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Reviewing the relevant scientific and technical literature, this work summarizes the current state-of-the-art knowledge related to gene flow and introgression (the permanent incorporation of genetic information from one set of differentiated populations into another) between genetically modified crops and their wild relatives. They analyze the biological framework for protecting the genetic integrity of indigenous wild relatives of crops in centers of crop origin and diversity, focusing on the issues of emission, dispersal, and deposition of pollen and/or seed; the likelihood and extent of gene flow from crops to wild relatives; and stabilization and the spread of traits in wild species. The material is organized into crop chapters, each of which covers general biological information of the crop; the most important crop wild relatives together with information about their ploidy levels, diverse genomes, centers of origin, and geographic distribution; the crop's potential for hybridization with its wild relatives; pollen flow studies related to pollen dispersal distances and hybridization rates; the current state of the genetic modification technology regarding that crop; and research gaps. The crop chapters discuss banana and plantain; barley; canola and oilseed rape; cassava, manioc, and yucca; chickpea; common bean; cotton; cowpea; finger millet; maize and corn; oat; peanut and groundnut; pearl millet; pigeonpea; potato; rice; sorghum; soybean; sweet potato, batata, and camote; and wheat and bread wheat.
During the last ten years the enormous global loss of biodiversity has received remarkable attention. Among the numerous approaches undertaken to stop or lessen this process, access and benefit-sharing (ABS), a market-based approach, has emerged as among the most prominent. In theory, ABS turns biodiversity and genetic resources from an open access good to a private good and creates a market for genetic resources. It internalizes the resources’ positive externalities by pricing the commercial values for research and development and makes users pay for it. Users’ benefits are shared with the resource holders and set incentives for the sustainable use and the conservation of biodiversity. Carmen Richerzhagen, however, finds that in practice there are significant questions about the effectiveness of the approach in the protection of biodiversity and about the fair and equitable sharing of benefits arising from the commercialization. Utilizing the empirical findings of three case studies of biodiversity-providing countries - Costa Rica, the Philippines and Ethiopia - and one case study of a community of user countries, the European Union (EU), Richerzhagen examines the effectiveness of ABS through the realization of its own objectives.
Migration and Mobility (1984) examines the biological aspects of population movement, including genetic, anthropometric and psychological aspects. Other contributions deal with geographical and demographic features of human migration. Specific studies are described, and the theoretical framework used to describe population mobility is presented.
Synthesizing theoretical & empirical analyses of the processes that help shape these unique ecosystems, 'Tropical Rainforests' looks at the effects of evolutionary histories, past climate change, & ecological dynamics on the origin & maintenance of tropical rainforest communities.
Molecular techniques in the study of gene flow, genetics, phenomics, adaptation, etc., of bacteria and viruses are most successful and have enabled scientists all over the world to understand and bring to the fore underlying causes of numerous diseases as well as harmful and beneficial effects of the activities of these microorganisms. Such study also helps through genetic variation and adaptive variance to mitigate or enhance the effects of such activities. "Gene Flow and Molecular Biology : Ecological Perspective" present study of microorganisms--bacteria and viruses--through identification of study area or problem, specific species concerned, genetic variation and adaptation and outcomes, using molecular techniques. Looking into effects of genetic variation and concept of gene flow, numerous deleterious diseases are investigated along with beneficial use of molecular techniques. Each chapter represents study of individual aspect of these microorganisms in specific situation investigated by expert team of researchers.
With recent technological advances, vast quantities of genetic and genomic data are being generated at an ever-increasing pace. The explosion in access to data has transformed the field of evolutionary genetics. A thorough understanding of evolutionary principles is essential for making sense of this, but new skill sets are also needed to handle and analyze big data. This contemporary textbook covers all the major components of modern evolutionary genetics, carefully explaining fundamental processes such as mutation, natural selection, genetic drift, and speciation. It also draws on a rich literature of exciting and inspiring examples to demonstrate the diversity of evolutionary research, including an emphasis on how evolution and selection has shaped our own species. Practical experience is essential for developing an understanding of how to use genetic and genomic data to analyze and interpret results in meaningful ways. In addition to the main text, a series of online tutorials using the R language serves as an introduction to programming, statistics, and analysis. Indeed the R environment stands out as an ideal all-purpose source platform to handle and analyze such data. The book and its online materials take full advantage of the authors' own experience in working in a post-genomic revolution world, and introduces readers to the plethora of molecular and analytical methods that have only recently become available. Evolutionary Genetics is an advanced but accessible textbook aimed principally at students of various levels (from undergraduate to postgraduate) but also for researchers looking for an updated introduction to modern evolutionary biology and genetics.
When we consider the main object of forestry, the tree, it immediately becomes clear why experimental population geneticists have been so hesitant in making this object a primary concern of their research. Trees are very long-living organisms with generation intervals frequently exceeding those of their investigators by multiples. They virtually exclude, therefore, application of the classical methods of population genetics since these are based on observing genetic structures over generations. This situation, where the limits set to observation are so severe, particularly requires close cooperation between theory and experiment. It also requires careful consideration of results obtained for organisms other than trees, in order to gain additional insights by comparing the results for trees with those for other organisms. Yet, the greatest challenge to population and ecological genetics probably originates from the fact that forests are very likely to be the most complex ecosystems of all, even in some cases where they are subject to intense management. This complexity, which equally comprises biotic and abiotic factors varying both in time and space, makes extremely high demands on the adaptational capacity and thus flexibility of the carriers of such an ecosystem. Longevity combined with immobility during the vegetative phase, however, appears to contradict the obvious necessity of adaptational flexibility in forest tree populations when compared with short lived and/or mobile organisms.