TABLE 2.
AMOVA and gene diversity for five germplasm sub-sets defined according to passport data: (A) GDP without the wild accessions, with grouping based on historical selection steps: T. dicoccum accessions, T. durum germplasm sub-sets landraces, T. durum germplasm sub-sets cultivars; (B) all T. durum germplasm sub-sets; groups are EPO, T. durum germplasm sub-sets landraces, modern lines; (C) all landraces grouped according to country of origin; (D) all T. durum germplasm sub-sets modern lines, classified according to decade of release; (E) all T. durum germplasm sub-sets modern lines, classified based on breeding program.
| (A) | ||||||
| Source of variation | d.f. | Sum of squares | Variance components | Percentage of variation | ||
| Among populations | 2 | 222,822.13 | 443.9 | 22.98 | ||
| Within populations | 859 | 1,278,090.16 | 1,487.88 | 77.02 | ||
| Total | 861 | 1,500,912.3 | 1,931.79 | |||
| Fst | 0.23 | |||||
| T. durum groups | N° accessions | N° polymorphic loci over 10173 | Nei’s gene diversity | Mean number of pairwise differences | ||
| LANDRACE | 286 | 10,154 | 0.332 | 3,375.08 | ||
| EMMER | 103 | 9,901 | 0.317 | 3,220.49 | ||
| MODERN | 473 | 10,010 | 0.264 | 2,681.76 | ||
| Mean value | 0.304 | 3,092.45 | ||||
| Lsd (p = 0.0005) | 0.002 | 17.7 | ||||
| (B) | ||||||
| Source of variation | d.f. | Sum of squares | Variance components | Percentage of variation | ||
| Among populations | 2 | 103,704.61 | 207.33 | 13.06 | ||
| Within populations | 852 | 1,175,524.24 | 1,379.72 | 86.94 | ||
| Total | 854 | 1,279,228.85 | 1,587.05 | |||
| Fst | 0.13 | |||||
| PIC | 0.273 | range (0.09–0.375) | ||||
| T. durum groups | N° accessions | N° polymorphic loci over 8802 | Nei’s gene diversity | Mean number of pairwise differences | ||
| LANDRACE | 286 | 8,796 | 0.358 | 3,151.85 | ||
| MODERN | 473 | 8,781 | 0.292 | 2,567.05 | ||
| EPO | 96 | 8,213 | 0.288 | 2,538.16 | ||
| Mean value | 0.313 | 2,752.35 | ||||
| Lsd (p = 0.0005) | 0.002 | 17.6 | ||||
| (C) | ||||||
| Source of variation | d.f. | Sum of squares | Variance components | Percentage of variation | ||
| Among populations | 13 | 62,147.3 | 169.12 | 10.1 | ||
| Within populations | 270 | 403,266.13 | 1,504.72 | 89.9 | ||
| Total | 281 | 465,413.43 | 1,673.84 | |||
| Fst | 0.101 | |||||
| PIC | 0.282 | range (0.09–0.375) | ||||
| Landrace group | N° accessions | N° polymorphic loci over 9414 | Nei’s gene diversity | Mean number of pairwise differences | ||
| Turkey-Transcaucasian | 29 | 9,253 | 0.374 | 3,521.67 | ||
| Central Asia | 18 | 9,035 | 0.356 | 3,348.15 | ||
| Arabian Peninsula | 9 | 7,790 | 0.349 | 3,285.50 | ||
| Iberian Peninsula | 21 | 9,048 | 0.346 | 3,253.83 | ||
| Central Europe | 18 | 8,547 | 0.341 | 3,206.41 | ||
| South Asia | 6 | 6,640 | 0.329 | 3,094.53 | ||
| Greece | 16 | 8,539 | 0.327 | 3,082.52 | ||
| Italy | 34 | 8,656 | 0.303 | 2,874.58 | ||
| Ethiopia | 26 | 8,174 | 0.302 | 2,843.20 | ||
| North Africa | 47 | 9,059 | 0.301 | 2,839.57 | ||
| Argentina | 5 | 6,107 | 0.300 | 2,829.40 | ||
| Levant | 46 | 8,496 | 0.289 | 2,722.53 | ||
| North America | 5 | 5,340 | 0.280 | 2,640.00 | ||
| Australia | 2 | 3,136 | 0.333 | 3,136.00 | ||
| Mean value | 0.323 | 3,048.42 | ||||
| Lsd* (p = 0.05) | 0.005 | 48.1 | ||||
| Lsd* (p = 0.001) | 0.008 | 75.8 | ||||
| (D) | ||||||
| Source of variation | d.f. | Sum of squares | Variance components | Percentage of variation | ||
| Among populations | 4 | 13,737.04 | 29.36 | 2.95 | ||
| Within populations | 444 | 429,609.05 | 967.59 | 97.05 | ||
| Total | 448 | 443,346.08 | 996.95 | |||
| Fst | 0.029 | |||||
| Breeding decade | N° lines | N° polymorphic loci over 5685 | Nei’s gene diversity | Mean number of pairwise differences | ||
| 70–80 | 19 | 5,334 | 0.357 | 2,027.88 | ||
| 81–90 | 62 | 5,668 | 0.364 | 2,069.90 | ||
| 91–00 | 93 | 5,679 | 0.348 | 1,979.88 | ||
| 01–10 | 132 | 5,681 | 0.337 | 1,914.88 | ||
| 11–18 | 143 | 5,675 | 0.326 | 1,855.32 | ||
| Mean value | 0.346 | 1,969.57 | ||||
| Lsd (p = 0.0005) | 0.003 | 33.2 | ||||
| Breeding group | 70–80 | 81–90 | 91–00 | 01–10 | 11–18 | Total |
| Australia | 0 | 1 | 2 | 5 | 4 | 12 |
| Central Asia | 2 | 1 | 3 | 2 | 1 | 9 |
| Central Europe | 0 | 1 | 4 | 2 | 12 | 19 |
| CIMMYT | 3 | 2 | 5 | 6 | 29 | 45 |
| Spain | 3 | 4 | 10 | 6 | 1 | 24 |
| Ethiopia | 0 | 0 | 1 | 1 | 3 | 5 |
| France | 0 | 7 | 12 | 13 | 7 | 39 |
| ICARDA | 0 | 8 | 12 | 45 | 40 | 105 |
| Italy | 9 | 12 | 22 | 23 | 14 | 80 |
| North America | 2 | 8 | 13 | 5 | 5 | 33 |
| South America | 0 | 7 | 1 | 7 | 10 | 25 |
| South Mediterranean | 0 | 11 | 8 | 17 | 17 | 53 |
| Total | 19 | 62 | 93 | 132 | 143 | |
| (E) | ||||||
| Source of variation | d.f. | Sum of squares | Variance components | Percentage of variation | ||
| Among populations | 11 | 60,189.98 | 121.56 | 11.67 | ||
| Within populations | 460 | 423,162.29 | 919.92 | 88.33 | ||
| Total | 471 | 483,352.27 | 1,041.48 | |||
| Fst | 0.117 | |||||
| PIC | 0.278 | range (0.09–0.375) | ||||
| Breeding group | N° lines | N° polymorphic loci over 5918 | Nei’s gene diversity | Mean number of pairwise differences | ||
| Italy | 80 | 5,885 | 0.343 | 2,031.16 | ||
| Central Asia | 14 | 5,463 | 0.339 | 2,006.78 | ||
| France | 39 | 5,768 | 0.339 | 2,006.03 | ||
| South America | 25 | 5,535 | 0.335 | 1,984.11 | ||
| Spain | 27 | 5,591 | 0.332 | 1,963.08 | ||
| Central Europe | 25 | 5,466 | 0.321 | 1,902.33 | ||
| South Mediterranean | 53 | 5,776 | 0.312 | 1,848.12 | ||
| Ethiopia | 8 | 4,253 | 0.297 | 1,755.71 | ||
| North America | 33 | 5,316 | 0.296 | 1,749.61 | ||
| ICARDA | 110 | 5,813 | 0.294 | 1,741.78 | ||
| CIMMYT | 46 | 5,046 | 0.256 | 1,513.59 | ||
| Australia | 12 | 4,208 | 0.255 | 1,506.68 | ||
| Mean value | 0.310 | 1,834.08 | ||||
| Lsd (p = 0.05) | 0.005 | 29.7 | ||||
| Lsd (p = 0.001) | 0.008 | 46.9 | ||||
Geographic area of origin has been assigned to GDP landraces based on country where they have been sampled, as follows: North America: Canada + United States; Arabian Peninsula: Oman, Yemen, and Saudi Arabia; Central Europe: Bulgaria, Serbia, Poland, Ukraine, Hungary, Romania, United Kingdom, Germany, Sweden, Bosnia, and Herzegovina; Iberian peninsula: Spain and Portugal; Levantine: Iran, Iraq, Jordan, Syria, and Israel; North Africa: Egypt, Tunisia, Algeria, Morocco, Libya, and Malt; Turkey-Transcaucasia: Turkey, Armenia, Azerbaijan, and Georgia; South Asia: Pakistan and India; Central Asia: Kazakhstan, Russia, and Afghanistan. GDP modern lines have been assigned to breeding program based on the country where lines have been developed, as follows: South Mediterranean: Egypt, Algeria, Tunisia, Syria, Lebanon, Jordan, and Morocco; North America: Canada + United States (including Desert durum); Central Europe: Austria, Serbia, Hungary, Ukraine, and Bulgaria; Central Asia: Kazakhstan and Uzbekistan. For each summary, the first table reports results of AMOVA, the second table contains computations about gene diversity within groups/populations. AMOVA was significant at p < 10–6 upon 10,000 permutations. LSD for within group gene diversity was calculated at the indicated p-value considering n = the least number of group genotypes, except for the landrace group where n = 5 was chosen. For decade of release, a third table reports the composition of each decade group with respect to the breeding programs.