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The future of mankind depends on ever-increasing agricultural production to provide food, fibre, fuel and other essential commodities. This can only be achieved through a sound knowledge of the plants which feature prominently in agriculture. This book describes these plants in detail, together with the products which are obtained from them. The opening chapter on world population and food supply is followed by a general introduction to plant structure. The major part of the book then considers economically important field crops and pasture plants of temperate and subtropical regions on a family-by-family basis. Fruit crops, flowers and trees are not considered. The book concludes with a discussion of physiological principles of crop growth and yield. This is an introductory text, suitable for the teaching of agricultural botany to undergraduate students, and is intended to bridge the gap between classical botany and agronomy.
This work integrates basic biotechnological methodologies with up-to-date agricultural practices, offering solutions to specific agricultural needs and problems from plant and crop yield to animal husbandry. It presents and evaluates the limitations of classical methodologies and the potential of novel and emergent agriculturally related biotechnologies.
This work powerfully asserts the idea that rather than using pesticides, the key to helping crops resist attacks from pests is to improve their strength through natural processes. Many of industrial agriculture's fundamental principles for fighting disease, in particular the reliance on pesticides and fertilizers, are explained and convincingly challenged and a new set of guiding principles for an ecological agricultural system are presented as a genuine alternative to the widespread use of chemicals.
Banana farming is the basis for commercial fruit trading. Every banana plant generates waste biomass nearly ten times the quantity of its fruits. Disposal of waste biomass is a burden for the farmers. Economical use of the waste biomass can bring financial benefit to banana farmers. Use of organic potash in lieu of inorganic potash affords higher yield and also helps to preserve the ecosphere of soil for subsequent crops. Agricultural Benefits of Postharvest Banana Plants details the use of postharvest banana plants for agriculture and trade. Eleven chapters explain both traditional and modern uses of banana plants. The reader is informed how bio-waste from postharvest banana plants (including their stems) can be used as organic potash to replace inorganic potash (muriate of potash) in fertilizer. Experimental uses of banana plant pseudo-stem juice for growing different crops along with chemical analysis of the pseudo-stems are explained in separate chapters. Isolations of potassium chloride and potassium carbonate have also been discussed in the latter part of the book. This book is an ideal handbook for professionals and trainees interested in utilizing postharvest banana plants for sustainable agriculture and trade. The information is also useful for students and teachers involved in agricultural biotechnology and traditional agriculture courses.
This text provides statistical and biometrical procedures for designing, conducting, analyzing and interpreting field experiments. It addresses the most important research topics in agriculture, including agronomy, breeding and pasture trials; farming systems research; and intercropping research.
As biological diversity continues to shrink at an alarming rate, the loss of plant species poses a threat seemingly less visible than the loss of animals but in many ways more critical. In this book, one of America's leading ethnobotanists warns about our loss of natural vegetation and plant diversity while providing insights into traditional Native agricultural practices in the Americas. Gary Paul Nabhan here reveals the rich diversity of plants found in tropical forests and their contribution to modern crops, then tells how this diversity is being lost to agriculture and lumbering. He then relates "local parables" of Native American agriculture—from wild rice in the Great Lakes region to wild gourds in Florida—that convey the urgency of this situation and demonstrate the need for saving the seeds of endangered plants. Nabhan stresses the need for maintaining a wide gene pool, not only for the survival of these species but also for the preservation of genetic strains that can help scientists breed more resilient varieties of other plants. Enduring Seeds is a book that no one concerned with our environment can afford to ignore. It clearly shows us that, as agribusiness increasingly limits the food on our table, a richer harvest can be had by preserving ancient ways. This edition features a new foreword by Miguel Altieri, one of today's leading spokesmen for sustainable agriculture and the preservation of indigenous farming methods.
Invasive plants have an impact on global biodiversity and ecosystem function, and their management is a complex task. The aim of this book is to discuss fundamental questions of invasion ecology, such as why particular communities become more invasible than others, what the mechanisms of exclusion of native species by invaders are, and whether invasion can be predicted. In addition, agricultural practices influencing invasion, the environmental and economic costs of invasion as well as possible management strategies are discussed. Readers will get a unique perspective on invasion ecology through employing general principles of ecology to plant invasions.
Plant Nematode Biology and Parasitism; Migratory ectoparasites; Soybean: Glycine max; Peanut (groundnut): Arachis hypogeae; Other beans and peas; Vegetables; Vegetable crops; Flowers; Flower crops; Cereais; Rice: Oryza sativa; Maize: Zea mays L.; Wheat: Triticum aestrivum; Root and Tuber Crops; Potato: Solanum tuberosum; Sweet potato: Ipomoea batatas; Yams: Dioscorea spp.; Cassava: Manihot esculenta; Taro: Colocasia esculenta; Ginger: Zingiber officinale; Carrot: Daucus caro ta; Sugar beet: Beta vulgaris; Tree, Plantation, and Cash Crops; Banana and plantain: Musa spp.; Black pepper: Piper nigrum; Citrus crops; Coconut: Cocos nucifera; ail palm: Elaeis guineensis; Cotton: Gossypium spp.; Tobacco: Nicotiana tabacum; Coffee: Coffeae spp.; Sugarcane: Saccharum officinarum; Pineapple: Ananas comosus; Deciduous fruit and nut crops; Collection, Extraction, and Preservation of Nematodes for Oiagnosis; Collecting samples; Care of samples after collection; Extraction of nematodes from soiI and plant samples; Staining nematodes in plant tissues; Nematode identification.
Crop improvement; Gene transfer; A tools for fundamental plant science; Somatic cell genetics; Applying the tools of biotechnology to agricultural problems; Policy and institutional considerations; University-industry relations; Safety regulations.