Timothy E. Black scite author profile

Previous experience in a natural environment with a stimulus has lasting influences on honey bee behavior, as demonstrated in laboratory studies of appetitive conditioning. However, it is unknown whether the same holds true for studies of aversive conditioning. Aversive conditioning is important for insects such as honey bees to survive environmental risks. Previous experience in natural settings may lead to maladaptive behavioral patterns in bees exposed to new risks. This study presents the first examination of the effect of a visual stimulus presented in a naturalistic setting on aversive conditioning, using the shuttle box choice chamber paradigm. The present study examines both the effect of the visual stimuli, as well as differences present between the Apis mellifera subspecies of mellifera and ligustica . Results support the presence of behavioral biases based on the visual stimulus presented prior to the experimental sessions.aversive conditioning / memory carry-over / bias / honey bee / Apis mellifera mellifera / Apis mellifera ligustica / shuttle box

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Effects of aversive conditioning on expression of physiological stress in honey bees (Apis mellifera)

Black

Fofah

Dinges

et al. 2021

Neurobiology of Learning and Memory

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Effects of ethanol ingestion on aversive conditioning in honey bees (Apis mellifera L.).

Black

Stauch

Wells

et al. 2021

Journal of Comparative Psychology

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Ethanol consumption has been shown to have many deleterious effects, including behavioral alterations, motor deficits, reduction in inhibition, and alteration of neurochemical expression. These effects occur in the wide variety of species that consume ethanol. Although studies have examined aversive conditioning in honey bees (Apis mellifera), few have examined the role of intoxication on the acquisition of learning in such paradigms. The current study continues a line of research using honey bees as a model to explore the behavioral effects of ethanol toxicity. A passive avoidance task is used to explore how increasing dosages of ethanol affects the ability of honey bees to perform this task. The results show that honey bees exposed to higher concentrations of ethanol have slower passive avoidance acquisition than bees exposed to lower concentrations under the same conditions. Bees not experiencing aversive stimuli displayed no difference from baseline behavior when exposed to varying concentrations of ethanol.

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Honey bee (Apis mellifera ligustica) acetylcholinesterase enzyme activity and aversive conditioning following aluminum trichloride exposure

Chicas‐Mosier¹,

Black²,

Hester³

et al. 2022

BMC Zool

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Background Aluminum is the third most prevalent element in the earth’s crust. In most conditions, it is tightly bound to form inaccessible compounds, however in low soil pH, the ionized form of aluminum can be taken up by plant roots and distributed throughout the plant tissue. Following this uptake, nectar and pollen concentrations in low soil pH regions can reach nearly 300 mg/kg. Inhibition of acetylcholinesterase (AChE) has been demonstrated following aluminum exposure in mammal and aquatic invertebrate species. In honey bees, behaviors consistent with AChE inhibition have been previously recorded; however, the physiological mechanism has not been tested, nor has aversive conditioning. Results This article presents results of ingested aqueous aluminum chloride exposure on AChE as well as acute exposure effects on aversive conditioning in an Apis mellifera ligustica hive. Contrary to previous findings, AChE activity significantly increased as compared to controls following exposure to 300 mg/L Al3+. In aversive conditioning studies, using an automated shuttlebox, there were time and dose-dependent effects on learning and reduced movement following 75 and 300 mg/L exposures. Conclusions These findings, in comparison to previous studies, suggest that aluminum toxicity in honey bees may depend on exposure period, subspecies, and study metrics. Further studies are encouraged at the moderate-high exposure concentrations as there may be multiple variables that affect toxicity which should be teased apart further.

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Timothy E. Black

Failure to Find Ethanol‐Induced Conditioned Taste Aversion in Honey Bees (Apis melliferaL.)

Influence of environmental experience on aversive conditioning in honey bees (Apis mellifera L.)

Effects of aversive conditioning on expression of physiological stress in honey bees (Apis mellifera)

Effects of ethanol ingestion on aversive conditioning in honey bees (Apis mellifera L.).

Honey bee (Apis mellifera ligustica) acetylcholinesterase enzyme activity and aversive conditioning following aluminum trichloride exposure

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