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Nematode Worms
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Nematodes as Biocontrol Agents
This book documents and illustrates major developments in the use of nematodes for the biological control of insects and slugs. It covers the use of three main types of nematodes: entomopathogenic nematodes, entomophilic nematodes and slug-parasitic nematodes. The biology, commercial production, formulation and quality control, application technology, strategy and safety of each of these three nematode groups is discussed. The book also examines the application of nematodes in different cropping systems, and the efficacy of nematodes against specific pests. The potential of predatory nematodes to control plant-parasitic nematodes and mycophagous nematodes to control fungal pathogens is also reviewed.
Plant Nematodes of Agricultural Importance
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.
Handbook of Invasive Plant-Parasitic Nematodes
Plant parasitic nematodes are major pests of agricultural crops and cause huge monetary losses. There is a very high risk of spread of plant-parasitic nematodes from one country to another, with the movement of plants and planting materials such as seeds, bulbs, corms, suckers, tubers, rhizomes, rooted plants, nursery stock and cut flowers. In view of the large quantities and the wide variety of materials being imported and exported, it is important to assess the status of invasive nematodes and their quarantine importance in relation to agricultural trade. This book contains information on around 100 invasive nematodes and their potential threat in different countries. Each nematode entry i...
Concepts in Nematode Systematics
General principles for the phylogenetic systematic of nematodes; Phylogenetic systematics: problems, achievements and its application to the nematoda; Nematoda higher classification as influenced by species and family concepts; The use of the subspecies and the superspecies categories in nematode taxonomy; Cytogenetic aspects of nematode evolution; The use of the female reproductive system in nematode systematics; Observations on spermatozoa in aquatic nematodes; Scanning electron microscopy as a tool in nematode taxonomy; Evolution of plant parasitism in nematodes; Tylenchidae: morphological diversity in a natural, evolutionary group; Phylogeny, historical biogeography and the species conce...
Root-knot Nematodes
This book provides an overview (chapter 1) of the general biology, ecology and economic importance of root-knot nematodes (Meloidogyne spp.), and covers in detail the following: general morphology (chapter 2); taxonomy, identification and principal species (chapter 3); biochemical and molecular identification (chapter 4); molecular taxonomy and phylogeny (chapter 5); hatch and host location (chapter 6); invasion, feeding and development (chapter 7); reproduction, physiology and biochemistry (chapter 8); survival mechanisms (chapter 9); interactions with other pathogens (chapter 10); population dynamics and damage levels (chapter 11); sampling (chapter 12); mechanisms and genetics of resistance (chapter 13); development of resistant cultivars (chapter 14); plant biotechnology and control (chapter 15); complete sequence of the genomes of M. incognita and M. hapla (chapter 16); biological control using microbial pathogens, endophytes and antagonists (chapter 17); current and future management strategies in intensive crop production systems (chapter 18); and current and future management strategies in resource-poor farming (chapter 19).
Integrated Management of Fruit Crops and Forest Nematodes
This series originated during a visit of prof. K. G. Mukerji to the CNR Plant Protection Institute at Bari, Italy, in November 2005. Both editors convened to produce a series of five volumes focusing, in a multi-disciplinary approach, on recent advances and achievements in the practice of crop protection and integrated pest and disease management. This fourth Volume deals with management of nematodes parasitic of tree crops, and includes a section on tropical fruit crops and commodities, as well as a second section on tree crops from more temperate areas. The latter also includes a chapter updating the current knowledge about the pine wood nematode, Bursaphelenchus xylophilus. Volume 4 flank...
Root-knot Nematodes
Root-knot nematodes are the most economically important group of plant-parasitic nematodes worldwide, and their control presents a major global challenge. Advances are being made in understanding their biology, host-parasite interaction and management strategies. Covers the taxonomy, classification, morphology, life-cycle biology, genomes, resistance, sampling, detection, and management strategies of these pests.
Nematodes
Nematode worms - living as parasites of virtually every species of plant and animal, and inhabiting terrestrial, fresh water, and marine habitats - exert a powerful effect on the Earth's biosphere. While nearly 20,000 species have been described, it is estimated that 80,000 to 1,000,000 species of nematodes actually exist. Best known as parasitic disease carriers and crop destroyers, the more abundant free-living (nonparasitic) nematode species play instead a valuable ecological role.
