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Micaela Buteler
INIBIOMA, CONICET-Universidad Nacional del Comahue, Bariloche, Argentina

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Original article
Published: 14 July 2021 in Apidologie
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Social wasps are important predators of honeybees, attacking hives to steal honey, pollen, larvae, and adults. Wasps of the genus Vespula are considered agricultural pests in many invaded areas, but their impact on Apis mellifera in these areas is poorly understood. Here, we studied agonistic interactions between V. germanica wasps and honeybees in Patagonia, Argentina. We found that the attack intensity was positively correlated with wasp density and that the colonies with lower honeybee traffic were the most affected by the wasps. We conclude that V. germanica has a significant impact on honeybees in this invaded area in Patagonia suggesting beekeepers need to be alert during the summer months to reduce wasp density of this insect pest.

ACS Style

Micaela Buteler; María Belén Yossen; Andrea Marina Alma; Mariana Lozada. Interaction between Vespula germanica and Apis mellifera in Patagonia Argentina apiaries. Apidologie 2021, 52, 848 -859.

AMA Style

Micaela Buteler, María Belén Yossen, Andrea Marina Alma, Mariana Lozada. Interaction between Vespula germanica and Apis mellifera in Patagonia Argentina apiaries. Apidologie. 2021; 52 (4):848-859.

Chicago/Turabian Style

Micaela Buteler; María Belén Yossen; Andrea Marina Alma; Mariana Lozada. 2021. "Interaction between Vespula germanica and Apis mellifera in Patagonia Argentina apiaries." Apidologie 52, no. 4: 848-859.

Short communication
Published: 18 September 2020 in Journal of Stored Products Research
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The current study presents the design and evaluation of a laboratory device combining mechanical motion of wheat grain and turbulent air streaming inside a positive pneumatic conveyor system. The device recovers microparticulate nano-engineered alumina insecticide powders (NAIP) from treated grain. The particle removal efficiency of the conveying system was experimentally quantified by using a laboratory prototype assembled by attaching an electrostatic filter (EF) to the conveyors exhaust. Then, the NAIP particles detached from the grain inside the conveyor were drawn by the conveyors’ exhaust air stream into the EF, where particles bound to the electrodes due to electric charge differences. The NAIP particle load bound to the EF electrodes was removed and weighed to determine the efficiency of the wheat grain cleaning process. Our experimental results, under laboratory conditions, show that the recovery efficiency of the prototype averaged 98.0% (±1.4). Thus, the present study provides an innovative strategy to remove NAIP insecticide particles after storage, once their role as insecticide in stored grain has been fulfilled. This technology provides advancement in grain technology allowing the possibility to provide insecticide-free grain to the food market.

ACS Style

Micaela Buteler; Javier G. Gitto; Teodoro Stadler. Enhancing the potential use of microparticulate insecticides through removal of particles from raw grain. Journal of Stored Products Research 2020, 89, 101707 .

AMA Style

Micaela Buteler, Javier G. Gitto, Teodoro Stadler. Enhancing the potential use of microparticulate insecticides through removal of particles from raw grain. Journal of Stored Products Research. 2020; 89 ():101707.

Chicago/Turabian Style

Micaela Buteler; Javier G. Gitto; Teodoro Stadler. 2020. "Enhancing the potential use of microparticulate insecticides through removal of particles from raw grain." Journal of Stored Products Research 89, no. : 101707.

Journal article
Published: 24 October 2019 in Behavioural Processes
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Foraging trails of leaf-cutting ants may be exposed to plant material that interferes with foragers' flux either by physically blocking it or due to secondary metabolites which affect insect behavior. We hypothesized that plant secondary metabolites such as plant volatiles may interfere with pheromone communication, triggering clearing behavior. We impregnated small pieces of paper with different plant odors from native and exotic species and placed them in the middle of foraging trails of the leaf-cutting ant Acromyrmex lobicornis. As a control, we used papers impregnated with trail odor. The paper used as substrate for the odors did not constitute a physical obstacle based on its small surface area. Papers treated with trail odor did not interfere with ant flux and were not removed from the trail. However, when papers were treated with plant odors, they were removed from the trail in most of the cases and ant flux was reduced significantly by 15-28%. We found that ants tapped the tip of their gaster against the ground around the treated papers only when they were impregnated with foreign odors. The number of gaster tappings as well as the time between the placement of the paper and its removal increased with plant odor concentration. However, the decision to remove the paper was not correlated with the number of gaster tappings. Interestingly, clearer ants were smaller than forager ants, suggesting there is morphological differentiation in clearing behavior of the trail. Results from the current study also suggest that odors trigger clearing behavior on foraging trails and affect trail marking behavior. Our results provide information about the potential for plant compounds to constitute obstacles, even when they do not physically obstruct the trail. We conclude that odors may trigger clearing behavior by interfering with pheromone communication.

ACS Style

Andrea Marina Alma; Micaela Buteler. Plant odors trigger clearing behavior in foraging trails- do they represent olfactory obstacles? Behavioural Processes 2019, 169, 103989 .

AMA Style

Andrea Marina Alma, Micaela Buteler. Plant odors trigger clearing behavior in foraging trails- do they represent olfactory obstacles? Behavioural Processes. 2019; 169 ():103989.

Chicago/Turabian Style

Andrea Marina Alma; Micaela Buteler. 2019. "Plant odors trigger clearing behavior in foraging trails- do they represent olfactory obstacles?" Behavioural Processes 169, no. : 103989.

Original contribution
Published: 26 August 2019 in Journal of Applied Entomology
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Foraging niche separation may be a mechanism to promote coexistence of two competing species by concentrating intraspecific competition relative to interspecific competition. The present study investigated foraging behaviour and microhabitat use of two coexisting species of invasive social wasps, Vespula germanica and Vespula vulgaris, when foraging for two different food resources. Also, we tested the attractiveness of traps baited with a synthetic lure for those two species. We found that V. germanica wasps prefer to forage at ground level regardless of the resource, while V. vulgaris prefers protein resources at the shrubland level given a choice between a protein bait at ground or at shrubland level. However, when baited with the synthetic lure, the species caught was not affected by the height at which traps were placed. That is, in a no choice scenario, the traps were sufficiently attractive to lure both species of wasps to both microhabitats (ground and shrubland levels). Thus, our results support the existence of spatial niche differentiation at least in protein foraging and suggest that the synthetic lure evaluated could be used to trap both species of Vespula wasps present in Argentina. These results could help to improve management strategies of these social wasps in an invaded area.

ACS Style

Maité Masciocchi; Carl Rikard Unelius; Micaela Buteler. Foraging niche separation of social wasps in an invaded area: Implications for their management. Journal of Applied Entomology 2019, 143, 1115 -1121.

AMA Style

Maité Masciocchi, Carl Rikard Unelius, Micaela Buteler. Foraging niche separation of social wasps in an invaded area: Implications for their management. Journal of Applied Entomology. 2019; 143 (10):1115-1121.

Chicago/Turabian Style

Maité Masciocchi; Carl Rikard Unelius; Micaela Buteler. 2019. "Foraging niche separation of social wasps in an invaded area: Implications for their management." Journal of Applied Entomology 143, no. 10: 1115-1121.

Original contribution
Published: 26 March 2019 in Journal of Applied Entomology
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Recently, plant‐based repellents have been proposed as a potential alternative to classic pesticides against pest wasps, in certain scenarios. Here, the repellent effect of Dysphania multifida essential oil and one of its main terpenoid components, α‐terpinene, were tested under field conditions with natural populations of wasps in Patagonia Argentina. D. multifida essential oil (paico), as well as α‐terpinene, repelled V. germanica wasps in the field. A strong avoidance of food baits treated with the essential oil or α‐terpinene was observed in choice and no‐choice tests. In no‐choice tests, the time it took wasps to arrive at the bait was significantly greater in treated baits than in control baits. Also, the total number of arriving wasps in 30 min was significantly greater in untreated baits in comparison with treated baits, under similar environmental conditions and wasp density. As the wasps’ flight season progressed, wasp density and motivation for proteinaceous food sources increased. This was evidenced by a greater total number of wasps in untreated baits with time. On the contrary, the number of wasps in treated baits remained low throughout the peak season. Both the paico essential oil and the α‐terpinene act as powerful repellents for V. germanica wasps, generating an avoidance response to treated food sources. Thus, these compounds have potential to be used as repellents to prevent wasps’ approaches and foraging, when applied in close proximity to a food source.

ACS Style

María B. Yossen; Mariana Lozada; Marcelo Kuperman; Silvia González; Bruno Gastaldi; Micaela Buteler. Essential oils as vespid wasp repellents: Implications for their use as a management strategy. Journal of Applied Entomology 2019, 143, 635 -643.

AMA Style

María B. Yossen, Mariana Lozada, Marcelo Kuperman, Silvia González, Bruno Gastaldi, Micaela Buteler. Essential oils as vespid wasp repellents: Implications for their use as a management strategy. Journal of Applied Entomology. 2019; 143 (6):635-643.

Chicago/Turabian Style

María B. Yossen; Mariana Lozada; Marcelo Kuperman; Silvia González; Bruno Gastaldi; Micaela Buteler. 2019. "Essential oils as vespid wasp repellents: Implications for their use as a management strategy." Journal of Applied Entomology 143, no. 6: 635-643.

Journal article
Published: 01 January 2019 in Anais da Academia Brasileira de Ciências
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Leaf-cutting ants are considered major pests of agriculture and forestry in the Neotropics. Attractive toxic baits are the prevailing method for managing them. Thus, there is great interest in identifying attractants to incorporate into these baits. Moreover, leaf-cutting ants can avoid toxic baits by associating the attractant with the toxin. We evaluated attractiveness of heptyl butyrate, a volatile compound found in fresh apples and plums. We conducted field experiments with ten colonies of Acromyrmex lobicornis. First, we evaluated the behaviour of ants exposed to heptyl butyrate at 1% by surrounding resources. Then, we compared the attractiveness of heptyl butyrate and orange pulp, the most commonly used attractant. Finally, we evaluated whether heptyl butyrate increases the attractiveness of a carbohydrate resource at varying doses. Heptyl butyrate at 1% attracted 92% more ants than the control and that it was as attractive as orange pulp. Heptyl butyrate paired with sucrose at concentrations of 0.001 and 0.1% was more attractive than sucrose alone, but greater concentrations did not increase sucrose's attractiveness. Therefore, heptyl butyrate could be added to toxic baits to manage A. lobicornis as it is as attractive as the most commonly used attractant and can be applied directly to the pellets.

ACS Style

Andrea M. Alma; Patricia C. Fernandez; Daiana Perri; Micaela Buteler. Identification of a novel plant-derived attractant for Acromyrmex lobicornis leaf-cutting ants. Anais da Academia Brasileira de Ciências 2019, 91, e20181008 .

AMA Style

Andrea M. Alma, Patricia C. Fernandez, Daiana Perri, Micaela Buteler. Identification of a novel plant-derived attractant for Acromyrmex lobicornis leaf-cutting ants. Anais da Academia Brasileira de Ciências. 2019; 91 (3):e20181008.

Chicago/Turabian Style

Andrea M. Alma; Patricia C. Fernandez; Daiana Perri; Micaela Buteler. 2019. "Identification of a novel plant-derived attractant for Acromyrmex lobicornis leaf-cutting ants." Anais da Academia Brasileira de Ciências 91, no. 3: e20181008.

Journal article
Published: 23 July 2018 in Insects
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Most stored-grain pest insects increase their population within a relatively short time, causing serious damage to stored products. Sitophilus oryzae (L.) is one of the world’s major stored-grain pest insects and was chosen as the model insect for our studies. This study compared the efficacy of three different dusts under laboratory conditions: aluminum dust (nanostructured alumina), DiatomiD®, and Protect-It® (commercial diatomaceous earth). Parental survival, grain damage, and progeny production were measured at 250 and 500 ppm in treated wheat. The tests were conducted in 400 mL galvanized steel jars, an experimental model used for the first time to measure the effectiveness of nanostructured alumina, since most studies have been typically performed in small petri dishes. Parental survival obtained was highest in the untreated controls, followed in decreasing order by DiatomiD®, Protect-It®, and nanostructured alumina (NSA). NSA caused the greatest mortality. All treatments significantly reduced grain weight loss and frass production in wheat infested by S. oryzae. The degree of progeny (F1) suppression was directly related to the product and treatment rate, progeny being significantly suppressed by NSA in wheat followed by Protect-It® and DiatomiD®. Therefore, NSA had a greater impact on insect population dynamics.

ACS Style

Guillermo Pablo López-García; Micaela Buteler; Teodoro Stadler. Testing the Insecticidal Activity of Nanostructured Alumina on Sitophilus oryzae (L.) (Coleoptera: Curculionidae) Under Laboratory Conditions Using Galvanized Steel Containers. Insects 2018, 9, 87 .

AMA Style

Guillermo Pablo López-García, Micaela Buteler, Teodoro Stadler. Testing the Insecticidal Activity of Nanostructured Alumina on Sitophilus oryzae (L.) (Coleoptera: Curculionidae) Under Laboratory Conditions Using Galvanized Steel Containers. Insects. 2018; 9 (3):87.

Chicago/Turabian Style

Guillermo Pablo López-García; Micaela Buteler; Teodoro Stadler. 2018. "Testing the Insecticidal Activity of Nanostructured Alumina on Sitophilus oryzae (L.) (Coleoptera: Curculionidae) Under Laboratory Conditions Using Galvanized Steel Containers." Insects 9, no. 3: 87.

Book chapter
Published: 23 May 2018 in Insecticides - Agriculture and Toxicology
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ACS Style

Teodoro Stadler; Micaela Buteler; Susana R. Valdez; Javier G. Gitto. Particulate Nanoinsecticides: A New Concept in Insect Pest Management. Insecticides - Agriculture and Toxicology 2018, 1 .

AMA Style

Teodoro Stadler, Micaela Buteler, Susana R. Valdez, Javier G. Gitto. Particulate Nanoinsecticides: A New Concept in Insect Pest Management. Insecticides - Agriculture and Toxicology. 2018; ():1.

Chicago/Turabian Style

Teodoro Stadler; Micaela Buteler; Susana R. Valdez; Javier G. Gitto. 2018. "Particulate Nanoinsecticides: A New Concept in Insect Pest Management." Insecticides - Agriculture and Toxicology , no. : 1.

Journal article
Published: 01 March 2018 in Florida Entomologist
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Volcanic activity has very evident direct effects on arthropods due to the immediate and massive loss of habitat, environmental perturbations, and toxicity (Buteler et al. 2011). Volcanoes are a natural source of micro- and nanoparticles, which become electrically charged near the vent, mainly by fractoemission, triboelectrification, and further self-charging which lead to a wide array of particle sizes (Aplin et al. 2014). Moreover, nano-sized ash particles behave significantly different than bulk ash particles due to surface and quantum effects that influence the chemical reactivity of materials, as well as their mechanical, optical, electric, and magnetic properties (Roduner 2006). These traits may be responsible for the contact insecticidal toxicity of volcanic ash (Buteler et al. 2011), and its effect may be compared to that of other inert dusts like diatomaceous earth, which is used commercially as insecticide (Buteler et al. 2014).

ACS Style

Guillermo P. López-García; Micaela Buteler; Teodoro Stadler. Effects of Dietary Intake of Volcanic ash from Puyehue Cordon Caulle onTenebrio molitor(Coleoptera: Tenebrionidae) Larvae Under Laboratory Conditions. Florida Entomologist 2018, 101, 97 -101.

AMA Style

Guillermo P. López-García, Micaela Buteler, Teodoro Stadler. Effects of Dietary Intake of Volcanic ash from Puyehue Cordon Caulle onTenebrio molitor(Coleoptera: Tenebrionidae) Larvae Under Laboratory Conditions. Florida Entomologist. 2018; 101 (1):97-101.

Chicago/Turabian Style

Guillermo P. López-García; Micaela Buteler; Teodoro Stadler. 2018. "Effects of Dietary Intake of Volcanic ash from Puyehue Cordon Caulle onTenebrio molitor(Coleoptera: Tenebrionidae) Larvae Under Laboratory Conditions." Florida Entomologist 101, no. 1: 97-101.

Research article
Published: 10 November 2017 in Insectes Sociaux
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Greater knowledge on the social communication of invasive Vespula germanica wasps is needed to fully understand their foraging behavior. This is particularly valuable considering that poison baiting is currently the only effective way of reducing wasp density. Heptyl butyrate is an attractant for many wasp species, but attempts to determine effects on V. germanica have yielded mixed results. We studied the behavior elicited by heptyl butyrate on V. germanica wasps in field experiments with foraging wasps. We also analyzed headspace volatiles of live V. germanica workers, to determine if heptyl butyrate is emitted. Heptyl butyrate was present in the headspace of live workers. Amounts of heptyl butyrate averaged 1.4 ± 0.2 ng per sample per hour, where each sample included six workers. Wasps approaching filter papers treated with different concentrations of heptyl butyrate hovered over it, but only a small percentage landed on it. Pure heptyl butyrate elicited the greatest response although all the concentrations tested were attractive. When heptyl butyrate was applied to protein baits, a greater number landed on the treated baits than on untreated ones, demonstrating this compound enhances attractiveness of baits. Results from our study suggest that heptyl butyrate is a pheromonal compound involved in attracting conspecifics to food resources, but other cues are needed to trigger landing.

ACS Style

Micaela Buteler; Patricia C. Fernandez; Teodoro Stadler; David K. Weaver; Belen Yossen; Mariana Lozada. Heptyl butyrate, a putative pheromone involved in social communication of Vespula germanica wasps. Insectes Sociaux 2017, 65, 95 -101.

AMA Style

Micaela Buteler, Patricia C. Fernandez, Teodoro Stadler, David K. Weaver, Belen Yossen, Mariana Lozada. Heptyl butyrate, a putative pheromone involved in social communication of Vespula germanica wasps. Insectes Sociaux. 2017; 65 (1):95-101.

Chicago/Turabian Style

Micaela Buteler; Patricia C. Fernandez; Teodoro Stadler; David K. Weaver; Belen Yossen; Mariana Lozada. 2017. "Heptyl butyrate, a putative pheromone involved in social communication of Vespula germanica wasps." Insectes Sociaux 65, no. 1: 95-101.

Journal article
Published: 28 April 2017 in Entomologia Experimentalis et Applicata
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Leaf-cutting ants are a serious pest of young forestry plantations. Currently, the main control method is the use of broad-spectrum insecticides, which have a negative effect on non-target organisms and the environment. In this work, plant-based compounds were evaluated in laboratory assays with Acromyrmex ambiguus Emery (Hymenoptera: Formicidae) for their potential use as repellent and attractant stimuli to be used in a push-pull strategy. Farnesol, a sesquiterpene present in many essential oils, was tested as a repellent at doses of 10, 50, and 100 mg. Its distance of action was studied by comparing the repellent effect of farnesol in a situation in which ants had to touch the farnesol in order to reach the food source in comparison to when ants could reach the food source without getting into direct contact with it. Different parts of the orange fruit (pulp and peel) were evaluated and compared as attractants, given that citrus-based baits are among the most popular attractants used. Results from laboratory bioassays indicated that farnesol is repellent at doses of 50 mg and acts upon contact or at a very short distance. Furthermore, orange pulp was more attractive than the peel, and volatile compounds were highly responsible for the attraction. When both stimuli were tested simultaneously in a laboratory experiment, repellency of farnesol was enhanced in the presence of orange pulp odor. When tested in a field push-pull experiment, the results also showed a good repellent effect of farnesol as well as an attractant effect of the orange pulp. These results encourage long-term studies with these substances in a field setting and suggest that repellents can be enhanced by the use of attractants to manage leaf-cutting ants behavior.

ACS Style

Daiana Perri; Norma Gorosito; Patricia C. Fernandez; Micaela Buteler. Plant-based compounds with potential as push-pull stimuli to manage behavior of leaf-cutting ants. Entomologia Experimentalis et Applicata 2017, 163, 150 -159.

AMA Style

Daiana Perri, Norma Gorosito, Patricia C. Fernandez, Micaela Buteler. Plant-based compounds with potential as push-pull stimuli to manage behavior of leaf-cutting ants. Entomologia Experimentalis et Applicata. 2017; 163 (2):150-159.

Chicago/Turabian Style

Daiana Perri; Norma Gorosito; Patricia C. Fernandez; Micaela Buteler. 2017. "Plant-based compounds with potential as push-pull stimuli to manage behavior of leaf-cutting ants." Entomologia Experimentalis et Applicata 163, no. 2: 150-159.

Journal article
Published: 23 March 2017 in Austral Entomology
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The present study assessed the contact toxicity of nanostructured alumina (NSA) and compared it to that of diatomaceous earth (DE) on workers of Acromyrmex lobicornis. Laboratory and field bioassays were also conducted to assess whether ants avoid NSA particles. Nanostructured alumina was more toxic to ants than DE (LC50 for NSA = 0.14 mg/g; CI 0.12–0.17; LC50 for DE = 0.36 mg/g; CI 0.25–0.77). The laboratory bioassays results showed that ants were not repelled by NSA. The average repellence percentage observed in the Petri dish bioassay was 0.66 ± 3.1. No repellence was observed in field tests either, given that ants collected oat flakes treated with NSA (12.7 ± 1.2 oat flakes) in similar amounts to control oats (13.9 ± 1.6 oat flakes) after 2 h. Scanning electron microscope pictures showed that NSA was more effective than DE in attaching to the cuticle of exposed insects.This study reports for the first time the toxicity of NSA on leaf-cutting ants and shows that it has greater efficacy than DE in killing A. lobicornis at all the concentrations tested. Thus, NSA shows potential to be used as a dust insecticide that could be applied directly at the nest to induce mortality of worker ants. Further studies should address the effect of NSA on the symbiotic fungus, as well as its potential as carrier for other insecticides or fungicides.

ACS Style

Micaela Buteler; Guillermo Lopez Garcia; Teodoro Stadler. Potential of nanostructured alumina for leaf‐cutting ants Acromyrmex lobicornis (Hymenoptera: Formicidae) management. Austral Entomology 2017, 57, 292 -296.

AMA Style

Micaela Buteler, Guillermo Lopez Garcia, Teodoro Stadler. Potential of nanostructured alumina for leaf‐cutting ants Acromyrmex lobicornis (Hymenoptera: Formicidae) management. Austral Entomology. 2017; 57 (3):292-296.

Chicago/Turabian Style

Micaela Buteler; Guillermo Lopez Garcia; Teodoro Stadler. 2017. "Potential of nanostructured alumina for leaf‐cutting ants Acromyrmex lobicornis (Hymenoptera: Formicidae) management." Austral Entomology 57, no. 3: 292-296.

Journal article
Published: 01 December 2015 in Austral Entomology
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Secondary plant metabolites such as those present in essential oils can be toxic to herbivorous insects and also repel attack, given they play a role in selection and acceptance of host plants. However, few studies have dealt with the use of plant-based repellents to manage invasive wasps. The objective was to assess essential oils with potential as wasp repellents, and to gain further insight as to how they affect the learning capacities of these insects. Five essential oils were tested on Vespula germanica (Fabricius) wasps in field choice and no-choice tests. When given a choice, foragers avoided the treated baits almost completely. Wind tunnel bioassays demonstrated that wasps recognise the repellent essential oils through olfactory cues, leading to a dose-dependent decreased response to the food stimulus. The effect of the repellents on the cognitive ability of V. germanica workers was also studied in relation to food search efficiency. Naive workers landed on the treated baits, although it took them longer than to land on control baits. When workers were allowed to forage on a food bait twice before a repellent was added, an effect on relocation behaviour was observed. The returning workers arriving to a feeding site with essential oil were reticent to land on it, suggesting that there is indeed a repellent effect and not just masking of the food source. A push–pull system combining attractive baits with the use of plant-based repellents is a promising management strategy in urban settings for this insect pest.

ACS Style

Micaela Buteler; Mariana Lozada; Paola D'adamo; Romina Ayelen Luz Melo; Teodoro Stadler. Behavioural responses ofVespula germanica(Hymenoptera: Vespidae) wasps exposed to essential oils. Austral Entomology 2015, 55, 308 -315.

AMA Style

Micaela Buteler, Mariana Lozada, Paola D'adamo, Romina Ayelen Luz Melo, Teodoro Stadler. Behavioural responses ofVespula germanica(Hymenoptera: Vespidae) wasps exposed to essential oils. Austral Entomology. 2015; 55 (3):308-315.

Chicago/Turabian Style

Micaela Buteler; Mariana Lozada; Paola D'adamo; Romina Ayelen Luz Melo; Teodoro Stadler. 2015. "Behavioural responses ofVespula germanica(Hymenoptera: Vespidae) wasps exposed to essential oils." Austral Entomology 55, no. 3: 308-315.