As a plant breeding programme matures there is a general tendency to recycle elite inbred parents, a strategy known as advanced cycle pedigree breeding. The challenge with this approach is not only to maintain genetic variability in the base breeding populations but also their usefulness for further genetic advancement in developing experimental hybrids with better performance than the commercial hybrids on the market. To assess the genetic variability and usefulness of breeding populations in sunflower (Helianthus annuus L.), 109 new inbred lines across four breeding populations Pop1, Pop2, Pop3 and Pop4 in advanced cycle pedigree breeding scheme were testcrossed to two testers to form testcross hybrid (TCH) groups: Pop1(TC), Pop2(TC), Pop3(TC) and Pop4(TC). Moderate to high genetic variability along with high heritability were obtained for seed yield and oil yield within and across all TCH groups. Heritability for oil content was low to high ranging from 0.36 (Pop2(TC)) to 0.81 (Pop1(TC)). Genetic advance (GA%) with a 10 % selection intensity ranged from 36 % (Pop2(TC)) to 42 % (Pop1(TC)) for seed yield; 38 % (Pop3(TC)) to 43 % (Pop1(TC)) for oil yield; and 1.3 % (Pop2(TC)) to 5.1 % (Pop1(TC)) for oil content. To quantify the commercial potential of experimental TCHs, founder parent heterosis (FPH), mid-standard heterosis (MSH) and high standard heterosis (HSH) were calculated. Out of a total of 218 experimental TCHs evaluated, 28 had positive FPH, MPH and HSH values for oil yield representing a 13 % selection intensity as is usually applied in early generation testing.

• 出版日期2013-4