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KWS Lochow GmbH
Institution
Section overview
Activities
- Research
Parent institution
Coordinated projects
- Collaborative project: Breeding methodology for exploitation of heterosis in wheat - subproject 6
- Collaborative project: Development of Innovative Seed Treatment Techniques for Cereal Seed Treatment Plants: Avoiding dust emission for a sustainable and ecologically safe crop production - Subproject 3
- 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 6
- Collaborative project: Identification of donors for effective restoration of male sterility based on cytoplasm of T. timopheevii and molecular characterization of P class PPR gene family as source of candidate genes for restoration - subproject 3
- Collaborative project: Investigation of the genetics of flowering biology in wheat for the effective production of hybrid wheat - subproject 2
- Collaborative project: Regional renaissance of rye and rapeseed aiming at reducing problems in crop and animal production by reevaluation of rye constituents and their use for sustainable production in terms of environment, animal welfare and consumer protection. Subproject 2
- Collaborative project: Rye-based compound feed concepts for minimizing the prevalence of zoonotic agents (Salmonella) in piglet production - subproject D
- Collaborative project: Targeted breeding of winter wheat elite culivars, improved in yield, pathogen resistence, quality and nutrient efficiency by means of the MAGIC-WHEAT population WM-800 - subproject 5
- Collaborative project: The Utilization of virus resistance derived by Hordeum bulbosum for a sustainable barley breeding by the help of 'GenOmics'. Subproject 1
- Collaborative project: Using multiple sensors to optimize rating in crop production – Subproject 2
- Collaborative projects: Structural genome variation, haplotype diversity and the barley pan-genome - Exploring structural genome diversity for barley breeding. Subproject C
- Control of stem rust in rye, Puccinia graminis f. sp. secalis, by breeding resistant cultivars in Organic Agriculture
- GABI - PLANT KBBE II - Joint project 'ExpResBar': Exploiting genetic variation for resistance to important pathogens in barley. Subproject A
- GABI Future collaborative projects: 'Development of barley lines with increased yield and improved quality seeds under drought stress during the grain filling (GABI GRAIN) Project Part C
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (sub-project G)
- GABI-FUTURE-collaborative projects: 'Biometrics and bioinformatics tools for genomics-assisted plant breeding (GABI-GAIN) '(Sub-project G)
- GABI-MALT - An integrated approach to the genetic and functional dissection of malting quality in barley
- Genome-driven analysis of the wheat/Fusarium pathosystem for healthy food and feed product development, Subproject E
- Genomics-based exploitation of wheat genetic resources for plant breeding. Subproject E
- INNO GRAIN-MALT - Developing drought sustainable genotypes with improved seed yield and quality suitable for malting
- Joint project: Genetic and molecular analysis of the suitability of hybrid rye for biogas production under drought conditions, sub-project 1: Test of biomass and grain power of a genetic divergent sets of hybrid materials and creation of test cross seeds
- Reducing Fusarium toxins in wheat through genomics - guided strategies
Involved in research projects
- BIOEXPLOIT - Exploitation of natural plant biodiversity for the pesticide-free production of food
- Collaborative project: Development of Innovative Seed Treatment Techniques for Cereal Seed Treatment Plants: Avoiding dust emission for a sustainable and ecologically safe crop production - subproject 2
- Collaborative project: Development of Innovative Seed Treatment Techniques for Cereal Seed Treatment Plants: Avoiding dust emission for a sustainable and ecologically safe crop production – Subproject 4
- Collaborative project: The Utilization of virus resistance derived by Hordeum bulbosum for a sustainable barley breeding by the help of 'GenOmics'. Subproject 2
- Field-based innovative measurment techniques for improving the drought tolerance of biogas rye
- Fine mapping of the gene Rfp1 in rye and development of a physikal map to identify candidate gene sequences
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (J sub-projects)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (L sub-projects)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (M sub-projects)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (Part D plans)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (Sub-project B)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (Sub-project C)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (Sub-project I)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (Sub-project K)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (sub-projects E)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL)' (sub-projects H)
- GABI-FUTURE - Joint project: 'extension and application of the GABI-TILLING platform for functional analysis of crop genes (GABI-TILL') (partial operations F)
- Genomcs-driven analysis of the wheat/Fusarium pathosystem for healthy food and feed product development
- Genomics for triticeae improvement (TRITICEAEGENOME)
- Genomics-based exploitation of wheat genetic resources for plant breeding
- Identification of Wheat dwarf virus tolerance in the barley genepool and their exploitation for breeding
- Integrative approach towards enforced utilization of winter wheat genetic resources for grain yield improvement
Contact
KWS Lochow GmbH
Ferdinand-von-Lochow-Str. 5
29303 Bergen
Lower Saxony
Germany
Phone: +49 5051 477-0
Fax: +49 5051 477-165
Email: info(@)kws-lochow.de