Burnet Media
Burnet Media is an independent publisher based in Cape Town, South Africa. We specialise in forging close author-publisher partnerships for trade and customised projects.
View Rights PortalBurnet Media is an independent publisher based in Cape Town, South Africa. We specialise in forging close author-publisher partnerships for trade and customised projects.
View Rights PortalPlay yourself happy! The educational-therapeutic games and materials of our Sternwiese-Verlag enable individual access to the child's emotions and thoughts. With help of exciting strategies, unique concepts and personable characters will be developing and strengthening of social and emotional skills varied support.
View Rights PortalScale insects feed on plant juices and can easily be transported to new countries on live plants. They sometimes become invasive pests, costing billions of dollars in damage to crops worldwide annually, and farmers try to control them with toxic pesticides, risking environmental damage. Fortunately, scale insects are highly susceptible to control by natural enemies so biological control is possible. They have unique genetic systems, unusual metamorphosis, a broad spectrum of essential symbionts, and some are sources of commercial products like red dyes, shellac and wax. There is, therefore, wide interest in these unusual, destructive, beneficial, and abundant insects. The Encyclopedia of Scale Insect Pests is the most comprehensive work on worldwide scale insect pests, providing detailed coverage of the most important species (230 species in 26 families, 36% of the species known). Advice is provided on collection, preservation, slide-mounting, vouchering, and labelling of specimens, fully illustrated with colour photographs, diagrams and drawings. Pest species are presented in two informal groups of families, the 'primitive' Archaeococcids followed by the more 'advanced' Neococcids, covered in phylogenetic order. Each family is illustrated and diagnosed based on features of live and slide-mounted specimens, with information on numbers of genera and species, main hosts, distribution, and biology. For the important pest species, coverage includes information on the morphology of live and slide-mounted specimens, common names, principal synonyms, geographical distribution, plant hosts, plant damage and economic impact, reproductive biology, dispersal, and management strategies including biological, cultural and chemical control, sterile insect techniques, regulatory control, early warning systems and field monitoring. An additional complete list of scale insect pests worldwide is provided, comprising 642 species in 28 scale insect families (about 8% of the 8396 species of living scales known), with information on plant hosts, geographical distribution and validation sources. Beneficial uses of scale insects as sources of red dyes, natural resins and waxes, as agents for invasive weed control. The importance of their honeydew to bees for making honey, and as a food source to other animals, are included. Academic researchers, students, entomologists, pest management officials in agribusiness or government including plant quarantine identifiers, extensionists, farmers, field scientists and ecologists will all benefit from this book.
Schistosomiasis is Africa's second most prevalent infectious disease, but in many high-risk areas the Schistosomiasis Control Initiative (SCI) has helped achieve up to a 75% reduction in its prevalence. Exploring the work and experiences involved in forming, establishing and managing a health intervention such as the SCI, this book divulges important lessons for anyone looking to replicate its success. Widely recognised as a cost-effective and successful intervention, its knock-on effects include improving overall physical health, school attendance and future prospects. Evaluating the SCI's development, implementation and results through an engaging personal story and written in an approachable style, this book covers: - Key strategic challenges faced and how the SCI overcame them to achieve and maintain low infection rates; - Methods used for raising funding for control and drug donations; - Mobilisation and mechanics of partnerships to facilitate supply and access to drugs; - Nature of working relationships and implementation across Africa; - Ways in which schistosomiasis control can be integrated into, and serve as a model for, other Neglected Tropical Disease programmes (NTD). Written from Professor Alan Fenwick's unique perspective as Director of the SCI, The Schistosomiasis Control Initiative is an essential resource for researchers, policymakers, health professionals and students in the fields of NTD control and global health.
Investigation of insect pathogens is vital to the understanding of biocontrol and insect management within an ecosystem. Faster and more accurate methods of identification and diagnosis have become possible with the implementation of molecular techniques. Advances in genomics and genetic engineering make this manual the most up to date handbook on insect pathogens, with the latest information on methods used to unravel the genomes of pathogens. The book is divided into four sections covering: Identification and Diagnostics, Evolutionary Relationships and Population Genetics, Genomics, and Genetic Engineering. It is essential reading for those studying and researching at the forefront of molecular science and biological management.
Insects provide excellent model systems for understanding evolutionary ecology. They are abundant, small, and relatively easy to rear, and these traits facilitate both field and laboratory experiments. This book has been developed from the Royal Entomological Society's 22nd international symposium, held in Reading in 2003. Topics include speciation and adaptation; life history, phenotype plasticity and genetics; sexual selection and reproductive biology; insect-plant interactions; insect-natural enemy interactions; and social insects.
Insects, being poikilothermic, are among the organisms that are most likely to respond to changes in climate, particularly increased temperatures. Range expansions into new areas, further north and to higher elevations, are already well documented, as are physiological and phenological responses. It is anticipated that the damage by insects will increase as a consequence of climate change, i.e. increasing temperatures primarily. However, the evidence in support of this common “belief” is sparse. Climate Change and Insect Pests sums up present knowledge regarding both agricultural and forest insect pests and climate change in order to identify future research directions.
Insects, being poikilothermic, are among the organisms that are most likely to respond to changes in climate, particularly increased temperatures. Range expansions into new areas, further north and to higher elevations, are already well documented, as are physiological and phenological responses. It is anticipated that the damage to crops and forests by insects will increase as a consequence of climate change, i.e. increasing temperatures primarily. However, the evidence in support of this common "belief" is sparse. Climate Change and Insect Pests sums up present knowledge regarding both agricultural and forest insect pests and climate change in order to identify future research directions.
A companion to 'Urban Pest Management', this book builds on the issues of insect pests in urban settings to discuss control strategies that look beyond products. From an environmental and health perspective, it is not always practical to spray chemicals indoors or in urban settings, so this work discusses sustainable control and best practice methods for managing insects that are vectors of disease, nuisance pests and the cause of structural damage.
A companion to 'Urban Pest Management', this book builds on the issues of insect pests in urban settings to discuss control strategies that look beyond products. From an environmental and health perspective, it is not always practical to spray chemicals indoors or in urban settings, so this work discusses sustainable control and best practice methods for managing insects that are vectors of disease, nuisance pests and the cause of structural damage.
Knowledge of insect movement, particularly of flight, is crucial to our understanding of the great ecological and evolutionary success of insects. The last 20 years have seen many advances in this subject area. New fields have arisen, such as metapopulation theory, and dramatic developments have taken place in methods of studying movement, as a result of new techniques in molecular biology and radar monitoring. There have also been advances in our knowledge of flight-related physiology and behaviour. This book, which is based on the main papers presented at the Royal Entomological Society's 20th Symposium held in September 1999, brings us up to date with these developments.It contains chapters on:flight mechanismsforaging movementsmigrationthe evolution of movement strategiesthe interactions between dispersal rates, population structure and gene flow the effects of climate change on geographical distributionIt is essential reading for entomologists, and of interest to those researching animal behaviour, physiology, ecology and genetics.
In an age of unprecedented human impact on the environment, insect conservation biology is of increasing importance. Due to their abundance, diversity and rapid response to environmental changes, insects are also valuable indicators of wider biodiversity, and make excellent models for conservation research and monitoring. Over 50 international experts have contributed to this authoritative and up-to-date compendium, covering many topics including climate change, habitat management, ecosystem processes, conservation genetics, impact of GM technology, and the integration of insects into wider conservation agendas.
Many farmers in sub-Saharan Africa suffer heavily from crop losses due to stem borer pests. Insecticides are often unaffordable; therefore, maize plants must be made resistant to pests. The 'Insect Resistant Maize for Africa' (IRMA) project in Kenya was aimed at developing new maize varieties both by conventional methods and by biotechnologically incorporating the ?-endotoxin produced by the soil bacterium Bacillus thuringiensis. The author gives an impartial and chronological account of this exemplary project between 1999 and 2008, supplemented by discussions of agricultural development policy and descriptions of Kenyan smallholders and the project team. Taking critical and rational positions on the use of modern plant breeding techniques, biotechnology and development policy, this book is of interest to researchers and students, development agencies, NGOs and biotechnology companies.
This book comprehensively reviews current pest management practices and explores novel integrated pest management strategies in Brassica oilseed crops. It is essential reading for pest management practitioners and researchers working on pest management in canola and other Brassica crops worldwide. Canola, mustard, camelina and crambe are the most important oilseed crops in the world. Canola is the second largest oilseed crop in the world providing 13% of the world's supply. Seeds of these species commonly contain 40% or more oil and produce meals with 35 to 40% protein. However, its production has declined significantly in recent years due to insect pest problems. The canola pest complexes are responsible for high insecticide applications on canola. Many growers rely on calendar-based spraying schedules for insecticide applications. The diamondback moth Plutella xylostella and flea beetles Phyllotreta spp. (P. cruciferae and P. striolata)cause serious damage to canola. In the Northern Great Plains, USA, for instance, P. xylostella is now recorded everywhere that canola is grown. Severe damage to canola plants can be caused by overwintering populations of flea beetles feeding on newly emerged seedlings. Cabbage seed pod weevil (Ceutorhynchus obstrictus), swede midge (Contarinia nasturtii), and tarnished plant bug (Lygus lineolaris) are also severe pests on canola. Minor pests include aphids (cabbage aphid, Brevicoryne brassicae and turnip aphid, Hyadaphis erysimi) and grasshopper, Melanoplus sanguinipes. This book: · is the only single compiled source of information on integrated management of canola and other Brassica oilseed pests · presents the biology and management of all the major and minor pests of Brassica oilseed crops · is an essential source of information for applied entomologists, crop protection researchers, extension agents and stakeholders ; This book reviews current pest management practices and explores new biological and chemical control methods, and integrated pest management strategies in this important crop. It is essential reading for pest management practitioners and researchers working on pest management in canola crops worldwide. ; 1: Flea Beetles (Phyllotreta spp.) and Their Management2: Diamondback Moth (Plutella xylostella) Management3: The Challenge of Swede Midge Management in Canola4: Biology and Management of Sucking Insect Pests of Canola5: Cabbage Seedpod Weevil Management6: Biology, Ecology and Management of Pollen Beetle Brassicogethes viridescens (Coleoptera: Nitidulidae)7: Noctuid (Lepidoptera: Noctuidae) Pests of Canola in North America8: Biology and Management of the Generalist Herbivore, the Bertha Armyworm, Mamestra Configurata (Lepidoptera: Noctuidae), on Canola in Western Canada9: Entomopathogenic Nematodes for Management of Insect Pests of Canola and Other Oilseed Crops10: The OKANOLA Project: Challenges in Managing Insect Pests of Canola in the Southern Plains11: Integrated Pest Management in Canola: How Far Have We Come and What Is Still Needed12: Canola Insect Pest Management in the South-eastern USA13: Integrated Management of Insect Pests of Rapeseed (Canola) in China14: Integrated Control of Insect Pests of Canola and Other Brassica Oilseed Crops in Pakistan15: Cover Crops as a Tool for Insect Pest Management on Oilseed Brassicas16: Detection and Symptomatology of Aster Yellows17: Pestiferous Insects of Mustard: Biology and Integrated Management18: Volatile Organic Compounds in Integrated Pest Management of Brassica Oilseed Crops19: Impact of Genetically Modified Herbicide-resistant Oilseed Rape on Non-target Organisms: Natural Enemies of Oilseed Rape Pests20: Insect-transmitted Viruses in Canola21: Present and Potential Impacts of Insects on Camelina and Crambe22: Integrated Pest Management and Pollination Services in Brassica Oilseed Crops23: Role of Glucosinolates in Resistance and Attraction to Insects: Applications in Trap Cropping and Pest Management in Brassica Oilseed Crops24: Arthropod Pests of Australian Canola During Crop Emergence: IPM and Future Directions25: Use of Entomopathogenic Fungi in the Insect Pest Management of Brassica Oilseed Crops
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.