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Leibniz Association (WGL)
Institution
Section overview
Activities
- Research
- Funding
- Project Management Agency
- Coordination
Subordinate institutions
- Leibniz Institute of Plant Genetics and Crop Plant Research
- Zoological Research Museum Alexander Koenig - Leibniz Institute for Animal Biodiversity
- Academy for Spatial Development in the Leibniz Association
- Leibniz Centre for European Economic Research
- Innovations for High Performance Microelectronics - Leibniz-Institut für innovative Mikroelektronik
- Leibniz-Institute for Food Systems Biology at the Technical University of Munich
- Leibniz Institute for the Analysis of Biodiversity Change – Hamburg site
Networks
Coordinated projects of subordinate institutions
- A combination of systems biology and experimental high-throughput approaches to engineer durable resistance against plant viruses in crops. Subproject A
- Activated GEnebank NeTwork
- Agrosystem for future: DAKIS - Digital Agricultural Knowledge and Information System
- Ammonia sensing in plant roots
- Ammonium, nitrate and urea as regulators of tillering in cereals
- Analysis of the role of strigolactons in barley as a respons to drought stress
- Analysis of uniparental elimination of chromosomes in wide crosses
- Antagonists of gene silencing
- Automatic detection and genetic analysis of quantitatively inherited characteristics of drought tolerance in barley
- BioChancePLUS-3: The potato Cancer: A biotechnological approach to the efficient use of natural resistance factors, part 4 of the project
- BonaRes (Modul A, Phase 2): CATCHY - Catch crops as agronomic means to ensure sustainable soil fertility and yield security - SP 2
- Breeding innovations in wheat for resilient cropping systems (BRIWECS), Subproject G
- Collaborative project: Analysis and utilization of grass genetic resources for generating new diversity in fodder and amenity types – Subproject 1
- Collaborative project: Breeding implications of phosphorus uptake efficiency in starch potatoes and ressource conserving commodity production - subproject 1
- Collaborative project: Breeding methodology for exploitation of heterosis in wheat - subproject 2
- Collaborative project: Breeding of locally-adapted varieties using artificial intelligence algorithms - subproject A
- Collaborative project: Breeding quinoa for cultivation in Germany - subproject C
- Collaborative project: Elucidation of morphological, physiological and molecular mechanisms to improve phosphorus-acquisition efficiency in cultivated potato, subproject 1
- Collaborative project: Ensuring multifunctionality in forage production through species richness in intensive grasslands - Subproject B
- Collaborative project: Evaluation of potato genetic resources by using innovative methods to analyse ingredients and quality traits of tubers – Subproject 1
- Collaborative project: Fast flowering in winter wheat by vernalization-independent induction of spike formation - subproject 1
- Collaborative project: Genetic analysis and modeling of wheat-rust interaction to develop stable, multi-resistant wheat varieties - subproject C
- 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 1
- Collaborative project: Identification of lentil (Lens culinaris) genotypes for sustainable cropping systems in temperate climates
- Collaborative project: Identification, modification and use of resistance towards significant pathogens of barley - subproject C
- Collaborative project: Improving Yield Potential, Yield Stability and Seed Quality of Lupins as Protein Plants (Lupi-Breed)
- Collaborative project: Inducing haploidy by using novel genome engineering tools providing a faster breeding progress of mono- and eudikotyledonous crops - subproject C
- Collaborative project: Innovation process for the development of an online platform that digitizes and simplifies the interface between food-producing companies from industry and commerce to the national association of food banks in Germany, Tafel Deutschland. Subproject 3
- Collaborative project: Innovative breeding strategies for improving the growing nature of the yellow Lupine (Lupinus luteus) in German. Subproject 2: feature detection by IPK gene bank accessions
- Collaborative project: Integrative approach towards enforced utilizsation of winter wheat genetic resources for grain yield improvement (GENDIV) - subproject 2
- Collaborative project: Investigation of the genetics of flowering biology in wheat for the effective production of hybrid wheat (HYFLOR) - subproject 1
- Collaborative project: Novel allelic diversity of the yield-determining trait stalk length via site-directed mutagenesis in wheat - subproject 2
- Collaborative project: Priming for enhanced defense as a strategy to optimize crop resistance and as a possible breeding target. Subproject D
- Collaborative project: SEEDSET: Development of stress tolerant barley lines with improved seed set and yield under terminal drough. Subproject 1.
- Collaborative project: Sequencing and Analysis of the Wheat Genome - Contribution of Germany to the International Wheat Initiative. Subproject 2
- Collaborative project: Source-sink dynamics in tillering and root development in wheat - subproject 2
- Collaborative project: The Utilization of virus resistance derived by Hordeum bulbosum for a sustainable barley breeding by the help of 'GenOmics'. Subproject 3
- Collaborative project: Use of Big Data in Wheat for Precision Breeding - subproject 2
- Collaborative project: Use of genetic diversity and development of innovative tools for the genetic improvement of seed retention in forage grasses - subproject 1
- Collaborative projects: Structural genome variation, haplotype diversity and the barley pan-genome - Exploring structural genome diversity for barley breeding. Subproject A: Coordination
- Composite plan Mykotree: increasing plant yield and the biomass of fast-growing woody plants for low-income locations through the use of in vitro propagated arabuskulärer mycorrhizal fungi, sub-project 3: Verification and proof of mycorrhization of in vitro propagated plants
- Development of the parental components for the generation of a sterile Chamomile variety – project phase 2
- DPPN-ACCESS: Promoting the use of plant phenotyping facilities and technologies - TP D
- Effects of proximal internode elongation on floral degeneration, lodging resistance and community performance in barley
- EpiC - Epigenetics: elucidation of epigenetic mechanisms of endosperm formation for the development of apomictic crops - TP B
- EpiC-Epigenetics: Epigenetic consequences of chromosome restructuring - TP B
- EpiC-p-epBAR: The barley pan-epigenome
- Establishing the network of seed gene expression and analysis of its biodiversity
- Establishment of cell-specifically inducible expression systems in transgenic barley and maize
- FOR 948 P5: Forms of retranslocated nitrogen during leaf senescence and nitrogen deficiency
- FOR 948 P8: Relationship between senescence-induced N remobilisation and seed filling in barley
- Functional characterization of iron-dependent mechanisms strengthening the formation of adventicious roots in petunia cuttings
- GABI FUTURE - Collaborative Project: 'Enlightenment initial mechanisms of pollen-embryo genesis for the development of knowledge-based methods for producing homozygous recombinant (GABI Poem)' Project A
- GABI FUTURE - Collaborative Project: 'Integrated Modeling of the primary metabolism of the developing barley endosperm under the influence of hormonal regulation (GABI SysSEED)'; Project Part A
- GABI FUTURE Alliance project: 'Biomass production in corn: genomics-based and system-oriented plant breeding for corn to energy' (GABI-ENERGY): Project F
- GABI FUTURE Alliance Project: establishment of an innovative system for the production of hybrid wheat (HYBWHEAT) - Project A: Institute für Plant Genetics and Crop Research
- 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 A
- GABI trilaterale Kooperationen (ES-FR-DE) - GENOSOME: Comparative Genomics of Solanaceae Meristems
- 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)' (Sub-project B)
- GABI-FUTURE-collaborative projects: 'Functional genomics to improve the nitrogen utilization of crops through identification of appropriate key genes and metabolic markers (on GABI FUNCIN) '(Subproject D)
- GABI-MALT - An integrated approach to the genetic and functional dissection of malting quality in barley
- GABI-SEED II - barley as a model and crop: gene networks to determine nutzungsrelevanter characteristics of cereal seed
- GABI-TILLING: Establishment of a central platform for testing lead gene function in crops based on TILLING
- Genetic basis of awns and stigma hairinenss in barley - why do cultivated barleys need rough awns ?
- Genomics-based approach for the utilization of the secondary gene pool for a sustainable barley breeding (TRANS-BULB), sub-project A
- Genomics-based exploitation of wheat genetic resources for plant breeding. Subproject A
- German Plant Phenotyping Network
- Harnessing meiotic recombination in barley (Hordeum vulgare)
- Identification of transcriptional regulators of the plant ionome
- Identification, modification and deployment of genetic factors controlling resistance to important pathogens in barley. Subproject C
- Implementation of results from KLIFF in spatial planning in Lower Saxony ‘IMPLAN’
- Importance of root lesion nematodes in German crop production and strategies to breed resistant varieties, Subproject C
- Improvement of common bunt and dwarf bunt resistance in bread wheat by systematic use of genetic variation - Leibniz-Institut für Pflanzengenetik und Kulturpflanzenforschung
- Improving cultivation of alfalfa (Medicago sativa L.) in Germany - Novel impacts for the queen of fodder crops - subproject IPK
- Increased nitrogen use efficiency in agriculture through catch crops as producers of natural nitrification inhibitors
- Innovative biofertilizers boosting yield of cereals and horticultural crops under global climate change: Toward Sustainability of Agricultural systems against the Climate Change in arid zones
- IPAS: Increasing biodiversity and productivity in barley - subproject B
- Molecular regulation of the mutual interaction between ammonium and nitrate uptake in plant roots
- Molecular, genetic and phenotypic analysis of an early-heading mutant in diploid einkorn wheat
- Molecular, genetic and phenotypic analysis of genes controlling lateral spikelet fertility in barley
- Nutrient and water transporters actively shape spatiotemporal rhizosphere organization processes in corn
- Organic production of garlic - broadening the range of varieties through selection of plant genetic resources - IPK
- Plant-KBBE-collaborative projects: PLANT iron transport and homeostasis in plants - approaches to improving productivity and growth (HOT IRON:-PROGROW)
- Platform for precise allele conversion using synthetic endonucleases
- Potato breeding for stress tolerance and processing suitability for organic farming - IPK
- Prediction-based normalisation of developmental heterochrony in molecular and phenomic parallel studies in plants
- Promotion of taxonomic knowledge as a basis for nature conservation
- Response and adaptation of barley to changing environmental conditions
- RYE-BARLEY-DIVERSITY - Bridging genomics and genetic diversity: Association between gene polymorphism and trait variation in cereals (Part 1)
- Screening of genetic resources of chickpea (Cicer arietinum) and grass pea (Lathyrus sativus): Adaptation to climate change in Germany with alternative legumes for human nutrition
- Seed vetch (Vicia sativa L.) grains for fattening pigs as an alternative high-protein feedstuff under changing climatic conditions
- Site-directed genome modification of cereal elite material through DNA integration-free delivery of RNA-guided Cas endonuclease via haploidy-inducing crosses
- SPP 1149: Analysis of the relationship between heterosis and the epigenetic modification of DNA and histones in Arabidopsis thaliana
- SPP 1149: The role of transcription factors in heterosis for superior growth and biomass production in Arabidopsis thaliana
- Towards a better molecular and physiological understanding of spikelet fertility in barley (Hordeum vulgare L.)
- Unraveling the causes for wheat sensitivities
- Winter Lentil Genetic Resources to breed winter lentils for mixed cropping
Coordinated collaborative projects of subordinate institutions
Subordinate institutions as work package leader of collaborative projects
Financed funding programmes
Project Management Agency to
Contact
Leibniz Association
(WGL)
Chausseestraße 111
10115 Berlin
Berlin
Germany
Phone: + 49 (0) 030 / 20 60 49 - 0
Email: info(@)leibniz-gemeinschaft.de