PNL Volume 13 1981
RESEARCH REPORTS
49
PRODUCTION, UTILIZATION, AND MARKETING OF FIELD PEAS
Slinkard, A. E.
University of Saskatchewan, Saskatoon, Sask., Canada
The final report on this 5-year project has been completed, but extra
copies are not available. Accordingly, a condensed version of the Research
Highlights pertaining to genetics and breeding is presented here.
1. Near isogenic populations were used to show that wrinkle-seeded lines
averaged about 3% higher in percent protein than genetically similar
smooth-seeded lines. Wrinkle-seeded lines contain about the same amount
of nitrogen per seed as do genetically similar smooth-seeded lines, but
since the wrinkled seed is smaller, it has a higher percent protein.
In plants segregating for smooth vs wrinkled seeds, the wrinkled seeds
were always higher in percent protein than the smooth seeds on the same
plant.
2. Wrinkle-seeded lines also have smaller seeds, lower yield, lower percent
starch, and lower percent emergence than genetically similar smooth-seeded
lines.
3. There is a negative correlation between percent protein and seed yield.
4. Plant-to-plant variation in percent protein is too great to permit
effective selection for percent protein on an individual plant basis.
5. Percent protein decreased slightly but consistently from the first to
the third fruiting node, indicating a significant within-plant variation
in percent protein.
6. Results from reciprocal grafts between high protein, wrinkle-seeded lines
and low protein, smooth-seeded lines indicate that the genotype of the
shoot and not of the root largely determines percent protein of the seed.
7. Green and yellow cotyledon color have no differential effect on percent
protein, percent starch, seed size, or seed yield.
8. There was no relationship between percent protein and seed weight, a
result in opposition to results reported in cereals.
9. Protein yield is highly positively correlated with seed yield, but only
slightly correlated with percent protein, suggesting that greater progress
can be made in breeding for increased protein yield by increasing seed
yield than by increasing percent protein.
10. Heritability was high for days to first flower (a measure of maturity)
and plant height and low for percent protein, seed yield, and percent
methionine expressed as percent of protein.
11. Genetic studies on percent methionine in plants should express percent
methionine as percent of protein (mg/g protein) and the use of percent
methionine as percent of meal (mg/g meal) should be reserved for nutri-
tional studies.
12. There is a narrow range of genetic variation for percent protein (about
10%), with adapted varieties near the mid-point. Most of the high protein
lines were wrinkle-seeded, further reducing genetic variation for percent
protein in smooth-seeded peas.
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