Metal Acquisition in the Weaponized Ovipositors of Aculeate Hymenoptera

Metal Acquisition in the Weaponized Ovipositors of Aculeate Hymenoptera

Zoomorphology https://doi.org/10.1007/s00435-018-0403-1 ORIGINAL PAPER Harden up: metal acquisition in the weaponized ovipositors of aculeate hymenoptera Kate Baumann1 · Edward P. Vicenzi2 · Thomas Lam2 · Janet Douglas2 · Kevin Arbuckle3 · Bronwen Cribb4,5 · Seán G. Brady6 · Bryan G. Fry1 Received: 17 October 2017 / Revised: 12 March 2018 / Accepted: 17 March 2018 © Springer-Verlag GmbH Germany, part of Springer Nature 2018 Abstract The use of metal ions to harden the tips and edges of ovipositors is known to occur in many hymenopteran species. However, species using the ovipositor for delivery of venom, which occurs in the aculeate hymenoptera (stinging wasps, ants, and bees) remains uninvestigated. In this study, scanning electron microscopy coupled with energy-dispersive X-ray analysis was used to investigate the morphology and metal compositional differences among aculeate aculei. We show that aculeate aculei have a wide diversity of morphological adaptations relating to their lifestyle. We also demonstrate that metals are present in the aculei of all families of aculeate studied. The presence of metals is non-uniform and concentrated in the distal region of the stinger, especially along the longitudinal edges. This study is the first comparative investigation to document metal accumulation in aculeate aculei. Keywords Scanning electron microscopy · Energy-dispersive X-ray spectroscopy · EDS · Aculeata · Aculeus · Cuticle · Metal accumulation Introduction with the most severe responses (as perceived by humans) delivered by taxa including bullet ants (Paraponera), taran- Aculeata (ants, bees, and stinging wasps) are the most con- tula hawk wasps (Pepsis), and armadillo wasps (Synoeca) spicuous of the hymenopteran insects, and are known pre- (Schmidt 2016). Uniquely among venomous animals, the dominantly for the capacity to inflict a painful sting (Piek venom apparatus of aculeates is evolutionarily derived from 1986). Different groups inflict varying amount of pain, the female’s ovipositor (Robertson 1968). The weaponisa- tion of the ovipositor is associated with the evolution of stinging aculeates diverging from parasitic wasps and may * Seán G. Brady [email protected] have helped drive the enormous radiation of aculeates (Bran- stetter et al. 2017). * Bryan G. Fry [email protected] The ovipositors of parasitic hymenopterans are subject to considerable abrasion and need to be both hard and wear 1 Venom Evolution Lab, School of Biological Sciences, resistant, especially in groups that must repeatedly drill University of Queensland, St Lucia, QLD 4072, Australia through wood or other dense substrates concealing their 2 Museum Conservation Institute, Smithsonian Institution, hosts. Many parasitoids can also flex their ovipositors as Suitland, MD 20746, USA they navigate this structure through the substrate to locate 3 Department of Biosciences, College of Science, Swansea their hidden hosts (Quicke 2014). Research has shown that University, Swansea SA2 8PP, UK parasitic ovipositors are enriched with transition metals 4 Centre for Microscopy and Microanalysis, The University such as zinc and manganese, which are hypothesised to of Queensland, St Lucia, QLD 4072, Australia affect the mechanical properties of the cuticle (Kundanati 5 School of Biological Sciences, University of Queensland, and Gundiah 2014; Quicke 1998). In contrast, aculeate St Lucia, QLD 4072, Australia aculei are not required to drill through a hard substrate 6 Department of Entomology, National Museum of Natural and thus do not have these same requirements for abrasion History, Smithsonian Institution, Washington, DC 20560, and wear-resistance. This dichotomy between the use of USA Vol.:(0123456789)1 3 Zoomorphology the ovipositor in parasitic hymenopterans and the aculeus Energy dispersive X‑ray analysis (EDS) in aculeates suggests that a metal compositional difference may not be unexpected. Scanning electron microscopy was performed using the The aculeate aculeus is primarily used for the injec- Hitachi S3700-N scanning electron microscope (SEM) in tion of venom. Aculeates can be divided into social and high vacuum mode. Energy-dispersive X-ray spectrometry solitary groups and the functions of venoms in each group (EDS) was performed using a Bruker XFlash 4010 sili- are different. Solitary aculeates envenomate their prey to con drift detector using Esprit v1.9.4 software by Bruker. paralyse and preserve it, whereas social aculeates often use Samples were imaged and analysed using a beam energy of the aculeus to defend their colonies from vertebrate preda- 20 keV at approximately 10 mm working distance. Areas tors (Starr 1985, 1989), while at the same time retain- of interest were first imaged, and then regions of interest ing some offensive capabilities (Fisher 1993). Although were selected for EDS analysis. No suitable metal-bearing the importance of the aculeus in driving social evolution carbon-rich standard is currently available to match the within aculeates has been questioned by some (e.g., Kukuk material being assessed, hence, an interactive standardless et al. 1989), this difference in function between solitary peak-background (P/B) ZAF matrix correction was used and social groups does suggest that the aculeus morphol- to estimate compositions within the Esprit software. The ogy and metal content may also differ in these taxa in a P/B ZAF correction routine is well suited to this study phylogenetic context. Hence, documenting these patterns given its ability to measure the composition of non-flat using comparative methods can provide the phylogenetic specimen geometry. context for assessing the role of the aculeus in insect social Hyperspectral X-ray mapping was applied to investigate evolution. the distribution of the transition metals present. Acquisi- The primary aim of our study was to investigate the mor- tion conditions for elemental imaging were 15 keV, 10 mm phological adaptations of aculeate aculei and secondly to working distance, and 25° tilt towards the EDS detector determine if there are any metals present in the aculei of acu- to increase the take-off angle from 35 to 60°. Specimens leates. Here, using a comparative approach, we used a scan- tilted in this fashion suffer a reduced nitrogen absorption ning electron microscope (SEM) with an energy-dispersive by carbon, for example, owing to a shortened path length X-ray (EDS) detector to characterize the morphology and within the aculeus. Specimen tilting toward the detector composition of the aculeate aculeus for the first time. This additionally reduces shadowing effects from the three- research is the first step to understand the evolution of these dimensional aculeus (Goldstein et al. 1992). X-ray images understudied insect venom systems and how they impact the extracted from the hyperspectral datasets are presented as evolution and ecology of aculeates. net count maps, with background counts and adjacent peak contributions removed. Materials and methods Phylogenetic comparative analyses Sample preparation A phylogeny was assembled using inferred evolutionary relationships within various taxa from previous studies One specimen of each species in Table 1 was investigated. In (Arévalo et al. 2004; Ascher et al. 2001; Borowiec et al. species with negative findings regarding metal composition, 2017; Brady et al. 2006; Branstetter et al. 2017; Cameron further specimens were analysed to provide confirmation. et al. 2007; Cardinal et al. 2011; Hasegawa and Crozier The studied species were selected to provide detailed sam- 2006; Lopez-Osorio et al. 2014; Perrard et al. 2013; San- pling within several major groups of Aculeata including ants tos et al. 2015; Schmidt 2013; Schmitz and Moritz 1998; (Formicidae), apid bees (Apidae), vespid wasps (Vespidae), Willis et al. 1992; Wilson et al. 2012) and was used for and several other aculeate lineages. Species were selected to all further analyses conducted in R v3.2.5 (R-Core-Team match those used in ongoing study on venom composition 2011) using the ape package (Paradis et al. 2004) for gen- within aculeates to allow comparisons between ovipositor eral handling of phylogenetic and trait data. Ancestral size and venom profiles. All specimens are vouchered at states were estimated and reconstructed over the tree to the Smithsonian National Museum of Museum of Natural investigate the evolutionary history of the traits and conse- History, Washington DC; voucher codes are provided in quently their relation to one another over time. To provide Table 1. The aculei were excised from the abdomen and a comparative estimate of the barbs present on the aculeus, washed in 80% ethanol. Samples were allowed to air dry the ratio of the height of the barb relative to the base of and then adhered on a conductive double-sided (adhesive) the barb was calculated. This calculation corrected for any carbon tape and carbon coated. 1 3 Zoomorphology Table 1 Presence of metals in Sociality Family Species Voucher code Fe Cu Mn Zn Ti the aculei Social Apidae Apis mellifera USNMENT 01111826 1 1 1 – – Apidae Apis cerana USNMENT 01110537 1 – – – – Apidae Apis dorsata USNMENT 01080706 2 – 1 – – Apidae Apis florea USNMENT 01111300 2 – – – 1 Apidae Bombus impatiens USNMENT 01000423 – – 1 – 1 Apidae Bombus huntii USNMENT 01003891 – – 1 – – Apidae Bombus sonorus USNMENT 01033975 3 – 2 – 1 Solitary Apidae Centris rhodipus USNMENT 01248229 – – 1 – 1 Apidae Diadasia rinconis USNMENT 01248238 2 – 1 – 1 Apidae Peponapis pruinosa USNMENT 01248231 1 – 1 – – Apidae Xylocopa rufa USNMENT

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