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Strategies for Major Genes One gene at a time Gene rotation Gene “ pyramids ” Mixtures Regional deployment Working With Minor Genes.

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Presentation on theme: "Strategies for Major Genes One gene at a time Gene rotation Gene “ pyramids ” Mixtures Regional deployment Working With Minor Genes."— Presentation transcript:

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2 Strategies for Major Genes One gene at a time Gene rotation Gene “ pyramids ” Mixtures Regional deployment Working With Minor Genes

3 Strategies for Major Genes One gene at a time Gene rotation Gene “ pyramids ” Mixtures Regional deployment Working With Minor Genes

4 Single Gene at a Time “ Use It Till You Lose it ” In general, don ’ t go there - Puts growers at risk - Disruptive to breeding programs - Don’t believe that your favorite gene is special

5 “Alien” resistance for wheat stem rust Bacterial blight of rice Septoria tritici blotch of wheat

6 There May be Situations Where a Single-Gene Approach Is Appropriate Marginal environments As a stop-gap measure Soil-borne pathogens? Reverse gene-for-gene?

7 Strategies for Major Genes One gene at a time Gene rotation Gene “ pyramids ” Mixtures Regional deployment Working With Minor Genes

8 Rotating Genes Unlikely to be very useful Logistically difficult Virulence unlikely to decline to previous levels

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10 Strategies for Major Genes One gene at a time Gene rotation Gene “ pyramids ” Mixtures Regional deployment Working With Minor Genes

11 Mechanisms Probability of multiple mutations Residual gene effects Favorable combinations

12 _________________________________________________________________ Rust reaction _________Known Year Whenresistance Cultivar licensedlicen. 1978 genes _________________________________________________________________ Kota Pre-1923 S S Sr28 Marquis Pre-1923 S S Sr7b, 18, 19, 20 Red Bobs 1926 S S Sr7b, 10 Reliance 1932 S S Sr5, 16, 18, 20 Thatcher 1935 R S Sr5, 9g, 12, 16 Renown 1937 R S Sr2, 7b, 9d, 17 Redman 1946 R S Sr2, 7b, 9d, 17 Lee 1950 R S Sr9g, 11 Selkirk 1953 R RSr2, 6, 7b, 9d, 17, 23 Canthatch 1959 MR S Sr5, 7a, 9g, 12, 16 Pembina 1959 R R Sr2, 5, 6, plus Manitou 1965 R R Sr5, 6, 7a, plus Neepawa 1969 R R Sr5, plus Pitic 62 1969 R S Sr8, 9b Napayo 1972 R R Sr5, 6, 7a, plus

13 Which Genes to Combine? Experience of breeders Studies of “fitness penalty” Lineage exclusion

14 ID of Gene Combinations in Progeny Shotgun method Phenotypic expression of reaction type Molecular markers

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18 Pyramid Components Sr2, Sr6, Sr17, Sr24, Sr31, Sr36, Sr38 Arrival of “Ug99” has caused havoc in the wheat breeding world

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20 1999 – Race TTKSK (Sr31 + Sr38) 2006 – Race TTKST (Sr31 + Sr38 + Sr24) Race TTTSK (Sr31 + Sr38 + Sr36)

21 Lesson: Pyramids have been highly useful, but may not be permanent

22 Strategies for Major Genes One gene at a time Gene rotation Gene “ pyramids ” Mixtures Regional deployment Working With Minor Genes

23 A A A A B C A B A A A A A B C A A A A A C A B C A A A A B C A B

24 Intraspecific Mixtures Most common use has been with multiline cultivars and cultivar mixtures to control rusts and mildews of small grain crops

25 Copyright American Phytopathological Society

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28 Inter-field Diversification

29 Experimentally, Disease Reductions Vary Substantially Depending On: Number and diversity of host genotypes Number of pathogen generations Epidemic speed Degree of host specialization Scale issues Inoculation methods Interplot interference

30 Effectiveness of Mixtures Can be highly dependent on degree of inoculum pressure

31 Demonstrated Successes for a Wide Variety of Crops and Diseases: Coffee Rust Apple Scab Willow Rust Many Foliar Diseases of Field Crops Soil-borne Pathogens Many Surprises

32 With Mixtures, Anything Can Happen Empirical testing critical

33 Intraspecific Mixtures and Yield Effects Common to observe 1-5% yield increases in cultivar mixtures in absence of significant disease. Best cultivar combinations are not always obvious, however. Mixtures commonly increase yield stability.

34 Practical Issues Acceptance Agronomics Seed handling Crop quality Marketing

35 Durability of Resistance in Mixtures Increased durability through decreased exposure – Oat crown rust – Wheat stripe rust

36 The “Superrace” Fear Should certainly take steps to discourage Has been overemphasized – little support from field – models are greatly over- simplified

37 Strategies for Major Genes One gene at a time Gene rotation Gene “ pyramids ” Mixtures Regional deployment Working With Minor Genes

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