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Diversity patterns of necrocolous beetles (Coleoptera: Scarabaeidae, Silphidae, Trogidae) in Agave tequilana Weber (Asparagaceae) fields of different ages

Published online by Cambridge University Press:  27 June 2019

William D. Rodríguez*
Affiliation:
Departamento de Botánica y Zoología. Centro Universitario de Ciencias Biológicas y Agropecuarias, Universidad de Guadalajara Camino Ramón Padilla Sánchez 2100, Las Agujas, 45220 Zapopan, Jalisco, Mexico
José L. Navarrete-Heredia
Affiliation:
Departamento de Botánica y Zoología. Centro Universitario de Ciencias Biológicas y Agropecuarias, Universidad de Guadalajara Camino Ramón Padilla Sánchez 2100, Las Agujas, 45220 Zapopan, Jalisco, Mexico
Ramón Rodríguez-Macías
Affiliation:
Departamento de Botánica y Zoología. Centro Universitario de Ciencias Biológicas y Agropecuarias, Universidad de Guadalajara Camino Ramón Padilla Sánchez 2100, Las Agujas, 45220 Zapopan, Jalisco, Mexico
Guillermo A. Briceño-Félix
Affiliation:
Consejo Regulador del Tequila A.C. Avenida Patria 723, Jardines de Guadalupe, 45030 Zapopan, Jalisco, Mexico
Miguel Vásquez-Bolaños
Affiliation:
Departamento de Botánica y Zoología. Centro Universitario de Ciencias Biológicas y Agropecuarias, Universidad de Guadalajara Camino Ramón Padilla Sánchez 2100, Las Agujas, 45220 Zapopan, Jalisco, Mexico
Jan Klimaszewski
Affiliation:
Natural Resources Canada, Canadian Forest Service, Laurentian Forestry Centre, 1055 du P.E.P.S., P.O. Box 10380, Station Sainte-Foy, Québec, Québec, G1V 4C7, Canada
*
1Corresponding author (e-mail: [email protected])

Abstract

The necrocolous Coleoptera (attracted to carrion) are important to maintain balance in insect communities and in the recycling of soil nutrients; however, there is scarce data on the species that occur in Agave tequilana Weber (Asparagaceae) fields. The diversity patterns of beetles (Coleoptera: Scarabaeidae, Silphidae, and Trogidae) dwelling in 2–4-year-old A. tequilana plots were established by sampling specimens from May to November 2016. In total, 5509 individuals of 23 species were collected. The highest species diversity was found in Magdalena Municipality, followed by the Arandas and Tequila municipalities (Jalisco, Mexico), with significant differences in abundance among municipalities and crop age. The variability in Magdalena and Tequila assemblages was associated with the temperature, while in Arandas it was attributed to the precipitation. The beetle species diversity, species replacement, and dominance in different municipalities are the result of changes in habitat, the interaction of environmental variables, distribution affinities of species, and agronomic practices in A. tequilana fields.

Type
Behaviour and Ecology
Copyright
© Entomological Society of Canada 2019 

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Footnotes

Subject editor: Andrew Smith

References

Aguirre, A., Guevara, R., García, M., and López, J.C. 2010. Fate of epiphytes on phorophytes with different architectural characteristics along the perturbation gradient of Sabal mexicana forests in Veracruz, Mexico. Journal of Vegetation Science, 21: 615.CrossRefGoogle Scholar
Anderson, M.J. and Willis, T.J. 2003. Canonical analysis of principal coordinates: an ecologically meaningful approach for constrained ordination. Ecology, 84: 511525.CrossRefGoogle Scholar
Arriaga, A., Halffter, G., and Moreno, C.E. 2012. Biogeographical affinities and species richness of copronecrophagous beetles (Scarabaeoidea) in the southeastern Mexican High Plateau. Revista Mexicana de Biodiversidad, 83: 519529.Google Scholar
Arriaga-Jiménez, A., Rös, M., and Halffter, G. 2018. High variability of dung beetle diversity patterns at four mountains of the Trans-Mexican Volcanic Belt. PeerJ, 6: e4468. https://doi.org/10.7717/peerj.4468.CrossRefGoogle ScholarPubMed
Barragán, F., Moreno, C.E., Escobar, F., Bueno-Villegas, J., and Halffter, G. 2014. The impact of grazing on dung beetle diversity depends on both biogeographical and ecological context. Journal of Biogeography, 41: 19912002CrossRefGoogle Scholar
Baselga, A. 2010. Partitioning the turnover and nestedness components of beta diversity. Global Ecology Biogeography, 19: 134143.CrossRefGoogle Scholar
Baselga, A. and Orme, C.D.L. 2012. Betapart: an R package for the study of beta diversity. Methods Ecology Evolution, 3: 808812.CrossRefGoogle Scholar
Ceballos, G. and Oliva, G. 2005. Los mamíferos silvestres de México/Coord. Comisión Nacional para el Conocimiento y Uso de la Biodiversidad. Fondo de Cultura Económica, Mexico City, Mexico.Google Scholar
Chao, A., Gotelli, N.J., Hsieh, T.C., Elizabeth, L.S., Ma, K.H., Colwell, R.K., and Ellison, A.M. 2014. Rarefaction and extrapolation with Hill numbers: a framework for sampling and estimation in species diversity studies. Ecology Monographs, 84: 4567.CrossRefGoogle Scholar
Curiel, A. and Garibay, G. 2017. Amenaza de la biodiversidad. In La biodiversidad en Jalisco. Estudio de Estado Volumen I. Edited by Cruz, A., Ordorica, A., Valero, J., and Melgarejo, E.. Comisión Nacional para el Conocimiento y Uso de la Biodiversidad, Secretaría de Medio Ambiente y Desarrollo Territorial, Guadalajara, Mexico. Pp. 251262.Google Scholar
Deloya, C. 2005. Omorgus rodriguezae especie nueva de México y clave para separar las especies del género para Centro y Norteamérica (Coleoptera: Trogidae). Folia Entomológica Mexicana, 44: 121129.Google Scholar
Diario Oficial de la Federación de los Estados Unidos Mexicanos. 1977. Declaración general de protección a la denominación de origen “tequila”. La Secretaría de Patrimonio y Fomento Industrial, Mexico City, Mexico.Google Scholar
Edmonds, W.D. 1994. Revision of Phanaeus Macleay, a New World genus of scarabaeine dung beetles (Coleoptera: Scarabaeidae, Scarabaeinae). Contributions In Science (Los Angeles), 443: 1105.Google Scholar
Edmonds, W.D. and Zídek, J. 2010. A taxonomic review of the Neotropical genus Coprophanaeus Olsoufieff, 1924 (Coleoptera: Scarabaeidae, Scarabaeinae). Insecta Mundi, 129: 1111.Google Scholar
Edmonds, W.D. and Zídek, J. 2012. Taxonomy of Phanaeus revisited: revised keys to and comments on species of the New World dung beetle genus Phanaeus MacLeay, 1819 (Coleoptera: Scarabaeidae: Scarabaeinae: Phanaeini). Insecta Mundi, 784: 1108.Google Scholar
Escobar, F. and Chacón de Ulloa, P. 2000. Distribución espacial y temporal en un gradiente altitudinal de sucesión de la fauna de coleópteros (Scarabaeinae, Aphodiinae) en un bosque tropical montano, Nariño-Colombia. Revista de Biología Tropical, 48: 961975.Google Scholar
Escobar, F., Lobo, J.M., and Halffter, G. 2006. Assessing the origin of Neotropical mountain dung beetle assemblages (Scarabaeidae: Scarabaeinae): the comparative influence of vertical and horizontal colonization. Journal of Biogeography, 33: 17931803.CrossRefGoogle Scholar
Estrada, A. and Coates-Estrada, R. 2002. Dung beetles in continuous forest, forest fragments and in an agricultural mosaic habitat island at Los Tuxtlas, Mexico. Biodiversity and Conservation, 11: 19031918.CrossRefGoogle Scholar
Favila, M.E. and Halffter, G. 1997. The use of indicator groups for measuring biodiversity as related to community structure and function. Acta Zoológica Mexicana, 72: 125.Google Scholar
Génier, F. 2012. A new species and notes on the subgenus Deltochilum (Deltochilum) Eschscholtz, 1822 (Coleoptera: Scarabaeidae: Scarabaeinae: Deltochilini). Zootaxa, 3357: 2536.CrossRefGoogle Scholar
Gómez-Tuena, A., Orozco-Esquivel, T.M., and Ferrari, L. 2005. Petrogénesis ígnea de la Faja Volcánica Transmexicana. Boletín de la Sociedad Geológica Mexicana, 57: 227283.CrossRefGoogle Scholar
González, H.H., Solís, A.J.F., Pacheco, S.C., Flores, M.F., Rubio, C.R., and Rojas, L.J. 2007. Insectos barrenadores del agave tequilero. In Manejo de plagas del agave tequilero. Edited by González, H., Del Real, J.I., and Solís, J.F.. Colegio de Postgraduados y Tequila Sauza Sociedad Anónima de Capital Variable, Zapopan, Jalisco, Mexico. Pp. 3967.Google Scholar
González-Alvarado, A. and Vaz-de-Mello, F.Z. 2014. Taxonomic review of the subgenus Hybomidium Shipp 1897 (Coleoptera: Scarabaeidae: Scarabaeinae: Deltochilum). Annales de la Société Entomologique de France, 50: 431476.CrossRefGoogle Scholar
Halffter, G. 1957. Plagas que afectan a las distintas especies de agave cultivadas en México. Secretaria de Agricultura y Ganadería. Dirección General de Defensa Agrícola. Editora Agrícola Mexicana, Mexico City, Mexico.Google Scholar
Halffter, G. 1961. Monografía de las especies norteamericanas del género Canthon Hoffsg. (Coleopt., Scarab.). Ciencia, 20: 225320.Google Scholar
Halffter, G. 1987. Biogeography of the montane entomofauna of Mexico and Central America. Annual Review of Entomology 32: 95114.CrossRefGoogle Scholar
Halffter, G. and Edmonds, W.D. 1982. The nesting behaviour of dung beetles (Scarabaeinae). Instituto de Ecología, Mexico City, Mexico.Google Scholar
Halffter, G., Favila, M.E., and Halffter, V. 1992. A comparative study of the structure of the scarab guild in Mexican tropical rain forest and derived ecosystems. Folia Entomológica Mexicana, 84: 131156.Google Scholar
Halffter, G. and Halffter, V. 2009. Why and where coprophagous beetles (Coleoptera: Scarabaeinae) eat seeds, fruits or vegetable detritus. Boletín de la Sociedad Entomológica Aragonesa, 45: 122.Google Scholar
Halffter, G. and Morrone, J.J. 2017. An analytical review of Halffter’s Mexican transition zone, and its relevance for evolutionary biogeography, ecology and biogeographical regionalization. Zootaxa, 4226: 146.CrossRefGoogle ScholarPubMed
Hernández, B. and Navarrete-Heredia, J.L. 2018. Annotated checklist and biogeographical affinities of Scarabaeinae beetles from Los Altos de Jalisco Region, Mexico. Southwestern Entomologist, 43: 131149.CrossRefGoogle Scholar
Howden, H.F. and Cartwright, O.L. 1963. Scarab beetles of the genus Onthophagus Latreille north of Mexico (Coleoptera: Scarabaeidae). Proceedings of the United States National Museum, 114: 1135.CrossRefGoogle Scholar
Howden, H.F. and Génier, F. 2004. Seven new species of Onthophagus Latreille from Mexico and the United States (Coleoptera: Scarabaeidae, Scarabaeinae). Fabreries, 29: 5376.Google Scholar
Hsieh, T.C., Ma, K.H., and Chao, A. 2013. iNEXT, version 1.3.0 [online]. Available from http://chao.stat.nthu.edu.tw/wordpress/software_download/inext-online [accessed 6 April 2018].Google Scholar
Instituto Nacional de Estadística y Geografía. 1997. El agave tequilero en el Estado de Jalisco. Instituto Nacional de Estadística, Geografía e Informática, Aguascalientes, Mexico.Google Scholar
Jardel, E.J., Santana, E., Graf, S., Hernández, L., Valencia, C., González, R., and Meiners, M. 2017. Conservación y restauración. In La biodiversidad en Jalisco. Estudio de Estado, volumen I. Edited by Cruz, A., Ordorica, A., Valero, J., and Melgarejo, E.. Comisión Nacional para el Conocimiento y Uso de la Biodiversidad y Secretaría de Medio Ambiente y Desarrollo Territorial, Guadalajara, Mexico. Pp. 251262.Google Scholar
Kohlmann, B. and Solís, A. 1997. El género Dichotomius (Coleoptera: Scarabaeidae) en Costa Rica. Giornale Italiano di Entomologia, 8: 343382.Google Scholar
Kohlmann, B. and Solís, A. 2006. El género Canthidium (Coleoptera: Scarabaeidae) en Norteamérica. Giornale Italiano di Entomologia, 11: 235295.Google Scholar
Lobo, J.M. and Halffter, G. 2000. Biogeographical and ecological factors affecting the altitudinal variation of mountainous communities of coprophagous beetles (Coleoptera: Scarabaeoidea): a comparative study. Annals of the Entomological Society of America, 93: 115126.CrossRefGoogle Scholar
López-Guerrero, I. 2005. Los Dichotomius (Coleoptera: Scarabaeidae, Dichotomiini) de la fauna de México. Boletín de la Sociedad Entomológica Aragonesa, 36: 195209.Google Scholar
Lugo-García, G.A., Ortega-Arenas, L.D., González-Hernández, H., Aragón-García, A., Romero-Nápoles, J., Rubio-Cortés, R., and Morón, M.-Á. 2011. Melolonthidae nocturnos (Coleoptera) recolectados en la zona agrícola agavera de Jalisco, México. Acta Zoológica Mexicana (n. s.), 27: 341357.CrossRefGoogle Scholar
Moctezuma, V., Halffter, G., and Escobar, F. 2016. Response of copronecrophagous beetle communities to habitat disturbance in two mountains of the Mexican Transition Zone: influence of historical and ecological factors. Journal of Insect Conservation, 20: 945956.CrossRefGoogle Scholar
Morón, M.-A. 1987. The necrophagous Scarabaeinae beetles (Coleoptera: Scarabaeidae) from a coffee plantationin in Chiapas, Mexico: habits and phenology. The Coleopterists Bulletin, 41: 225232.Google Scholar
Morón, M.-A. 2003. Atlas de los escarabajos de México. Coleoptera Lamellicornia. Volumen II. Familias Scarabaeidae, Trogidae, Passalidae y Lucanidae. Argania editio, Barcelona, Spain.Google Scholar
Naranjo-López, A.G. and Navarrete-Heredia, J.L. 2011. Coleópteros necrócolos (Histeridae, Silphidae y Scarabaeidae) en dos localidades de Gómez Farías, Jalisco, México. Revista Colombiana de Entomología, 37: 103110.Google Scholar
Navarrete-Heredia, J.L. 2009. Silphidae (Coleoptera) de México. Diversidad y distribución. Universidad de Guadalajara, Guadalajara, Mexico.Google Scholar
Nichols, E., Larsen, T., Spector, S., Davis, A.L., Escobar, F., Favila, M., et al. 2007. Global dung beetle response to tropical forest modification and fragmentation: a quantitative literature review and metaanalysis. Biological Conservation, 137: 119.CrossRefGoogle Scholar
Nichols, E., Spector, S., Louzada, J., Larsen, T., Amezquita, S., Favila, M.E., et al. 2008. Ecological functions and ecosystem services provided by Scarabaeinae dung beetles. Biological Conservation, 141: 14611474.CrossRefGoogle Scholar
Oksanen, J., Guillaume Blanchet, F.K., Roeland, L., Pierre, R., O’Hara, P., Gavin, R.B., et al. 2015. Vegan: community ecology package. R package version 2.0-7. Available from = http://CRAN.R-project.org/package%20=%20vegan [accessed 10 April 2018].Google Scholar
Peraza, L.N. and Deloya, C. 2006. Una nueva especie mexicana de Dichotomius Hope (Coleoptera: Scarabaeidae) y clave para la identificación de las especies del grupo carolinus. Neotropical Entomology, 35: 629631.CrossRefGoogle Scholar
R Core Team. 2013. R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Available from www.R-project.org [accessed 6 May 2018].Google Scholar
Rivera-Cervantes, L.E. and Halffter, G. 1999. Monografía de las especies mexicanas de Canthon del subgénero Glaphyrocanthon (Coleoptera: Scarabaeidae: Scarabaeinae). Acta Zoológica Mexicana, 77: 23150.Google Scholar
Rodríguez, W.D. and Navarrete-Heredia, J.L. 2014. Modificación de la necrotrampa permanente (NTP 80) para la recolecta de estafilínidos necrócolos (Coleoptera: Staphylinidae) y aspectos metodológicos para estudios sistemáticos. Boletín de la Sociedad Entomológica Aragonesa, 55: 147152.Google Scholar
Rosales, J.J., Cevallos, J., Olvera, M., and Figueroa, B. 2017. Agroecosistemas. In La biodiversidad en Jalisco. Estudio de Estado I volumen. Edited by Cruz, A., Ordorica, A., Valero, J., and Melgarejo, E.. Comisión Nacional para el Conocimiento y Uso de la Biodiversidad, Mexico City, Mexico. Pp. 203212.Google Scholar
Ruíz Corral, J.A. 2007. Requerimientos agroecológicos y potencial productivo del agave Agave tequilana Weber en México. In Conocimiento y prácticas agronómicas para la producción de Agave tequilana Weber en la zona de denominación de origen del tequila. Edited by Rulfo, F.O., Pérez, J.F., Real, J.I., and Byerly, K.F.. Instituto Nacional de Investigaciones Forestales, Agrícolas y Pecuarias, Centro de Investigación Regional Pacífico Centro, Tepatitlán de Morelos, Mexico. Pp. 1136.Google Scholar
Ruíz Corral, J.A. 2018. Sistema de información agroclimático para México-Centroamérica. Revista Mexicana de Ciencia Agrícola, 9: 110.CrossRefGoogle Scholar
Secretaría de Agricultura, Ganadería, Desarrollo Rural, Pesca y Alimentación. 2017. Agave tequilero y mezcalero mexicano. Planeación agrícola nacional 2017–2030. Primera edición [online]. Secretaría de Agricultura, Ganadería, Desarrollo Rural, Pesca y Alimentación, Mexico City, Mexico. Available from www.gob.mx/cms/uploads/attachment/file/257066/Potencial-Agave_Tequilero_y_Mezcalero.pdf [accessed 13 February 2018].Google Scholar
Stackhouse, P.W., Westberg, D., Hoell, J., Chandler, W., and Zhang, T. 2015. Prediction of worldwide energy resource (POWER) climatology resource for agroclimatology (1.0° Latitude by 1.0° Longitude Spatial Resolution). Available from http://power.larc.nasa.gov [accessed 15 November 2016].Google Scholar
Trujillo-Miranda, A.L., Carrillo-Ruiz, H., Rivas-Arancibia, S.P., and Andrés-Hernández, A. 2016. Estructura y composición de la comunidad de escarabajos (Coleoptera: Scarabaeoidea) en el cerro Chacateca, Zapotitlán, Puebla, México. Revista Mexicana de Biodiversidad, 87: 109122.CrossRefGoogle Scholar
Vaurie, P. 1955. A revision of the genus Trox in North America (Coleoptera: Scarabaeidae). Bulletin of the American Museum of Natural History, 106: 189.Google Scholar
Vaz-de-Mello, F.Z., Edmonds, W.D., Ocampo, F.C., and Schoolmeesters, P. 2011. A multilingual key to the genera and subgenera of the subfamily Scarabaeinae of the New World (Coleoptera: Scarabaeidae). Zootaxa, 2854: 173.CrossRefGoogle Scholar
Whittaker, R.H. 1965. Dominance and diversity in land plant communities: numerical relations of species express the importance of competition in community function and evolution. Science, 147: 250260.CrossRefGoogle ScholarPubMed
Zunino, M. and Halffter, G. 1997. Sobre Onthophagus Latreille, 1802 americanos (Coleoptera: Scarabaeidae: Scarabaeinae). Elytron, 11: 157178.Google Scholar