Development and characterization of RiceCAP QTL mapping population for sheath blight resistance

Authors: McClung, Anna; GROTH, DONALD - LSU AGRICULTURAL CENTER; OARD, JAMES - LSU; UTOMO, HERRY - LSU; MOLDENHAUER, KAREN A - UNIV. OF AR RREC; BOZA, EDWARD - UNIV. OF AR RREC; Scheffler, Brian; Jia, Yulin; LIU, GUANGI - UNIV. OF AR RREC; CORREA, FERNANDO - CIAT; Fjellstrom, Robert

Submitted to: American Society of Agronomy Abstracts
Publication Type: Abstract Only
Publication Acceptance Date: 9/1/2007
Publication Date: 11/1/2007
Citation: Mcclung, A.M., Groth, D., Oard, J.H., Utomo, H., Moldenhauer, K.K., Boza, E., Scheffler, B.E., Jia, Y., Liu, G., Correa, F., Fjellstrom, R.G. 2007. Development and characterization of RiceCAP QTL mapping population for sheath blight resistance. [abstract] American Society of Agronomy Abstracts. p. 259-4.

Interpretive Summary:

Technical Abstract: RiceCAP is a USDA CSREES funded project that has as one of its main objectives developing genetic markers associated with sheath blight resistance. Sheath blight, caused by Rhizoctonia solani, is an important disease of rice in the southern US. Tolerance to the disease is quantitatively inherited and easily confounded by plant height and maturity. Developing selectable markers associated with resistance to this disease will help breeders to develop improved varieties more efficiently and effectively. A mapping population consisting of 325 double haploid (DH) lines developed from a cross of Cocodrie (susceptible) and MCR01–0277 (partial resistance) (Chu et al 2006) was used to identify QTL regions associated with resistance. Some 225 polymorphic SSR markers were evaluated to identify over 100 markers that could be readily scored in the population. The families were evaluated in replicated field trials conducted in Crowley, LA and Stuttgart, AR during 2006 and 2007 that were inoculated prior to heading. In addition, the population was evaluated using inoculated seedlings evaluated in a micro-chamber (Stuttgart) and a mist-chamber (Cali, Colombia). The micro-chamber method was strongly correlated with the 2006 field results (AR r=0.69 and LA r=0.59) indicating that it identifies at least some of the same resistance components that are important under field conditions. The mist-chamber technique had good repeatability compared with the micro-chamber method but took longer to evaluate. Although the population mean was more susceptible than the Cocodrie parent, some 2% of the population was more tolerant than the resistant parent, MCR10277. These results verify that this is an excellent mapping population that appears to be segregating widely for sheath blight resistance that can be detected using a number of disease screening methods. Results from additional field tests and marker analyses will be presented.