Table 1: Origin of the five genotypes studied
Table 2: Sensitivity rate of the 5 genotypes studied with the different tolerance indices for drought and under stress and non-stress conditions
Table 3: Matrix of correlations between grain yields under stress and non-stress conditions and various drought tolerance indices
Table 4: Correlations of variables measured with 3 first’s components
Table 5: Coordinates of genotypes studied in 3 first’s components
Figure 1: Biplot of variables measured and genotypes with first’s 3 components
Figure 2: Classification of varieties evaluated by their performance comparatively averages of the effect of water stress
Table 1: Origin of the five genotypes studied
Table 2: Sensitivity rate of the 5 genotypes studied with the different tolerance indices for drought and under stress and non-stress conditions
Table 3: Matrix of correlations between grain yields under stress and non-stress conditions and various drought tolerance indices
Table 4: Correlations of variables measured with 3 first’s components
Table 5: Coordinates of genotypes studied in 3 first’s components
Figure 1: Biplot of variables measured and genotypes with first’s 3 components
Figure 2: Classification of varieties evaluated by their performance comparatively averages of the effect of water stress
Table 1: Origin of the five genotypes studied
Table 2: Sensitivity rate of the 5 genotypes studied with the different tolerance indices for drought and under stress and non-stress conditions
Table 3: Matrix of correlations between grain yields under stress and non-stress conditions and various drought tolerance indices
Table 4: Correlations of variables measured with 3 first’s components
Table 5: Coordinates of genotypes studied in 3 first’s components
Figure 1: Biplot of variables measured and genotypes with first’s 3 components
Figure 2: Classification of varieties evaluated by their performance comparatively averages of the effect of water stress
Table 1: Origin of the five genotypes studied
Table 2: Sensitivity rate of the 5 genotypes studied with the different tolerance indices for drought and under stress and non-stress conditions
Table 3: Matrix of correlations between grain yields under stress and non-stress conditions and various drought tolerance indices
Table 4: Correlations of variables measured with 3 first’s components
Table 5: Coordinates of genotypes studied in 3 first’s components
Figure 1: Biplot of variables measured and genotypes with first’s 3 components
Figure 2: Classification of varieties evaluated by their performance comparatively averages of the effect of water stress
Table 1: Origin of the five genotypes studied
Table 2: Sensitivity rate of the 5 genotypes studied with the different tolerance indices for drought and under stress and non-stress conditions
Table 3: Matrix of correlations between grain yields under stress and non-stress conditions and various drought tolerance indices
Table 4: Correlations of variables measured with 3 first’s components
Table 5: Coordinates of genotypes studied in 3 first’s components
Figure 1: Biplot of variables measured and genotypes with first’s 3 components
Figure 2: Classification of varieties evaluated by their performance comparatively averages of the effect of water stress
Table 1: Origin of the five genotypes studied
Table 2: Sensitivity rate of the 5 genotypes studied with the different tolerance indices for drought and under stress and non-stress conditions
Table 3: Matrix of correlations between grain yields under stress and non-stress conditions and various drought tolerance indices
Table 4: Correlations of variables measured with 3 first’s components
Table 5: Coordinates of genotypes studied in 3 first’s components
Figure 1: Biplot of variables measured and genotypes with first’s 3 components
Figure 2: Classification of varieties evaluated by their performance comparatively averages of the effect of water stress
Table 1: Origin of the five genotypes studied
Table 2: Sensitivity rate of the 5 genotypes studied with the different tolerance indices for drought and under stress and non-stress conditions
Table 3: Matrix of correlations between grain yields under stress and non-stress conditions and various drought tolerance indices
Table 4: Correlations of variables measured with 3 first’s components
Table 5: Coordinates of genotypes studied in 3 first’s components
Figure 1: Biplot of variables measured and genotypes with first’s 3 components
Figure 2: Classification of varieties evaluated by their performance comparatively averages of the effect of water stress
Table 1: Origin of the five genotypes studied
Table 2: Sensitivity rate of the 5 genotypes studied with the different tolerance indices for drought and under stress and non-stress conditions
Table 3: Matrix of correlations between grain yields under stress and non-stress conditions and various drought tolerance indices
Table 4: Correlations of variables measured with 3 first’s components
Table 5: Coordinates of genotypes studied in 3 first’s components
Figure 1: Biplot of variables measured and genotypes with first’s 3 components
Figure 2: Classification of varieties evaluated by their performance comparatively averages of the effect of water stress
People also read
Full Research
Expression of Bacillus thuringiensis Toxin Affects the Leaf Anatomy of a Cotton Hybrid
V. T. SundaramurthyCotton, hybrid, Bt-alien gene, leaf, anatomy, stomata
Published Online : 07 Feb 2015
Research Article
Studies of Genetic Variability of Tomato (Solanum lycopersicum L.) Hybrids under Protected Environment
Kanchhi Maya Waiba, Parveen Sharma, Kasi Indra Kumar and Shivani ChauhanHybrids, protected cultivation, tomato, traits, variability
Published Online : 27 Jul 2021
Short Research
Yield Potential, Economics and Nutrient Uptake of Rabi Sweet Corn (Zea mays saccharata) as Influenced by Varying Plant Densities and Nitrogen Rates
Sandya N. R., G. Subbaiah and CH. Pulla RaoSweet corn, plant densities, nitrogen, yield, economics, nutrient uptake
Published Online : 07 Apr 2016
Review Article
Morphological, Physiological and Biochemical Response to Low Temperature Stress in Tomato (Solanum lycopersicum L.): A Review
D. K. Yadav, Yogendra K. Meena, L. N. Bairwa, Uadal Singh, S. K. Bairwa1, M. R. Choudhary and A. SinghAntioxidant enzymes, morphological, osmoprotectan, physiological, ROS, tomato
Published Online : 31 Dec 2021
Research Article
Effect of Nutrient Management and Rice Establishment Methods on Groundnut (Arachis hypogaea L.) in Rice–Groundnut Cropping System
T. K. Samant, L. M. Garnayak, R. K. Paikaray, K. N. Mishra, R. K. Panda and S. K. SwainGroundnut, phenology, yield, economics, rice-groundnut system
Published Online : 31 Dec 2021
Research Article
Traditional Knowledge on Uncultivated Green Leafy Vegetables (UCGLVS) Used in Nalgonda District of Telangana
Kanneboina Soujanya, B. Anila Kumari, E. Jyothsna and V. Kavitha KiranNutritious, traditional knowledge, uncultivated green leafy vegetable
Published Online : 30 Jul 2021