Olfaction In Mosquito Host Interactions
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Olfaction in Mosquito-Host Interactions
This new work contains the first integrated discussion of the role of olfaction in mosquito-host interactions. It covers the practical applications of this knowledge in attempting to control malaria as a problem for world health. The volume begins with a general overview of mosquito life cycle styles and how odour-mediated host location fits into the repertoire of behaviours that a specific species may exhibit. Certain aspects of insect olfaction and its underlying physiological mechanisms are incorporated within the book.
Olfaction in vector-host interactions
This is a multi-authored book with a focus on the role of olfaction (the sense of smell) in the multitude of interactions between arthropods and their blood hosts. Blood-feeding arthropods (mostly insects, ticks and mites) depend on a vertebrate host for survival and reproduction. Their evolutionary success depends on how efficiently they can detect the presence of a host and actively locate it to obtain a blood meal. This is the domain of olfaction, which is perhaps the most important mode of signal exchange between hosts and blood-feeding arthropods that visit them. Important human and animal diseases like malaria, dengue, West Nile virus, bluetongue and trypanosomiasis are transmitted between humans and/or animals as a direct outcome of olfactory responses mediated by host odours. Increased understanding of olfaction and how this governs interactions between arthropods and blood hosts will enable the development of novel strategies to disrupt this behaviour. For example, many species of tsetse fly respond over distance to simple blends of synthetic odours. Combined with traps or insecticide-treated targets, such odour-baited devices can effectively suppress fly populations and thus transmission of sleeping sickness. Such systems still need to be developed for disease-vectoring mosquitoes, flies and ticks, necessitating further knowledge on the chemical basis of interactions with their vertebrate hosts. In 18 peer-reviewed chapters, recognized experts provide a state-of-the-art overview of olfaction in vector-host interactions, from the molecular to population biology level. A wide range of arthropods is discussed, including mosquitoes, black flies, sand flies, tsetse flies, blood-feeding bugs and ticks. Novel ideas, definition of research gaps, and a collection of the most recent studies will be of value to biology students, chemical ecologists, as well as those implementing vector control programmes.
Insect Olfaction
Author: Bill S. Hansson
language: en
Publisher: Springer Science & Business Media
Release Date: 2013-06-29
JOHN G. HILDEBRAND Research on insect olfaction is important for at least two reasons. First, the olfactory systems of insects and their arthropod kin are experi mentally favourable models for studies aimed at learning about general principles of olfaction that apply to vertebrates and invertebrates alike. Detailed comparisons between the olfactory pathways in vertebrates and insects have revealed striking similarities of functional organisation, physiol ogy, and development, suggesting that olfactory information is processed through neural mechanisms more similar than different in these evolution arily remote creatures. Second, insect olfaction itself is important because of the economic and medical impact of insects that are agricultural pests and disease vectors, as well as positive impact of beneficial species, such as the bees and moths responsible for pollination and production of honey. The harm or benefit attributable to an insect is a function of what it does - that is, of its behaviour - which is shaped by sensory information. Often olfaction is the key modality for control of basic insect behaviour, such as ori entation and movement toward, and interactions with, potential mates, appro priate sites for oviposition, and sources of food. Not surprisingly, therefore, much work on insect olfaction has been motivated by long-term hopes of using knowledge of this pivotal sensory system to design strategies for mon itoring and managing harmful species and fostering the welfare of beneficial ones.