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Caldasia

Print version ISSN 0366-5232On-line version ISSN 2357-3759

Caldasia vol.44 no.1 Bogotá Jan./Apr. 2022  Epub Apr 29, 2022

https://doi.org/10.15446/caldasia.v44n1.90352 

Notas breves

Rediscovery and redescription of the rare hummingbird fly Lasia pulla (Diptera: Acroceridae) from the Valdivian evergreen forest, Chile

Redescubrimiento y redescripción de la rara mosca colibrí Lasia pulla (Diptera: Acroceridae) del Bosque siempre verde Valdiviano, Chile

Rodrigo M. Barahona-Segovia1  2  * 
http://orcid.org/0000-0002-1509-2935

Vicente Valdés-Guzmán2  3 
http://orcid.org/0000-0001-5003-7360

Laura Pañinao-Monsálvez2 
http://orcid.org/0000-0002-0309-0051

Juan Francisco Araya4 
http://orcid.org/0000-0002-4087-9641

1 Departamento de Ciencias Biológicas y Biodiversidad, Universidad de Los Lagos, Av. Fuchlocher 1305, Osorno, Chile. Email: rbarahona13@gmail.com

2 Citizen Science Program Moscas Florícolas de Chile, Patricio Lynch 940, Valdivia, Chile. Emails: vicente.mvg@gmail.com; laurapaninao@gmail.com

3 Biodiversidad Chilena Ltda, Camino Las Vertientes, Colonia Kennedy 190a, Paine.

4 Museo del Mar, Universidad Arturo Prat, Avenida Arturo Prat 2120, Iquique 1110939, Chile. Email: jfaraya@u.uchile.cl ZooBank LSID: urn:lsid:zoobank.org:pub:AA1A0E98-4369-4765-9A51-AB9FE0D7E4DA


ABSTRACT

Lasia pulla has not recorded since their description in 1865 by Philippi. New specimen records and an updated taxonomical description is provided here. This hummingbird fly species is endemic from the Los Ríos Region, Chile. In this area, many ecosystems are still unexplored, but anthropic activities are currently fragmenting the evergreen forests. A IUCN Red List assessment is suggested.

Keywords: Native forest fragmentation; Los Ríos Region; Panopinae; spider flies

RESUMEN

Lasia pulla no se ha registrado desde su descripción en 1865 por Philippi. En este trabajo se proporcionan nuevos registros de especímenes y una descripción taxonómica actualizada. Esta especie de mosca colibrí es endémica de la Región de Los Ríos, Chile. En esta zona, muchos ecosistemas aún no han sido explorados, pero las actividades antrópicas actualmente están fragmentando los bosques siempre verdes. Se sugiere una evaluación de la Lista Roja de la UICN.

Palabras claves: Fragmentación del bosque nativo; Región de Los Ríos; Panopidae; Moscas de las arañas

Spider flies (Diptera: Acroceridae) is a small family composed of 55 genera and approximately 530 species (Schlinger et al. 2013). This family is recognized because they have endoparasite behavior on spider families (Schlinger 1987, Kerr and Winterton 2008, Barneche et al. 2013, Gillung and Borkent 2017), except for the Chilean genus Carvalhoa with external parasitoids in Amaurobiidae spiders (Schlinger 1987, Schlinger et al. 2013). The subfamily Pa-nopinae attacks principally tarantula spiders and there are only 18 cases recorded to date (Gillung and Borkent 2017).

Neotropical Panopinae, commonly named as 'tarantula flies', include the genus Lasia, which is restricted to the New World (Gillung and Carvalho 2009) and is composed of 16 species distributed from the United States to Chile (Schlinger 2009). Lasia is closely related to Panops (Australia and Papua New Guinea), Apsona (New Zealand), Lasiodes (Peru), Pteropexus, and Eulonchus (North America) (Winterton 2012, Gillung and Winterton 2019). Lasia is distinguished from other New World Panopinae by the insertion of the antennae on the central part of the head, eyes densely pilose with setae, greatly elongate mouthparts, eyes not contiguous below the antenna insertion, and frequently metallic body coloration (Gillung and Carvalho 2009, Gillung and Winterton 2019). Chile has the largest number of described Lasia species in the Neotropical Realm; however, some type specimens described by Philippi (1865) were reported as lost (González et al. 2018, Shaun Winterton pers. comm.). Lasia pulla (Philippi, 1865) (Fig. 1) is the smallest tarantula fly species from Chile; before to this work only the holotype of this species was known (Fig. lb, id, le), restricted to its type locality in Corral, Los Ríos Region (Philippi 1865). In this study, we report the rediscovery of L. pulla from the province of Valdivia, in southern Chile and provide an updated redescription of the species. Aspects about the rediscovery, distribution and conservation of L. pulla are also discussed.

Sampling was conducted in areas with Valdivian evergreen forest near Valdivia city. This forest type extends from the Toltén river (40°50' South) to the Llico river (41°30' South), having a mean temperature of 17.4°C, an annual rainfall up to 5000 mm and it is mostly represented by tree species like Aextoxicum punctatum Ruiz et Pav. and Nothofagus spp. (Smith-Ramirez 2004). Lasia pulla specimens were obtained from two sources: The Ernesto Krahmer collection from Universidad Austral de Chile (UACH) and fieldwork surveys. Previous observa-tions realized by the first author determined a rich assemblage of insects visiting flower patches ofAlstroeme-ria aurea Graham and Fuchsia magellanica Lam. combined with exotic plants as Taraxacum officinale (L.) Webber ex Wigg among others, which are visited mainly by Lasia nigritarsis and other spider flies as Holops and Megalybus species. Then, we performed focal sampling in flowers patches composed mainly of these native shrubs and herbaceous plant species. Sampling span between 2013 and 2019 in several localities: Teja Island (39°48' South, 73°15' West), Punucapa (39°43' South, 73°18' West), Oncol Park (39°40' South, 73°21' West), Corral (39°53' South, 73°25' West), Santo Domingo (39°54' South, 73°8' West) and Llancahue (39°34' South, 71°57' West). Punucapa, Llancahue and Corral were visited at least three times (2014, 2016 and 2017) between two periods: 10-20 November and 12-22 January each year. Days of sampling each year were variable, but we worked three days at minimum. Teja Island, Oncol Park and Santo Domingo were visited all years also in two periods: 5-18 December and 10-25 February each year, also with three days of sampling at minimum. Flies were collected with entomological net in shiny days, sweeping over flowers using ten net passes in each sampling point separated from each other by approximately 2 km (n = 3 times by locality; total sampling = 4 km). In addition, when flies were feeding of nectar in flowers on these patches, we directly caught specimens. Flies were processed each year and preserved (pinned or stored in alcohol 90 %) in the private collection of the first author. A redescription of L. pulla follows the terminology of Cum-ming and Wood (2017). Measurements were taken with a 0.05 mm precision electronic ruler and the scale using a Leica S6 D microscope. Photographs were taken with a Nikon D7200 camera, equipped with AF-S DX MicroNIKKOR 40mm f/2.8G and extension tubes. The distribution map was created using ArcGIS v.10.4.1.

Lasia pulla (Philippi, 1865), Figs. 1a-h

ZooBank LSID: urn:lsid:zoobank. org:pub:AA1A0E98-4369-4765-9A51-AB9FE0D7E4DA

Diagnosis. Bicolored species. Face and vertex of a metallic blue color. Flagellum 8-fold longer than scape or pedicel. Mesonotum shiny green. Lateral thoracic segments of shiny metallic blue-violet color. Legs brownish to dark yellow. Wings membranous and faintly smoky. First and second tergites are metallic blue. The first and second sternites metallic violet. Other tergites and sternites shiny blue-violet. The whole body is covered with a golden-yellowish pile. Wing vein M2 present.

Redescription. Body: Length: 6.92-7.50 mm (Figs. 1a-b); thorax width: 3.87-4.10 mm; abdomen width: 4.19-4.59 mm; wing length: 5.0l-5.05mm (Fig. 1h). Female. Head: Spheroidal shape; eyes dull black and with dense rufous ommatrichia; face, vertex and triangle ocellar of metallic blue color with three dark rufous ocelli occupying approximately 50 % of vertex; scarcely protuberant (Fig. 1e); occiput with a shiny metallic blue; antenna black; scape and pedicel with similar size; flagellum 8-fold longer than the pedicel (Figs. 1g, 1e); proboscis with similar size (approximately 6 mm) to total length; clypeus steel blue and the rest of proboscis with a dark rufous color (Fig. 1g). Thorax: Mesonotum ground color shiny green with some blue tones, and covered with dense, erected and golden pilosity; this is continuous and sparsely distributed (Fig. 1a-d); postpronotal lobe, anepis-ternum, anepimeron, katepisterum, metasternum, meron and katatergite shiny metallic blue-violet color, also with golden and dense pilosity (Fig. 1c); scutellum shiny metallic blue color and erected golden hairs of the same color (Fig. 1a-b). Legs: Coxae shiny metallic blue, trochanters brownish; femora, tibiae and tarsi brownish covered with golden pilosity: one longer than the second type; distitarsus with four or five long golden setae; claws blackish. Wing: approximately 2/3 of the total length; of smoky color, with membranous appearance and without microtrichia; vein R1 close of vein C; vein R2+3 straight and slightly curved in the apex; vein R4 strongly curved in the anterior part and R5 barely curved; r fine compared with r ; M near touches the j ' 4+5 1 2+3' 1 wing edge and larger than M2; cell m3 are not directly connected with cell bm; calypter brownish covered with dense yellowish pilosity; halter knob and stem light white-yellow (Fig. 1h). Abdomen: globose shape (Fig. 1a-b); the first and second tergites are metallic blue color with golden pilosity, first and second sternites are metallic violet; rest of tergites and sternites are shiny blue-violet completely covered with golden-yellowish pilosity (Fig. 1a-b).

Figures 1 Lasia pulla (Philippi, 1865): a female, dorsal view; b holotype, dorsal view (photo by Shaun Winterton); c female, lateral view; d holotype, lateral view (photo by Shaun Winterton); e female, vertex and triangle ocellar, dorsal view; f holotype, frontal view (photo by Shaun Winterton); g female, proboscis details, and h female, wing venation. 

Material examined and distribution. CHILE. Los Rios: Corral (type locality, Philippi 1865); 1 adult, Santo Domingo, Valdivia, December 21, 1962, Leg. E. Krahmer (UACH), voucher ACR01/UACH; 1 adult, Oncol, NO of Valdivia, December 7, 2018, Leg. Rodrigo Barahona-Segovia (CPRBS); ACR27/CPRBS (Fig. 2).

Figure 2 Distribution map of Lasia pulla (Philippi, 1865) in Valdivia Province. 

Remarks. The live-obtained individual was captured visiting A. aurea patches into a secondary native forest composed by Myrceugenia spp., Nothofagus spp., A. punctatum, and Eucryphia cordifolia Cav. among others. This native forest is exposed to morning fog and receives a great amount of rainfall. The type material of this species is in California Department of Food and Agriculture. The present specimens represent the first records for the species since its original description.

Philippi (1865) based the description of L. pulla just in the color of the different segments of the body, excluding other morphological characteristics. Here, we incorporate characters such as the proportional size of the antennal segments, and the relationship between the size of proboscis or wings compared with the body.

Rediscovery of species in Chile is a common phenomenon thanks to systematic collections across many ecosystems (see examples in Vera 2017, Vianna et al. 2017, Araya and Bitner 2018, Fibla et al. 2018) and intensive sampling efforts in unexplored ecosystems, filling current knowledge gaps on biodiversity. The localities where we rediscovered L. pulla belong to the Valdivian evergreen forest, which still maintains large patches of ancient forest. However, urbanization and forestry have been the main drivers in the replace of native forest in Valdivia Province (Zamorano-Elgueta et al. 2015, Miranda et al. 2017, Rodriguez-Echeverry et al. 2018). Lasia pulla distributional range size may be larger than currently known given the scarce records. Moreover, the loss of the native forest and its fragmentation should be a future issue for this recently rediscovered species, as that process may increase its rarity. The species should be considered a priority for IUCN Red List assessment and for the Chilean Ministry of Environment.

ACKNOWLEDGMENTS

We thank you to Cecilia Ruiz, Christian Montalva and Dolly Lanfranco to permit us to work with the valuable Ernesto Krahmer's collection. We also thank to our anonymous reviewers and Shaun Winterton from California Department of Food and Agriculture, USA, whom provide photos of the type material of Lasia pulla; to Cristian Villagra and Constanza Schapheer for provided access to the Leica 6S D. This work was supported by ANID-FONDECYT 3200817. This work has been registered with ZooBank under urn:lsid:zoobank. org:pub:AAlAoE98-4369-4765-9A5l-AB9FEoD7E4DA.

LITERATURE CITED

Araya JF, Bitner MA. 2018. Rediscovery of Terebratulina austroamericana Zezina, 1981 (Brachiopoda: Cancellothyridi-dae) from off northern Chile. Zootaxa 4407(33):443-446. doi: https://doi.org/10.11646/zootaxa.4407.3.11Links ]

Barneche JA, Gillung JP, Gonzalez A. 2013. Description and host interactions of a new species of Exetasis Walker (Diptera: Acro-ceridae), with a key to species of the genus. Zootaxa 3664(4)525-536. doi: https://doi.org/10.11646/zootaxa.3664.4.6Links ]

Cumming JM, Wood DM 2017. Adult morphology and terminology. In: Kirk-Spriggs AH, Sinclair BJ, editors. Manual of Afro-tropical Diptera. Introductory chapters and keys to Diptera families. Vol. 1. Pretoria: South African National Biodiversity Institute. p. 89-133. [ Links ]

Fibla P, Salina H, Lobos G, del Pozo T, Fabres A, Méndez MA. 2018. Where is the enigmatic Telmatobius halli Noble 1938? Rediscovery and clarification of a frog species not seen for 80 years. Zootaxa 4527(13):61-74. doi: https://doi.org/10.11646/zootaxa.4527.1.5Links ]

Gillung JP, Carvalho CD. 2009. Acroceridae (Diptera): a pictorial key and diagnosis of the Brazilian genera. Zootaxa 2175(1):29-41. doi: https://doi.org/10.11646/zootaxa.2175.1.3Links ]

Gillung, JP, Borkent CJ. 2017. Death comes on two wings: a review of dipteran natural enemies of arachnids. J. Arachnol. 45(1):1-19. doi: https://doi.org/10.1636/JoA-S-16-085.1. [ Links ]

Gillung JP, Winterton SL. 2019. Evolution of fossil and living spider flies based on morphological and molecular data (Diptera, Acroceridae). Syst. Entomol. 44(43):820-841. doi: https://doi.org/10.1111/syen.12358Links ]

González CR, Elgueta M, Ramírez F. 2018. A catalog of Acroceridae (Diptera) from Chile. Zootaxa 4374(3):427-440.doi: https://doi.org/10.11646/zootaxa.4374.3.6Links ]

Kerr PH, Winterton SL. 2008. Do parasitic flies attack mites? Evidence in Baltic amber. Biol. J. Linn. Soc. 93(1): 9-13. doi: https://doi.org/10.1111/j.1095-8312.2007.00935.xLinks ]

Miranda A, Altamirano A, Cayuela L, Lara A, González M. 2017. Native forest loss in the Chilean biodiversity hotspot: revealing the evidence. Reg. Environ. Change 17(1):285-297. doi: https://doi.org/10.1007/s10113-016-1010-7Links ]

Philippi RA. 1865. Aufzáhlung der chilenischen Dipteren. Verh. Zool.-Bot. Ges. Wien, 1595-782. doi: https://doi.org/10.5962/bhl.title.9295Links ]

Rodríguez-Echeverry J, Echeverría C, Oyarzún C, Morales L. 2018. Impact of land-use change on biodiversity and ecosystem services in the Chilean temperate forests. Landsc. Ecol. 33(3):439-453. doi: https://doi.org/10.1007/s10980-018-0612-5Links ]

Schlinger EI. 1987. The biology of Acroceridae (Diptera): true endoparasitoids of spiders. In: Nentwig W, editor. Ecophysiology of Spiders. Berlin: Springer-Verlag. p. 319-327. [ Links ]

Schlinger EI. 2009. Acroceridae (Spider lies, small-headed lies). In: Brown BV, Borkent A, Cumming JM, Wood DM, Woodley NE, Zumbado MA, editors. Manual of central America Diptera. Vol. 1. Ottawa: National Research Council Canada. p. 551-556. [ Links ]

Schlinger EI, Gillung JP, Borkent CJ . 2013. New spider flies from the Neotropical Region (Diptera, Acroceridae) with a key to New World genera. Zookeys 270:59-93. doi: https://doi.org/10.3897/zookeys.270.4476Links ]

Smith-Ramírez C. 2004. The Chilean coastal range: a vanishing center of biodiversity and endemism in South American temperate rainforests. Biodivers. Conserv. 13(2)373-393. doi: https://doi.org/10.1023/B:BIOC.0000006505.67560.9fLinks ]

Vera A. 2017. Rediscovery of Neopentura semifusca (Plecoptera: Gripopterygidae), description of the male imago, redescription of the female and the nymph. Rev. Soc. Entomol. Argent. 65(3-4):69-77. [ Links ]

Vianna JA, Noll D, Moreno L, Silva C, Muñoz-Leal S, Najle M, González-Acuña D. 2017. Record of an alleged extinct rodent: molecular analyses of the endemic Octodon pacificus from Chile. J. Mammal. 98(2)456-463. doi: https://doi.org/10.1093/jmammal/gyw193Links ]

Winterton SL. 2012. Review of Australasian spider flies (Diptera, Acroceridae) with a revision of Panops Lamarck. ZooKeys (172):7-75. doi: https://doi.org/10.3897/zookeys.172.1889Links ]

Zamorano-Elgueta C, Benayas JMR, Cayuela L, Hantson S, Armenteras D. 2015. Native forest replacement by exotic plantations in southern Chile (1985-2011) and partial compensation by natural regeneration. Forest Ecol. Manag. 345:10-20. doi: https://doi.org/10.1016/j.foreco.2015.02.025Links ]

Citation: Barahona-Segovia RM, Valdés-Guzmân, Pahinao-Monsálvez L, Araya JF. 2022. Rediscovery and redescription of the rare hummingbird fly Lasia pulla (Diptera: Acroceridae) from the Valdivian evergreen forest, Chile. Caldasia 44(1):194-199. doi: https://doi.org/10.15446/caldasia.v44n1.90352

AUTHOR'S CONTRIBUTION RMBS surveyed the museum and collect specimens; RMBS and JFA wrote the first draft; VVG took photographs; LPM creates the distributional map; all authors contributed to reviewing and writing the manuscript.

Received: September 26, 2020; Accepted: April 12, 2021; Published: April 23, 2021

CONFLICT OF INTEREST

The authors declares that there is no conflict of interest.

Creative Commons License This is an open-access article distributed under the terms of the Creative Commons Attribution License