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Strategies of Maize Breeding for Resistance to Fusarium Ear Rot and Fumonisin Contamination

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  • URLhttps://db.koreascholar.com/Article/Detail/298234
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한국육종학회 (The Korean Breeding Society)
초록

Is backcrossing a good strategy for improving elite lines for quantitative traits in general? Results reported here demonstrate the effectiveness of a backcrossing program for improving quantitatively inherited disease resistance traits, which are strongly influenced by the environment. Through backcross breeding, we were able to improve an important commercial inbred line, FR1064, for ear rot and fumonisin contamination resistance without significantly lowering its yield potential, even with the use of a donor line with poor agronomic potential. Following one generation of selection on advanced backcross-derived lines, gains were observed for the primary trait of interest in advanced inbred generations. Following two generations of selection, we improved potential performance for ear rot resistance and reduced fumonisin accumulation in the 19 selected lines without significantly affecting important agronomic characteristics such as plant height, ear height, or flowering time compared to the recurrent parent, FR1064. The 19 selected lines were also significantly more resistant to ear rot under inoculated conditions than the FR1064 topcross without exhibiting significant reductions in topcross grain yield or other agronomic traits. Several individual lines were identified that were not statistically different from GE440 for ear rot or fumonisin content as inbreds or from the GE440 topcross for ear rot. These lines exhibited topcross yields comparable to the FR1064 topcross, although they were not competitive with commercial check yields. Thus, from a practical standpoint, the backcrossing method was effective at improving quantitative disease resistance in an elite commercial line using an unadapted donor parent. We also genotyped selected lines at DNA markers linked to ear rot and fumonisin resistance quantitative trait loci (QTL) identified in the BC1 generation of this cross to determine which QTL demonstrated allele frequency shifts due to selection.

저자
  • Jin Yu(Department of Crop Science, Chungbuk National University)
  • M.S. Eller(USDA-ARS Plant Science Research Unit, Dept. of Crop Science, North Carolina State University, USA.)
  • Yoon-Sup So(Department of Crop Science, Chungbuk National University)
  • James B. Holland(USDA-ARS Plant Science Research Unit, Dept. of Crop Science, North Carolina State University, USA.)
  • Sun-Hee Woo(Department of Crop Science, Chungbuk National University) Corresponding Author
  • Charlie Zilla(USDA-ARS Plant Science Research Unit, Dept. of Crop Science, North Carolina State University, USA.)