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State Plant Breeding Institute (720) (LSA)
Institution
Section overview
Description
Initiated by C. Fruwirth, the State Plant Breeding Institute (Landessaatzuchtanstalt, LSA) was founded in 1905 as a university institution of research and development in the field of plant breeding. The tasks to be fulfilled by the LSA are guided by socioeconomic requirements for an ecological crop production.
Activities
- Research
Parent institution
Coordinated projects
- Collaborative project: Breeding methodology for exploitation of heterosis in wheat - subproject 3
- Collaborative project: Breeding of adapted soybeans – initial populations for genomic selection - subproject 1
- Collaborative project: Breeding triticale varieties for marginal environments – a matter of the variety type? – Subproject 2
- Collaborative Project: Functional analysis of introgression lines to broaden the genetic diversity of rye – Subproject 2
- Collaborative project: Fusarium Head Blight in Triticale – Implementation of New Methods for the Genetic Improvement of Resistance - Subproject 2
- Collaborative project: Genomic and proteomic architecture and environmental variability of quality and health related traits in wheat for innovative new wheat varieties and products - subproject 1
- Collaborative project: Implementation of innovative breeding approaches to establish sunflower as a competitive oil and protein crop for the German market - Subproject B
- Collaborative project: Improving fungal resistance in maize by combining genetic and molecular resources using precision breeding. Subproject 2
- Collaborative project: Reduction of Mycotoxins in wheat infestated by spike fusariosa by breeding methods - Project 2: Breeding mehtods
- Collaborative project: Sensorbasierte precision breeding of Triticale as a resource-efficient raw material plant. Subproject 1: Phenotyping, genomics and characteristic prediction
- Collaborative project: Strategies to protect cereals from the climate induced increase of fungal diseases - subproject 2
- Development of a test system to determine the sprouting resistance of triticale grown for bio-ethanol production, Subproject 1 Implementation of field and greenhouse experiments and the laboratory tests and the QTL analysis
- Development of material and strategies for quality breeding in winter-emmer (Triticum diccoccum) for organic farming in Germany
- Expansion of soybean cultivation in Germany through breeding adaptation and agronomic optimization
- Genetic dissection of flowering time in wheat by high-density genome-wide association mapping
- Genomcs-driven analysis of the wheat/Fusarium pathosystem for healthy food and feed product development, Subproject A
- Genomics assisted breeding in sunflower for better yield potential, stability and efficiency (SUNRISE), sub-project B
- Genomics-based exploitation of wheat genetic resources for plant breeding. Subproject C
- Joint project: Genetic and molecular analysis of the suitability of hybrid rye for biogas production under drought conditions, sub-project 2: estimate quantitative genetic parameters and QTL analysis of the biomass and grain output
- Processing properties and bio- and techno-functional ingredients of the old wheat varieties Mono- und Diccocum-Wheat (Einkorn und Emmer) and spelt - Application-oriented basics for more intensive use of these cereals
- Reduce dangerous alkaloids in the food chain through the improvement of breeding resistance ergot of rye
- Reducing Fusarium toxins in wheat through genomics - guided strategies
- Soil-borne viruses in rye and triticale - Development of an artificial infection tests and investigations into the genetics of resistance
- SojaGenoPath - Genomics-Based Improvement of Adapted Soybean Germplasm and Establishment of a Molecular Screening System for Soybean Pathogens
- The sunflower - a protein plant for organic farming?
- Triticale varieties with improved nitrogen efficiency for organic farming
- Unraveling the genetic architecture of winter hardiness and quality traits in durum by genome wide and canidate gene based association mapping
Work package leader of collaborative projects
Involved in research projects
- Breeding of Varieties of Mono- und Diccocum-Wheat (Einkorn und Emmer)
- Comparison of spectroscopical, chromatographical and immunological methods for detection of mycotoxin content and fungus attack in cereal samples
- Fusarium resistance in maize: Genetic analysis using complementary approaches to mapping and genetic improvement through genomic selection
- Genomics assisted breeding in sunflower for better yield potential, stability and efficiency (SUNRISE), sub-project A
- Genomics assisted breeding in sunflower for better yield potential, stability and efficiency (SUNRISE), sub-project C
- Genomics assisted breeding in sunflower for better yield potential, stability and efficiency (SUNRISE), sub-project D
- Genomics-based improvement of adapted soybean germplasm and establishment of a molecular screening system for soybean pathogens, Sub-project 4: Phenotyping of a population basing on parental lines with differences in chilling tolerance regarding pod set after a chilling period
- Wheat sensitivity: Influence of wheat varieties and growing conditions on the innate immunity
Contact
State Plant Breeding Institute (720)
(LSA)
Fruwirthstraße 21
D-70599 Stuttgart
Baden-Württemberg
Germany
Phone: +49 0711 459-22687
Fax: +49 0711 459-23841
Email: jochreif(@)uni-hohenheim.de
