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Honeybee Neurobiology and Behavior
The book is a sequel of a similar book, edited by Randolf Menzel and Alison Mercer, “Neurobiology and Behavior of Honeybees”, published in 1987. It is a “Festschrift” for the 70th birthday of Randolf Menzel, who devoted his life to the topic of the book. The book will include an open commentary for each section written by Randolf Menzel, and discussed with the authors. The written contributions take their inspiration from a symposium on the topic, with all the authors, that was held in Berlin in summer 2010
Invertebrate Learning and Memory
Studies on learning and memory in honeybees have been historically framed in an appetitive context because bees learn remarkably well about sensory stimuli if these are associated with food. We review studies in which bees learn about olfactory stimuli associated with the noxious stimulation of an electric shock. In response to such stimulation, bees exhibit a sting extension response (SER). Pairing a neutral odor with shock results in associative learning so that bees exhibit conditioned SER to the originally neutral stimulus and avoid afterwards that stimulus when given the possibility of moving away from it. SER conditioning leads to long-term memory formation, which depends on transcription and translation. Aversive reinforcement properties are mediated by dopamine, and a rich network of dopaminergic neurons exists in the bee brain. Taken together, these studies open new research avenues to understand how bees learn about aversive events in their environment.
Invertebrate Learning and Memory
The behavior of insects transcends elementary forms of adaptive responding to environmental changes. We discuss examples of exploration, instrumental and observational learning, expectation, learning in a social context, and planning of future actions. We show that learning about sensory cues allows insects to transfer flexibly their responses to novel stimuli attaining thereby different levels of complexity, from basic generalization to categorization and concept learning consistent with rule extraction. We argue that updating of existing memories requires multiple forms of memory processing. A key element in these processes is working memory, an active form of memory considered to allow evaluation of actions on the basis of expected outcome. We discuss which of these cognitive faculties can be traced to specific neural processes and how they relate to the overall organization of the insect brain.
Honeybee Neurobiology and Behavior
The book is a sequel of a similar book, edited by Randolf Menzel and Alison Mercer, “Neurobiology and Behavior of Honeybees”, published in 1987. It is a “Festschrift” for the 70th birthday of Randolf Menzel, who devoted his life to the topic of the book. The book will include an open commentary for each section written by Randolf Menzel, and discussed with the authors. The written contributions take their inspiration from a symposium on the topic, with all the authors, that was held in Berlin in summer 2010
The Conceptual Mind
New essays by leading philosophers and cognitive scientists that present recent findings and theoretical developments in the study of concepts. The study of concepts has advanced dramatically in recent years, with exciting new findings and theoretical developments. Core concepts have been investigated in greater depth and new lines of inquiry have blossomed, with researchers from an ever broader range of disciplines making important contributions. In this volume, leading philosophers and cognitive scientists offer original essays that present the state-of-the-art in the study of concepts. These essays, all commissioned for this book, do not merely present the usual surveys and overviews; rat...
Biogenic Amines and Neuromodulation of Animal Behavior, 2nd Edition
Since Erspamer and Boretti, 1951 first described the biogenic amine octopamine in the octopus salivary gland as a molecule with “adrenaline-like” action, decades of extensive studies demonstrated the important role octopamine and its precursor tyramine play in invertebrate physiology and behavior. This book contains the latest original research papers on tyramine/octopamine and their receptors in different neuronal and non-neuronal circuits of insects. Additonally, this book elucidates in detail the latest research on the function of other biogenic amines and their receptors, such as dopamine and serotonin in insects and mice. The reviews in this book summarize the most recent research on the role of biogenic amines in insect antennae, synaptic development, and behavioral modulation by spontaneous dopamine release in Drosophila. Finally, one perspective paper discusses the evolution of social behavior and biogenic amines. We recommend this book for all scholars interested in the latest advanced research on the role of biogenic amines in animal behavior. ITS dedicates the topic to her teacher, Plotnikova Svetlana Ivanovna (1922-2013).
Ballroom Biology: Recent Insights into Honey Bee Waggle Dance Communications
The honey bee waggle dance communication is a complex, unique, at times controversial, and ultimately fascinating behavior. In an elaborate figure-of-eight movement, a returning forager conveys the distance and direction from the hive to resources, usually the nectar and pollen that is their food, and it remains one of the most sophisticated, known forms of non-human communication. Not surprisingly, since its discovery more than 60 years ago by Karl von Frisch, the dance has been subject to investigations that span from basic biology through human culture and neurophysiology to landscape ecology. Here we collate recent advances in our understanding of the dance.
