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Balanced Breeding in a Grand Parent Perspective. - Consideration for Swedish Scots pine breeding Dag Lindgren Förädlingsutredningsmöte Uppsala 08-05-14.

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Presentation on theme: "Balanced Breeding in a Grand Parent Perspective. - Consideration for Swedish Scots pine breeding Dag Lindgren Förädlingsutredningsmöte Uppsala 08-05-14."— Presentation transcript:

1 Balanced Breeding in a Grand Parent Perspective. - Consideration for Swedish Scots pine breeding Dag Lindgren Förädlingsutredningsmöte Uppsala 08-05-14 Revised

2 Study Status: submitted, minor revision asked for, resubmitted with authors Lindgren, Danusevicius and Rosvall. Swedish pine breeding is target SPM to simplify calculations Cycle time is 18 years Size of breeding population is a variable to be optimized, not preset by the number of founders Selection of good phenotypes in good families (“combined selection”) Reference (base line) is a phenotypic strategy (strategy 3), which appear as one of the most promising of earlier considered strategies (paper in CJFR 2007 with participation of Gunnar Jansson). Variant of “strategy 5”

3 (…) F1F1 SPM with parental balance (almost current Swedish program) Grand parents (=founders), F 0 Mating grand parents Select and mate 2 best sibs (…) F2F2

4 2 nd rank family (…) 1 st rank family (…) 3 rd rank family (…) n th rank family (…) Multiple SPMs Grandparents =founders Green trees show pedigree F0F0 F1F1 F2F2 Cross e.g. 4 best sibs in the 2 best families (2 parents per grandparent) Cross 4 best sibs

5 Note that retrospectively SPM and multiple SPM (strategy 5) give identical pedigrees, thus identical increase of coancestry. Simple SPM (strategy 3) is a special case of multiple SPM (strategy 5) with 2 parents per family.

6 10 5 14 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0510152025 Low budget High budget 2 Medium budget Families & parents cost nothing Number of parents per selected family Annual progress (%) 2=phenotypic

7

8 Conclusions Strategy 5 seems VERY promising and can beat phenotype strategy (strategy 3) with 20-70 percent gain. Variants of strategy 5 which are still more efficient can be constructed. Strategy 5 can be implemented immediately. Select in field trials and graft in crossing archive. Make new selections when grafts mature for pollination, and harvest pollen from new selections. The actions are the same as for Strategy 3 (phenotypic selection), but more selections are done with strategy 5. Recommendation (Dag): Start this immediately for the most suitable objects! I suggest setting the breeding population to 3 times the founders from now. When more studies, theoretical results and experiences (e.g. on male flowering in young trees) have accumulated, it may be increased. But that 3 times is better than no increase is safe enough to act on immediately. Even if it does not work, where are escapes to other strategies. Note: The circumstances may make it motivated to use other strategies in specific cases, but this conclusion is safe enough to have it as main objective.

9 But Darius and Dag suggested Strategy 4 to be 20% better than phenotypic……. and this quantitative estimate seem uncertain… Can the prediction on Strategy be trusted? The estimate 20% was in “genetic merit” (take diversity loss at cycling in consideration), including a heavy penalty for cycling. It also assumed a high cost for cycling. Thus and for other reasons the quantitative magnitude of the advantage may be debated, but strategy 4 still seems recommendable compared to Strategy 1, 2, and 3. Strategy 4 here assumes progeny-test following open pollination which may – or may not - be of some importance compared to the results by Darius and Dag. The current POPSIM which alternative comparisons are based on is based on genetic gain only, while Breeding cycler considers costs and time and gene diversity and optimizes things. The gain predicted is much higher! this variant of strategy 5 seems at least 20% better! But it may be 70%! The calculations are simpler! The conclusion is logic! (see next slide). I make serious mistakes the whole time and there are detected mistakes in Breeding-cycler, so it should not be taken for granted that breeding cycler predictions are right. However the frequent mistakes have till now not changed the main results. The scenario may be unrealistic, it may always happen.

10 Timing a la Curt 0804 Strategy3+243125 Phen + Prog tandem Phen preselection+ Prog PhenotypicProgeny Base Progeny Intens Combined Phen and progeny Cycling time, total 463720332620 Sel age Phenotype 131513 15 Sel age progeny 121512 Use of cycle for testing 54%81%65%36%46%75%

11 Förädlingsstrategier 1. 2. 3. 4. 5. DPM 6. 7. DPM 21-40 upprepas Gen.tid: 38/ 2=19 Fältförsök Korsning och frömognad Växthus & friland Mellanstock- arkiv Arkiv År 40x50=20000 10x50=500500 50 PC 250 (5x2x250) 40x50=20000 PC 500 50 200x50=10000 5x8 + 5x8 =40+40 13 (5x2x12.5) 100x50=5000 5 st/fam 5x50=250 40x250=10000 13 (5x2x12.5) 5x8 + 5x8=40+40 100x50=5000 6st/fam 38 (5x2x37.5) 100x300=30000 Sticklingprod. 14x40x50=28000 13 (5x2x12.5) 12x40x50=24000 2x40x50=4000 ♀ 75+, ♂ 75+ 10x50=500 Kottinsamling 5x8 + 5x8=40+40 DPM Mätning 50 150-300 13 (5x2x12.5) 1 st/fam Picture constructed by Johan Westin and Curt Almqvist May 2008

12 Efficient use of breeding cycle The breeding cycle has two parts. Recombination and selection based on field test. Only selection based on field test generates gain. A most important component of a strategy is to use the breeding cycle with gain generating field testing. Progeny-testing utilizes the breeding cycle for field testing very inefficient. Phenotypic selection is better. But integrating phenotypic and progeny selection in a single cycle, as done in strategy 4 and 5, means that most of the breeding cycle is use for field testing and thus likely to be much more efficient. Making them in tandem is not as good use of the breeding cycle.


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