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Plants provide insects with a range of specific foods, such as nectar, pollen and food bodies. In exchange, they may obtain various services from arthropods. The role of food rewards in the plant-pollinator mutualism has been broadly covered. This book, first published in 2005, addresses another category of food-mediated interactions, focusing on how plants employ foods to recruit arthropod 'bodyguards' as a protection against herbivores. Many arthropods with primarily carnivorous lifestyles require plant-provided food as an indispensable part of their diet. Only recently have we started to appreciate the implications of non-prey food for plant-herbivore-carnivore interactions. Insight into this aspect of multitrophic interactions is not only crucial to our understanding of the evolution and functioning of plant-insect interactions in natural ecosystems, it also has direct implications for the use of food plants and food supplements in biological control programs. This edited volume provides essential reading for all researchers interested in plant-insect interactions.
John C. Walker -- George F. Sprague -- Sir Kenneth Blaxter -- Jay L. Lush -- Karl Maramorosch -- John O. Almquist -- Henry A. Lardy -- Glenn Wade Salisbury -- Wendell L. Roelofs -- Cornelis T. De Wit -- Don Kirkham -- Robert H. Burris -- Sir Ralph Riley, F.R.S. -- Ernest R. Sears -- Theodor O. Diener -- Ernest John Christopher Polge -- Charles Thibault -- Peter M. Biggs -- Michael Elliott -- Jozef Stefaan Schell -- Shang Fa Yang -- John E. Casida -- Perry L. Adkisson -- Carl B. Huffaker -- Morris Schnitzer -- Frank J. Stevenson -- Neal L. First -- Ilan Chet -- Baldur Rosmund Stefansson -- Gurdev S. Khush -- Roger N. Beachy -- James E. Womack -- Fuller W. Bazer -- R. Michael Roberts -- Steven D. Tanksley -- Longping Yuan -- Michel A.J. Georges -- Ronald L. Phillips -- John Anthony Pickett, CBE, DSc, FRS -- James H. Tumlinson -- W. Joe Lewis
This book provides an overview of chemical ecology related to different ecosystems. It offers an outlook at novel directions that can be taken in chemical ecology through a molecular-ecological or eco-genomic approach. The book addresses aboveground and belowground terrestrial systems as well as aquatic systems, and the organisms involved are micro- and macro-organisms, such as plants, arthropods and mammals.
If farmers had to pollinate fruit and vegetables without the help of insects it would cost hundreds of millions of pounds and we would all be stung by rising food prices. Defra Ministers, however, have refused to back EU efforts to protect pollinators. Disease, habitat loss and climate change can all affect insect populations, but a growing body of research suggests that neonicotinoids are having an especially damaging impact on pollinators. The weight of scientific evidence now warrants precautionary action, so the Committee is calling for a moratorium on pesticides linked to bee decline to be introduced by 1 January next year. An EU-wide moratorium on the use of imidacloprid, clothianidin ...
Come into the Cathedral of the Earth to worship and to... find out how "swarm intelligence" is creating smarter phone systems inspired by the creativity and collective wisdom of the common ant; discover what happens when a visionary artist travels to Africa to bury the portraits of 23 primates who died in a Philadelphia zoo; ponder how cultures as diverse as the Cherokee, Chinese, Egyptians, and ancient Hindus identified the night's brightest star with a canine spirit guide; explore how meditation practice helps a Buddhist beekeeper fend off a disease that threatens most of the world's honeybees. These true stories and many more will make you laugh, weep, and marvel at the amazing creatures who share our planet, from the earthworm to the elephant, all in Blessings of the Animals.
We should thank a pollinator at every meal. These diminutive creatures fertilize a third of the crops we eat. Yet half of the 200,000 species of pollinators are threatened. Birds, bats, insects, and many other pollinators are disappearing, putting our entire food supply in jeopardy. In North America and Europe, bee populations have already plummeted by more than a third and the population of butterflies has declined 31 percent. Protecting Pollinators explores why the statistics have become so dire and how they can be reversed. Jodi Helmer breaks down the latest science on environmental threats and takes readers inside the most promising conservation initiatives. Efforts include famers reduci...
Insect Learning is a comprehensive review of a new field. Until recently, insects were viewed as rigidly programmed automatons; now, however, it is recognized that they can learn and that their behavior is plastic. This fundamental change in viewpoint is causing a re-examination of all aspects of the relationship between insects and their environment. This change in perspective is occurring at a time of heightened interest in brain function in both vertebrates and invertebrates. Insects potentially play a major role in this expanding area. Because of their experimental tractability and genetic diversity, they provide unique opportunities for testing hypotheses on the ecology and evolution of learning. As organisms of economic importance, they are perennial objects of research by both basic and applied scientists. Insect Learning covers both social and non-social insects from multiple perspectives. The book covers mechanisms; syntheses of work on physiology, behavior, and ecology; and micro- and macroevolution. The concluding section discusses future directions for research, including applications to pest management.
This book focuses on entomovectoring, also known as apivectoring, the method used for managing pollinators to increase crop yields and employ strategies of biocontrol in greenhouses and open fields. It is written by experts working in academia and industry from the different continents of the world. Over the past 25 years Research and Development has successfully investigated the potential of pollinators to perform two tasks: dispersal of biological control agents (BCOs) and their pollination service. This book provides a basic overview of the current literature on the different aspects and factors of this novel technology. It explains and presents practical cases of enhancing pollination coupled with the suppression of plant pathogens and pests under various agricultural production practices from greenhouse to open field conditions and crops ranging from orchard fruits, to small and tender berries, vegetables and oil seeds