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Relevancy: 100%
Collaborative project: Resistance gene pyramidation and characterization of drought tolerance and stem rust resistance in Lolium species by innovative breeding and high-throughput analytical methods. Subproject 2 (Project)
Adaptation of forage grasses to biotic and abiotic stress factors being favoured by anthropogenic climate change is a major challenge for plant breeders. The project aims at improving varieties of ryegrass (Lolium spec.) by (i) accelerated resistance gene pyramiding in the model species Lolium temulentum; (ii) marker-assisted estimation of genome proportions in backcrosses with L. perenne and L....
Funding period: 2011 - 2014
Relevancy: 100%
Collaborative project: Resistance gene pyramidation and characterization of drought tolerance and stem rust resistance in Lolium species by innovative breeding and high-throughput analytical methods. Subproject 3 (Project)
Adaptation of forage grasses to biotic and abiotic stress factors being favoured by anthropogenic climate change is a major challenge for plant breeders. The project aims at improving varieties of ryegrass (Lolium spec.) by (i) accelerated resistance gene pyramiding in the model species Lolium temulentum; (ii) marker-assisted estimation of genome proportions in backcrosses with L. perenne and L....
Funding period: 2011 - 2014
Relevancy: 100%
Collaborative project: Resistance gene pyramidation and characterization of drought tolerance and stem rust resistance in Lolium species by innovative breeding and high-throughput analytical methods. Subproject 4 (Project)
Adaptation of forage grasses to biotic and abiotic stress factors being favoured by anthropogenic climate change is a major challenge for plant breeders. The project aims at improving varieties of ryegrass (Lolium spec.) by (i) accelerated resistance gene pyramiding in the model species Lolium temulentum; (ii) marker-assisted estimation of genome proportions in backcrosses with L. perenne and L....
Funding period: 2011 - 2014
Relevancy: 100%
Collaborative project: TeraPlant: Sensors for terahertz waves - an innovative tool for modern plant breeding. Subproject 1 (Project)
For any plant a sufficient supply with water is essential. A lack of water leads to drought stress and heavy loss of growth. Up to date, the selection of drought resistant crop plants required a cumbersome analysis of the water content and the resulting drought stress reactions. Moreover, the living plants had to be destroyed for the measurements. The authors developed a unique device for use in...
Funding period: 2011 - 2014
Relevancy: 100%
Collaborative project: TeraPlant: Sensors for terahertz waves - an innovative tool for modern plant breeding. Subproject 2 (Project)
For any plant a sufficient supply with water is essential. A lack of water leads to drought stress and heavy loss of growth. Up to date, the selection of drought resistant crop plants required a cumbersome analysis of the water content and the resulting drought stress reactions. Moreover, the living plants had to be destroyed for the measurements. The authors developed a unique device for use in...
Funding period: 2011 - 2014
Relevancy: 100%
Collaborative project: TeraPlant: Sensors for terahertz waves - an innovative tool for modern plant breeding. Subproject 3 (Project)
For any plant a sufficient supply with water is essential. A lack of water leads to drought stress and heavy loss of growth. Up to date, the selection of drought resistant crop plants required a cumbersome analysis of the water content and the resulting drought stress reactions. Moreover, the living plants had to be destroyed for the measurements. The authors developed a unique device for use in...
Funding period: 2011 - 2014
Relevancy: 100%
Collaborative project: Breeding of pear varieties resistant to Pear decline (BISO) – Subproject 1 (Project)
Pear decline which is a disease caused by Candidatus Phytoplasma pyri threatens commercial and private pear growing in Germany. In close cooperation with the private fruit breeding enterprise Bayerisches Obstzentrum, the institute of fruit science of Technische Universität München developed an easy to handle and robust system for the selection of resistance to pear decline. This system enables...
Funding period: 2011 - 2014
Relevancy: 100%
Implementation of results from KLIFF in spatial planning in Lower Saxony ‘IMPLAN’ (Project)
The impacts of climate change have consequences for spatial planning. Timely local and regional level adaptation to climate change can lessen the risks and reduce the damage potential, and thereby decrease the costs of climate change to both humanity and the environment. IMPLAN is primarily provided as a service for planning practitioners, especially at the regional scale, and is thus concerned...
Funding period: 2009 - 2013
Relevancy: 100%
Collaborative project: SEEDSET: Development of stress tolerant barley lines with improved seed set and yield under terminal drough. Subproject 1. (Project)
Comprehensive screening of a DH population from a 'stay-green' and efficient 'remobilization' line will result in identifying improved barley lines with improved seed set and grain yield under drought stress. By implementing complementary genomic and genetic approaches we will identify genomic regions influencing improved seed set under drought andderive molecular markers. More specifically, the...
Funding period: 2011 - 2014
Relevancy: 100%
Collaborative project: Sustainable maintenance of grain maize production by improving classical resistance against the European corn borer – Subproject 1 (Project)
Aim of the project was to implement resistance against the European Corn Borer (ECB; Ostrinia nubilalis Hb.) in maize. ECB is a major pest in maize and is advantaged in development and spreading over Europe by global warming. In this context resistance breeding is one of the most important strategies to reduce yield loss by ECB. The project focused on two main objectives: The genetic...
Funding period: 2011 - 2014
