اختُبر 12 طرازا وراثياً من القمح القاسي Triticuum. du لصفة الغلة الحبيبة
في ثلاثة مواقع بيئية متباينة خلال موسمي 2014/2013 ,2015 /2014 و تضمنت المادة الوراثية 7 سلالات مبشرة و خمسة شواهد تمثل أصناف القمح القاسي المحلية لمنطقتي الاستقرار الأولى و ا
لثانية في سورية. صممت التجربة وفق تصميم القطاعات الكاملة العشوائية في ثلاثة مكررات, حللت البيانات و تمت المقارنة وفق اختبار أقل فرق معنوي LSD عند مستوى دلالة 5%.
Twenty four genotypes were tested for grain yield in four diverse locations
over two seasons i.e. 2005-06 and 2006-07. The genetic material contained 19
promising lines and five checks representing the local and improved cultivars
for Zoon B (250-
350 mm/year) in Syria. The results showed the significant role
of the genotype by environment interaction of crossover type in the
performance of the genotypes studied and their ranking across test
environments.
The largest portion of the variance due to GE interaction was
attributed to genotype by season GS and Genotype by location by season GLS
interactions which revealed the importance of selection for yield stability in
addition to average yield across environments.
In Syria, Barley is grown under rainfed conditions in areas receive less than 300mm
(zones: 2, 3 and 4), which is characterized by limited water availability and large year to
year variability in both total rainfall and distribution . A biotic stre
sses such as drought,
cold, heat , salinity and biotic stresses in addition to low soil fertility and the traditional
methods in agriculture production are the limiting factors for barley productivity in
Syria. In these agro-climatic environments, landraces and their wild relatives are
considered to be very useful as main sources of genetic materials in breeding programs,
also its widely recognized that these materials could be an important source of useful
genetic variation. A study of the genetic structure of landraces may explain to what
extent their adaptation to harsh environments is associated with remote or continuous
introgression of H. spontaneum, and hence indicates an additional avenue to improve
barley yield and its stability in dry areas. The ability of pure lines to sustain yield and
stability in dry areas highly correlated with its heterogeneity. and the mixture of several
lines gave higher productivity than the pure line Arabi asswad.
The objectives of this work were to study the relationships between the genotype and
environment interaction, to evaluate and compare the performance of number of
populations and barleymixtures with pure barley lines under rainfed conditions (Zone2)
in Tel Hadya Research Station (35 Km South of Aleppo city).
The study also aimed to investigate the population dynamic behavior of three pure
lines of barley in pure stands and in mixtures, each pure line being selected from
landraces of three climatically/ ecologically different regions in Syria and Jordan.
The results showed that, in spit of the narrow genetic variation between the
experimental materials, the variations were very wide and obvious for most of the studid
characteristics, mainly on grain yield (3.25-5.17 ton/ha) and biological yield 7.4 – 11.9.
The variation was due to highly productive tillers, 1000 kernel weight and grain size as
well as the morphological and phenological characteristics. The environmental conditions
during the three seasons did not allow the evaluation of the reaction of the Mixtures and
Populations even though mixture 2, which consists of 1: 2: 1 of zanbaka, Arta and Wadi
Al-Hassa showed a very good performance in grain yield, biological yield and many other
characteristics such as grain weight, harvest index, threshing percentage, grain number
and grain weight. It is expected that pure lines will perform better in favorable and
stable conditions and mixtures and some populations will play a very important role
under stressed environments.
اختُبر 12 طرازا وراثياً من القمح القاسي Triticuum. durum لصفة الغلة الحبية
في ثلاثة مواقع بيئية متباينة خلال موسمي 2013-2014 , 2014-2015
بثلاثة معدلات بذار ( 150, 200 ,250 ) كغ/ ه و تضمنت المادة الوراثية 7 سلالات
مبشرة و خمسة شواهد تمثل أصناف ا
لقمح القاسي المحلية لمنطقتي الاستقرار الأولى
و الثانية. صممت التجربة وفق تصميم القطاعات الكاملة العشوائية في ثلاثة مكررات,
حللت البيانات و تمت المقارنة وفق اختبار أقل فرق معنوي LSD عند مستوى دلالة 5%.
Eleven genotypes of Bread Wheat (Triticum aestivum L.) were tested at three diverse
locations in the Syrian Coast during the 2015-2016 season under rain-fed conditions to
assess these genotypes and to study the Genotypes x Environments Interactions
, and yield
stability across environments using 5 statistical measures of stability:{ X¯i, bi, and i
according to Eberhart and Russell (1966), Stability Variance Index (2
i) according to
Wricke and Weber (1980), Ecovalance Stability Index (Wi) according to Wricke (1962)}.
Genetic material included 5 promising lines and 6 local varieties (provided by ACSAD and
GCSAR).The experiment was designed using randomized complete block design with
three replications, statistical data analysis was done, and least significant difference
(L.S.D) test at 5% was applied for comparison of means. Significant differences were
observed among bread wheat genotypes for grain yield (ton/ha), combined analysis of
variance of grain yield across the three environments showed significant mean squares due
to genotypes, environments and genotypes x environments interaction, suggesting
differential responses of genotypes across studied environments and validity of stability
analysis.
Stability analysis for grain yield revealed that; the promising line ACSAD-1147 and
Doma6 were more stable than other genotypes. Due to they had superior ranks for both
average yield over environments and yield stability, which reveals the importance of these
genotypes to reach varieties that combine relatively high yield and better stability in any
future breeding programs.
