Posts Tagged ‘Mexico’


journal.pone.0068282.g002 (1)

Citation: Yamashita T, Rhoads DD (2013) Species Delimitation and Morphological Divergence in the Scorpion Centruroides vittatus (Say, 1821): Insights from Phylogeography.

Abstract:

Scorpion systematics and taxonomy have recently shown a need for revision, partially due to insights from molecular techniques. Scorpion taxonomy has been difficult with morphological characters as disagreement exists among researchers with character choice for adequate species delimitation in taxonomic studies. Within the family Buthidae, species identification and delimitation is particularly difficult due to the morphological similarity among species and extensive intraspecific morphological diversity. The genus Centruroides in the western hemisphere is a prime example of the difficulty in untangling the taxonomic complexity within buthid scorpions. In this paper, we present phylogeographic, Ecological Niche Modeling, and morphometric analyses to further understand how population diversification may have produced morphological diversity in Centruroides vittatus (Say, 1821). We show that C. vittatus populations in the Big Bend and Trans-Pecos region of Texas, USA are phylogeographically distinct and may predate the Last Glacial Maximum (LGM). In addition, we suggest the extended isolation of Big Bend region populations may have created the C. vittatus variant once known as C. pantheriensis.

PLoS ONE 8(7): e68282. doi:10.1371/journal.pone.0068282

Sissom, W. David, and James R. Reddell, 2009. Cave scorpions of Mexico and the United States [Escorpiones de cuevas de México y Estados Unidos]. Texas Memorial Museum Speleological Monographs, 7. Studies on the cave and endogean fauna of North America, V. Pp. 19-32.

Abstract:
Scorpions reported from caves in Mexico and the United States are reviewed. New records are included for: Centruroides gracilis, C. vittatus, Troglocormus willis, Alacran tartarus, Pseudouroctonus apacheanus, P. reddelli, Uroctonites sequoia, Serradigitus gertschi striatus, S. wupatkiensis, Vaejovis carolinianus, V. chisos, V. intermedius, V. nigrescens, and V  rossmani.

Francke, Oscar F. 2009. Description of a new species of troglophile Pseudouroctonus (Scorpiones: Vaejovidae) from Coahuila, Mexico [Descripción de una nueva especie de Pseudouroctonus troglófilo (Scorpiones: Vaejovidae) de Coahuila, México]. Texas Memorial Museum Speleological Monographs, 7. Studies on the cave and endogean fauna of North America, V. Pp. 11-18.

Abstract:
Pseudouroctonus savvasi, n.sp., is described from specimens collected in two separate caves in the state of Coahuila, México,
though it does not exhibit any marked troglomorphies. It is most closely related to Pseudouroctonus apacheanus (Gertsch and Soleglad), from which it is clearly differentiated by size, the number of teeth on the movable finger of the chelicerae, hemispermatophore morphology and pedipalp chela morphometrics.

 

Francke,O. F., and W.E. Savary. 2006. A new troglobitic Pseudouroctonus Stahnke (Scorpiones: Vaejovidae) from northern México. Zootaxa, 1302:21-30.

Abstract:
Pseudouroctonus sprousei sp. nov., from El Abra cave, in Coahuila, México, is described from a
single adult male. It is most similar to Pseudouroctonus reddelli (Gertsch and Soleglad), a well known
troglophile from Texas and Coahuila, which is also the type species for the genus
Pseudouroctonus Stahnke.

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New evidence that specialized adaptations are not evolutionary dead ends

Source:  EurekAlert! (March 12,2010) Link

IMAGE: Typhochactas mitchelli is among the smallest known scorpions and part of the Typhlochactidae family of cave scorpions, endemic to Mexico. Like all scorpions, it fluoresces in long-wave ultraviolet light as…Click here for more information.

Blind scorpions that live in the stygian depths of caves are throwing light on a long-held assumption that specialized adaptations are irreversible evolutionary dead-ends. According to a new phylogenetic analysis of the family Typhlochactidae, scorpions currently living closer to the surface (under stones and in leaf litter) evolved independently on more than one occasion from ancestors adapted to life further below the surface (in caves). The research, currently available in an early online edition, will be published in the April issue of Cladistics.

“Our research shows that the evolution of troglobites, or animals adapted for life in caves, is reversible,” says Lorenzo Prendini, Associate Curator in the Division of Invertebrate Zoology at the American Museum of Natural History. “Three more generalized scorpion species living closer to the surface evolved from specialized ancestors living in caves deep below the surface.”

Scorpions are predatory, venomous, nocturnal arachnids that are related to spiders, mites, and other arthropods. About 2,000 species are distributed throughout the world, but only 23 species found in ten different families are adapted to a permanent life in caves. These are the specialized troglobites.

This study concentrates on the family Typhlochactidae that includes nine species of scorpions endemic to the karstic regions of eastern Mexico. These species were initially grouped together by Robert Mitchell in 1971 but were elevated to the rank of family for the first time last year, based on morphological data published by Prendini and Valerio Vignoli of the Department of Evolutionary Biology, University of Siena, Italy, in the Bulletin of the American Museum of Natural History. Prendini, Vignoli, and Oscar F. Francke of the Departmento de Zoologia, Instituto de Biología at the Universidad Nacional Autónoma de México, Mexico City, also created a new genus, Stygochactas, for one species in the family and described a new surface-living species, Typhlochactas sissomi, in a separate American Museum Novitates paper. All species in the family have adapted to the dark with features such as loss of eyes and reduced pigmentation. The family contains the most specialized troglobite scorpion, Sotanochactas elliotti, one of the world’s smallest scorpions, Typhlochactas mitchelli, and the scorpion found at the greatest depth (nearly 1 km below the surface), Alacran tartarus. Three of the species (including T. mitchelli) live closer to the surface and are more generalized morphologically than the other six, making this family an excellent model with which to test and falsify Cope’s Law of the unspecialized (novel evolutionary traits tend to originate from a generalized member of an ancestral taxon) and Dollo’s Law of evolutionary irreversibility (specialized evolutionary traits are unlikely to reverse).

For the current research paper, Prendini and colleagues gathered data for 195 morphological characteristics, including a detailed mapping of the positions of all trichobothria (sensory setae) on the pedipalps, among the species of Typhlochactidae. The resulting phylogenetic tree shows that adaptation to life in caves has reversed among this group of scorpions: two of the less specialized, surface-living species, T. mitchelli and T. sylvestris, share a common ancestor with a much more cave-adapted species, and a similar pattern was found for the third less specialized, surface-living species, T. sissomi.

“Scorpions have been around for 450 million years, and their biology is obviously flexible,” says Prendini. “This unique group of eyeless Mexican scorpions may have started re-colonizing niches closer to the surface from the deep caves of Mexico after their surface-living ancestors were wiped out by the nearby Chicxuluxb impact along with non-avian dinosaurs, ammonites, and other species.”

Prendini, L., Francke, O.F. and Vignoli, V. In press. Troglomorphism, trichobothriotaxy and typhlochactid phylogeny (Scorpiones, Chactoidea): More evidence that troglobitism is not an evolutionary dead-end. Cladistics.

Related Articles 2009:

Vignoli, V. and Prendini, L. 2009.  Systematic revision of the troglomorphic scorpion family Typhlochactidae (Scorpiones: Chactoidea). Bulletin of the American Museum of Natural History 326: 1–94.

Francke OF, Vignoli V, Prendini L. 2009.  A new species of Typhlochactas (Scorpiones, Typhlochatcrinae) from Eastern Mexico. American Museum Novitates. 2009; (3647):1-11.

Francke OF. 2009. A new species of Alacran (Scorpiones: Typhlochactidae) from a cave in Oaxaca, Mexico. Zootaxa. 2009; (2222):46-56.

Note:  Dr. Robert W. Mitchell has passed away this month.  Received from ISA on the 19th.

I’m sorry to have to announce the recent death of Robert W. Mitchell, the American zoologist whom some of you may know through his work on scorpions, ricinuleids and further cave arachnids and other organisms. Attached is a summary of his work and life kindly provided via James Cokendolpher.   Yours sincerely, Jason Dunlop (Secretariat)

More info with Dr. Mitchell is found at the ScorpionFiles:  Link

 

Description of site:  Provides a scorpion species list, desert biology, zoogeography, systematics, publications, habitat photos and specimen images.

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