Crop Pest Control and Pollination, volume II, 2nd edition


Book Description

The production of food crops helps us meet the basic need of human nutrition. The world's population now exceeds 7 billion people and continues to grow. Alongside this growth, the human demand for food also increases rapidly. Crop production is becoming increasingly intensive and large-scale and, as a result, simplified landscape-systems form. Crop production in simplified agricultural landscapes often face or suffer from various threats, such as pest damage (caused by diseases, insect pests, weeds and rodents) or a shortage of pollinators. These pests can cause serious damage to seeds, germination, growth, breeding and maturity during crop production and food storage, however, effective pest management can help to reduce crop loss. Most crops, in particular fruit trees and vegetables, require insect pollination to ensure high yields and high quality. Research into ecosystem services and their potential impact on pest control and pollination in agricultural landscapes is of great significance to sustainable crop production. Simplified and intensive agricultural landscapes can support crop production, but often have reduced biodiversity as monoculture cropping systems have limited surrounding natural habitat. This lack of natural surrounding habitat leads to the loss of ecosystem service benefits such as natural pest control and pollination. Over the past few decades, pest control has largely relied on chemical pesticides which can control pests and reduce crop losses in the short term. However, chemical pesticides cause a number of problems in the long run, for example, pest resistance to pesticides, and residues of pesticides in soil, water, and agricultural products. Excessive, improper, and long-term use of pesticides during crop production ultimately harms human health and biodiversity, especially beneficial microbes, natural enemies and pollinators. To achieve and ensure food security, food safety and ecological security, new theories, methods, practice, and application patterns need to be developed for environmentally friendly pest control and maintenance of pollination in agricultural landscapes for sustainable food production. The aim of this Research Topic is to promote the sustainable management of crop production and ecological environment protection through the discussion of crop pest control and pollination, and the publication of original research articles and reviews of research and theory. We welcome high-quality and original contributions that present original papers on basic and applied research covering aspects of natural pest control and pollination. Coverage for this Research Topic includes the biology and ecology of pollinators (including wild and managed), organisms (including parasitoids, invertebrate and vertebrate predators of insect pest and plants, mites, plant and insect pathogens, nematodes, and weeds) used for biological control, and aspects of use including biological control agents for integrated pest management on food crops, fruits and vegetables in agricultural landscapes. Natural pest control is an environmentally beneficial and effective means of reducing or mitigating pests and pest damage through the use of natural enemies. Ecological, ethological, molecular, and biotechnological approaches to the understanding of natural pest control and pollination in agricultural landscapes are welcome. Such as, by maintaining and increasing crop genetic diversity (not including genetically engineered crops), crop diversity, species diversity (not including genetically altered insects) and landscape diversity in cropping systems.




Crop Pollination by Bees, Volume 2


Book Description

Since the second half of the 20th Century, our agricultural bee pollinators have faced mounting threats from ecological disturbance and pan-global movement of pathogens and parasites. At the same time, the area of pollinator-dependent crops is increasing globally with no end in sight. Never before has so much been asked of our finite pool of bee pollinators. This book not only explores the evolutionary and ecologic bases of these dynamics, it translates this knowledge into practical research-based guidance for using bees to pollinate crops. It emphasizes conserving wild bee populations as well as culturing honey bees, bumble bees, and managed solitary bees. To cover such a range of biology, theory, and practice from the perspectives of both the pollinator and the crop, the book is divided into two volumes. Volume 1 focuses on bees, their biology, coevolution with flowering plants, foraging ecology and management, and gives practical ways to increase bee abundance and pollinating performance on the farm. Volume 2 (this volume) focuses on crops, with chapters addressing crop-specific requirements and bee pollination management recommendations. Both volumes are essential reading for farmers, horticulturists and gardeners, researchers and professionals working in insect ecology and conservation, and students of entomology and crop protection.







Crop Pollination by Bees, Volume 1


Book Description

Since the second half of the 20th Century, our agricultural bee pollinators have faced mounting threats from ecological disturbance and pan-global movement of pathogens and parasites. At the same time, the area of pollinator-dependent crops is increasing globally with no end in sight. Never before has so much been asked of our finite pool of bee pollinators. This book not only explores the evolutionary and ecologic bases of these dynamics, it translates this knowledge into practical research-based guidance for using bees to pollinate crops. It emphasizes conserving wild bee populations as well as culturing honey bees, bumble bees, and managed solitary bees. To cover such a range of biology, theory, and practice from the perspectives of both the pollinator and the crop, the book is divided into two volumes. Volume 1 focuses on bees, their biology, coevolution with plants, foraging ecology and management, and gives practical ways to increase bee abundance and pollinating performance on the farm. Volume 2 (also available from CABI) focuses on crops, with chapters addressing crop-specific requirements and bee pollination management recommendations. Both volumes will be essential reading for farmers, horticulturists and gardeners, researchers and professionals working in insect ecology and conservation, and students of entomology and crop protection.




Pests of Crops in Warmer Climates and Their Control


Book Description

This is a textbook providing basic data about the crop pests and the damage they inflict throughout the tropics and sub-tropics. Each major pest is illustrated by either a line drawing or a photograph, and sometimes the damage can also be seen. A world distribution map is provided for each species. Control measures tend to be general rather than very specific. Most of the pests are insects and mites, but some nematodes, molluscs, birds and mammals are included.




Encyclopedia of Insects


Book Description

Awarded Best Reference by the New York Public Library (2004), Outstanding Academic Title by CHOICE (2003), and AAP/PSP 2003 Best Single Volume Reference/Sciences by Association of American Publishers' Professional Scholarly Publishing Division, the first edition of Encyclopedia of Insects was acclaimed as the most comprehensive work devoted to insects. Covering all aspects of insect anatomy, physiology, evolution, behavior, reproduction, ecology, and disease, as well as issues of exploitation, conservation, and management, this book sets the standard in entomology. The second edition of this reference will continue the tradition by providing the most comprehensive, useful, and up-to-date resource for professionals. Expanded sections in forensic entomology, biotechnology and Drosphila, reflect the full update of over 300 topics. Articles contributed by over 260 high profile and internationally recognized entomologists provide definitive facts regarding all insects from ants, beetles, and butterflies to yellow jackets, zoraptera, and zygentoma. - 66% NEW and revised content by over 200 international experts - New chapters on Bedbugs, Ekbom Syndrome, Human History, Genomics, Vinegaroons - Expanded sections on insect-human interactions, genomics, biotechnology, and ecology - Each of the 273 articles updated to reflect the advances which have taken place in entomology research since the previous edition - Features 1,000 full-color photographs, figures and tables - A full glossary, 1,700 cross-references, 3,000 bibliographic entries, and online access save research time - Updated with online access







Pollination Biology, Vol.1


Book Description

The book covers interplay between pest management strategies and safety of pollinators. Detailed information is provided on pests and pollinators of temperate, subtropical and tropical fruit crops. Most of the fruit crops are highly cross pollinated and depend upon insects or benefit from insect pollination for fruit set. Insect pests on the other hand cause major economic damage on fruit crops in tropics, subtropics and temperate. Evidently, pest management in fruit crops on one hand and providing safety to the pollinators on the other is a challenging task in the context of increasing horticultural productivity without upsetting the ecological balance. This book aims to integrate and develop pest control strategies in a way to minimize their impact on beneficial insect species such as natural enemies and pollinators to enhance fruit production and quality. The book covers interplay between pest management strategies and safety of pollinators. Detailed information is provided on pests and pollinators of temperate, subtropical and tropical fruit crops. Pollinators play a crucial role in flowering plant reproduction and in the production of most fruits and vegetables. Most of the fruit crops are highly cross pollinated and depend upon insects or benefit from insect pollination for fruit set. Insect pests on the other hand cause major economic damage on fruit crops in tropics, subtropics and temperate. Evidently, pest management in fruit crops on one hand and providing safety to the pollinators on the other is a challenging task in the context of increasing horticultural productivity without upsetting the ecological balance. This book aims to integrate and develop pest control strategies in a way to minimize their impact on beneficial insect species such as natural enemies and pollinators to enhance fruit production and quality. Most of the fruit crops are highly cross pollinated and depend upon insects or benefit from insect pollination for fruit set. Insect pests on the other hand cause major economic damage on fruit crops in tropics, subtropics and temperate. Evidently, pest management in fruit crops on one hand and providing safety to the pollinators on the other is a challenging task in the context of increasing horticultural productivity without upsetting the ecological balance. This book aims to integrate and develop pest control strategies in a way to minimize their impact on beneficial insect species such as natural enemies and pollinators to enhance fruit production and quality. The book covers interplay between pest management strategies and safety of pollinators.







The Pollinator Victory Garden


Book Description

The passion and urgency that inspired WWI and WWII Victory Gardens is needed today to meet another threat to our food supply and our environment—the steep decline of pollinators. The Pollinator Victory Garden offers practical solutions for winning the war against the demise of these essential animals. Pollinators are critical to our food supply and responsible for the pollination of the vast majority of all flowering plants on our planet. Pollinators include not just bees, but many different types of animals, including insects and mammals. Beetles, bats, birds, butterflies, moths, flies, and wasps can be pollinators. But, many pollinators are in trouble, and the reality is that most of our landscapes have little to offer them. Our residential and commercial landscapes are filled with vast green pollinator deserts, better known as lawns. These monotonous green expanses are ecological wastelands for bees and other pollinators. With The Pollinator Victory Garden, you can give pollinators a fighting chance. Learn how to transition your landscape into a pollinator haven by creating a habitat that includes pollinator nutrition, larval host plants for butterflies and moths, and areas for egg laying, nesting, sheltering, overwintering, resting, and warming. Find a wealth of information to support pollinators while improving the environment around you: • The importance of pollinators and the specific threats to their survival• How to provide food for pollinators using native perennials, trees, and shrubs that bloom in succession• Detailed profiles of the major pollinator types and how to attract and support each one• Tips for creating and growing a Pollinator Victory Garden, including site assessment, planning, and planting goals• Project ideas like pollinator islands, enriched landscape edges, revamped foundation plantings, meadowscapes, and other pollinator-friendly lawn alternatives The time is right for a new gardening movement. Every yard, community garden, rooftop, porch, patio, commercial, and municipal landscape can help to win the war against pollinator decline with The Pollinator Victory Garden.