Table 5 List of accessions used in experiments.
Sr # | Accession | Traits | Salient feature |
|---|---|---|---|
1 | C-208 | Inbred line with good agronomic value with high oil contents% and better combining ability for hybrid breeding | Cytoplasmic male sterile (CMS)accessions |
2 | C-249 | ||
3 | C-124 | ||
4 | C-259 | ||
5 | C-249 | ||
6 | C-224 | ||
7 | C-65 | ||
8 | C-165 | ||
9 | C-46 | ||
10 | C-449 | High oleic acid (80%) fatty acid line responsive to high temperature | |
11 | C-2721 | Mid oleic acid (60%) line inbred line selected from 2721 population | |
12 | B-116-P | High oleic acid line (80%) selected from Pervenent variety | Germplasm CMS maintainer accessions |
13 | B-112-P | High oleic acid line (80%) selected from Pervenent variety | |
14 | HA-412OA | High oleic acid (80%) USDA line | |
15 | HA-347 | High oleic acid (80%)USDA line | |
16 | B-2728 | Mid oleic acid line (60%) selected from 2728 population | |
17 | B-212 | Maintainer line with better agronomic traits | |
18 | B-64 | ||
19 | D-14 | Inbred line obtained through interspecific crossing Helianthus annuus × Helianthus | |
20 | R-SIN-82 | Promising fertility restorer line in hybrid breeding | Male fertility restorer accession |
21 | RH-365 | ||
22 | R-FSS-88 | Drought tolerant restorer lines | |
23 | RH-345 | High oleic acid (80%) restorer line | |
24 | RH-349 | ||
25 | RH-344 | ||
26 | RH-375 | ||
27 | C-208 × RH-365 | Accessions combinations (Hybrids) | |
28 | C-208 × RH-347 | ||
29 | C-250 × RH344 | ||
30 | C-250 × RH435 | ||
31 | C-11 × RH-365 | ||
32 | C-112-P x RH-365 |
