Introduction
The distribution of taxa represented by recorded localities in space, their relative position with respect to each other, and the links between them are the bases for biogeographical analyses (Craw et al., 1999). Track analysis is aimed to identify biotas, which are sets of spatiotemporally integrated taxa that characterize biogeographic areas and are the basic units of evolutionary biogeography (Morrone, 2004, 2010). By searching for repetitive distributional patterns, track analysis identifies biogeographically homologous distributions, allowing the correlation of distributional pattern of unrelated taxa and leading to the recognition of ancestral biotas (Morrone & Márquez, 2001).
Mexico belongs to both the Nearctic and Neotropical regions, which overlap in the Mexican transition zone, where the mixture of biotic elements is strongly favored (Morrone, 2015a; Morrone & Márquez, 2008). Additionally, smaller units are recognized, and characterized by different plant and animal taxa (Morrone, 2005). Although these taxa include several groups of arthropods (Mariño-Pérez et al., 2007; Morrone & Gutiérrez, 2005; Morrone & Márquez, 2001; Ochoa et al., 2003), there are still many terrestrial arthropods in Mexico with poor knowledge that have not been studied formally from a biogeographic perspective (Morrone & Márquez, 2008).
Agelenidae are the tenth most diverse spider family in the world, with 1,279 species (World Spider Catalog, 2017). They show restricted dispersal ability because they are not known to disperse aerially through ballooning, a typical dispersal method in spiders (Ayoub et al., 2005). Taxonomic studies of Agelenidae in Mexico have been scarce until recent years. In 1898, the first Mexican species were described from the states of Baja California Sur, Ve-racruz (Banks, 1898), and Morelos (Pickard-Cambridge, 1898). Gertsch described 10 more species (Gertsch, 1934, 1971; Gertsch & Davis, 1940; Gertsch & Ivie, 1936) and Roth (1968) revised the Tegenaria from Mexico. Ad-ditional species were described by Pickard-Cambridge (1902), Brignoli (1974), and García-Villafuerte (2009). Recent studies (Bolzern & Hänggi, 2016; Maya-Morales & Jiménez 2013, 2016, 2017a, b; Maya-Morales et al., 2017) have contributed to a total of 15 genera (Agele-nopsis, Bajacalilena, Cabolena, Calilena, Callidalena, Eratigena, Hoffmannilena, Hololena, Lagunella, Mel-pomene, Novalena, Rothilena, Rualena, Tegenaria, and Tortolena) and 107 species recorded for the country, with 4 genera (Bajacalilena, Cabolena, Lagunella, and Rothilena) and 87 endemic species (Appendix 1). The family is widely distributed in Mexico in both arid and temperate habitats although some of the genera have a very limited distribution, especially in the Baja California peninsula. From biogeographic and historical perspectives Agelenop-sis is the most studied genus of the family in the West-ern Hemisphere (Ayoub & Riechert, 2004; Ayoub et al., 2005). However, its greatest diversity is present in USA and Canada (Whitman-Zai et al., 2015). Given the high diversity, distribution, and restricted dispersal, the family may be useful in biogeographic studies. Our aim was to find distributional patterns of agelenid spiders in Mexico, using track analysis.
Material and methods
The area analyzed corresponds to Mexico. Records of agelenids were compiled from published and unpublished data. From the 107 species recorded in Mexico, we excluded those with a single record (46) or without precise localities (2). The selected species (numbers of records between brackets) are Agelenopsis aperta (26), A. naevia (2), Bajacalilena bolzerni (2), B. clarki (9), Cabolena huiztocatl (2), Calilena angelena (2), Callidalena quintin (5), Eratigena edmundoi (4), E. fernandoi (2), E. flexuosa (5), E. florea (5), E. gertschi (7), E. guanato (10), E. mexicana (10), E. queretaro (3), E. rothi (8), E. selva (12), E. tlaxcala (8), E. xilitla (10), E. yarini (3), Hoffmannilena apoala (2), H. cumbre (2), H. marginata (4), H. mitla (2), H. tizayuca (18), Hololena septata (2), Melpomene chamela (2), M. coahuilana (4), M. elegans (9), M. rita (2), M. solisi (4), M. transversa (2), Novalena annamae (5), N. approximata (48), N. atzimbo (2), N. bipunctata (2), N. chamberlini (3), N. divisadero (4), N. jiquilpan (3), N. leonensis (3), N. mexiquensis (4), N. paricutin (2), N. perote (2), N. poncei (4), N. prieta (2), N. puebla (3), N. punta (2), N. simplex (2), N. volcanes (2), Rothilena cochimi (3), R. griswoldi (2), R. pilar (2), R. sudcaliforniensis (11), Rualena cedros (4), R. magnacava (2), R. parritas (5), Tegenaria domestica (6), T. pagana (2), and Tortolena glaucopis (14).
Distribution points for each species were connected with a line representing the minimum distance between them, known as individual tracks. When individual tracks match, they delimit a generalized track, which allows inferring the existence of an ancestral biota widely distributed and fragmented by vicariance events, suggesting a shared history within a biota. When 2 or more generalized tracks overlap in an area, a node is identified (Craw et al., 1999; Torres-Miranda & Luna-Vega, 2006). All maps were generated using QGIS 2.8.2 and edited with Adobe Photoshop CS6.
Results
Fifty-nine individual tracks were constructed. Distribution of most of the species is relatively restricted and many species are found in central Mexico (Figs 1-12). Nine generalized tracks were obtained based on 24 individual tracks (Table 1), whereas 35 individual tracks did not contribute to any of the generalized tracks found. Four generalized tracks are supported by species of the same genus: Eratigena (G), Hoffmannilena (I) and Novalena (E and H). Three generalized tracks are supported by species of closely related genera: Calilena and Hololena (A) and Bajacalilena and Rualena (B and C). Two are supported by distantly related genera: Melpomene and Novalena (D), and Eratigena and Melpomene (F) (Table 1).
Generalized track | Species |
---|---|
A | Calilena angelena and Hololena septata |
B | Bajacalilena clarki, Rualena magnacava, and R. parritas |
C | Bajacalilena bolzerni and Rualena cedros |
D | Melpomene rita and Novalena prieta |
E | Novalena chamberlini and N. divisadero |
F | Eratigena gertchi, Melpomene coahuilana, and solisi |
G | Eratigena queretaro, E. rothi, E. selva, and E. xilitla |
H | Novalena atzimbo, N. mexiquensis, N. paricutin, and N. poncei |
I | Hoffmannilena cumbre and H. mitla |
The first group of generalized tracks belongs to the Californian Nearctic dominion, of the Nearctic region (Morrone & Márquez, 2003). One generalized track runs parallel to the California and Baja California provinces (A) and 2 in the Baja California province (B and C). The second group belongs to the Mexican transition zone (Morrone, 2010, 2015a). Two generalized tracks run parallel to the Sierra Madre Occidental province (D and E), 2 across the Chihuahuan Desert and the Sierra Madre Oriental provinces (F and G), one runs parallel to the Transmexican Volcanic Belt province (H), and another runs parallel to the Sierra Madre del Sur province (I) (Fig. 13).
No nodes were found in the track analysis.
Discussion
The distributional patterns of the species analyzed show congruence with the biogeographic patterns and complexity of the country. The generalized tracks from northwestern Mexico (A, B, and C) are supported by genera that are found in arid ecosystems. The Baja California peninsula has undergone latitudinal and longitudinal displacements along the northwest to southeast peninsula starting approximately 15 million years ago (Gillespie, 2013). The region presents a highly distinctive Agelenid fauna with 10 genera and 24 species, of which 4 (40%) and 17 (70.8%) are endemic, respectively. This rate of endemism is very high compared to other families of arthropods like Formicidae (27.6% of the species; Johnson & Ward, 2002). The richness is highest in both the base of the peninsula and its southern part, which refutes the peninsula effect hypothesis (species richness declines form the base to the tip of the peninsula; Simpson, 1964). Bajacalilena is endemic to the peninsula and Callidalena is restricted to the northern part of the peninsula and southern California (Maya-Morales et al., 2017). In spiders, deep divergence has been found between Homalonychus selenopoides (Homalonychidae) on the east side of the Colorado River and its congener H. theologus on the west side including the peninsula (Crews & Hedin, 2006). Although the southern part of the peninsula presents 11 species, no generalized tracks were found. Cabolena, Lagunella, and Rothilena are restricted to this region (Maya-Morales et al., 2017), which may be related to the hypothesized vicariance event of a midpeninsular seaway during the Pleistocene (Riddle et al., 2000). Along with Bajacalilena, the generalized tracks in the peninsula are defined by species of Calilena, Hololena, and Rualena, which are Nearctic genera that have a larger distribution in western USA (Chamberlin & Ivie, 1941, 1942; Maya-Morales & Jiménez, 2016). The Californian Nearctic pattern has been detected also in bird taxa (Rojas-Soto et al., 2003) and land mammals (Escalante et al., 2004).
In the Mexican transition zone, we found 4 generalized tracks defined by species of the same genus. Species of Novalena, the most diverse Agelenid genus in Mexico and the Western Hemisphere (Maya-Morales & Jiménez, 2017b), define the generalized tracks located in the Sierra Madre Occidental province (E) and the Transmexican Volcanic Belt province (H), which presents the highest species diversity of the genus. Species of Eratigena define the generalized track across the Chihuahuan Desert and Sierra Madre Oriental provinces (G), the last one presents most of the species of the genus. Bolzern and Hänggi (2016) recognized 2 morphological groups within Nearctic and Neotropical Eratigena: the mexicana-group in central and northeastern Mexico and the flexuosa-group in southeastern Mexico. This pattern is like the spider genus Physocyclus (Pholcidae), which is distributed according to 2 phylogenetic groups, one in the Continental Nearctic and Mesoamerican dominions (north of the Transmexican Volcanic Belt province) and the second in Mexican transition zone and the Mesoamerican dominion (south of the Transmexican Volcanic Belt province) (Valdez-Mondragón, 2013). The mexicana-group of Eratigena includes 12 of the 16 endemic species from Mexico (Bolzern & Hänggi, 2016) and the species that define generalized tracks belong to the mexicana-group. Species of Hoffmannilena define the generalized track in the Sierra Madre del Sur province (I), which presents most of the species of the genus. Two generalized tracks are defined by pairs of distantly related genera (Bolzern & Hänggi, 2016): Melpomene and Novalena (D), and Eratigena and Melpomene (F). These spatial relationships shared by unrelated taxa in the form of generalized tracks may indicate that geographic constraints are not limited to the effects of local ecology on the fitness of individual populations but imply a more general process of biotic evolution (Craw et al., 1999). Generalized tracks are not only recognized when there is phylogenetic evidence supporting them but, in a more general sense, they should reflect the existence of ancestral biotas (Morrone, 2015b). Similar patterns in the Mexican transition zone have been found in Coleoptera (Liebherr, 1991; Morrone & Márquez, 2001; Toledo et al., 2007).
The absence of generalized tracks in the Continental Nearctic dominion and in the Neotropics may be the result of lack of sampling since most of the Western Hemisphere genera of Agelenidae have a Nearctic distribution and Hoffmannilena, Novalena, and Melpomene are also distributed in Central America (Chamberlin & Ivie, 1942; Maya-Morales & Jiménez, 2017b). New systematic collects should improve the accuracy of the generalized tracks and allow finding biogeographical nodes.
We conclude that the current distribution of the Agelenid spiders of Mexico show 2 basic patterns, which correspond to the Nearctic region and the Mexican transition zone.