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Pollen Diets of Two Sibling Orchid Bee Species, Euglossa, in Yucatán, Southern Mexico Rogel Villanueva-Gutierrez, Javier Quezada-Euan, Thomas Eltz

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Pollen Diets of Two Sibling Orchid Bee Species, Euglossa, in Yucatán, Southern Mexico Rogel Villanueva-Gutierrez, Javier Quezada-Euan, Thomas Eltz Pollen diets of two sibling orchid bee species, Euglossa, in Yucatán, southern Mexico Rogel Villanueva-Gutierrez, Javier Quezada-Euan, Thomas Eltz To cite this version: Rogel Villanueva-Gutierrez, Javier Quezada-Euan, Thomas Eltz. Pollen diets of two sibling orchid bee species, Euglossa, in Yucatán, southern Mexico. Apidologie, Springer Verlag, 2013, 44 (4), pp.440-446. 10.1007/s13592-013-0194-9. hal-01201313 HAL Id: hal-01201313 https://hal.archives-ouvertes.fr/hal-01201313 Submitted on 17 Sep 2015 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Apidologie (2013) 44:440–446 Original article * INRA, DIB and Springer-Verlag France, 2013 DOI: 10.1007/s13592-013-0194-9 Pollen diets of two sibling orchid bee species, Euglossa, in Yucatán, southern Mexico 1 2 3 Rogel VILLANUEVA-GUTIERREZ , Javier QUEZADA-EUAN , Thomas ELTZ 1El Colegio de la Frontera Sur, Ave. Centenario km 5.5, 77900 Chetumal, Quintana Roo, Mexico 2Departamento de Apicultura, Campus Ciencias Biológicas y Agropecuarias, Universidad Autónoma de Yucatán, Xmatkuil, Mexico 3Department of Animal Ecology, Evolution and Biodiversity, Ruhr-Universität Bochum, Universitätsstraße 150, 44780 Bochum, Germany Received 17 September 2012 – Revised 28 December 2012 – Accepted 9 January 2013 Abstract – We investigated pollen diets of Euglossa viridissima Friese and its recently described sibling species, Euglossa dilemma Bembé & Eltz, in a degraded dry forest locality near Merida, Yucatán, Mexico. Pollen samples were obtained from nests collected in the rainy season of three consecutive years (2006–2008). Solanum sp. (Solanaceae), Physalis sp. (Solanaceae), Ocimum sp., Ocimum micranthum (both Lamiaceae), and Senna sp. (Fabaceae) were the dominant taxa, accounting for 88 % of pollen volume across species. Other important pollen taxa were Croton spp. (Euphorbiaceae), Ipomoea sp. (Convolvulaceae), Solanum torvum, Vigna sp. (Fabaceae), Sida sp. (Malvaceae), and Randia aculeata (Rubiaceae). The predominantly buzz- pollinated family Solanaceae alone represented more than 77 % of total pollen volume. Multivariate analysis revealed significant effects of year but not of bee species on nest pollen composition. We conclude that pollen resources overlap substantially among these sibling species, with resource partitioning apparently absent or confined to periods of severe pollen scarcity. pollen provisions / resource partitioning / floral resource competition / acetolysis / pollen analysis 1. INTRODUCTION Roubik and Villanueva-Gutierrez (2009) com- pared the quantitative pollen diets and foraging Pollen is the proteinaceous larval food of patterns of European apiary bees and natural- bees, and competition for pollen resources is ized Africanized honey bees, and two native believed to be important in structuring bee solitary bees, in Sian Ka’an, a large biosphere communities both in temperate and tropical reserve in the Yucatán peninsula. It was sug- habitats. For instance, in tropical (social) sting- gested that the invasive Africanized bees made less bees, competition for pollen and other floral resident generalist bees (apiary Apis mellifera resources has resulted in a range of different and native solitary bees) expand their diet foraging and recruitment strategies and, as a breadth at the population level, while at the consequence, resource partitioning (Hubbell and same time increasing their degree of specializa- Johnson 1978; Eltz et al. 2001a, b). However, tion. This latter study is one of the few studies there are only few studies that show competitive on pollen diets of tropical solitary bees, pre- effects with regard to pollen. For example, sumably because nests are exceedingly difficult to find. Orchid bees (Euglossini) are generally Corresponding author: T. Eltz, no exception in this respect, but some species [email protected] can be made to nest in artificial cavities like Manuscript editor: Klaus Hartfelder bamboo internodes or small wooden boxes Pollen diets of two sibling orchid bee species 441 placed at appropriate sites (Garofalo et al. 1993; result as a consequence of differences in olfactory Augusto and Garofalo 2004; Cocom Pech et al. make-up evolved to mediate differential volatile 2008). These species can be studied in detail, collection in males (see Eltz et al. 2008). To including their pollen utilization spectra. investigate floral resource partitioning, we micro- Orchid bees are solitary to primitively social scopically analyzed pollen from nests of the two bees of neotropical forests (Dressler 1982; species collected at the same locality and during Roubik and Hanson 2004), which are best the same 3 years. known for the peculiar volatile collecting behavior of males (Vogel 1966). Male orchid bees visit odoriferous substrates like flowers, 2. MATERIALS AND METHODS leaves of aromatic plants, fungus-infected leaves and logs, rotting fruits etc., and harvest 2.1. The Yucatán Peninsula: climate, the odors to put together blends of “perfumes” vegetation, and bees (Whitten et al. 1993; Ramírez et al. 2002; Pemberton and Wheeler 2006; Eltz et al. According to the classification of Köppen (1936), 2007). These perfumes are later exposed by the type of climate that exists in the Yucatán the males at mating sites, and believed to Peninsula is Aw, which is defined as hot subhumid, function as pheromone analogs in courtship with a mean annual temperature over 22 °C and an (Eltz et al. 2005). The male perfumes are annual precipitation between 700 and 1,500 mm, with species-specific in chemical composition rainfall during the summer season. According to the (Zimmermann et al. 2009a), and perfume precipitation, we can divide the year into two periods, analysis has helped in the discovery of cryptic the wet season (June to November) and the dry species. Based on chemical and molecular data, season (December to May). This classification is very it has been established that Euglossa viridis- useful in understanding the phenology of flowering sima, a common metallic green bee in Mexico plants and foraging choices of bees. and northern Central America, actually consists The most common types of vegetation in the of two species occurring sympatrically over Yucatán Peninsula are low deciduous forest, medium- much of the range (Eltz et al. 2011). The second stature semideciduous forest, low-stature semidecid- lineage has recently been described as Euglossa uous forest, mangrove, low-stature flooded forest that dilemma Bembé & Eltz, and the Euglossa that floods during the wet season, and secondary vegeta- has become naturalized in Florida, USA, is E. tion in different successional stages (Miranda 1958; dilemma (Eltz et al. 2011). Durán and Olmsted 1999). The flora, the vegetation, Because males of E. viridissima and E. and the climate are similar throughout the Yucatán dilemma differ in the range of volatiles they Peninsula. In the study area near Merida (see below), harvest from their environment, i.e., exhibit there was a secondary vegetation derived from a low “odor resource partitioning”, we hypothesized deciduous forest. that females may also differ in their floral Ninety native bee species were registered for the resources used. Generally, all euglossines are Biosphere Reserve of Sian Ka´an, Quintana Roo, but believed to be polylectic, i.e., each species uses as many as twice this number may occur in the pollen from a range of different host plant species Yucatán Peninsula (Roubik et al. 1990; Roubik et al. (Ramírez Arriaga and Martínez Hernandez 1998; 2011; Ayala and Griswold 1988). Roubik and Hanson 2004; Silva et al. 2012; Rocha Filho et al. 2012). However, spectra of host 2.2. Sampling plants might not completely overlap in the two species due to ecological character displacement Nests of Euglossa were obtained by placing altering habitat use or stratum preferences, wooden boxes (10×3×6 cm) around buildings at spatial foraging patterns or visual preferences. the campus of the Universidad Autónoma de Yucatán Furthermore, floral resource partitioning could in Xmatkuil, Mexico (20.52°N, 87.37°W). Boxes 442 R. Villanueva-Gutierrez et al. were replaced with new ones on occasion, e.g., when identification of pollen types. It is deposited in the they became moldy, and numbers of boxes varied to herbarium of El Colegio de la Frontera Sur, Chetumal. some extent over time, but generally there were about Also, the atlas of Palacios-Chávez et al. (1991)onthe 20–40 nest boxes present at any time during the three pollen of the Biosphere Reserve of Sian Ka'an was a study years. Nearing the end of the rainy season, very useful reference. between October 10 and November 3 in each of the Counts per pollen type were transformed into years 2006, 2007, and 2008, the nests were collected volumes per pollen type for each sample by using the if the boxes were populated with at least five brood formulas applied by Villanueva-Gutiérrez and Roubik cells. These were most likely provisioned during the (2004). For numerical analysis, we standardized vol- 4–8 weeks prior to collecting (i.e., in the early to umes by
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