A) Sharpnose shark Rhizoprionodon sp., (B) Hammerhead shark Sphyrna cf. zygaena, (C) Bull shark Carcharhinus leucas, (D) “Big tooth” Carcharocles megalodon, (E) Tiger shark Galeocerdo cuvier, (F) Spotted eagle ray Aetobatus cf. narinari, (G) Eagle ray Myliobatis sp., (H) Guitarfish Rhynchobatus sp., (I) Sawfish Pristis sp., (J) Stingray cf. Dasyatis.
Artwork by Jorge Gonzalez. DOI: 10.1371/journal.pone.0139230 

The Urumaco stratigraphic sequence, western Venezuela, preserves a variety of paleoenvironments that include terrestrial, riverine, lacustrine and marine facies. A wide range of fossil vertebrates associated with these facies supports the hypothesis of an estuary in that geographic area connected with a hydrographic system that flowed from western Amazonia up to the Proto-Caribbean Sea during the Miocene. Here the elasmobranch assemblages of the middle Miocene to middle Pliocene section of the Urumaco sequence (Socorro, Urumaco and Codore formations) are described. Based on new findings, we document at least 21 taxa of the Lamniformes, Carcharhiniformes, Myliobatiformes and Rajiformes, and describe a new carcharhiniform species (†Carcharhinus caquetius sp. nov.). Moreover, the Urumaco Formation has a high number of well-preserved fossil Pristis rostra, for which we provide a detailed taxonomic revision, and referral in the context of the global Miocene record of Pristis as well as extant species. Using the habitat preference of the living representatives, we hypothesize that the fossil chondrichthyan assemblages from the Urumaco sequence are evidence for marine shallow waters and estuarine habitats.

The lithologies of the Urumaco sequence are characterized by substantial variation, indicating the complexity and heterogeneity of these geologic units. Both fossils and the sedimentology document terrestrial and marine facies, including transitional paleoenviroments, and consequently a fauna tolerant to these environments. The elasmobranch fauna from the Urumaco sequence (Socorro-Urumaco-Codore formations), with almost 21 taxa, is associated principally with estuarine coastal lagoon and very shallow marine waters. The presence of elasmobranchs in association with others marine, freshwater and terrestrial vertebrates which provide seemingly contradictory signals for a palaeoenvironmental reconstruction is consistent across the larger stratigraphic sequence. This pattern is not the result of taphonomic processes, but instead proof of mixed coastal marine and fluvial-estuarine hydrographic environments during the Miocene. At the same time, the presence in the Urumaco sequence of abundant aquatic/semiaquatic vertebrates, phylogenetically close to extant groups that occur today in the Orinoco and the Amazon drainage system, support the highly debated hypothesis of a paleo-hydrographic fluvial, lacustrine or wetland complex drainage flowing along the northwestern coast of the Miocene Falcón basin into the proto-Caribbean.

Jorge D. Carrillo-Briceño, Erin Maxwell, Orangel A. Aguilera, Rodolfo Sánchez and Marcelo R. Sánchez-Villagra. 2015. Sawfishes and Other Elasmobranch Assemblages from the Mio-Pliocene of the South Caribbean (Urumaco Sequence, Northwestern Venezuela). PLoS ONE. DOI:  10.1371/journal.pone.0139230

[Ichthyology • 2015] Lubricogobius nanus • A New Species of Goby (Pisces: Gobiidae) from eastern Papua New Guinea

Tiny Goby || Lubricogobius nanus Allen, 2015
A new species of goby, Lubricogobius nanus, is described from near Alotau, Milne Bay Province, Papua New Guinea on the basis of four adult specimens, 9.5–10.9 mm SL. Diagnostic features include 10–11 segmented dorsal-fin rays, 8–9 segmented anal-fin rays, the presence of both anterior and posterior nostrils, a low fleshy keel mid-dorsally and mid-ventrally on the caudal peduncle, a mid-lateral row of widely-spaced sensory papillae on the side of the body, approximately 15 scattered sensory papillae on the middle portion of the caudal fin, body depth 3.2–3.4 in SL, mainly brown coloration with yellow fins, and an exceptionally small size (<11 mm SL). Photographs and comparative morphological data are presented for the other four members of the genus, including L. dinah, L. exiguus, L. ornatus, and L. tre.

Key words: taxonomy, ichthyology, mud-slope fishes, Indo-Pacific, western Pacific Ocean.

Allen, G.R. 2015. 2015. Lubricogobius nanus, A New Species of Goby (Pisces: Gobiidae) from eastern Papua New Guinea.  Journal of the Ocean Science Foundation. 17: 1–11.

Lubricogobius dinah J. E. Randall & Senou, 2001 (Dinah's goby)
Lubricogobius tre Prokofiev, 2009

Saturday, November 21, 2015

[Herpetology • 2014] Tylototriton liuyangensis • A New Species of the Genus Tylototriton (Urodela: Salamandridae) from Northeastern Hunan Province, China

Tylototriton liuyangensis  Yang, Jiang, Shen & Fei, 2014


We describe a new species from the family Salamandridae from northeastern Hunan Province of China based on morphological and molecular genetic evidences. The new species, Tylototriton liuyangensis,is a member of the T. asperrimus group,and shares a number of similarities with T. wenxianensis and T. broadoridgus.The dorsal surface of the new Tylototriton species is completely black,with nodule-like warts distributed evenly along the lateral margin of dorsal body,and there is no transverse striae between the warts.There are several diagnostic characters of the new species that differ from those of Twenxianensis and T. broadoridgus as follows: (1) the interorbital space (IOS) is comparatively wide; (2) there is a bony ridge present on the dorsal head surface,running along the upper eyelids; (3) the space between axilla and groin (AGS) is comparatively large,with the mean male AGS approximately equal to 50%of the snout-vent length (SVL) and the mean female AGS being 53%of SVL; and (4) there is a small genital armature on the anterior angle of labial folds present inside the anal fissure of adult males during the breeding season.The result from the molecular phylogenetic analysis of the genus Tylototriton (including the type specimen of the new species)based on the complete DNA sequence of the mitochondrial ND2 gene(1035 bp)indicated that the new species was similar to Twenxianensis, Tdabienicus, and Tbroadoridgus, but formed an independent clade.This result was consistent with the morphological analysis above, supporting that the Liuyang Population represented a distinct species.

Key words: new species, Tylototriton liuyangensis, Salamandridae, taxonomy, Liuyang Daweishan Provincial Nature Reserve of Hunan Province in China

 YANG Daode, JIANG Jianping, SHEN Youhui and  FEI Dongbo. 2014. A New Species of the Genus Tylototriton (Urodela: Salamandridae) from Northeastern Hunan Province, China. ASIAN HERPETOLOGICAL RESEARCH. 5(1):1-11. DOI: 10.3724/SP.J.1245.2014.00001

[Arachnology • 2015] Iandumoema smeagol • A New Highly Specialized Cave Harvestman (Arachnida, Opiliones, Gonyleptidae) from Brazil and The First Blind Species of The Genus Iandumoema

Iandumoema smeagol  Pinto-da-Rocha, Fonseca-Ferreira & Bichuette, 2015
[upper] Iandumoema smeagol sp. n. Live male specimen foraging in its natural habitat, showing detail of the pale yellowish coloration.  [lower] Karst relief of Monjolos regions and map of the study area at Monjolos municipality, Minas Gerais state, Brazil

A new species of troglobitic harvestman, Iandumoema smeagol sp. n., is described from Toca do Geraldo, Monjolos municipality, Minas Gerais state, Brazil. Iandumoema smeagol sp. n. is distinguished from the other two species of the genus by four exclusive characteristics – dorsal scutum areas with conspicuous tubercles, enlarged retrolateral spiniform tubercle on the distal third of femur IV, eyes absent and the penial ventral process slender and of approximately the same length of the stylus. The species is the most highly modified in the genus and its distribution is restricted only to caves in that particular area of Minas Gerais state. The type locality is not inside a legally protected area, and there are anthropogenic impacts in its surroundings. Therefore, Iandumoema smeagol sp. n. is vulnerable and it must be considered in future conservation projects.

Keywords: Endemism, troglobitic, limestone, Espinhaço Supergroup, Minas Gerais state

Figure 12. Iandumoema smeagol sp. n. Live male specimen foraging in its natural habitat, showing detail of the pale yellowish coloration.
Etymology: The specific epithet refers to the hobbit named Smeagol, created by J.R.R. Tolkien, being the original name of Gollum – the dweller of the caves located below the Misty Mountains of Middle-earth of the Lord of the Rings book.

Distribution and natural history

The occurrence of Iandumoema smeagol sp. n. in the limestone caves of Bambuí Group, more specifically in the boundaries of Serra do Espinhaço Plateau (Figure 1) shows that this region must be the eastern boundary distribution of the genus, the quartzite and the high altitudes of Serra do Espinhaço being the possible barriers. The results show that the genus Iandumoema only occurs in the northern Minas Gerais state, occupying an area of ca. 8,000 km2, and is restricted to hypogean environments, being exclusive to caves. This distribution range corroborates those presented by Hara and Pinto-da-Rocha (2008). Most specimens were collected in the aphotic zone of Toca do Geraldo cave; and only one individual was recorded in the Lapa do Santo Antônio cave. The minimum distribution range for Iandumoema smeagol sp. n. (or occurrence area) is of 4.6 km2. The specimen collected in the Lapa do Santo Antônio cave was on the rocky substrate, at the twilight zone and close to the entrance (less than 50 m away). In four visits at Toca do Geraldo, the opilionids were observed on the walls (rocky substrate) and few on the silt substrate, always close to water bodies (drainage or pools). Despite the observed guano piles (of hematophagous bats), not one individual was observed close to them. The adults show solitary habits; on one occasion, one individual was feeding in litter, apparently scavenging carcasses of invertebrates (Figure 12). In two occasions, active juveniles were observed on the walls while the adults showed a behavior comparatively more sedentary. In the four occasions, a total of 14 individuals were observed including adults and juveniles, always close to the cave stream, showing a low abundance. Apparently, the cave does not have dry galleries and/or conduits, showing high relative humidity of the air (ca. 80%) and temperature amplitude between 22 and 24 °C.

Figure 1. a map of the study area at Monjolos municipality, Minas Gerais state, Brazil b Karst relief of Monjolos regions c entrance of Toca do Geraldo cave, a limestone cave of Bambuí Geomorphological Unit.

Troglomorphisms and conservation remarks

As a result of their faunistic singularities and high endemism, hypogean environments are considered fragile. Besides their unique faunistic composition, the singularity of cave habitats is related to the presence of relicts, many times represented by troglobitic species. Gallão and Bichuette (2015) observed this tendency in a small area (24 km2) located at Chapada Diamantina, northeastern Brazil (at least 23 troglobitic species, most of them relict ones). Troglobitic species have unique sets of autapomorphies, such as eyes and melanistic pigmentation reductions allied to other troglomorphisms, such as pedipalps elongation in opilionids and other arachnids. A possible endemism in a karst area, which is threatened, was observed for Iandumoema smeagol sp. n. in addition to the accentuated autapomorphies. Projects for the installation of small hydroelectric dams and limestone extraction for cement production represent potential impacts on the immediate environment (M. E. Bichuette and R. Fonseca-Ferreira, pers. obs.). Moreover, the extent of occurrence area of the species (4.6 allied to the deforestation in the cave surroundings must place this species in a threatened category considering the IUCN criteria (Vulnerable, VU or Endangered, EN). Long-term studies focusing population biology and distribution of I. smeagol sp. n. are urgent and fundamental to establish an effective conservation policy, including the creation of protected area(s).

Ricardo Pinto-da-Rocha, Rafael Fonseca-Ferreira and Maria Elina Bichuette. 2015. A New Highly Specialized Cave Harvestman from Brazil and The First Blind Species of The Genus: Iandumoema smeagol sp. n. (Arachnida, Opiliones, Gonyleptidae). ZooKeys. 537: 79-95. doi: 10.3897/zookeys.537.6073

Wednesday, November 18, 2015

[Ornithology • 2015] Paragallinula gen. nov. • A New Genus for the Lesser Moorhen Gallinula angulata Sundevall, 1850 (Aves, Rallidae)

Fig. 2. Lesser Moorhen Paragallinula angulata Sundevall, 1850, 
Kgomo Kgomo, South Africa, Feb. 2011 (photo by Mark Tittley).
This photograph illustrates two diagnostic character states differentiating Paragallinula from the genus Gallinula: the orange colouration on the frontal shield does not cover the entire shield, and the lack of a contrasting reddish band on the legs proximal to the ankle joint.


Molecular phylogenetic analysis has demonstrated that the genus Gallinula is not monophyletic and comprises four major lineages. A review of the nomenclature of Gallinula shows that generic names are available for three lineages but that a fourth is as yet unnamed. A new monotypic genus, Paragallinula gen. nov., is described for Lesser Moorhen (Gallinula angulata Sundevall, 1850).

Key words: Gallinules, morphology, nomenclature, Paragallinula gen. nov., phylogenetics

Class Aves Linnaeus, 1758
Order Gruiformes (Bonaparte, 1854)
Family Rallidae (Rafinesque, 1815)

Paragallinula gen. nov.

Type species: Gallinula angulata Sundevall, 1850. Monotypic.

Etymology: The generic name is derived from the Greek para (beside) and the Latin gallinula (a little hen or chicken). It denotes the resemblance of P. angulata to species of Gallinula but highlights that they are independent evolutionary lineages. The gender of the name is feminine.

Distribution: Paragallinula angulata is found in most of the African continent from Senegal and Gambia to Ethiopia, Namibia, Botswana and South Africa.

George Sangster, Juan Carlos Garcia-R and Steve A. Trewick. 2015. A New Genus for the Lesser Moorhen Gallinula angulata Sundevall, 1850 (Aves, Rallidae). European Journal of Taxonomy.  153: 1–8. DOI: 10.5852/ejt.2015.153