ABSTRACT

The widely distributed species, Stenochrus portoricensis Chamberlin, 1922, is recorded for the first time from Costa Rica and Venezuela, and new occurrences from Brazil and Colombia are presented. Morphology of spermathecae from 14 localities is compared and illustrated. The need for studies to evaluate the potential status as an invasive species of S. portoricensis is commented on and a distribution map of the species in southern Central America and South America is given.

KEYWORDS
Dry Tropical Forest; Hubbardiinae; invasive species; new records; neotropics

RESUMEN

La especie exótica Stenochrus portoricensis Chamberlin, 1922 (Schizomida: Hubbardiidae): disminución del déficit de Wallace en el Nuevo Mundo. La especie de amplia distribución Stenochrus portoricensis Chamberlin, 1922 se registra por primera vez en Costa Rica y Venezuela, y se presentan nuevas ocurrencias en Brasil y Colombia. Se compara e ilustra la morfología de las espermatecas de especímenes provenientes de 14 localidades. Se comenta la necesidad de realizar estudios para evaluar el estatus potencial de S. portoricensis como especie invasora y se presenta un mapa de distribución de la especie en el sur de Centroamérica y Sudamérica.

PALABRAS CLAVE.
Bosque Seco Tropical; Hubbardiine; especies invasoras; nuevos registros; neotrópico

Schizomids constitute an order of small, endemic, and circuntropically distributed arachnids. Typically found in forests, mainly in leaf litters, caves, tree barks or under stones (Reddell & Cokendolpher, 2002Reddell, J. R. & Cokendolpher, J. C. 2002. Schizomida. In: Adis J. ed. Amazonian Arachnida and Myriapoda. Sofia, Pensoft Publisher, p. 387-398.), schizomids comprise an abundant group across tropical and subtropical areas. With >305 species distributed in two recent families, this order has shown considerable promise to the study of historical biogeography, given its geographic fidelity (Clouse et al., 2017Clouse, R. M.; Branstetter, M. G.; Perry, B.; Crowley, L. M.; Czekanski-Moir, J.; General, D. E. M.; Giribet, G.; Harvey, M. S.; Janies, D. A.; Mohagan, A. B.; Mohagan, D. P.; Sharma, P. P. & Wheeler, W. C. 2017. First global molecular phylogeny and biogeographical analysis of two arachnid orders (Schizomida and Uropygi) supports a tropical Pangean origin and mid-Cretaceous diversification. Journal of Biogeography 44(11):2660-2672. https://doi.org/10.1111/jbi.13076
https://doi.org/10.1111/jbi.13076... ). Most schizomid species exhibit very narrow distribution ranges and are therefore considered short-range endemic (SRE) taxa, a category dedicated to animal species that exhibit distributions of less than 10,000 km² in extension (Harvey, 2002Harvey, M. S. 2002. Short-range endemism amongst the Australian fauna: some examples from non-marine environments. Invertebrate Systematics 16:555-570.; Harvey et al., 2011Harvey, M. S.; Rix, M. G.; Framenau, V. W.; Hamilton, Z. R.; Johnson, M. S.; Teale, R. J.; Humphreys, G. & Humphreys, W. F. 2011. Protecting the innocent: Studying short-range endemic taxa enhances conservation outcomes. Invertebrate Systematics 25:1-10. https://doi.org/10.1071/IS11011
https://doi.org/10.1071/IS11011... ).

Despite this, there are a few schizomid species that exhibit exceptionally wide distributional ranges. For example, Zomus bagnallii (Jackson, 1908), native of Southeast Asia (Malaysia and Singapore), has been recorded from Cook Islands, Fiji, Mauritius, Samoa, Seychelles Islands, Sri Lanka, Indonesia (Krakatoa Island), and England (e.g., Reddell & Cokendolpher, 1995Reddell, J. R. & Cokendolpher, J. C. 1995. Catalogue, bibliography, and generic revision of the order Schizomida (Arachnida). Texas Memorial Museum, Speleological Monographs 4:1-170.; Harvey, 2001Harvey, M. S. 2001. The Schizomida (Arachnida) of the Seychelle Islands. Invertebrate Systematics 15(5):681-693.; Villarreal, 2010Villarreal, M. O. 2010. The first record of the genus Zomus Reddell, Cokendolpher, 1995 (Schizomida: Hubbardiidae) from Samoa. Arthropoda Selecta 19:81-83. https://doi.org/10.15298/arthsel.19.2.04
https://doi.org/10.15298/arthsel.19.2.04... ; Armas & Rehfeldt, 2015Armas, L. F. de & Rehfeldt, S. 2015. Stenochrus portoricensis, Zomus bagnallii and a new genus of schizomids (Schizomida: Hubbardiidae) from a greenhouse in Frankfurt am Main, Germany. Arachnologische Mitteilungen 49:55-61. https://doi.org/10.5431/aramit4906
https://doi.org/10.5431/aramit4906... ). On the other hand, Schizomus crassicaudatus (Cambridge, 1872) described from Sri-Lanka was introduced to France (Millot, 1949Millot, J. 1949. Classe des Arachnides (Arachnida). I.-Morphologie générale et anatomie internet. In: Grassé, P. P. ed. Traité de Zoologie, Anatomie, Systématique, Biologie. Paris, Masson et C. Éditeurs, Tome 6, p. 263-319.) and Germany (Armas & Rehfeldt, 2015Armas, L. F. de & Rehfeldt, S. 2015. Stenochrus portoricensis, Zomus bagnallii and a new genus of schizomids (Schizomida: Hubbardiidae) from a greenhouse in Frankfurt am Main, Germany. Arachnologische Mitteilungen 49:55-61. https://doi.org/10.5431/aramit4906
https://doi.org/10.5431/aramit4906... ); Bucinozomus hortuspalmarum Armas & Rehfeldt, 2015 described from Germany was recently recorded in Singapore (Armas & Moreno-González, 2022; Monjaraz-Ruedas et al., 2022Monjaraz-Ruedas, R.; Francke, O. & Prendini, L. 2022. World travelers: parthenogenesis and ecological tolerance enable multiple colonization events by the widespread short-tailed whipscorpion, Stenochrus portoricensis (Schizomida: Hubbardiidae). Insect Systematics and Diversity 6(1):1-17. https://doi.org/10.1093/isd/ixab032
https://doi.org/10.1093/isd/ixab032... ), and, finally, Stenochrus portoricensis Chamberlin, 1922 represents the most widely distributed species of the order (Reddell & Cokendolpher, 1995Reddell, J. R. & Cokendolpher, J. C. 1995. Catalogue, bibliography, and generic revision of the order Schizomida (Arachnida). Texas Memorial Museum, Speleological Monographs 4:1-170.). However, there is still a huge knowledge gap on the distribution (a.k.a. Wallacean shortfall) for the vast majority of schizomid species.

The genus Stenochrus Chamberlin, 1922 comprises seven species distributed in Central America and the Caribbean islands, excluding records of presumably introduced populations (Monjaraz-Ruedas et al., 2020Monjaraz-Ruedas, R.; Francke, O. F. & Prendini, L. 2020. Integrative systematics untangles the evolutionary history of Stenochrus (Schizomida: Hubbardiidae), a neglected junkyard genus of North American short-tailed whipscorpions. Biological Journal of the Linnean Society 130(3):458-479. https://doi.org/10.1093/biolinnean/blaa039
https://doi.org/10.1093/biolinnean/blaa0... ). As mentioned, one species with a particularly wide distribution is S. portoricensis (type-species of the genus), since it presents populations across several countries in the Antilles (Cuba, Dominica Island, Jamaica, Puerto Rico, Haiti, the Dominican Republic, and Saint Barthélemy), Central America (Belize, Guatemala, Honduras, Nicaragua, and Panama), and North America (Bermuda, Mexico, and the USA (i.e., Florida and the Virgin Islands) (Camilo & Cokendolpher, 1988Camilo, G. R. & Cokendolpher, J. C. 1988. Schizomidae de Puerto Rico (Arachnida: Schizomida). Caribbean Journal of Science 24:52-59.; Reddell & Cokendolpher, 1995Reddell, J. R. & Cokendolpher, J. C. 1995. Catalogue, bibliography, and generic revision of the order Schizomida (Arachnida). Texas Memorial Museum, Speleological Monographs 4:1-170.; Harvey, 2003Harvey, M. S. 2003. Catalogue of the Smaller Arachnid Orders of the World: Amblypygi, Uropygi, Schizomida, Palpigradi, Ricinulei and Solifugae. Victoria, CSIRO Publishing, Collingwood., 2013Harvey, M. S. 2013. Schizomids of the World, version 1.0. Perth, Western Australian Museum. Available at <Available at http://www.museum.wa.gov.au/catalogues/schizomids >. Accessed on 09 June 2022.
http://www.museum.wa.gov.au/catalogues/s... ; Teruel & Questel, 2019Teruel, R. & Questel, K. 2019. Occurrence of Stenochrus portoricensis Chamberlin, 1912 (Schizomida: Hubbardiidae) in Saint-Barthélemy, Lesser Antilles. Boletín del Grupo de Sistemática y Ecología de Artrópodos Caribeños 1:1-4.; World Schizomida Catalog, 2022World Schizomida Catalog. 2022. World Schizomida Catalog. Natural History Museum Bern. Available at <Available at http://wac.nmbe.ch >. Accessed on January 16, 2022.
http://wac.nmbe.ch... ). In natural habitats in Cuba, the Dominican Republic, Guatemala, Mexico, Nicaragua, and Puerto Rico S. portoricensis has sexual populations (Armas, 1977Armas, L. F. de. 1977. Dos Nuevas Especies de Schizomus Arachnida: Schizomida, de Cuba. Poeyana 166:1-8.; Rowland & Reddell, 1977Rowland, J. M. & Reddell, J. R. 1977. A review of the cavernicole Schizomida (Arachnida) of Mexico, Guatemala, and Belize. Association for Mexican Cave Studies Bulletin 6:79-102., 1980Rowland, J. M. & Reddell, J. R. 1980. The order Schizomida (Arachnida) in the New World III, mexicanus and pecki groups (Schizomidae: Schizomus). Journal of Arachnology 8:1-34.; Armas & Abud Antun, 1990Armas, L. F. de & Abud Antun., A. J. 1990. El Orden Schizomida (Arachnida) en República Dominicana. Poeyana 393:1-23.) which may support the hypothesis of this species being native in any of these countries, as suggested by Monjaraz-Ruedas et al. (2019Monjaraz-Ruedas, R.; Francke, O. F. & Prendini, L. 2020. Integrative systematics untangles the evolutionary history of Stenochrus (Schizomida: Hubbardiidae), a neglected junkyard genus of North American short-tailed whipscorpions. Biological Journal of the Linnean Society 130(3):458-479. https://doi.org/10.1093/biolinnean/blaa039
https://doi.org/10.1093/biolinnean/blaa0... , 2022Monjaraz-Ruedas, R.; Francke, O. & Prendini, L. 2022. World travelers: parthenogenesis and ecological tolerance enable multiple colonization events by the widespread short-tailed whipscorpion, Stenochrus portoricensis (Schizomida: Hubbardiidae). Insect Systematics and Diversity 6(1):1-17. https://doi.org/10.1093/isd/ixab032
https://doi.org/10.1093/isd/ixab032... ).

However, S. portoricensis is not restricted to Central America, North America, and the Antilles since it is also widely distributed across many countries in two additional continents: Europe and South America. In Europe, this species appears to be common among greenhouses, as reported from many countries (e.g., Czech Republic, England, Germany, Poland, Slovakia, Switzerland, and Spain) (Reddell & Cokendolpher, 1995Reddell, J. R. & Cokendolpher, J. C. 1995. Catalogue, bibliography, and generic revision of the order Schizomida (Arachnida). Texas Memorial Museum, Speleological Monographs 4:1-170.; Blick, 2006Blick, T. 2006. Zwerggeisselskorpione in Europa und auf den Kanarischen Inseln/Schizomida in Europe and the Canary Islands - Arachnida. Stand Februar 2006/As of February 2006. Available at <Available at http://www.theoblick.homepage.t-online.de/Schizomida.pdf >. Accessed 11 April 2022.
http://www.theoblick.homepage.t-online.d... ; Christophoryová et al., 2013Christophoryová, J.; Šestáková, A.; Krumpál, M. & Fenďa, P. 2013. First record of a schizomid, Stenochrus portoricensis (Schizomida: Hubbardiidae), in Slovakia. Arachnologische Mitteilungen 45:25-29. https://doi.org/10.5431/aramit4506
https://doi.org/10.5431/aramit4506... ; Zawierucha et al., 2013Zawierucha, K.; Szymkowiak, P.; Dabert, M. & Harvey, M. 2013. First record of the schizomid Stenochrus portoricensis (Schizomida: Hubbardiidae) in Poland, with DNA barcode data. Turkish Journal of Zoology 37:357-361. https://doi.org/10.3906/zoo-1210-9.
https://doi.org/10.3906/zoo-1210-9... ; Barranco et al., 2014Barranco, P.; Mayoral, J. G. & García, G. A. 2014. Primer registro de esquizómidos en la península ibérica (Arachnida, Schizomida). Boletín de la Asociación española de Entomología 38(3-4):295-301.; Armas & Rehfeldt, 2015Armas, L. F. de & Rehfeldt, S. 2015. Stenochrus portoricensis, Zomus bagnallii and a new genus of schizomids (Schizomida: Hubbardiidae) from a greenhouse in Frankfurt am Main, Germany. Arachnologische Mitteilungen 49:55-61. https://doi.org/10.5431/aramit4906
https://doi.org/10.5431/aramit4906... ; Lauterbach et al., 2020Lauterbach, S.; Hörren, T. & Bauer, T. 2020. Stenochrus portoricensis new to North Rhine-Westphalia (Germany), with notes on distribution and habitats of other alien short-tailed whipscorpion species in Europe (Arachnida: Schizomida). Arachnologische Mitteilungen 60:50-54. https://doi.org/10.30963/aramit6010
https://doi.org/10.30963/aramit6010... ; Krajčovičová et al., 2021Krajčovičová, K.; Gilgado, J. D.; Bobbitt, I. & Christophoryová, J. 2021. New cases of introduction of Stenochrus portoricensis (Arachnida: Schizomida) in Switzerland. Biharean Biologist 15:69-70.). On the other hand, in South America, this species has been recorded from three countries: Ecuador (Galapagos Islands, Guayaquil in mainland Ecuador), Brazil, and Colombia (World Schizomida Catalog, 2022World Schizomida Catalog. 2022. World Schizomida Catalog. Natural History Museum Bern. Available at <Available at http://wac.nmbe.ch >. Accessed on January 16, 2022.
http://wac.nmbe.ch... ). In Brazil, the populations of S. portoricensis seem to be established in anthropized areas in the states of São Paulo, Rio de Janeiro, Bahia, Pernambuco, and Tocantins (Tourinho & Kury, 1999Tourinho, A. L. M. & Kury, A. B. 1999. The Southermost record of Schizomida in South America, first record of Schizomida for Rio de Janeiro and of Stenochrus Chamberlin, 1922 for Brazil (Arachnida, Schizomida, Hubbardiidae). Boletim do Museu Nacional 405:1-6.; Souza & Lira, 2015Souza, A. de & Lira, A. 2015. First record of Stenochrus portoricensis Chamberlin, 1922 (Arachnida: Schizomida: Hubbardiidae) for the Pernambuco state Brazilian. Journal of Biology 75:766-767. https://doi.org/10.1590/1519-6984.21113
https://doi.org/10.1590/1519-6984.21113... ), and in hypogean habitats in the state of Goiás (Gallão et al., 2015Gallão, J. E.; Bichuette, M. E. & Giupponi, A. P. L. 2015. First record of Stenochrus portoricensis Chamberlin, 1922 (Arachnida: Schizomida: Hubbardiidae) for caves in Brazil: evidence for a troglophile status of an exotic species. Check List 11(1):1-3. https://doi.org/10.1590/1519-6984.21113
https://doi.org/10.1590/1519-6984.21113... ). Likewise, in Colombia this species has been recorded in anthropized areas of cities, such as Armenia (Department of Quindío) and Cali (Department of Valle del Cauca) (Reddell & Cokendolpher, 1995Reddell, J. R. & Cokendolpher, J. C. 1995. Catalogue, bibliography, and generic revision of the order Schizomida (Arachnida). Texas Memorial Museum, Speleological Monographs 4:1-170.; Armas & Delgado-Santa, 2012Armas, L. F. de & Delgado-Santa, L. 2012. Nueva especie de Piaroa de la Cordillera Occidental de los andes colombianos y segundo registro de Stenochrus portoricensis Chamberlin, 1922 para Colombia (Schizomida: Hubbardiidae). Revista Ibérica de Aracnología 50:183-186.).

In the present contribution, the first records of Stenochrus portoricensis from Costa Rica (Guanacaste province) and Venezuela (Mérida state) are presented. Besides, we provide seven new records from Brazil (in the states of Bahia, Minas Gerais, Pará, Rio de Janeiro, and Pernambuco) and four new records from Colombia (departments of Valle del Cauca and Santander).

The morphology of the female spermathecae across 14 localities is presented and compared. Considering the dispersal capabilities and wide distribution exhibited by Stenochrus portoricensis, its status as an alien species is discussed.

MATERIALS AND METHODS

For the species identification, external morphology was examined under a Leica MZ75 or Zeiss Discovery V12 stereoscope. Spermathecae of specimens from Colombia and Venezuela were dissected and cleared with Lactic Acid (60%) at room temperature for about 3 h; then, washed with ethanol at 70% and mounted onto a temporal slide. Spermathecae slides were observed under a Zeiss Axio Scope A1 microscope. For the Colombian specimens, permanent slides were prepared using Hoyer’s medium. Spermathecae of specimens from Brazil were dissected and cleared with a pancreatin solution, prepared as described by Álvarez-Padilla & Hormiga (2007Álvarez-Padilla, F. & Hormiga, G. 2007. A protocol for digesting internal soft tissues and mounting spiders for scanning electron microscopy. Journal of Arachnology35:538-542. https://doi.org/10.1636/Sh06-55.1
https://doi.org/10.1636/Sh06-55.1... ), for about 12 h. Temporary slides containing the spermathecae of these specimens were mounted using 70% alcohol gel-only. After examining, the spermathecae were removed from the slides and stored in microtubes, along with the remaining body parts.

General morphology photographs (Figs 1-10) were taken with a Nikon DS-series camera attached to a Nikon SMZ1500 stereoscope with trinocular tube, integrated to the NIS-Elements software of Nikon. Spermathecae photographs were taken using a Zeiss AxioCam MR R3 adapted on a trinocular tube (photographs shown in Figs 13-17), a Canon Powershot SX510 manually adapted on a GS-10x stereoscope (photographs shown in Fig. 12), or a Zeiss AxioCam 105 Color adapted on Zeiss Primo Star microscope (photographs shown in Figs 18-24). The specimens were deposited in the Colección de Arácnidos of the Universidad de los Andes, Mérida, Venezuela (CAULA-SCH; curator Antonio de Ascenção); Colección de Insectos of the Universidad del Quindío, Armenia, Quindío, Colombia (CIUQ; curator Andrea Lorena García Hernandez); Instituto de Ciencias Naturales, Bogotá, Colombia (ICN-Sc; curator Eduardo Flórez); Museo de Entomología of the Universidad del Valle, Cali, Colombia (MUSENUV; curator Jimmy Cabra-García); Instituto Butantan, São Paulo, Brazil (IBSP; curator A. D. Brescovit); Coleção de História Natural of the Universidade Federal do Piauí, Floriano, Brazil (CHNUFPI, curator J. F. Vilela); Centro de Coleções Taxonômicas of the Universidade Federal de Minas Gerais, Belo Horizonte, Brazil (UFMG, curator A. J. Santos); and collection of Subterranean Invertebrates of Lavras, Lavras, Brazil (ISLA; curator R. L. Ferreira). Cheliceral chaetotaxy indicated on the figures follows Villarreal et al. (2016Villarreal, M. O.; De Miranda, G. S. & Giupponi, A. P. L. 2016. New proposal of setal homology in Schizomida and revision of Surazomus (Hubbardiidae) from Ecuador. PLoS One 11:1-29. https://doi.org/10.1371/journal.pone.0147012
https://doi.org/10.1371/journal.pone.014... ) and spermathecae description follows Moreno-González et al. (2014Moreno-González, J. A.; Delgado-Santa, L. & Armas, L. F. de. 2014. Two new species of Piaroa (Arachnida: Schizomida, Hubbardiidae) from Colombia, with comments on the genus taxonomy and the flagellar setae pattern of Hubbardiinae. Zootaxa 3852(2):227-251.). Only taxonomic references after 2016 were indicated. For a complete list, see World Schizomida Catalog (2022World Schizomida Catalog. 2022. World Schizomida Catalog. Natural History Museum Bern. Available at <Available at http://wac.nmbe.ch >. Accessed on January 16, 2022.
http://wac.nmbe.ch... ). Works merely citing the species as the type-species of the genus are not considered in logonymy.

Figs 1, 2.
Stenochrus portoricensis Chamberlin, 1922 (ICN-Sc), female habitus from Colombia (Girón, Santander department): 1, habitus, dorsal view; 2, habitus, lateral view.

Figs 3-10.
Stenochrus portoricensis Chamberlin, 1922 (ICN-Sc), female from Colombia (Santander): 3, flagellum, dorsal view; 4, flagellum, ventral view; 5, flagellum, lateral view; 6, left pedipalp, ectal view; 7-10, right chelicera, ectal view (AT, additional tooth; G1-7, cheliceral setae groups; Gt, guard tooth; Se, serrula). Figures not scaled.

Figs 11-24.
Stenochrus portoricensis Chamberlin, 1922, spermathecae in dorsal view, from Costa Rica (11), Venezuela (12), Colombia (13-17), Brazil (18-24): 11, Guanacaste, Province of Guanacaste (CIUQ-020368); 12, Laguna de Urao Natural Monument, Lagunillas, Mérida, Mérida state (CAULA-SCH-0011); 13, Girón, department of Santander (ICN-Sc); 14, Regional Natural Park El Vínculo, Buga, department of Valle del Cauca (ICN-Sc); 15, Dagua, department of Valle del Cauca (ICN-Sc); 16, El Hatico farm, El Cerrito, department of Valle del Cauca (MUSENUV 24631); 17, Cali, department of Valle del Cauca; 18, Marabá, state of Pará (CHNUFPI 2147); 19, Camaragibe, state of Pernambuco (CHNUFPI 4072); 20, São Vicente Ferrer, state of Pernambuco (CHNUFPI 1640); 21, Matozinhos, Minas Gerais (ISLA 82136); 22, Paraty, state of Rio de Janeiro (IBSP 196); 23, Rio das Ostras, state of Rio de Janeiro (IBSP 195); 24, Tijuca National Park, Rio de Janeiro, state of Rio de Janeiro (UFMG 8838). Figures not scaled.

RESULTS

Hubbardiidae

Stenochrus portoricensis Chamberlin, 1922

(Figs 1-34)

Figs 25-31.
Habitats and live pictures of Stenochrus portoricensis Chamberlin, 1922: 25-27, Laguna de Urao, Mérida, Venezuela. The pink star indicates the collection site; 28, anthropized area, Los Limones Pathway, Cali, Colombia; 29-31, specimens from Los Limones Pathway, Cali, living under stones, sharing microhabitat with woodlice Ethelum americanum (Dollfus, 1896) (Isopoda: Oniscidea).

Figs 32-34.
Geographical distribution of Stenochrus portoricensis Chamberlin, 1922 in South America and part of Central America (mainland and some islands): 32, South America and the southernmost portion of Central America; 33, Colombia; 34, Brazil.

Stenochrus portoricensis - Monjaraz-Ruedas et al., 2019Monjaraz-Ruedas, R.; Francke, O. & Prendini, L. 2022. World travelers: parthenogenesis and ecological tolerance enable multiple colonization events by the widespread short-tailed whipscorpion, Stenochrus portoricensis (Schizomida: Hubbardiidae). Insect Systematics and Diversity 6(1):1-17. https://doi.org/10.1093/isd/ixab032
https://doi.org/10.1093/isd/ixab032... :69, figs 10C, 20B; Teruel & Questel, 2019Teruel, R. & Questel, K. 2019. Occurrence of Stenochrus portoricensis Chamberlin, 1912 (Schizomida: Hubbardiidae) in Saint-Barthélemy, Lesser Antilles. Boletín del Grupo de Sistemática y Ecología de Artrópodos Caribeños 1:1-4.:3, figs 1, 2; Lauterbach et al., 2020Lauterbach, S.; Hörren, T. & Bauer, T. 2020. Stenochrus portoricensis new to North Rhine-Westphalia (Germany), with notes on distribution and habitats of other alien short-tailed whipscorpion species in Europe (Arachnida: Schizomida). Arachnologische Mitteilungen 60:50-54. https://doi.org/10.30963/aramit6010
https://doi.org/10.30963/aramit6010... :51, figs 1A-E; Monjaraz-Ruedas et al., 2020Monjaraz-Ruedas, R.; Francke, O. F. & Prendini, L. 2020. Integrative systematics untangles the evolutionary history of Stenochrus (Schizomida: Hubbardiidae), a neglected junkyard genus of North American short-tailed whipscorpions. Biological Journal of the Linnean Society 130(3):458-479. https://doi.org/10.1093/biolinnean/blaa039
https://doi.org/10.1093/biolinnean/blaa0... :16; Teruel & Hernández-Barroto, 2020Teruel, R. & Hernández-Barroto, S. 2020. On the adult male findings of Stenochrus portoricensis Chamberlin, 1922 (Schizomida: Hubbardiidae) in Cuba. Boletín del Grupo de Sistemática y Ecología de Artrópodos Caribeños 4:1-6.:2, figs 2, 3; Hernández-Borroto et al., 2021Hernández-Borroto, S.; Salas, D. & Hernández-Valencia, S. 2021. Nuevos registros de Stenochrus portoricensis Chamberlin, 1922 (Schizomida: Hubbardiidae) en Cuba. Revista Ibérica de Aracnología 3:125-129.:fig. 2; Krajčovičová et al., 2021Krajčovičová, K.; Gilgado, J. D.; Bobbitt, I. & Christophoryová, J. 2021. New cases of introduction of Stenochrus portoricensis (Arachnida: Schizomida) in Switzerland. Biharean Biologist 15:69-70.:69, figs 1, 3; Monjaraz-Ruedas et al., 2022Monjaraz-Ruedas, R.; Francke, O. & Prendini, L. 2022. World travelers: parthenogenesis and ecological tolerance enable multiple colonization events by the widespread short-tailed whipscorpion, Stenochrus portoricensis (Schizomida: Hubbardiidae). Insect Systematics and Diversity 6(1):1-17. https://doi.org/10.1093/isd/ixab032
https://doi.org/10.1093/isd/ixab032... :2.

Distribution. NORTH AMERICA: Bermuda, Mexico, and the USA (Florida). THE ANTILLES: Cuba, Dominica, the Dominican Republic, Jamaica, Puerto Rico, Saint Barthélemy, and Virgin Islands. CENTRAL AMERICA: Belize, Costa Rica (new country record), Guatemala, Honduras, Nicaragua, and Panama. SOUTH AMERICA: Brazil, Colombia, Ecuador (Galapagos Islands and mainland: Guayaquil), and Venezuela (new country record). EUROPE: Czech Republic, Germany, Great Britain, Poland, Slovakia, Switzerland, and Spain (Canary Islands and mainland: Sevilla).

Material examined. COSTA RICA, Guanacaste: ♀ (11°03’15.7”N 85°21’27.2”W, 344 masl, collected on bromiliad on tree, between 1 and 3 meters), 15.vii.2017, R. Pierre leg. (CIUQ-020368) (new country record). VENEZUELA, Mérida: 4♀, Sucre, Lagunillas (Laguna de Urao Natural Monument, Yohama Park, 08°30’15.70”N 71°23’45,87”W, 1039 masl, under a dry trunk at the edge of a channel of water runoff towards the Laguna de Urao), 31.x.2012, N. Sánchez leg. (CAULA-SCH-0011) (new country record). COLOMBIA, Santander (new record): 2♀, Girón (07°04’14.86”N 73°10’23.11”W, 848 masl, collected in a human settlement), 10.xii.2012, S. García leg. (ICN-Sc); Valle del Cauca: 2♀, 1 juv., Buga (El Vínculo Natural Regional Park, 03°50’4.3”N 76°17’54.8”W, 1022 masl, collected in a dry tropical forest edge), 16.v.2010, J. A. Moreno leg. (ICN-Sc) (new record); ♀, Buga (El Vínculo Natural Regional Park, 03°50’4.3”N 76°17’54.8”W, 1022 masl, collected in a dry tropical forest edge), 12.i.2010, J. A. Moreno leg. (ICN-Sc) (new record); ♀, 1 juv., Buga (El Vínculo Natural Regional Park, 03°50’4.3”N 76°17’54.8”W, 1022 masl, collected in a dry tropical forest edge), 16.v.2010, J. A. Moreno leg. (ICN-Sc) (new record); ♀, Buga (El Vínculo Natural Regional Park, 03°50’4.3”N 76°17’54.8”W, 1022 masl, collected in a dry tropical forest edge), 16.v.2010, J. A. Moreno leg. (MUSENUV 24629) (new record); ♀, Buga (El Vínculo Natural Regional Park, 03°50’4.3”N 76°17’54.8”W, 1022 masl, collected in a dry tropical forest edge), 16.v.2010, J. A. Moreno, leg. (MUSENUV 24627) (new record); ♀, Buga (El Vínculo Natural Regional Park, 03°50’4.3”N 76°17’54.8”W, 1022 masl, collected in a dry tropical forest edge), 16.v.2010, J. A. Moreno leg. (MUSENUV 24630) (new record); 2♀, 4 juvs, Dagua, (El Naranjo, 03°46’45.47”N 76°43’15.69”W, 500 masl, collected in an anthropized forest, under rocks), 10.v.2012, J. A. Moreno leg. (ICN-Sc) (new record); ♀, Cerrito (El Hatico Farm, 03°38’34.48”N 76°19’40.52”W, 980 masl, collected in an anthropized dry tropical forest), 15.xii.2005, J. Cabra-García leg. (MUSENUV 24631) (new record); 1 juv, Cerrito, (El Hatico Farm, 03°38’34.48”N 76°19’40.52”W, 980 masl, collected in an anthropized dry tropical forest), 9.i.2009, C. Bermúdez leg. (ICN-Sc) (new record). BRAZIL, Pará: 6♀, Marabá (1º Grupo de Artilharia de Campanha de Selva, Regimento Floriano, 05°21’34.2”S 49°03’28.4”W, 118 masl, secondary terra firme forest), 10.x.2016, L. S. Carvalho leg. (CHNUFPI 2147) (new record); 3♀, 2 juvs, 11.x.2016, same locality and collector (CHNUFPI 2512); 6♀, 10.x.2016, same collector (UFMG 20291); ♀, same locality and collector (UFMG 21475); 3♀, 11.x.2016, same locality and collector (UFMG 21476); Pernambuco: ♂, ♀, Camaragibe, Road to Aldeia dos Camarás, Km 08, 07°59’8”S, 34°58’37”W, 105 masl, 7.xii.2014, P. Grossi leg. (CHNUFPI 4071) and 1 ♀ (CHNUFPI 4072) (new record); 8♀, São Vicente Ferrer, near road PE 089, 07°37’14.2”S, 35°27’47.3”W, 389 masl, secondary forest and banana plantation, 28.v.2015, L. S. Carvalho leg. (CHNUFPI 1640) (new record); Minas Gerais; 5♀, 2 juvs, Matozinhos, Mineração Belocal LTDA, Cave BM 157, 19° 32’12.36”S, 44°05’55.44”W, 878 masl, 17-21/IV/2020, F. O. Borges leg. (ISLA 82136) (new record); Rio de Janeiro: 2♀, 2 juvs, Paraty, Paraty Mirim, Trilha do Saco do Mamanguá, 23°15’48.41”S, 44°36’53.18'”W, 360 masl, 11.ii.2020, M. Pessoa-Silva & M. Teixeira leg. (IBSP 196) (new record); ♀, 4 juvs, Rio das Ostras, Reserva Biológica União, Estrada Buracão, 22°25’52.52”S, 42°02’1.05”W, 47 masl, 5.ii.2020, M. Pessoa-Silva & M. Teixeira leg. (IBSP 195) (new record); ♀, Reserva Biológica União (Estrada Três Pontes), 6.ii.2020, M. Pessoa-Silva & M. Teixeira leg. (IBSP 195) and ♀ (IBSP 200) (new record); 2♀, Rio de Janeiro, Monumento Natural dos Morros do Pão de Açúcar, Trilha da Urca, 22°57’9.11”S, 43°09’38.51”W, 2 amsl, 7.ii.2020, M. Pessoa-Silva & M. Teixeira leg. (IBSP 194); 2♀, Parque Nacional da Tijuca, 22°57’2.77”S, 43°17’9.92”W, 616 masl, E. S. S. Álvares leg. (UFMG 8838) (new record).

Additional material tentatively identified as S. portoricensis. BRAZIL, Bahia: 2 juv., Salvador, Parque Metropolitano de Pituaçu, 12°57’40.95”S, 38°25’19.08”W, 6 masl, 27.iii.2012, M. Martha and M. PeresPeres, M. C. L.; Benati, K. R. & Oliveira-Alves, A. 2006. Primer registro de Hubbardiidae (Arachnida: Schizomida) encontrado en un fragmento de Floresta Atlántica en el Nordeste brasileño (Recife-Pernambuco-Brasil). Sitientibus 6(2):92-94. leg. (IBSP 91, 92).

Remarks. The external morphology and genitalia did not differ from other populations of S. portoricensis from other countries (Figs 1, 2). Spermathecae from 14 localities were dissected, prepared and studied (Figs 11-24), but no relevant differences were found. The internal lobes in the Colombian populations from Dagua (Fig. 15) and El Vínculo (Fig. 14) and the Costa Rican specimen from Santa Cecília (Fig. 11) are straighter and shorter than the remaining populations (Figs 12, 13, 16-24). In the female studied from El Vínculo, the outer lobes have a slightly more anterior position compared to the chitinized arch and the internal lobes, and the shape of the arch is a bit longer and more opened in the anterior branch. However, as only one female was studied per location, it is impossible to know if these variations are constant in the populations, or even if it could be due to the effects of preparing the spermathecae for study. The populations studied presented a large variation in the shape of the chitinized arch. The Brazilian specimens from Marabá and São Vicente Ferrer have a shorter and wider arch (Figs 18-20), whereas the specimens from Mérida, Venezuela and some Colombian populations (Girón, El Vínculo, Cali) have a deeper arch (Figs 12-14, 17). Another variable aspect is the shape of the posterior branch of the chitinized arch, which is generally rounded (e.g., Figs 11, 16, 22-24). However, in the Colombian specimens from Girón and Cali it is acute (Figs. 13, 17).

Natural history. Stenochrus portoricensis seems to have great ecological plasticity and apparent tolerance to disturbance (Monjaraz-Ruedas et al., 2022Monjaraz-Ruedas, R.; Francke, O. & Prendini, L. 2022. World travelers: parthenogenesis and ecological tolerance enable multiple colonization events by the widespread short-tailed whipscorpion, Stenochrus portoricensis (Schizomida: Hubbardiidae). Insect Systematics and Diversity 6(1):1-17. https://doi.org/10.1093/isd/ixab032
https://doi.org/10.1093/isd/ixab032... ), which could have allowed it to colonize and expand its populations. A great diversity of microhabitats has been recorded for this species, such as botanical gardens, greenhouses, anthropized areas, including gardens, houses or aqueducts, forests or even caves. In this work, specimens inhabiting bromeliads on trees, between 1 and 3 meters above the ground are recorded for the first time, as observed in Surazomus arboreus (Cokendolpher & Reddell, 2000Cokendolpher, J. & Reddell, J. 2000. New and rare Schizomida (Arachnida: Hubbardiidae) from South America. Amazoniana XVI(1/2):187-212.). Also, according to the brooding data available, from Germany, the Dominican Republic [mistake: referred to as Cuba by Giribet & Moreno-González, 2021Giribet, G. & Moreno-González, J. A. 2021. Notes on brooding in the arachnid order Schizomida. Journal of Arachnology 49(3):410-414.: Table 1], and the U.S.A. populations, the females of S. portoricensis may carry on between 3-15 young and 1-16 eggs (Giribet & Moreno-González, 2021Giribet, G. & Moreno-González, J. A. 2021. Notes on brooding in the arachnid order Schizomida. Journal of Arachnology 49(3):410-414.). On the other hand, Stenochrus portoricensis has been observed living in sympatry with at least other unidentified species of schizomid (Surazomus sp.) (Armas & Delgado-Santa, 2012Armas, L. F. de & Delgado-Santa, L. 2012. Nueva especie de Piaroa de la Cordillera Occidental de los andes colombianos y segundo registro de Stenochrus portoricensis Chamberlin, 1922 para Colombia (Schizomida: Hubbardiidae). Revista Ibérica de Aracnología 50:183-186.); termites (Prorhinotermes simplex (Hagen, 1858) and Cribetermes discolor (Banks, 1919)); and ants (Themnothorax canescens (Santschi, 1908), Pheidole megacephala (Fabricius, 1793), Monomorium pharaonis (Linneaeus, 1758), and Solenopsis saevissima (Smith, 1855) (Migliorini et al., 2019Migliorini, G. H.; Ronque, M. U. & Alessandro, P. D. L. 2019. Stenochrus portoricensis (Arachnida: Schizomida) living in a nest of the fire ant Solenopsis saevissima (Hymenoptera: Formicidae) in the Atlantic Forest, Brazil. Arachnology 18(2):127-128. https://doi.org/10.13156/arac.2018.18.2.127
https://doi.org/10.13156/arac.2018.18.2.... )) (Reddell & Cokendolpher, 1995). Whereas, the knowledge on the diet of S. portoricensis is restricted to laboratory conditions and includes preys such as Drosophila melanogaster (Meigen, 1830) (Diptera), small termites (Blattodea), Psocids (Psocoptera: Psocidae), and zorapterans (Zoraptera) (Brach, 1976Brach, V. 1976. Development of the whipscorpion Schizomus floridanus, with notes on behavior and laboratory culture. Bulletin of the Southern California Academy of Sciences 74(3):97-100.). Finally, little is known about the predators of S. portoricensis, there is a single record of an adult female being preyed upon by Phrynus marginemaculatus C. L. Koch, 1841 (Armas, 1989Armas, L. F. de. 1989. Depredación de Schizomus portoricensis (Arachnida: Schizomida) por Phrynus marginemaculatus (Arachnida: Amblypygi). Miscelánea Zoológica 46:3.).

DISCUSSION

The presence of Stenochrus portoricensis in Costa Rica and Venezuela is not surprising due to the previous records in neighboring countries with similar ecological conditions (Figs 32-34). From Costa Rica, 15 species distributed in four genera have been recorded. The current main component of the short-tailed whip scorpions from this country is the genus Surazomus, which is the second-most diverse in America (behind RowlandiusReddell & Cokendolpher, 1995Reddell, J. R. & Cokendolpher, J. C. 1995. Catalogue, bibliography, and generic revision of the order Schizomida (Arachnida). Texas Memorial Museum, Speleological Monographs 4:1-170.), originally distributed in South America, but recently recorded from Mexico (Monjaraz-Ruedas et al., 2020Monjaraz-Ruedas, R.; Francke, O. F. & Prendini, L. 2020. Integrative systematics untangles the evolutionary history of Stenochrus (Schizomida: Hubbardiidae), a neglected junkyard genus of North American short-tailed whipscorpions. Biological Journal of the Linnean Society 130(3):458-479. https://doi.org/10.1093/biolinnean/blaa039
https://doi.org/10.1093/biolinnean/blaa0... ). The other genera present in Costa Rica are common elements in northern South America and the Antilles (Armas & Víquez, 2011Armas, L. F. de & Víquez, C. 2011. Dos nuevas especies de Surazomus Reddell and Cokendolpher, 1995 (Schizomida: Hubbardiidae) de Costa Rica. Boletín de la Sociedad Entomológica Aragonesa 48:77-86., 2014Armas, L. F. de & Víquez, C. 2014. Aracnofauna de la Isla del Coco, Costa Rica, y descripción de un nuevo Surazomus (Schizomida: Hubbardiidae). Revista Ibérica de Aracnología 25:71-75.). This is the first record of Stenochrus for this country.

The schizomid fauna of Venezuela has been poorly studied, but this seems to be potentially diverse, with 10 species and six genera - including Stenochrus - (Harvey, 2003Harvey, M. S. 2003. Catalogue of the Smaller Arachnid Orders of the World: Amblypygi, Uropygi, Schizomida, Palpigradi, Ricinulei and Solifugae. Victoria, CSIRO Publishing, Collingwood.; Armas & Colmenares-García, 2006Armas, L. F. de & Colmenares-García, P. A. 2006. Nuevo Género de Hubbardiidae (Arachnida: Schizomida) de Zulia, Venezuela. Boletín de la Sociedad Entomológica Aragonesa 39:27-30.; Villarreal & Teruel, 2006Villarreal, M. O. & Teruel, R. 2006. Un nuevo Hansenochrus Reddell and Cokendolpher, 1995 (Schizomida: Hubbardiidae) de Venezuela noroccidental. Papéis Avulsos de Zoologia 46(20):233-238. https://doi.org/10.1590/S0031-10492006002000001
https://doi.org/10.1590/S0031-1049200600... ; Villarreal et al., 2008Villarreal, M. O.; Giupponi, A. P. L. & Tourinho, A. L. 2008. New Venezuelan genus of Hubardiidae (Arachnida: Schizomida). Zootaxa 1860:60-68., 2016Villarreal, M. O.; De Miranda, G. S. & Giupponi, A. P. L. 2016. New proposal of setal homology in Schizomida and revision of Surazomus (Hubbardiidae) from Ecuador. PLoS One 11:1-29. https://doi.org/10.1371/journal.pone.0147012
https://doi.org/10.1371/journal.pone.014... ; Armas et al., 2009Armas, L. F. de; Villarreal, M. O. & Colmenares-García, P. A. 2009. Nuevo Rowlandius Reddell and Cokendolpher, 1995 (Schizomida: Hubbardiidae) de la Sierra San Luis, Venezuela noroccidental. Papeis Avulsos de Zoologia 49(28):361-368. https://doi.org/10.1590/S0031-10492009002800001
https://doi.org/10.1590/S0031-1049200900... ; Armas, 2010Armas, L. F. 2010. Schizomida de Sudamérica (Chelicerata: Arachnida). Boletín de la Sociedad Entomológica Aragonesa 46:203-234.). This makes this country the third most-diverse in South America, behind Brazil (19 species in six genera) (Pinto-da-Rocha et al., 2016Pinto-da-Rocha, R.; Andrade, R. & Moreno-González, J. 2016. Two new cave-dwelling genera of short-tailed whip-scorpions from Brazil (Arachnida: Schizomida: Hubbardiidae). Zoologia 33(2):e20150195.; Ruiz & Valente, 2017Ruiz, G. R. S. & Valente, R. 2017. The first schizomid from a dry forest in South America (Arachnida: Schizomida). Zootaxa 4311(1):81-95. doi: 10.11646/zootaxa.4311.1.5
https://doi.org/10.11646/zootaxa.4311.1.... ; Salvatierra, 2018Salvatierra, L. 2018. A new species of Surazomus Reddell and Cokendolpher, 1995 (Arachnida: Schizomida) from Rondônia, Brazil. Turkish Journal of Zoology 42(1):107-112. https://doi.org/10.3906/zoo-1708-38.
https://doi.org/10.3906/zoo-1708-38... ) and Colombia (16 species in six genera) (Segovia-Paccini et al., 2018Segovia-Paccini, A.; Ahumada-C, D. & Moreno-González, J. A. 2018. A new remarkable short-tailed whip-scorpion species of Piaroa (Arachnida, Schizomida, Hubbardiidae) from the Colombian Caribbean region. Zootaxa 4500(1):91-103. https://doi.org/10.11646/zootaxa.4500.1.5.
https://doi.org/10.11646/zootaxa.4500.1.... ). Other South American countries occupy descendent positions in schizomid species richness and generic diversity: Ecuador (three genera and six species), Suriname (one genus and three species), Guyana (one genus and two species), and Bolivia and Peru (one genus and one species) (Rowland & Reddell, 1979aRowland, J. M. & Reddell, J. R. 1979a. The order Schizomida (Arachnida) in the New World. I. Protoschizomidae and dumitrescoae group (Schizomidae: Schizomus). Journal of Arachnology 6:161-196.,bRowland, J. M. & Reddell, J. R. 1979b. The order Schizomida (Arachnida) in the New World. II. Simonis and brasiliensis groups (Schizomidae: Schizomus). Journal of Arachnology 7:89-119.; Pinto-da-Rocha, 1996Pinto-da-Rocha, R. 1996. Surazomus chavin new species, first Schizomida (Hubbardiidae, Hubbardiinae) described from Peru. Journal of Arachnology 24:265-267.; Cokendolpher & Reddell, 2000Cokendolpher, J. & Reddell, J. 2000. New and rare Schizomida (Arachnida: Hubbardiidae) from South America. Amazoniana XVI(1/2):187-212.; Villarreal et al., 2016Villarreal, M. O.; De Miranda, G. S. & Giupponi, A. P. L. 2016. New proposal of setal homology in Schizomida and revision of Surazomus (Hubbardiidae) from Ecuador. PLoS One 11:1-29. https://doi.org/10.1371/journal.pone.0147012
https://doi.org/10.1371/journal.pone.014... ).

The new record from Venezuela is based on four females collected in an anthropized forest fragment in Lagunillas near Laguna de Urao (Mérida state) (Figs 25-27), which could correspond to the Thorn Shrub forest biome (Ataroff & Sarmiento, 2004Ataroff, M. & Sarmiento, L. 2004. Las unidades ecológicas de los Andes de Venezuela. In: La Marca, E. & Soriano, P. ed. Reptiles de Los Andes de Venezuela. Mérida, Fundación Polar, Codepre-ULA, Fundacite-Mérida, Biogeos, p. 9-26.). Although efforts have been made to collect within preserved Thorn Shrub forest fragments, no specimens of S. portoricensis or any other schizomid species were observed whatsoever. So, the distribution of S. portoricensis is apparently restricted to anthropized forest fragments.

The introduction of S. portoricensis in Lagunillas may be related to agricultural activities carried out in an experimental station near the anthropized forest fragment. Although this species has not been collected in other regions of the country, the heterogeneous sampling in Venezuela prevents ruling out its presence in areas adjacent to some cities, mainly in the coast and center of the country. However, further efforts are needed to detect this species in urban areas in Venezuela, given that most of the efforts to sample short-tailed whip scorpions have focused on pristine humid forests or cave environments (e.g., González-Sponga, 1997González-Sponga, M. A. 1997. Arácnidos de Venezuela. Un nuevo género y dos nuevas especies de Schizomidae y redescripción de Schizomus simoni Hansen y Sorensen, 1905 del Sistema Montañoso de la Costa (Schizomida). Acta Biológica Venezuelica 17(2):1-10.; Armas & Colmenares-García, 2006Armas, L. F. de & Colmenares-García, P. A. 2006. Nuevo Género de Hubbardiidae (Arachnida: Schizomida) de Zulia, Venezuela. Boletín de la Sociedad Entomológica Aragonesa 39:27-30.; Villarreal & Teruel, 2006Villarreal, M. O. & Teruel, R. 2006. Un nuevo Hansenochrus Reddell and Cokendolpher, 1995 (Schizomida: Hubbardiidae) de Venezuela noroccidental. Papéis Avulsos de Zoologia 46(20):233-238. https://doi.org/10.1590/S0031-10492006002000001
https://doi.org/10.1590/S0031-1049200600... ; Armas et al., 2009Armas, L. F. de; Villarreal, M. O. & Colmenares-García, P. A. 2009. Nuevo Rowlandius Reddell and Cokendolpher, 1995 (Schizomida: Hubbardiidae) de la Sierra San Luis, Venezuela noroccidental. Papeis Avulsos de Zoologia 49(28):361-368. https://doi.org/10.1590/S0031-10492009002800001
https://doi.org/10.1590/S0031-1049200900... ; Villarreal et al., 2014Villarreal, M. O.; Armas, L. F. de & García, L. F. 2014. A new species of Piaroa (Schizomida: Hubbardiidae) from Venezuela, with taxonomic notes on the genus. Zootaxa 3765(4):371-381. https://doi.org/10.11646/zootaxa.3765.4.5
https://doi.org/10.11646/zootaxa.3765.4.... ).

Moreover, one of the new records from Colombia represents a female population inside an urban area in Girón (department of Santander), similar to that recorded from other cities, such as Cali (department of Valle del Cauca) (Fig. 4D-G) and Armenia (department of Quindío) (e.g., Reddell & Cokendolpher, 1995Reddell, J. R. & Cokendolpher, J. C. 1995. Catalogue, bibliography, and generic revision of the order Schizomida (Arachnida). Texas Memorial Museum, Speleological Monographs 4:1-170.; Delgado-Santa & Armas, 2012Armas, L. F. de & Delgado-Santa, L. 2012. Nueva especie de Piaroa de la Cordillera Occidental de los andes colombianos y segundo registro de Stenochrus portoricensis Chamberlin, 1922 para Colombia (Schizomida: Hubbardiidae). Revista Ibérica de Aracnología 50:183-186.). However, the most interesting new records probably correspond to those from the seasonally dry tropical forest (SDTF) relics from Buga, Cerrito, and Dagua (department of Valle del Cauca). These records represent well-established populations of an alien species in a native and endangered Colombian ecosystem (García et al., 2014García, H.; Corzo, G.; Isaacs, P. & Etter, A. 2014. Distribución y estado actual de los remanentes del Bioma de Bosque Seco Tropical en Colombia: insumos para su gestión. In: Pizano, C. & García, H. ed. El Bosque Seco Tropical en Colombia. Bogotá, Instituto de Investigación de Recursos Biológicos Alexander von Humboldt (IavH), p. 228-251.).

The SDTF presents a wide and fragmented distribution ranging from Mexico to Argentina (including the Antilles) (Pennington et al., 2009Pennington, R. T.; Lavin, M. & Oliveira-Filho, A. 2009. Woody Plant Diversity, Evolution, and Ecology in the Tropics: Perspectives from Seasonally Dry Tropical Forests. Annual Review of Ecology, Evolution and Systematics 40:437-457.). It comprises one of the most threatened tropical biomes in the world (Miles et al., 2006Miles, L.; Newton, A. C.; De Fries, R. S.; Ravilious, C.; May, I.; Blyth, S.; Kapos, V. & Gordon, J. E. 2006. A global overview of the conservation status of tropical dry forests. Journal of Biogeography 33(3):491-505.) with less than 10% of its original extent remaining in a few countries (Pennington et al., 2009Pennington, R. T.; Lavin, M. & Oliveira-Filho, A. 2009. Woody Plant Diversity, Evolution, and Ecology in the Tropics: Perspectives from Seasonally Dry Tropical Forests. Annual Review of Ecology, Evolution and Systematics 40:437-457.). When compared with other humid counterparts, such as tropical rain forests, the remaining area and the conservation efforts to protect the SDTF seem to be smaller (Sánchez-Azofeifa et al., 2005Sánchez-Azofeifa, G. A.; Quesada, M.; Rodríguez, J. P.; Nassar, J.; Stoner, K. E. et al. 2005. Research priorities for neotropical dry forests. Biotropica 37(4):477-485.; Miles et al., 2006Miles, L.; Newton, A. C.; De Fries, R. S.; Ravilious, C.; May, I.; Blyth, S.; Kapos, V. & Gordon, J. E. 2006. A global overview of the conservation status of tropical dry forests. Journal of Biogeography 33(3):491-505.). In Colombia, the SDTF do not represent an exception and have also been considered among the most threatened ecosystems due to human activities that have diminished to 46% of its original extension of 7,172 km² (García et al., 2014García, H.; Corzo, G.; Isaacs, P. & Etter, A. 2014. Distribución y estado actual de los remanentes del Bioma de Bosque Seco Tropical en Colombia: insumos para su gestión. In: Pizano, C. & García, H. ed. El Bosque Seco Tropical en Colombia. Bogotá, Instituto de Investigación de Recursos Biológicos Alexander von Humboldt (IavH), p. 228-251.).

Records of schizomids from SDTF are scarce. In Colombia, Piaroa turbacoensis (Segovia-Paccini, Ahumada-C. & Moreno-González) was described from Turbaco in the Colombian Caribbean region (department of Bolívar) within that biome. In Brazil, four schizomid species are known from SDTF localities, with one epigean (Surazomus algodoal (Ruiz & Valente, 2017Ruiz, G. R. S. & Valente, R. 2017. The first schizomid from a dry forest in South America (Arachnida: Schizomida). Zootaxa 4311(1):81-95. doi: 10.11646/zootaxa.4311.1.5
https://doi.org/10.11646/zootaxa.4311.1.... ) and three hypogean taxa (Rowlandius ubajara) (Santos, Ferreira & Buzatto, 2013; R. potiguar Santos, Ferreira & Buzatto, 2013) and R. pedrosoi (Giupponi, Miranda & Villarreal, 2016) (Ruiz & Valente, 2017). Records of S. portoricensis in Brazil, however, are not located in the SDTF biome. Conversely, these records are from moist biomes, such as the Atlantic and the Amazon forests or from cave environments in the Cerrado, a savanna-like biome.

The presence of S. portoricensis may constitute a threat to native schizomids inhabiting the SDTF or moist biomes. For example, in the department of Valle del Cauca, eight protected SDTF fragments exist; all surrounded by massive sugar cane crops: Colindres (Jamundí), El Vínculo Natural Regional Park (Buga), Las Chatas (Buga), El Medio (Zarzal), Las Pilas (La Victoria), Juan María Céspedes Botanical Garden, El Hatico Farm (Cerrito), and El Tiber (San Pedro) (Alvarado-Solano & Ospina, 2015Alvarado-Solano, D. P. & Otero, J. T. 2015. Distribución espacial del Bosque Seco Tropical en el Valle del Cauca, Colombia. Acta Biológica Colombiana 20(3):141-153. https://doi.org/10.15446/abc.v20n3.46703
https://doi.org/10.15446/abc.v20n3.46703... ). According to personal field observations by the last author (JAMG), El Medio and the Juan María Céspedes Botanical Garden have native populations of two undescribed species of PiaroaVillarreal, Giupponi & Tourinho, 2008Villarreal, M. O.; Giupponi, A. P. L. & Tourinho, A. L. 2008. New Venezuelan genus of Hubardiidae (Arachnida: Schizomida). Zootaxa 1860:60-68. each, and have no populations of S. portoricensis, yet. Other fragments, such as El Vínculo Natural Regional Park (Buga) and El Hatico Farm (Cerrito), have well-established populations of S. portoricensis, but not native schizomid populations.

In the Amazon forest, several species of short-tailed whip scorpions are known (see, Ruiz & Valente, 2017Ruiz, G. R. S. & Valente, R. 2017. The first schizomid from a dry forest in South America (Arachnida: Schizomida). Zootaxa 4311(1):81-95. doi: 10.11646/zootaxa.4311.1.5
https://doi.org/10.11646/zootaxa.4311.1.... for a list) and the low number of species described might be due to sampling bias, widely reported for Brazil (Oliveira et al., 2016Oliveira, U.; Paglia, A. P.; Brescovit, A. D.; de Carvalho, C. J. B.; Silva, D. P. et al. 2016. The strong influence of collection bias on biodiversity knowledge shortfalls of Brazilian terrestrial biodiversity. Diversity and Distributions 22:1232-1244. https://doi.org/10.1111/ddi.12489
https://doi.org/10.1111/ddi.12489... ). In the Atlantic Forest, however, only one endemic or native species is known, Rowlandius linsduarteSantos, Dias, Brescovit & Santos, 2008Santos, J. A.; Dias, S. C.; Brescovit, A. D. & Santos, P. P. 2008. The arachnid Order Schizomida in the Brazilian Atlantic forest: a new species of Rowlandius and new records of Stenochrus portoricensis (Schizomida: Hubbardiidae). Zootaxa 1850, 53-60.. This species was described from Mata do Buraquinho, a forest reserve in the state of Sergipe (Santos et al., 2008), located less than 100 km from at least three records of S. portoricensis, in the state of Pernambuco (see Souza & Lira, 2015Souza, A. de & Lira, A. 2015. First record of Stenochrus portoricensis Chamberlin, 1922 (Arachnida: Schizomida: Hubbardiidae) for the Pernambuco state Brazilian. Journal of Biology 75:766-767. https://doi.org/10.1590/1519-6984.21113
https://doi.org/10.1590/1519-6984.21113... and records in the present study).

As well as other introduced populations of S. portoricensis, the new records presented here are composed only of female populations. It may be due to the presumably parthenogenetic abilities of this species (Ruiz & Valente, 2017Ruiz, G. R. S. & Valente, R. 2017. The first schizomid from a dry forest in South America (Arachnida: Schizomida). Zootaxa 4311(1):81-95. doi: 10.11646/zootaxa.4311.1.5
https://doi.org/10.11646/zootaxa.4311.1.... ; Teruel & Questel, 2019Teruel, R. & Questel, K. 2019. Occurrence of Stenochrus portoricensis Chamberlin, 1912 (Schizomida: Hubbardiidae) in Saint-Barthélemy, Lesser Antilles. Boletín del Grupo de Sistemática y Ecología de Artrópodos Caribeños 1:1-4.; Monjaraz-Ruedas et al., 2022Monjaraz-Ruedas, R.; Francke, O. & Prendini, L. 2022. World travelers: parthenogenesis and ecological tolerance enable multiple colonization events by the widespread short-tailed whipscorpion, Stenochrus portoricensis (Schizomida: Hubbardiidae). Insect Systematics and Diversity 6(1):1-17. https://doi.org/10.1093/isd/ixab032
https://doi.org/10.1093/isd/ixab032... ). This particular reproduction strategy of S. portoricensis can facilitate a rapid and massive expansion abroad, in non-native biomes and anthropogenic areas. This hypothesis is also suggested for other taxa. For example, the goblin spiders Triaeris stenaspis Simon, 1891 and Heteroonops spinimanus (Simon, 1891) are considered parthenogenetic species with pantropical distribution, thus, raising concerns of the impact of these species on natural ecosystems (Brescovit et al., 2019Brescovit, A. D.; Bonaldo, A. B.; Ott, R. & Chavari, J. L. 2019. To boldly go: on invasive goblin spiders in Brazil (Araneae, Oonopidae). Iheringia, Série Zoologia, 109:e2019033. https://doi.org/10.1590/1678-4766e2019033
https://doi.org/10.1590/1678-4766e201903... ). There is no study on competition nor interactions between S. portoricensis and local schizomid species, hampering further assessments of their impacts. An important question remains open as to whether this species could become a harmful invasive exotic species that competes for resources or even takes advantage of local species, affecting their populations, but until there are studies in this regard, any assumption would be merely speculative.

Stenochrus portoricensis is a widely distributed species in the New World, with populations introduced in the Old World. Although its presence in Costa Rica and Venezuela is not surprising, the occurrence of this species in both countries is confirmed for the first time. Additionally, new records are presented for Colombia and Brazil. New records from the Brazilian Amazon region help to fill some distributional gaps for the species. This wide distribution suggests a possible status as an invasive species, thus, future studies should evaluate the ecological role played by S. portoricensis in other biomes where it has been introduced, emphasizing its influence on native populations and the risk that this introduction would represent to the local fauna. Furthermore, spermathecal morphology was evaluated in some individuals over a wide geographic range and no substantial differences were detected. Small variations were observed in the shape of the chitinized arch and the length of the lobes, however, the low number of samples studied per locality, as well as the differences in the preparation methods of the spermathecae, do not allow assessing whether they are population variations or an artifact of preparation. The species is reported for the first time in a bromeliad on a tree, a fact that - together with previous reports in heavily antropized places, forest litter or caves - allows evidence of ecological plasticity in the species.

Acknowledgements.

To Yelitza Rangel Gutiérrez for her collaboration and availability in loaning the photographs in figures 11-13. We thank Dr. Rolando Teruel for his comments on an early version of the manuscript. Ethellum americanum from the figure 4 was kindly identified by Ricardo Borja and Carlos M. López. LSC is grateful to Dr. Adalberto Santos, Dr. André F. A. Lira, Dr. Antonio D. Brescovit, and Dr. Rodrigo Lopes Ferreira for providing some specimens analyzed during the project (CNPq under Grant #441545/2020-3). We would like to express our gratitude to the Vice-Rector's Office for Research and Jairo Sarmiento of the University of Quindío for their invaluable assistance in reviewing the English writing of our manuscript. LD-S is grateful to Rogy Pierre for providing the specimen collected from Costa Rica. This study was partially supported by the FAPESP grant (2015/18376-2) to JAMG.

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