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Root proliferation in Medicago sativa L. (s. l.): (1) Evaluation of procedures for increased production of nondormant root-proliferating alfalfas. (2) Inheritance of the root-proliferating habit.Rodrigues, Geraldo Helcio Seoldo. January 1987 (has links)
This investigation examined the efficiency of various screening procedures which could be used in breeding for increased production of root-proliferating (RP) genotypes of alfalfa (Medicago sativa L. s. l.). Also investigated were relationships between RP and winter growth characteristics in populations derived from crosses between dormant, RP clones and nondormant, non-RP clones. In addition, this investigation also considered the inheritance of the RP habit. Plants from an 11-month F₁ progeny test containing 3508 offspring were qualitatively analyzed for RP expression using three pairs of screening procedures. Procedures compared included: (1) direct-seeding vs. transplanting; (2) use of characterized parental clones (known RP-expressing genotypes selected from field nursery) vs. uncharacterized parental clones (genotypes derived from RP seed lots with no prior knowledge of their ability to express the RP habit) in RP x nondormant crosses; and (3) low vs. high harvest frequencies. A low frequency (3.3%) of F₁ plants exhibited adventitious shoot formation. No differences were observed in the frequency of RP-expressing genotypes between the direct-seeded and transplanted treatments or between the low and high harvest frequency treatments. Characterized RP parents produced a hybrid population with a significantly higher frequency of RP-expressing genotypes than did the F₁ population derived from uncharacterized RP parents. Average winter forage production of the F₁ hybrids were similar in magnitude to the midparent value. Plant height was significantly and positively correlated with forage yield and could be used as an accurate indicator of winter forage yield in analyses of RP segregants. Estimates of components of genetic variance for RP expressivity indicated a predominance of additive effects and narrow sense heritability of 8.4%. Family selection and progeny testing are suggested for maximum breeding progress.
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Selection of very nondormant alfalfa for increased winter and spring productionAl-Doss, Abdullah, 1963- January 1989 (has links)
Regrowth and yield of 23 Middle Eastern (ME) cultivars and the elite cultivar Lew were evaluated for twelve regrowth harvests in pure stands and 50:50 mixtures with Lew in 1988 at Tucson, Arizona. Stem elongation rate and crown shoot development were measured on selected ME cultivars and Lew in the spring of 1988. No significant differences in yield were observed between mixtures and monocultures. Few significant differences were observed over all yields among ME cultivars and Lew. Cultivars from Saudi Arabia and Egypt produced more forage than Lew in spring harvests. These cultivars developed crown shoots precociously and had high stem elongation rates during the first week of regrowth. Most ME cultivars had higher leaf area and leaf:stem ratio than did Lew. These findings suggest that ME cultivars may be useful in improving forage yield during the winter and spring and forage quality in elite nondormant cultivars.
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MORPHOLOGICAL FEATURES OF ALFALFA (MEDICAGO SATIVA L.) CLONES AND THEIR RELATION TO PHOTOSYNTHESIS AND RESPIRATIONDelaney, Ronald H. January 1972 (has links)
No description available.
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Problems related to breeding alfalfas for resistance to black stem diseasePeterson, Maurice Lewellen January 2011 (has links)
Typescript, etc. / Digitized by Kansas State University Libraries
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Effect of inbreeding on germination salt tolerance in alfalfaMorita, Tateo, 1958- January 1987 (has links)
The performance of an alfalfa (Medicago sativa L.) population has been improved by recurrent selection for germination salt tolerance. However, recurrent selection may lead to increased inbreeding. Since alfalfa is subject to severe inbreeding depression, accumulation of inbreeding during the selection process may negatively affect performance. This experiment was designed to determine the effects of inbreeding on germination performance in alfalfa under saline and non-saline conditions. The germination performance of seed having three different levels of inbreeding as examined. No adverse effects of inbreeding were observed in non-saline conditions. Consistent (but nonsignificant) declining trends were observed in germination percentage in saline conditions as the level of inbreeding increased. Proportionately larger declines were observed between generations in germination speed and early seedling vigor. These results suggest heterozygosity in alfalfa may be maintained simultaneously while recurrent selection for germination salt tolerance is conducted. Moreover, reducing inbreeding during recurrent selection for germination salt tolerance may be more successful if germination speed index or early seeding vigor are used for the measurement.
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Developing Salt Tolerant Alfalfa Beyond the Germination StageMcKimmie, T., Dobrenz, A. K. 09 1900 (has links)
No description available.
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Increasing the Leaf Area of AlfalfaBack, Merri, Dobrenz, A. K. 09 1900 (has links)
No description available.
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Breeding Strategies for Alfalfa Grown Under Saline ConditionsJohnson, D. W., Smith, S. E., Dobrenz, A. K. 09 1900 (has links)
No description available.
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Development of Grazing-tolerant Alfalfa for the SouthwestSmith, S. E., Rodrigues, G. H. S., Conta, D. M., McKinley, L. 09 1900 (has links)
No description available.
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Improved Regrowth Salt Tolerance in AlfalfaJohnson, D. W., Smith, S. E., Dobrenz, A. K. 09 1900 (has links)
No description available.
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