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Comparison between pedigree selection and independent culling levels techniqus for improving seed yield and its components in sesame [مصدر إلكتروني].

By:

Abd-Elsaber, A

Contributor(s):

Mekhaile, N. E. G

Language: English Summary language: Arabic Description: p. 61-71Other title:

مقارنة بين الإنتخاب بطريقة تسجيل النسب وطريقة المستويات المسبعدة المستقلة فى تحسين محصول البذور ومكوناته في السمسم [Added title page title]

Uniform titles:

Bulletin of Faculty of Agriculture. Cairo University, 2020 v. 71 (2)

Subject(s):

Online resources:

Full Text Article

In: The Bulletin. Faculty of Agriculture. Cairo University 2020.v.71(2)Summary: The current experiments were carried out at El-Mattana Agricultural Research Station, Luxor Governorate, Egypt, during the three summer seasons from 2016 to 2018, to compare the relative efficiency of two selection procedures, namely pedigree selection and independent culling level (ICL), for improving seed yield and its components in sesame. The genetic materials were the F3, F4 and F5generations. This study was carried out on 182 of F3 families derived from a single cross between Introduction 688 X hybrid 102 family 2, and added F3 bulked random sample. Variations among the F3 families were highly significant for all the studied traits. The results indicated that pedigree selection decreased the genetic variability measured as genotypic coefficient of variability (GCV) of seed yield/plant and other studied traits. The GCV of seed yield/plant decreased from 28.22 % in the base population to 7.79 % after two cycles of selection, from 32.89 to 13.37 % for capsules No./plant, from 11.11 to 7.63 % for fruiting zone length, and from 13.24 to 9.20 % for 1000-seed weight. Heritability in the broad sense after two cycles of selection was high for seed yield/plant (85.69 %), capsules No./plant (96.55 %), fruiting zone length (89.78 %) and 1000-seed weight (76.40 %). The realized heritability for pedigree selection increased, indicating that increasing seed yield was accompanied with increases in related traits, and the realized heritability increased after the two cycles of ICL technique by 33.9 % from the bulk sample for grain yield/plant. Heritability in the broad sense after two cycles of (ICL) was high for all the studied traits. Key words: Sesamum indicum, Selection methods, Segregating generations, Heritability.

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Item type	Current library	Call number	Status	Date due	Barcode
Articles	Main	ART BFACU V71 NO2 4 (Browse shelf(Opens below))	Available

Includes bibliographic reference

The current experiments were carried out at El-Mattana Agricultural Research Station, Luxor
Governorate, Egypt, during the three summer seasons from 2016 to 2018, to compare the relative
efficiency of two selection procedures, namely pedigree selection and independent culling level (ICL),
for improving seed yield and its components in sesame. The genetic materials were the F3, F4 and
F5generations. This study was carried out on 182 of F3 families derived from a single cross between
Introduction 688 X hybrid 102 family 2, and added F3 bulked random sample. Variations among the F3
families were highly significant for all the studied traits. The results indicated that pedigree selection
decreased the genetic variability measured as genotypic coefficient of variability (GCV) of seed
yield/plant and other studied traits. The GCV of seed yield/plant decreased from 28.22 % in the base
population to 7.79 % after two cycles of selection, from 32.89 to 13.37 % for capsules No./plant, from
11.11 to 7.63 % for fruiting zone length, and from 13.24 to 9.20 % for 1000-seed weight. Heritability
in the broad sense after two cycles of selection was high for seed yield/plant (85.69 %), capsules
No./plant (96.55 %), fruiting zone length (89.78 %) and 1000-seed weight (76.40 %). The realized
heritability for pedigree selection increased, indicating that increasing seed yield was accompanied
with increases in related traits, and the realized heritability increased after the two cycles of ICL
technique by 33.9 % from the bulk sample for grain yield/plant. Heritability in the broad sense after
two cycles of (ICL) was high for all the studied traits.
Key words: Sesamum indicum, Selection methods, Segregating generations, Heritability.

Summary in Arabic

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