Location: Sugarbeet Research
2013 Annual Report
The Parties have a long history of collaborative research on the sugar beet, which formally began in the 1940's under a Memorandum of Understanding. This collaboration has been, and continues to be, a vital, synergistic relationship wherein ARS scientists are able to expand their sugar beet research capacity through their relationship with BSDF and its Members, and the BSDF and its Members are engaged in collaborative opportunities with ARS sugar beet scientists.
The Parties share an interest in the accomplishment of sound research and development in sugar beet, including as key components, research in genetic resource management, genomic characterization and genetic improvement, biological disease control, and host plant resistance to disease; as well as the dedication to the advancement of sugar beet production and beet sugar processing through science based research and leading educational programs. The Parties also share an interest in the development and distribution of disease-resistant, enhanced germplasm with high agronomic performance; as well as traditional and innovative approaches for crop improvement, to more effectively meet the changing needs of seed companies and the growers they serve, leading to increased efficiency of production while preserving the environment and promoting sustainability.
This will be a joint effort between ARS, who is conducting research on the production of sucrose and other products from sugar beet and BSDF, who is dedicated to the advancement of sugar beet production and beet sugar processing through science based research and leading educational programs.
ARS and BSDF will work together to produce the highest quality basic and applied research to meet the changing demands of the sugar beet world market, and its customers and stakeholders by:
1. Promoting sugar beet research concerning the isolation of specific genes and the development of germplasm, which may be used effectively in breeding to develop hybrids and varieties that are resistant to various pathogens, regionally adapted, suitable for various cultural practices, superior in biochemical attributes, and storable with minimum deterioration.
2. Establishing technology whereby new genetic characters, inbred lines, or sugar beet germplasm established via ARS research may be brought into widespread use by breeders and growers promptly, efficiently and at less cost.
3. Promoting research to develop better disease management, through an increased understanding of sugar beet disease etiology and epidemiology and an elucidation of the biochemistry, physiology and genetics of the sugar beet-pathogen-biocontrol agent interaction, including the use of proteomics tools.
4. Increasing the understanding of the biochemical genetic and physiological basis of the development of the sugar beet plant, the storage of the harvested root and the extraction of sucrose from the beet to be better able to maximize the efficiency in the processing of sugar beet to sucrose and other products.
5. Evaluating, characterizing, and utilizing available genetic resources (esp., in the USDA-ARS NPGS Beta PI germplasm collection) to determine the genetic diversity within sugar beet and pathogen populations, to better understand and manage important pathogens of sugar beet, and to produce enhanced germplasm more rapidly and more efficiently to meet the changing needs of seed companies and the growers they serve.
6. Develop new uses for sugar beet polysaccharides as bioplastics and bioactive food ingredients that will improve the sustainability of sugar beet post-harvest processing.
Additional details of research can be found in the parent project reports for the Northern plains area as follows:
Fargo, North Dakota: 5442-22000-047-00D/422872: MOLECULAR APPROACHES FOR IMPROVED CERCOSPORA LEAF SPOT CONTROL IN SUGARBEET. 5442-21430-007D/420033: SUCROSE ACCUMULATION AND RETENTION IN SUGARBEETS.
Fort Collins, Colorado: 5442-21220-007-00D/412373: Nonchemical Pest Control And Enhanced Sugar Beet Germplasm Via Traditional And Molecular Technologies.
Sidney, Montana: 5436-22000-016-00D/420804: ECOLOGY AND MANAGEMENT OF GRASSHOPPERS AND OTHER INSECT PESTS IN THE NORTHERN GREAT PLAINS.