Description

Book Synopsis

Bees are critically important for ecosystem function and biodiversity maintenance through their pollinating activity. Unfortunately, bee populations are faced with many threats, and evidence of a massive global pollination crisis is steadily growing. As a result, there is a need to understand and, ideally, predict how bees respond to pollution disturbance, to the changes over landscape gradients, and how their responses can vary in different habitats, which are influenced to different degrees by human activities.

Modeling approaches are useful to simulate the behavior of whole population dynamics as well as to focus on important phenomena detrimental to bee-life history traits. They also allow simulation of how a disease or a pesticide can impact the survival and growth of a bee population. In Silico Bees provides a collection of computational methods to those primarily interested in the study of the ecology, ethology, and ecotoxicology of bees. The book present

Table of Contents

Automatic Systems for Capturing the Normal and Abnormal Behaviors of Honey Bees. Computational Modeling of Organization in Honey Bee Societies Based on Adaptive Role Allocation. Illustrating the Contrasting Roles of Self-Organization in Biological Systems with Two Case Histories of Collective Decision Making in the Honey Bee. Models for the Recruitment and Allocation of Honey Bee Foragers. Infectious Disease Modeling for Honey Bee Colonies. Honey Bee Ecology from an Urban Landscape Perspective: The Spatial Ecology of Feral Honey Bees. QSAR Modeling of Pesticide Toxicity to Bees. Mathematical Models for the Comprehension of Chemical Contamination into the Hive. Agent-Based Modeling of the Long-Term Effects of Pyriproxyfen on Honey Bee Population. Simulation of Solitary (non-Apis) Bees Competing for Pollen. Estimating the Potential Range Expansion and Environmental Impact of the Invasive Bee-Hawking Hornet, Vespa velutina nigrithorax. Index.

In Silico Bees

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A Hardback by James Devillers

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    Publisher: Taylor & Francis Inc
    Publication Date: 27/01/2014
    ISBN13: 9781466517875, 978-1466517875
    ISBN10: 1466517875
    Also in:
    Biodiversity / Ecosystems Physical chemistry

    Description

    Book Synopsis

    Bees are critically important for ecosystem function and biodiversity maintenance through their pollinating activity. Unfortunately, bee populations are faced with many threats, and evidence of a massive global pollination crisis is steadily growing. As a result, there is a need to understand and, ideally, predict how bees respond to pollution disturbance, to the changes over landscape gradients, and how their responses can vary in different habitats, which are influenced to different degrees by human activities.

    Modeling approaches are useful to simulate the behavior of whole population dynamics as well as to focus on important phenomena detrimental to bee-life history traits. They also allow simulation of how a disease or a pesticide can impact the survival and growth of a bee population. In Silico Bees provides a collection of computational methods to those primarily interested in the study of the ecology, ethology, and ecotoxicology of bees. The book present

    Table of Contents

    Automatic Systems for Capturing the Normal and Abnormal Behaviors of Honey Bees. Computational Modeling of Organization in Honey Bee Societies Based on Adaptive Role Allocation. Illustrating the Contrasting Roles of Self-Organization in Biological Systems with Two Case Histories of Collective Decision Making in the Honey Bee. Models for the Recruitment and Allocation of Honey Bee Foragers. Infectious Disease Modeling for Honey Bee Colonies. Honey Bee Ecology from an Urban Landscape Perspective: The Spatial Ecology of Feral Honey Bees. QSAR Modeling of Pesticide Toxicity to Bees. Mathematical Models for the Comprehension of Chemical Contamination into the Hive. Agent-Based Modeling of the Long-Term Effects of Pyriproxyfen on Honey Bee Population. Simulation of Solitary (non-Apis) Bees Competing for Pollen. Estimating the Potential Range Expansion and Environmental Impact of the Invasive Bee-Hawking Hornet, Vespa velutina nigrithorax. Index.

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