A remarkable new cave scorpion of the family Pseudochactidae Gromov (Chelicerata, Scorpiones) from Vietnam

Abstract A new genus and species of scorpion belonging to the family Pseudochactidaeare described based on four specimens collected in the Tien Son cave at the Phong Nha - Ke Bang National Park, Quang Binh Province, Vietnam. The new species represents a true troglobitic element, the first one known for the family Pseudochactidae. This represents the third known record of a pseudochactid, and the first from Vietnam.


Introduction
One of the most remarkable scorpions described during the last 30 years is Pseudochactas ovchinnikovi Gromov, 1998, discovered in an isolated mountainous region of southeastern Uzbekistan and southwestern Tajikistan in Central Asia. Although this scorpion shares some features with buthid and nonbuthid scorpions, it is remarkable because it displays a number of characters unique among recent (extant) scorpions, including a distinct trichobothrial pattern. Th is led Gromov (1998) to create a new monotypic family, the Pseudochactidae Gromov, 1998. Subsequently, authors have not reached a consensus regarding the phylogenetic position of this enigmatic scorpion. Based on its peculiar trichobothrial pattern, Fet (2000) suggested a relationship to the most plesiomorphic Buthidae C. L. Koch, 1837or to Chaerilidae Pocock, 1893. Lourenço (2000 placed Pseudochactas in a new superfamily, Chaeriloidea Pocock, 1893, implying that he considered it to be the sister group of Chaerilus. Although there is widespread agreement that Pseudochactas is basal within recent scorpions, its precise phylogenetic position remains a matter of debate (Fet et al. 2004). In an exhaustive study of P. ovchinnikovi, Prendini et al. (2006) concluded that the most plausible position for this 'living fossil' would be as the sistergroup of Buthidae.
Shortly after these publications, a second genus and species belonging to the family Pseudochactidae, Troglokhammouanus steineri Lourenço, 2007, was described from karst caves in Laos (Lourenço 2007a). Th is new element of the Pseudochactidae reopened the question about the origins and affi nities of this family and led to new biogeographical interpretations (Lourenço 2007a). Th e precise morphology of this new pseudochactid scorpion was also complemented by SEM studies and a further comparison with elements of the family Chaerilidae (Lourenço 2007b).
Since the description of T. steineri (Lourenço 2007a, b), no new insights have been published on this subject. While prospecting scorpions in a karst cave system in Vietnam, the second author was able to collect several specimens of a new pseudochactid scorpion. Th ese are described here as a new genus and species. In this note we do not propose new phylogenetic or biogeographical considerations, since these have already been largely discussed by Lourenço (2007a). It is important, however, to notice that the new Vietnamese pseudochactid comes from caves belonging to the same karst system as those in which T. steineri was found in Laos. Th is could suggest that this region of Southeast Asia may represent a refuge or an endemic centre for elements of this family. Finally, as suggested by Prendini et al. (2006), the discovery of P. ovchinnikovi could represent the most remarkable scorpion discovery during the last (20 th ) century. In this same vein, the discoveries of two new genera and species of pseudochactids in Laos and Vietnam are far from negligible.

Orogeny and geodynamics of South East Asia
Th e Southeast Asia or Indochina tectonic plate forms the core of the geological structure of southeastern Asia. Th is plate comprises the countries of Vietnam, Laos, Cambodia and western Th ailand, but according to Metcalfe (2002), also the southeastern portion of the Malayan Peninsula, a fragment of Sumatra, and westernmost portion of Borneo.
Th e Southeast Asia plate originated during the Proterozoic. It became detached during Palaeozoic and drifted northward. Th e carbonate platforms were developed during the Devonian-Late Palaeozoic. Th e Palaeozoic history of detachment and collision is quite speculative. Th e equivalent of Caledonian orogeny, followed by the formation of the Palaeotethys Ocean is quite possible. Climate records indicate major differences between Sibumasu, Indochina and South China during the Late Palaeozoic. During the Triassic, as a result of the Indosinian orogeny and closure of the Palaeotethys Ocean, the Southeast Asian plate joined the Asian continent (Metcalfe 2002;Senghor and Hsü 1985;Golonka et al. 2006).

Geology and ecology of the region
In Central Vietnam, the dominant geological feature is the Truong Son Range. Th is string of mountains and plateaus, also known as the Annamite Mountain Range, is roughly 1200 km long and 50-75 km wide, intersected by passes and lowlands. Most of its hills lie between elevations of 500-2000 m, and for much of its distance they run parallel to the central coastline, straddling the border with Laos. Central Vietnam's Truong Son Range is a transitional region between the subtropical communities of the North and the tropical ones of the South, and it harbours many endemic species (Groves and Schaller 2000;Herrmann et al. 2002). Th e Truong Son Range can be divided into three regions: (i) the Northern Truong Son, with much of its region being composed of ancient marine basins, that have been uplifted and now are heavily eroded and form the characteristic sharp karst ridges and peaks with extensive systems of caves, tunnels, and underground rivers and streams; (ii) the Central Truong Son, dominated by the Kon Tum Massif: an enormous, largely granitic formation, which is among the oldest exposed rocks in Southeast Asia; and (iii) the Southern Truong Son, including Vietnam's remaining uplands with Dac Lac, Da Lat and Di Linh Plateaus, a series of eroded granite and basalt plateaus dotted with isolated peaks. In the Northern Truong Son, Phong Nha -Ke Bang is a region located within the most extensive tracts of limestone karst habitat in Asia. Th is unique karst system (290-255 My) was likely uplifted in the early Triassic, diff ers substantially in terms of both geology and habitat from adjacent regions (Sterling et al. 2006;Ziegler 2008;Ziegler and Vu 2009).
Th e Phong Nha-Ke Bang karst is the oldest major karst area in Asia. It has been subject to massive tectonic changes and comprises a series of rock types that are interbedded in complex ways. Probably as many as seven diff erent major levels of karst development have occurred as a result of tectonic uplift and changing sea levels, thus the karst landscape of PNKB is extremely complex with high geodiversity and many geomorphic features of considerable signifi cance. Th ere is also strong evidence that sulphuric dissolution and hydrothermal action have played an important role in shaping the general landscape and the caves, though this has not yet been properly assessed.
Modern Vietnamese territory and borders another limestone zone of 2000 km 2 of Hin Namno in Laotian territory. Th e core zone of this national park covers 857.54 km 2 and a buff er zone covers 1954 km 2 . Th e park was created to protect one of the world's two largest karst regions, with 300 caves, and also protects the ecosystem of limestone forest of the Annamite Range region along the north-central coast of Vietnam.
Phong Nha-Ke Bang area is noted for its cave systems with a total length of about 126 km; only 20 caves have been surveyed by Vietnamese and British scientists; 17 of these are located in the Phong Nha area and three in the Ke Bang area. Before discovery of Son Doong Cave, Phong Nha held several world cave records, as it has the longest underground river, as well as the largest caverns and passageways. Th e park derived its name from Phong Nha cave, the most beautiful of all.
Like northern Central Vietnamin general and Quang Binh Province in particular, the climate in this national park is tropical, hot, and humid. Th e annual mean temperature ranges from 23 to 25 °C, with extremes of 41°C in the summer and a 6°C in the winter. Th e hottest months in this region are from June to August, with an average temperature of 28°C, and the coldest months from December to February with an average temperature of 18°C. Annual rainfall is 2000-2500 mm, and 88% of the rainfall occurs from July to December. With more than 160 rainy days per year, no month is without rain. Mean annual relative humidity is 84% in forests.
Tien Son Cave, where the new scorpion was found is located in Son Trach Commune, Bố Trạch District. Th e entrance is located 1 km from Phong Nha Cave, at an altitude of 200 m. Tien Son Cave is 980 m in length. A 10 m deep hole is situated 400 m from the entrance, after which a 500 m long underground cave is open exclusively to professional scientists. Like Phong Nha Cave, this cave features spectacular stalactites and stalagmites. According to British speleologists, Tien Son Cave was created tens of millions years ago, when a water current holed this limestone mountain in Ke Bang. Following a series of movements of rocks, this mass was levered or lowered, blocking the current and creating what is now Tien Son Cave, while the fl ow of the underground river was redirected to Phong Nha Cave. Although Phong Nha and Tien Son Caves are located next to each other, there are no passages linking them (UNEP-WCMC 2006).

Methods
Scorpions were collected by the second author, while exploring the caves with the help of standard electric torches. Scorpions were found under some heavy fl at rocks, about 200 m from the main cave entrance. Measurements and illustrations were made using a Wild M5 stereo-microscope with a drawing tube and an ocular micrometer. Measurements follow those of Stahnke (1970) and are given in mm. Trichobothrial notations are those developed by Soleglad and Fet (2001) and the morphological terminology mostly follows that of Hjelle (1990), Prendini et al (2006) and Lourenço (2007a,b).

Family Pseudochactidae Gromov, 1998
Genus Vietbocap gen. n. urn:lsid:zoobank.org:act:99306155-EE7F-4197-80E4-8DA73E20FAED Diagnosis. Cheliceral movable fi nger with three denticles (medial, subdistal, external distal) on dorsal edge; external distal denticle smaller than internal distal denticle. Anterior margin of carapace depressed with a moderate concavity, posterior margin shallowly recurved. Lateral ocelli absent. Pair of circumocular sutures with a broad U-shaped confi guration (diagnostic for family), only vestigial and incomplete in the posterior region to median ocular tubercle. Median ocelli absent; median tubercle represented by a smooth depressed zone. Anterosubmedial carinae absent from zone limited by circumocular sutures. Type D trichobothrial pattern Fet 2001, 2003a) with 35 trichobothria per pedipalp: 12 on femur, of which fi ve dorsal, four internal and three external (d 1 , d 4, d 5 and i 4 extremely reduced; i 4 absent, in one specimen); 10 on the patella, of which three dorsal, one internal, six external (est extremely reduced; absent in one specimen); ventral surface without trichobothria; 13 on the chela, of which fi ve on manus, eight on fi xed fi nger (est displaced to cutting edge of fi xed fi nger); pedipalp femur dorsal trichobothria with 'beta-like' confi guration. Sternum pentagonal, type 1 (Soleglad and Fet 2003b), moderately compressed hori-zontally, markedly longer than wide, external aspect not fl at, with a concave region, posteromedian depression round. Telotarsi each with several spinular setae not clearly arranged in rows. Metasomal segment V with a weakly marked pair of ventrosubmedian carinae; no ventromedian carina between ventrosubmedian carinae. Fixed and movable fi ngers strongly curved; dentate margins each with median denticle row comprising eight oblique granular subrows; internal and external accessory granules at base of each subrow. Respiratory spiracles small, semi-oval. Pro-and retrolateral pedal spurs present on legs I-IV. Tibial spurs absent from all legs.
Derivatio nominis: Th e generic name is a combination of Viet (for Vietnamese) and bocap (scorpion in Vietnamese language).
Type species: Vietbocap canhi sp. n. Description: based on the male holotype and paratypes (measurements given in mm after the description).

Vietbocap canhi
Colour. General coloration yellowish to pale yellow; cheliceral teeth, telson tip and rows of granules on pedipalp fi ngers reddish-yellow to dark reddish.