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EVALUATING THE PRECISION OF FABA BEAN FIELD EXPERIMENTS
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Abstract: Two field experiments were conducted at Giza Research Station, ARC, Egypt, during 2013/14 and 2014/15 seasons. Twenty faba bean genotypes were evaluated in this study in an alpha lattice design with three replications for seven traits. The aim was to assess the efficiency of two experimental designs to minimizing experimental error and the coefficient of variation for yield variable. Thus, data were analyzed according to alpha lattice design and randomized complete blocks design (RCBD). The results showed improvement in the precision level thought decline in both the mean square error and the coefficient of variation. The relative efficiency (R.E.%) of trials showed that alpha lattice design was more efficient than RCBD. The estimated average of R.E.% indicated that the use of alpha lattice design instead of RCBD increased experimental accuracy by 10, 8, 22, 14, and 18 and 56% for days to 50% maturity, plant height, number of branches/plant, 100-seed weight, seed yield/plant and seed yield ard/fed, respectively. Mean rank comparisons for both randomized complete block and alpha lattice design were performed. Data showed that the ranks for both designs were not constant across the experiments. Generally, the results showed that the traditional RCBD should be replaced by alpha lattice in the agricultural field trials when the number of treatments that be tested in an experiment are high, where a homogeneous block is quite difficult to find in field experiments. Results performed that the estimation of heritability according to alpha lattice was higher than the RCBD; therefore, alpha lattice analysis can increase the degree of precision, thence the estimation of heritability.
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| Publication year |
2015
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| Pages |
288-296
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| Author(s) from ARC |
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| Publication Type |
Journal
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