Rhizomania (eBook)

Dr. Enrico Biancardi graduated in agronomy at the University of Bologna. At the Istituto Sperimentale per le Colture Industriali (formerly Stazione Sperimentale di Bieticoltura, Rovigo), he was devoted to, among other things, improving the processing quality of sugar beet in relation to the nitrogen content of the soil. Since 1977, his activity has been directed towards the breeding of resistances to cercospora leaf spot and, above all, to rhizomania. Selecting within the germplasm stored in the Institute, including hybrids made with Beta maritima collected along the Mediterranean coasts, several male-sterile lines and varieties have been developed, released, and utilized commercially. A significant part of the activity on Beta maritima was carried out in collaboration with the USDA-ARS Stations. He has authored and edited books, chapters, and around 150 publications. Retired in 2009, he currently collaborates with some American, English, and Italian breeders. "Tetsuo Tamada was born in Hokkaido in 1941, is a graduate of Yamagata University, and obtained a PhD from Hokkaido University.  He joined the Hokkaido Central Agricultural Experiment Station from 1964-1995 and was  visiting scientist at the James Hutton Institute (formerly Scottish Crop Research Institute), UK, for 18 months (1979-1980). He accepted a position as  Professor of Institute of Plant Science and Resources (formerly Research Institute for Bioresources), Okayama University from 1995-2007 and has been a Special Adviser of Agricultural Research Institute, Hokuren Federation of Agricultural Cooperatives, since 2013. His research interests include plant pathology, virology, and molecular biology. Prof. Tamada has published over 150 research papers and reviews on the topic of plant viruses". 

1   Introduction      1.1  Beets and Sugar Beets    1.2  Abiotic Stresses     1.3  Pests and Diseases    1.4  Rhizomania and Economic Damages2   Rhizomania: History and Current Status     2.1  First Observations and Investigations     2.2  Etiology     2.3  Histological Observations     2.4  Spreading of the Disease3  The Causal Agents: Beet Necrotic Yellow Vein       Virus     3.1  Host Range and Symptoms    3.2  Strains    3.3  Transmission by Vectors     3.4  Properties of Virus Particles    3.5  Properties of Genome    3.6  Effect of Small RNA Species on Root             Symptoms    3.7  Cytopathological Effect    3.8  Detection and Diagnosis     3.9  Other Soil-Borne Viruses Associated with            Rhizomania4  Molecular Biology and Replication of Beet         Necrotic Yellow Vein Virus     4.1  Replication and Cis elements    4.2  Origin of Assembly      4.3  Movement    4.4  Pathogenicity Determinants and Counter            Defense Mechanisms    4.5  Silencing Suppression and Movement of             BNYVV       4.6  Future and Prospects: RNA-RNA Network in the              Regulation of “a BNYVV Life”5  Genetic Diversity of Beet Necrotic Yellow Vein     Virus       5.1  Benyvirus    5.2  Variation    5.3  Geographical Origins and Migration    5.4  Emergence of Resistance-Breaking Variants    5.5  Conclusions6  The Viral Vector Polymyxa betae     6.1  Taxonomy    6.2  Life Cycles of Plasmadiophorids    6.3  Infection and Germination of Polymyxa betae    6.4  Host Range and Genetic Diversity    6.5  Virus-Vector Relationship    6.6  Detection and Discrimination    6.7  Conclusions  7  Ecology and Epidemiology     7.1  Inoculum    7.2  Dispersal    7.3  Factors Affecting Infection and Disease              Development    7.4  Modeling for Infection and Spread 8  Control      8.1  Disease Effects and Damages     8.2  Agronomic Control     8.3  Chemical and Thermal Control     8.4  Biological Control 9  Genetic Resistances      9.1  Sources of Resistance     9.2  Resistances to BNYVV     9.3  Multiple BNYVV Resistance    9.4  Resistance to Polymyxa betae     9.5  Resistant Varieties    9,6  Mechanisms of Resistance     9.7 Germplasm Conservation in the Service of Plant          Breeding10 Engineering Transgenic Rhizomania Resistance     10.1  Introduction        10.2  Pathogen-derived Resistance    10.3  RNA Silencing-Mediated Resistance    10.4  Resistance Based on Genes of Non-viral Origin    10.5  Concluding Remarks    11 Breeding Methods    11.1  Screening for Resistance     11.2  Breeding for Resistant Varieties    11.3  Field Trials and Release of Varieties12  Assisted Selection     12.1  Soil Sampling    12.2  Roots and Leaves Sampling    12.3  Sampling for Genome Analyses    12.4  Conventional Chemical Analyses    12.5  Beet Necrotic Yellow Vein Virus Concentration    12.6  Polymyxa betae Concentration13 Perspective