twentyfourteen domain was triggered too early. This is usually an indicator for some code in the plugin or theme running too early. Translations should be loaded at the init action or later. Please see Debugging in WordPress for more information. (This message was added in version 6.7.0.) in /var/www/vhosts/gcsar.gov.sy/httpdocs/en/wp-includes/functions.php on line 6131Ola Omar Moustafa Abstract<\/strong><\/p>\n Durum wheat (Tritcum turgidum<\/em> L var. durum) is one of the most widespread grown wheat in the Mediterranean region, where drought is the main environmental stress that determines its productivity. Understanding of drought tolerance basics relies on the study of morpho-physiological traits that can be used in genotypes selection based on the correlation of these traits to grain yield under drought conditions, in addition to determining gene loci responsible for them through finding a molecular marker close to the gene or genetic loci associated with an impartial trail under drought condition, which can be used by plant breeder as a selection tools “Marker Assisted Selection MAS”, to develop\u00a0 drought tolerant varieties. Ola Omar Moustafa General Commission for Scientific Agricultural Research- Administration of Field Crops Research, Section of Technology Package of Agronomy Aleppo University, Faculty of Agriculture 2010 Abstract Durum wheat (Tritcum turgidum L var. durum) is one of the most widespread grown wheat in the Mediterranean region, where drought is the main environmental stress that determines … Continue reading Linking some Drought Tolerance Genes with Stress Morpho-physiological Traits by Using Micro-satellite in Durum Wheat<\/span>
\n<\/strong>General Commission for Scientific Agricultural Research-<\/strong>
\nAdministration of Field Crops Research, Section of Technology <\/strong>
\nPackage of Agronomy<\/strong>
\nAleppo University, Faculty of Agriculture<\/strong>
\n 2010<\/strong><\/p>\n
\nThis research was conducted within the joint scientific collaboration program between ICARDA, GCSAR, and Faculty of Agriculture \/ University of Aleppo,\u00a0 aiming at determining the most important morpho-ophysiological traits\u00a0 genetically correlated to grain yield\u00a0 and drought tolerance, determining the molecular\u00a0 markers associated with drought in the studied lines of the\u00a0 “Lahn x cham1” population,\u00a0 using microsatellite technique liking between the morpho-physiological trait and the molecular markers related to drought, and then studying the genetic compatibility relationship between the morphophysiological trait correlated to drought in selected gene loci.
\nThe field experiments were carried out in two different locations. In terms of environmental and climatic conditions which are Tel Hadya (supplementary irrigation), and Breda (rainfed Zone C) in 3 seasons (2004\/05-2005\/06-2006\/07) .
\nIn 2004\/05 growing season, the plant material studied consisted of 112 uniform durum genotypes which originated from the cross Lahn x Cham1. The parent Lahn is characterized by high grain yield under irrigated conditions and high grain quality. Cham1 is characterized by high grain yield and yield stability in different environments.
\nEighteen lines were selected based on their yield and stability, and were studied during two growing seasons (2005\/06 and 2006\/07)
\nAugmented design was used in the first season, while in the next two seasons randomized completed block design was used.
\nThe results indicated that there was a significant difference in the grain yield between locations, and that drought reduced grain yield by 89% and decreased the values of yield components and morphological characters in addition to different physiological responses.
\nThe results of studying the correlation between grain yield and morpho-physiological traits studied revealed a significant positive correlation in dry location to peduncle length, straw length, leaf color during filling period, stomata resistance, and leaf temperature at 45 zadoks. While grain yield was significantly and negatively correlated to days to heading. The results also showed that the best physiological criterion positively correlated with yield is sensitivity tolerance index (STI) which is in turn linked to number of grains per spike, which was proven by the results to the yield component that is most associated with grain yield in the dry location. The line LC2106 was the most drought tolerant. The results showed that stress tolerance trait of durum wheat and yield stability were reached by reduced number of days to heading and to maturity and increased peduncle length, which\u00a0 makes these traits important indicators for selection of stable, high- yielding lines und drought stress conditions.
\nThe study of grain yield and most of morphophysiology traits under study have significant degree of Transgressive Inheritance which indicates to the possibility to reaching lines with morpho-physiological characteristics better than their parents.
\nConcerning the molecular study using micro-satellite technique, SSR markers were distributed over all durum wheat chromosomes to correlate the morphophysiological traits with Gene loci. The results revealed the existence of many gene loci associated with most of the morpho-physiological traits related to drought (pedunde length, leaf color, stomata resistance, leaf temperature at 45 stage, STI, days to heading). These loci are located on the chromosome 4B (gwm160bp172, gwm006bp180, gwm495bp155, wmc048bp190, gwm368bp287) which contains a great number of gene loci for drought tolerance (BM816121, BM816640, BM816848). Including the marker (gwm160bp172) which is correlated to grain yield and number of grains per spike which can be used in marker-assisted selection.
\nOur results confirmed the correlation of gene locus (XBM816640) located on chromosome 4B to leaf color, and indicated to the correlation of several\u00a0 morpho-physiological traits related to drought with the gene locus (GWM129) located on chromosome 5A whose near the gene locus (XBM816474) associated with drought.<\/p>\n","protected":false},"excerpt":{"rendered":"