evolutionary breeding in wheat for low input systemsorgprints.org/7450/3/7450.pdf · evolutionary...
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![Page 1: Evolutionary breeding in wheat for low input systemsorgprints.org/7450/3/7450.pdf · Evolutionary breeding in wheat for low input systems Martin S. Wolfe*, Kay Hinchsliffe*, Sarah](https://reader034.vdocuments.site/reader034/viewer/2022051720/5a78e66f7f8b9a70648e9d80/html5/thumbnails/1.jpg)
Evolutionary breeding in wheat for low input
systems
Martin S. Wolfe*, Kay Hinchsliffe*, Sarah M. Clarke*, Hannah Jones*, Zoë Haigh*, John
Snape** and Lesley Fish**
* Elm Farm Research Centre, ** John Innes Centre
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Composite cross populations or evolutionary breeding
• Composite cross populations are populations of segregating individuals derived from inter-crossing a number of parents.
• Instead of selecting ‘promising’ individuals in each generation, the whole population is exposed to natural selection in each subsequent generation
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Why breed composite cross populations in wheat (evolutionary breeding)?
• Pedigree line breeding is genetically fixed –evolutionary potential is limited
• Breeders currently not interested – market too small; certification system evolved with the breeding system
• Different characters needed: buffering against environmental variation; weed competition; crop nutrition
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Why populations?An assembly of genetically different individuals
offers:
Capacity: more characters than a pure standComplementation: different genotypes may
complement each otherCompensation: if some fail, others take their place
Competition: this is the major factor that may work against the three ‘Cs’ above.
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Populations or Mixtures?Characteristic Population Mixture
Is survival in the community correlated positively with agricultural value?
? Yes?
How did wheat evolve? ? Yes?
Able to respond to environmental variation?
Yes ?
Or populations and mixtures??
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Composite Cross: Selection of Parent Lines
High Yield Potential
1 Bezostaya
2 Buchan
3 Claire
4 Deben
5 High Tiller Line
6 Norman
7 Option
8 Tanker
9 Wembley
Thatcher12Spark11Soissons10Renesansa9Renan8Pastiche7Monopol6Mercia5Maris Widgeon4Hereward3Cadenza2Bezostaya1
High Quality Potential
Plus 4 male sterile lines
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x
Parent Lines Parent Lines
Natural + Directed Mass Selection(involves all stakeholders – farmers, breeders etc.)
F2Composite
CrossPopulation
F3Composite
CrossPopulation
Composite Cross breeding process
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Composite Cross Populations
High Yield Population
High Yield Population
+ HMS
High Quality Population
High Yield & Quality
Population
High Quality Population
+ HMS
High Yield & Quality
Population+ HMS
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Overall yield data: four sites x two years(s.e.d.=0.157)
Category
Parents Mixtures CCP CCPms
Gra
in y
ield
(t/h
a @
15%
mc)
7.0
7.2
7.4
7.6
7.8
8.2
8.4
8.6
8.0
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Average plant heights comparing systems, and parents versus populations
Heights (cm) across four sites, two years
0
10
20
30
40
50
60
70
80
90
Y Q YQ Y Q YQ
Parents CCPs
cm. Organic
Convtl
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Grain Quality
a) Quality was low in both years.
b) There was little difference in quality between organic and conventional.
c) Quality parents, mixtures and populations had better quality than, respectively, their Yield and Yield/Quality counterparts.
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Geographical expansion
• Currently four comprehensive trials in east and west of England
• Participatory farm observations at further sites in England
• Second year trials in France, Germany and Hungary
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Development dynamics
• Adding new parental material
• Adding more male steriles
• Mass selection – different characters and environments
• Combining different populations with different histories
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Exploitation of populations
• Direct exploitation:– Using the rye model– Closed loop production– Farmer clubs– On-farm production and use
• Synthetic varieties (rye model)
• Pedigree line breeding