Printer Friendly

Invasion of two widely separated areas of Mexico by Forficula auricularia (Dermaptera: Forficulidae).

The European earwig, Forficula auricularia L. 1758 (Dermaptera: Forficulidae), is a household pest and an invasive species with cosmopolitan distribution. It is native to Europe, Western Asia and probably North Africa, although it has spread to all continents except Antarctica (Crumb et al. 1941; Clausen 1978; Shakai 1987). Earwigs are carried from one place to another on clothing or commercial products such as lumber, ornamental shrubs, newspaper bundles and groceries. European earwigs are nocturnal omnivorous scavengers and predators, most commonly found in temperate climates. They prefer moist and warm habitats, having an optimum mean growth temperature of 24 [degrees]C, and are most active when the daily temperature has minimal fluctuation (Crumb et al. 1941; Capinera 2001; Jacob 2009). The species has been known to cause significant damage to crops, flowers, and fruit orchards when they occur at high population densities (Vickery & Kevan 1986; Walker 1997; Capinera 2001; Weems & Skelly 2009).

Forficula auricularia was recorded a number of times in North America along the 19th century before becoming established on the continent (Vickery & Kevan 1983; Guillet et al. 2000). The first known colony of the species on the Atlantic coast appeared in Newport, Rhode Island in 1911 (Glaser 1914; Guillet et al. 2000), whereas on the Pacific coast, the earwig was present in Seattle already in 1907 (Coyne 1928) and in Oregon in 1909 (Guillet et al. 2000). Since then, the species has spread on both coasts of the US (Wirth et al. 1998), as well as to several Canadian provinces. Expansions were initiated by population bursts in harbors, a phenomenon never observed in Europe, and the species rapidly became a nuisance, thus causing concern on the part of agricultural authorities, who used different measures to eradicate this pest, including poisoning campaigns. The geographic range of F. auricularia has clearly expanded since, as it has continuously been reported in different localities farther inland (Crumb et al. 1941; Wirth et al. 1998). Despite this ability to colonize new environments, there were no precise records of F. auricularia in Mexico and Central America prior to this work (Scudder 1868; De Bormans 1893; Hebard 1917; Clausen 1978; Young 1986; Maes & Haas 2006; Weems & Skelly 2009).

During a recent field trip carried out at the Lagunas de Zempoala National Park, in the state of Mexico (municipality of Ocuilan; 2824 m absl; 21-VIII-2010), we found a reproductive aggregation of about 20 specimens of F. auricularia, which was grouped under loose bark on a vertical fence pole. This fence separates the surrounding pastures from one of the tourist stands at Lagunas de Zempoala. Most of the specimens dropped from the pole after being exposed, but 6 were captured and photographed (Fig. 1). No other specimens were found immediately nearby.

Furthermore, we observed an explosive irruption of F. auricularia on the Mexican island of Guadalupe (N 29[degrees] 07', W 118[degrees] 32'; 3/4-V-2011), located 260 km off the coast of Baja California in the Pacific Ocean. Many thousands of flying individuals were seen in cypress (Cupressus guadalupensis S. Watson) groves and surrounding areas in the north of the island. The swarm appeared suddenly around 11:00 am (roughly the same time on both days) and stayed in the wind for a few hours. Individuals tended to land on trunks and building walls and to climb upwards, sometimes reaching concentrations of many hundreds of individuals at the tips of cypress stumps. They were commonly seen in the area for the following 2 wk, walking on the ground or on tree trunks, but very few were still flying around after the first 3 days of the irruption. Hundreds of dead carcasses (about 5 individuals per [m.sup.2], quite evenly spread) were observed on the gravel-covered ground between the buildings of the biological station soon after the irruptions.

This to our knowledge is the first report of Forficula auricularia in Mexico. The significant distance between both localities, and the high number of specimens found in the remote oceanic island of Guadalupe, indicate that the species is probably widely distributed across the country. Because F. auricularia occurs in temperate climates, its presence and settlement in the Central Mexican Highlands was not unlikely; however its presence at high altitude in a well preserved National Park, dominated by conifer forests (Abies religiosa (Kunth) Schltdl. & Cham.), was unexpected. This species could have reached the Park through the products that are sold in the touristic stores or through visitors who bring their own goods. Recent climate change might favor its future acclimation to high altitude. Forficula auricularia individuals on Guadalupe may have accessed the island through the harbors as previously reported in other areas of North America. The nearest known populations of F. auricularia are located in the United States. It is possible, therefore, that the species arrived as a result of the intense commercial activity between Mexico and the USA, especially since Jan 1994 when the North American Free Trade Agreement (NAFTA) came into effect (Villareal 2010).

[FIGURE 1 OMITTED]

Forficula auricularia could potentially displace species of Dermaptera that are native of Mexico. Nevertheless, current knowledge about the Mexican fauna of Dermaptera is scarce; thus the consequences are unpredictable. Additional studies on the prevalence of F. auricularia in Mexico would be useful in order to establish measurements to avoid and control the problems that this species could cause in agriculture and the natural environment, and to minimize the probability of expansion.

We thank Nohemi Percino Daniel (ENAH, Mexico) for assistance during field work. This work was supported by CSIC-UNAM collaborative program (Estancias Breves) to AZ-R and MG-P, CSIC-CONACyT Bilateral Project to BM, and CGL2010-15786 (Ministerio de Ciencia e Innovation, Spain) to MG-P.

SUMMARY

The invasive species, Forficula auricularia L., is reported from 2 localities of Mexico: Lagunas de Zempoala (State of Mexico), a high elevation area 2824 m absl on the Transversal Neovolcanic Belt, and on the island of Guadalupe (State of Baja California), 260 km off shore in the Pacific Ocean. These data confirm that the geographic range of F. auricularia keeps expanding throughout the American continent since its first introduction into the USA about 1 century ago.

REFERENCES CITED

CAPINERA, J. 2001. Handbook of vegetable pests. Academic Press, San Diego, California. 729 pp.

CLAUSEN, C. P. 1978. Introduced parasites and predators of arthropod pests and weeds: A world review. USDA, Washington, DC. 545 pp.

COYNE, F. S. 1928. The European Earwig. Proc. Washington State Hort. Assoc. 24: 185-188.

CRUMB, S. E., EIDE, P. M., AND BONN, A. E. 1941. The European earwig. Tech. Bull. USDA, Washington, D.C. No.766: 1-76.

DE BORMANS, A. 1893. The Forficulidae, pp. 1-12, pl. 1-2 In H. Saussure, L. Zehntner and A. Pictet [eds.], Biologia Centrali-Americana, Insecta. Orthoptera 1: 1-377 pp. London: published for the editors by R. H. Porter.

GLASER R. W. 1914. Forficula auricularia in Rhode Island. Psyche 21: 157-158.

GUILLET, S., JOSSELIN, N., AND VANCASSEL, N. 2000. Multiple introductions of the Forficula auricularia species complex (Dermaptera: Forficulidae) in Eastern North America. Can. Entomol. 132: 49-57.

HEBARD, M. 1917. Notes on Mexican Dermaptera. Trans. Am. Entomol. Soc. Philadelphia 43: 409-432.

JACOBS, S. B. 2009. Entomological Notes: European Earwigs. Penn State-College of Agricultural Sciences, State College, Pennsylvania.

MAES, J. M., AND HAAS, F. 2006. Dermaptera de Nicaragua. Rev. Nicaraguense de Entomol. 66, suplemento 2: 1-127.

NACIONES UNIDAS, COMISION ECONOMICA PARA AMERICA LATINA Y EL CARIBE (CEPAL). 2000. Centroamerica, evolucion de las politicas comerciales 1999-2000.

SCUDDER S. H. 1867. Catalogue of the Orthoptera of North America described previous to 1867 prepared for the Smithsonian Institution. Smithsonian Misc. Collections 189: 1-89.

SHAKAI, S. 1987. Phylogenetic and evolutionary information on Dermaptera from the point of view of insect integrated taxonomy, pp. 496-513 In B. Baccetti [ed.], Evolutionary Biology of Orthopteroid Insects. Halsted Press, New York.

VICKERY, V., AND KEVAN, D. 1983. A monograph of the orthopteroid insects of Canada and adjacent regions. Mem. Lyman Entomol. Mus. Res. Lab.13: 1-1462.

VICKERY, V., AND KEVAN, D. 1986. The Insects and Arachnids of Canada, Part 14. Can. Dept. Agric. Ottawa, Ontario. 918 pp.

WIRTH, T., LE GUELLET, R., VANCASSEL, M., AND VEUILLE, M. 1998. Molecular and reproductive characterization of sibling species in the European earwig (Forficula auricularia). Evolution, 52: 260-265.

VILLAREAL, M. A. 2010. NAFTA and the Mexican Economy. Congressional Research Service, Library of Congress, Washington, D.C.

WALKER, K. A. 1997. Aggregation, courtship, and behavioural interactions in European earwigs, Forficula auricularia L. (Dermaptera: Forficulidae). PhD dissertation. Virginia Polytechnic Institute and State University, Blacksburg, Virginia.

WEEMS, H. V., AND SKELLEY, P. E. 2009. Featured Creatures: European Earwig. University of Florida IFAS: Department of Entomology and Nematology. http:// edis.ifas.ufl.edu/pdffiles/IN/IN15900.pdf

YOUNG, A. M. 1986. Notes on the distribution and abundance of Dermaptera and Staphylinidae (Coleoptera) in some Costa Rican cacao plantations. Proc. Entomol. Soc. Washington 88: 328-343.

PILAR PAVON-GOZALO (1), BORJA MILA (1), PAU ALEIXANDRE (1), JATZIRI A. CALDERON (2), ALEJANDRO ZALDIVAR-RIVERON (3), JULIO HERNANDEZ-MONTOYA (4) AND MARIO GARCIA-PARIS, (1) *

(1) Museo Nacional de Ciencias Naturales, MNCN-CSIC, c/ Jose Gutierrez Abascal, 2, 28006, Madrid, Spain

(2) Facultad de Ciencias, Universidad Nacional Autonoma de Mexico, Cd. Universitaria, Copilco Coyoacan, A. P. 70-233, C. P. 04510., D. F., Mexico

(3) Coleccion Nacional de Insectos, Instituto de Biologia, Universidad Nacional Autonoma de Mexico, 3er. circuito exterior s/n, Cd. Universitaria, Copilco Coyoacan, A. P. 70-233, C. P. 04510., D. F., Mexico

(4) Grupo de Ecologia y Conservation de Islas (GECI), Ensenada, Mexico

* Corresponding author; E-mail: mparis@mncn.csic.es
COPYRIGHT 2011 Florida Entomological Society
No portion of this article can be reproduced without the express written permission from the copyright holder.
Copyright 2011 Gale, Cengage Learning. All rights reserved.

Article Details
Printer friendly Cite/link Email Feedback
Title Annotation:Scientific Notes
Author:Pavon-Gozalo, Pilar; Mila, Borja; Aleixandre, Pau; Calderon, Jatziri A.; Zaldivar-Riveron, Alejandro
Publication:Florida Entomologist
Article Type:Report
Geographic Code:1MEX
Date:Dec 1, 2011
Words:1574
Previous Article:Correlation of an electrical penetration graph waveform with walking by Asian citrus psyllid, Diaphorina citri (Hemiptera: Psyllidae).
Next Article:Daily activity of Scyphophorus acupunctatus (Coleoptera: Curculionidae) monitored with pheromone-baited traps in a field of Mexican tuberose.
Topics:

Terms of use | Privacy policy | Copyright © 2020 Farlex, Inc. | Feedback | For webmasters