Acanthoscurria chacoana Brèthes, 1909
publication ID |
https://doi.org/ 10.5281/zenodo.158476 |
DOI |
https://doi.org/10.5281/zenodo.6272705 |
persistent identifier |
https://treatment.plazi.org/id/03FF87BC-AE72-FFF7-FE99-F7DFFA90FED6 |
treatment provided by |
Plazi |
scientific name |
Acanthoscurria chacoana Brèthes, 1909 |
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Acanthoscurria chacoana Brèthes, 1909 View in CoL
Acanthoscurria chacoana Brèthes, 1909:45 View in CoL (holotype female from Tucuman, Argentina, MACN Ar 5659, examined). — Schiapelli & Gerschman de Pikelin, 1964:402 (male, first description, MACNAr 2025, examined).
Acanthoscurria musculosa Simon, 1892:281 View in CoL (holotype male from S. Mateo, Bolivia, MNHN 15131, examined), MelloLeitão, 1923:302 (described male, MZSP 145, examined; misidentification); Stewien, 1969:79 (described female, IBSP 3756, examined; misidentification). Acanthoscurria altmanni Schmidt, 2003a:7 View in CoL (holotype female from Cuiabá, Mato Grosso, Brazil, in NMW, not examined). –— Schmidt, 2003b:3 (described male). Syn. n.
Diagnosis: Acanthoscurria chacoana resembles A. atrox Ve ll ar d, A. geniculata (C. L. Koch) and A. juruenicola MelloLeitão by its large size and its genital morphology. The female clusters with these species by the presence of fused spermathecae with a weakly sclerotized base with two rounded apical receptacles. It can be distinguished by the fact that the spermathecae base is typically longer than wide (or square) and the close proximity of the terminal receptacles to one another ( Figs 9–12 View FIGURES 9 – 12 ). The male clusters with A. atrox , A. geniculata and A. juruenicola by the presence of a palpal bulb with a short, thickened embolus with welldeveloped prolateral keels, and is distinguished by the presence of a narrow, very long prolateral inferior keel ( Figs 1, 2 View FIGURES 1 – 8 ) (see Bertani [2000] for figures of palpal bulbs of A. atrox and A. juruenicola ).
Natural history: In Brazil A. chacoana is found particularly within the ‘Pantanal Matogrossense’ region where it is very common. It is an area of savannalike vegetation with seasonal inundation. The spiders are typically fossorial, but can also be found beneath, and sometimes within fallen Acuri palm tree ( Attalea phalerata ) trunks ( Fig. 14 View FIGURE 14 ).
The senior author found adult males and females in November and a female with eggsac in February.
1mm.
Material examined: Brazil, State of Mato Grosso: Cuiabá River, J. Correa leg., 06 August 1948, 1 male ( IBSP 1584); 10 December 1948, 1 male ( IBSP 1227); 11 October 1957 1 male ( IBSP 1297A); October 1959, 1 male ( IBSP 2368); Cuiabá, B.E. Chst leg., 04 July 1983, 1 female ( IBSP 7072); W. Alves leg., 22 May 1989, 1 female ( IBSP 7649); R. Silva leg., 07 July 1983, 1 female ( IBSP 10383); Cáceres, 24 January 1966, 1 female ( IBSP 3757); V. Vzir leg., 05 April 1966, 3 females ( IBSP 3762A, IBSP 3762B, IBSP 3762C); Instituto Santa Maria leg., 24 January 1964, 2 females ( IBSP 3871A, IBSP 3871B); 29 July 1964, 1 female ( IBSP 3846); 20 December 1967, 1 female ( IBSP 3821); 21 December 1967, 1 female ( IBSP 3834); M. Calleffo leg., December 1997, 1 female ( IBSP 7559); 11 males ( IBSP 7560, IBSP 7561, IBSP 7562, IBSP 7563, IBSP 7564, IBSP 7565, IBSP 7566, IBSP 7567, IBSP 7568, IBSP 7569, IBSP 7570); Nobres, I. Marques leg., 27 October 1976, 1 male ( IBSP 4221); Santo Antônio de Leverger, C. Roloff leg., February 1982, 2 males ( IBSP 4727A, IBSP 4727B); Poconé, R. Bertani leg., 21 December 1989, 5 females ( IBSP 7168, IBSP 7779A, IBSP 7779B, IBSP 10384, IBSP 10385), 4 males ( IBSP 7497, IBSP 7633A, IBSP 7633B, IBSP 10387); R. Bertani, P.I. da Silva Jr. & S.M. Lucas leg., February 1991, 1 female ( IBSP 8028); Barão de Melgaço, P. Ulix leg., 08 November 1982, 1 male ( IBSP 7279); São José dos Quatro Marcos, C. Dall’Aglio leg., 22 September 1986, 2 males ( IBSP 7659, IBSP 7660); Jaurú, D.M.P. Moreira leg., 16 December 1987, 1 male ( IBSP 7693); Juína, M.L. Mancini leg., 06 July 1998, 1 male ( IBSP 10386).
State of Mato Grosso do Sul: Pantanal do Rio Piquerí, M. Morganti leg., October 1970, 1 female ( IBSP 79); Taunay, L. Pires Filho leg., 22 February 1949, 1 female ( IBSP 1861); Miranda, E. Affini leg., 08 November 1978, 1 male, 1 female ( IBSP 2032A), 2 males ( IBSP 2032B, IBSP 2032C); Agachi, J. Ailhano leg., 30 July 1952, 1 female ( IBSP 2988); C. Morais leg., 10 September 1952, 2 females ( IBSP 3011, IBSP 3014), 15 September 1952, 1 female ( IBSP 3015), 21 September 1952, 1 female ( IBSP 3025), 03 November 1952, 1 female ( IBSP 3079), 19 November 1952, 1 female ( IBSP 3088), 2 males ( IBSP 3089, IBSP 3090), 19 December 1952, 1 male ( IBSP 3098); Salobra, 02 March 1949, 1 female ( IBSP 3495); 1 Corumbá, A.G. Silva leg., 17 May 1961 male ( IBSP 3560); A.P. Arruda leg., 05 September 1961, 1 female ( IBSP 3567); 07 February 1968, 1 female ( IBSP 3841); Aquidauana, A. Leite leg., June 1968, 1 female ( IBSP 3866); C. Roloff leg., 08 December 1981, 1 male ( IBSP 7460); Pantanal, L.M. Vasconcelos leg., 27 January 1987, 2 males ( IBSP 7350, IBSP 7462); Campo Grande, I.J.G. Ferro leg., 24 January 1989, 1 female ( IBSP 7345); Anastácio, P.P. Oliveira leg., 28 December 1998, 1 female ( IBSP 8807); Passo do Lontra, J. Rayzer leg., 27 October 1993, 1 male ( IBSP 10388).
Bolívia, Santa Cruz de la Sierra, M.E. Montaño leg., 20 November 1989, 1 female ( IBSP 10390); J. Peñaranda leg., 30 September 1991, 1 female ( IBSP 10389).
Distribution: Brazil: States of Mato Grosso and Mato Grosso do Sul, within and around the ‘Pantanal Matogrossense’ region. Bolivia: Santa Cruz. Argentina: Jujuy, Salta, Formosa, Tucuman and La Rioja. Paraguay: Puerto Casado ( Fig. 13 View FIGURE 13 ).
Along the distribution of the species, the vegetation consists of open formations, ‘Chaco’ in Argentina, Paraguay and Bolivia, and ‘Pantanal Matogrossense’ ( Fig. 14 View FIGURE 14 ), in Brazil. Although suffering seasonal inundation, the ‘Pantanal Matogrossense’ is considered a mosaic of distinct formations, with the predominance of ‘Cerrado’, a savannalike environment. The existence of a belt of open vegetation connecting the ‘Caatinga’ in the northeastern Brazil through the ‘Cerrado’ and ‘Pantanal Matogrossense’ to the ‘Chaco’ in Argentina and reaching as far as the Patagonia is wellknown (Ab’Saber 1977; Vanzolini 1988). Several animal groups which are represented in the ‘Chaco’ can reach the Brazilian ‘Cerrado’ and sometimes the ‘Caatinga’. For example, Vanzolini (1988) found that of 16 lizard species, 3 extend both north and south of the ‘Chaco’; 4 extend to the south; and, 9 extend to the north, some entering deep into the ‘Cerrado’. One species even reaches the ‘Caatinga’. Thus, Acanthoscurria chacoana can be considered one more species showing the characteristic pattern of distribution Chaco / Cerrado / Pantanal Matogrossensse.
Discussion. Morphological variation was found in male palpal bulbs ( Figs 1–8 View FIGURES 1 – 8 ) and spermathecae ( Figs 9–12 View FIGURES 9 – 12 ). In males, palpal bulbs ranged from those with a very short, thickened embolus ( Figs 3–4 View FIGURES 1 – 8 ) to those with a more slender embolus ( Figs 1–2 View FIGURES 1 – 8 ). The prolateral inferior keel can be slightly salient in the upper region ( Figs 1–2, 5–8 View FIGURES 1 – 8 ) or narrow along all its length ( Figs 3–4 View FIGURES 1 – 8 ).
In females the spermathecae exhibit a high degree of variation. The bases are normally whitish, and weakly sclerotized ( Figs 10–12 View FIGURES 9 – 12 ). However, in the holotype it is dark and heavily sclerotized, indicating that the specimen was close to moulting ( Fig. 9 View FIGURES 9 – 12 ). The bases are slightly longer than wide ( Figs 10–12 View FIGURES 9 – 12 ) to square shaped ( Fig. 9 View FIGURES 9 – 12 ) in almost all examined specimens, and the variation found in the holotype seems to be due to the high sclerotization of the spermathecae. This spermathecal variation was found within and between populations of this species.
In males, the most reliable character for species identification is the presence of a narrow, very long prolateral inferior keel on the embolus. In females, it is the presence of fused spermathecae with a narrow base and receptacles close to each other.
Concerning Acanthoscurria altmanni Schmidt, 2003 View in CoL described based on a female from Cuiabá, Mato Grosso, Brazil, examination of topotypic material and specimens from the wider vicinity indicates it can be included within the morphological variation exhibited by A. chacoana View in CoL . Though very imprecise, the spermathecal drawings of Schmidt (2003a) for A. altmanni View in CoL exhibit the characteristic shape seen in A. chacoana View in CoL ( Figs 9–12 View FIGURES 9 – 12 ). Additionally, the pictures of a living specimen of A. altmanni ( Schmidt, 2003a) View in CoL also matches A. chacoana View in CoL ( Fig. 15 View FIGURE 15 ). No other Acanthoscurria View in CoL species from the type locality of A. altmanni View in CoL is The examination of specimens identified by Stewien (1969) and described as females of A. musculosa Simon, 1892 View in CoL showed that they are misidentified females of A. chacoana View in CoL .
IBSP |
Instituto Biologico de Sao Paulo |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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Acanthoscurria chacoana Brèthes, 1909
Bertani, Rogério & Carla-Da-Silva, Silvia 2004 |
Acanthoscurria chacoana Brèthes, 1909 :45
Pikelin 1964: 402 |
Brethes 1909: 45 |
Acanthoscurria musculosa
Schmidt 2003: 7 |
Schmidt 2003: 3 |
Stewien 1969: 79 |
Mello-Leitao 1923: 302 |
Simon 1892: 281 |