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Collaborative project: Anticipatory breeding of starch potatoes with durable resistance towards the plant-parasitic nematode Meloidogyne chitwoodi. Subproject 3: Development of quantiativen resistance tests of the tuber and its application (MeloKon)

Project

Production processes

This project contributes to the research aim 'Production processes'. Which funding institutions are active for this aim? What are the sub-aims? Take a look:
Production processes


Project code: JKI-EP-08-2283, 22007116
Contract period: 01.02.2017 - 31.01.2020
Budget: 134,480 Euro
Purpose of research: Applied research

In Germany Meloidogyne chitwoodi was first detected around 20 years ago. So far, only few incidents were reported but the nematode is spreading. Given the fact that M. chitwoodi is established in the Netherlands and cross-border use of machinery for potato growing is common, continuous spread of the nematode on the German site is expected. The negative impact on potato production will be further aggravated by the lack of resistances in the actual cultivar collection. Hence, the identification of resistances against M. chitwoodi in wild species and their introgression into breeding material is of highest importance. For a sustainable resistance management it is also essential that complementing resistances are combined with one another (pyramiding), so that a selection of resistance breaking isolates is prevented. Of particular importance is an anticipatory strategy due to crossing and selection cycles of about ten years. This is particularly true when new sources of resistance are introduced from wild species. Resistance genes from wild species are often linked to negative alleles (linkage drag) being the cause of low yield. This necessitates breeding cycles towards the removal of the negative alleles. Instrumental in streamlining these otherwise time consuming processes are high-throughput protocols for a marker-assisted selection.

In parts of France, Belgium and the Netherlands the nematode Meloidogyne chitwoodi is wide spread and represents a problem in potato growing regions. The negative impact on potato production is further aggravated by the lack of resistances in released cultivars. Hence, the identification of resistance against M. chitwoodi in wild species and their introgression into breeding material is of highest importance. The resistance gene RMC1-blb derived from S. bulbocastanum was mapped in a BC6 population on chromosome 11 and a co-dominant marker was developed.

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Subjects

Framework programme

BMEL Frameworkprogramme 2008

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