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  • Book
    Gongshe Liu, Xiaoxia Li, Qingfen Zhang, editors.
    Summary: This book summarizes the latest research on sheepgrass, both in China and around the globe, as well as fundamental information on the topic. Sheepgrass (Leymus chinensis (Trin.) Tzvel) is a key species in the eastern part of the Eurasian steppe and widely distributed in northern China. It is highly adaptable and holds considerable value in terms of animal husbandry and ecology / the environment. Over the past thirty years, Chinese scientists have collected and evaluated a wealth of wild sheepgrass germplasm data, and extensive basic research has been conducted on the plants sexual reproduction, yield, quality, and resistance. In addition, methods for utilizing new varieties in different regions have been developed. This book describes the distribution and origin, breeding, cultivation, and sexual reproduction of sheepgrass. It also discusses recent advances concerning its nutrient and water absorption and applications, grazing resistance mechanism, and gene resources mining.

    Contents:
    Intro; Foreword; Acknowledgment; Abstract; Contents; About the Author;
    Chapter 1: Basic Knowledge of Sheepgrass (Leymus chinensis); 1.1 Value and Distribution of Sheepgrass; 1.1.1 Derivation of the Name Sheepgrass; 1.1.2 Relatives of Sheepgrass; 1.1.3 Distribution of Wild Sheepgrass; 1.1.4 Cultivation Areas of Sheepgrass in China; 1.1.5 Animals Preferring to Eat Sheepgrass; 1.1.6 Advantages of Sheepgrass; 1.1.7 Nutrient Components of Sheepgrass; 1.1.8 Nutritional Changes of Sheepgrass at Different Stages of Growth; 1.1.9 Value of Sheepgrass in Grazing and Feeding 1.1.10 Domestic and Foreign Demands for Sheepgrass1.1.11 Purpose of Fresh and Dried Sheepgrass; 1.1.12 Other Value of Sheepgrass; 1.1.13 Usage of Sheepgrass to Prevent Water Loss and Soil Erosion; 1.1.14 Usage of Sheepgrass for Wind Prevention, Sand Fixation, and Dust Suppression; 1.1.15 Benefits of Sheepgrass Feeding Animals; 1.2 Morphology and Development of Sheepgrass; 1.2.1 Plant Height of Sheepgrass; 1.2.2 Root System of Sheepgrass; 1.2.3 Sheepgrass Stem; 1.2.4 Sheepgrass Leaves; 1.2.5 Rhizome of Sheepgrass; 1.2.6 Seed of Sheepgrass; 1.2.7 Spike and Flower of Sheepgrass 1.2.21 Light and Heat Conditions for the Growth of Sheepgrass1.2.22 Resistance of Sheepgrass to Grazing and Trampling; 1.2.23 Freezing Resistance of Sheepgrass; 1.2.24 Drought Resistance of Sheepgrass; 1.2.25 Saline-Alkali Resistance of Sheepgrass; 1.2.26 Common Diseases of Sheepgrass; 1.2.27 Pests of Sheepgrass; 1.2.28 Competitions Between Sheepgrass and Weeds; 1.3 New Varieties and Seed Production of Sheepgrass; 1.3.1 Certified Varieties of Sheepgrass; 1.3.2 Basic Requirements in Sheepgrass Seed Production; 1.3.3 Requirements for New Forage Variety Approval 1.2.8 Leaf Thorn of Sheepgrass1.2.9 Life Cycle of Sheepgrass; 1.2.10 Seed Germination of Sheepgrass; 1.2.11 Seed Dormancy of Sheepgrass; 1.2.12 Development of Sheepgrass; 1.2.13 Definitions of Different Developmental Stages of Sheepgrass in Agricultural Production; 1.2.14 Two Ecotypes of Sheepgrass; 1.2.15 Self-Pollination and Open Pollination of Sheepgrass; 1.2.16 Vegetative Propagation of Sheepgrass; 1.2.17 Rhizome and Tillering of Sheepgrass; 1.2.18 Seed Holding of Sheepgrass; 1.2.19 Pollination of Sheepgrass; 1.2.20 Degradation of Sheepgrass Land by Overgrazing 1.3.4 Seed Quality Standards and Ratings of Sheepgrass1.3.5 Breeder's Stock, Foundation Seed, and Commercial Seed; 1.3.6 Major Factors Influencing Sheepgrass Seed Yield; 1.3.7 Seed Yield Improvement by Applying Nitrogen (N), Phosphate (P), and Potassium (K) Fertilizers in Spring; 1.3.8 Seed Yield Improvement by Applying Microelement Fertilizers and Microbial Manures in Spring; 1.3.9 Ripeness and Harvesting Stages of Sheepgrass Seed; 1.3.10 Seed Harvesting Methods; 1.3.11 Seed Drying and Storage; 1.3.12 Seed Quality Testing Indicators; 1.3.13 DNA Can Be Used for Seed Identification
    Digital Access Springer 2019
  • Article
    Khoury SA.
    Am J Epidemiol. 1978 May;107(5):433-8.
    In early January, 1976, an outbreak of gastroenteritis caused by contamination of the water supply system occurred in Salt, Jordan. This outbreak was followed by the appearance of peripheral neuropathy in 19 cases diagnosed as Guillain-Barré Syndrome. Clinically, gastroenteritis was suggestive of Shigellosis and one of nine patients with Guillain-Barré Syndrome, grew Shigella boydii. Epidemiology of the 19 cases with peripheral neuropathy is detailed. Seventeen patients had definite gastroenteritis symptoms prior to their neuropathy. The median incubation period was seven days.
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