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Showing 5 results for Genetic Advance

Dr. Omran Alishah,
Volume 13, Issue 38 (7-2021)
Abstract

In order to study of intra-cultivar variation and genetic gain of yield, yield components and fiber quality traits of cotton (cv. Latif) an experiment was conducted for three years (2015-2017) at Hashemabad cotton research station in Gorgan, Iran. Selection was performed by Pedigree- mass method and selected individual plants were grown in single row plot during experimental years. Analysis of data revealed significant difference between the three populations derived from selection during experimental years by the years. The highest coefficient of variation (CV) estimated for yield (23.8), seed weight (10.7), boll weight, lint percentage and fiber strength (8-8.6), respectively, which confirmed intra-cultivar variation. Boll weight, grain weight and lint weight had the highest heritability and genetic advance. Boll number and seed weight have identified as the most effective components and selection index for yield improvement. Correlation values revealed that micronair index positively correlated with lint percentage (r = 0.40 **) and negatively correlated with seed weight, which indicates importance of them as selection criteria for latif cultivar improvement. We conclude the short term improvements may be achieved through indirect selection for yield and lint percentage. Future efforts should be placed in increasing earliness and fiber strength rates.
 
Miaad Kia, Nadali Bagheri, Nadali Babaeian Jelodar, Mahmoud Bagheri,
Volume 14, Issue 43 (10-2022)
Abstract

Extended Abstract
Introduction and Objective:
Due to the very high diversity among the genotypes of quinoa (Chenopodium quinoa), it has shown a very high adaptability and stability in different climates. Therefore, this experiment was performed to investigate the morphological and genetic diversity of 14 quinoa genotypes and compare them with the control genotype of the region (Titicaca).

Material and Methods: This experiment was conducted using randomized complete block design with three replications in the research farm of Gorgan Agricultural Meteorological Research Office. The studied genotypes including 4 late genotypes and 10 early genotypes were obtained from the Seed and Plant Improvement Institute of Karaj and were sown on August 11, 2019. Nine traits including plant height, stem diameter, number of sub-branches, panicle length, number of panicles, panicle width, biomass, 1000-seed weight and yield per hectare were evaluated during the growing season.
Results: Analysis of variance showed that there was a significant difference between genotypes in all studied traits. Late genotypes Q104, Q102 and Q101 had a significant increase in most traits, especially grain yield, compared to control and other genotypes. Comparison of correlation coefficients between traits has shown a positive and significant relationship between grain yield and all studied traits except 1000-grain weight. The highest correlations of grain yield were with biomass, stem diameter, panicle width, height and panicle length, respectively. In addition, the clustering of genotypes based on agronomic traits has divided the genotypes into 3 groups, with the highest average yield related to the second cluster including late maturity genotypes Q104 and Q102 and the lowest related to the first cluster. In this study, the highest genetic and phenotypic variance, heritability and genetic gain were related to plant height and grain yield.
Conclusion: Among the studied genotypes, late genotypes Q104, Q102 and Q101 and among early genotypes, Q12 and Q18 showed better performance than other genotypes. Therefore, these genotypes can be suitable options for cultivation of this plant in this region.

Esmaeil Gholinezhad, Reza Darvishzadeh, Abbas Abhari,
Volume 14, Issue 44 (12-2022)
Abstract

Extended Abstract
Introduction and Objectives: One of the methods that has been used in recent years to deal with dehydration and drought stress in many plants is the use of root symbiotic fungi (mycorrhiza). Ecological and physiological studies have shown that mycorrhizal symbiosis often results in better absorption of water and nutrients from the soil. Due to the importance of oilseeds and especially sesame, the study of commercial cultivars in terms of genetic variation, phenotypic components and heritability of traits is important. Sesame due to its high oil content (52-42 Percentage) and its proper quality (low cholesterol and the presence of some antioxidants) play an important role in human health and on the other hand the plant tolerates dehydration and drought stress. Currently, water stress is the most important and common factor in reducing yield in arid and semi-arid regions. High heritability for a trait indicates that the major part of phenotypic variance is due to genetic variance, while in low heritability, genetic factors have a smaller share in phototypic diversity. The aim of this study was to estimate the variance components and heritability of grain yield and related traits in 8 commercial sesame cultivars under different irrigation conditions.
Material and Methods: In order to investigate the genetic diversity and the heritability of grain yield and yield components in sesame, 8 commercial cultivars were studied in three separate experiments using factorial split plot based on randomized block complete design with three replications in research field of Agricultural Research Center, West-Azerbaijan in 2015-2016 and 2016-2017 cropping seasons. The main plots (factor A and B) consisted of three different levels of irrigations (normal irrigation: irrigation after 70 mm evapotraspiration of crop or ETc, moderate drought stress: irrigation after 90 mm ETc and severe drought stress: irrigation after 110 mm ETc) and factor B included three levels: two species of mycorrhiza fungi Glomus mosseae, Glomus intraradices and non-inoculated (control). Sub plots (factor C) consisted of eight commercial cultivars of sesame.
Results: The results of analysis of variance showed that the effect of environment, genotype and the interaction of environment × genotype on most of the studied traits were significant. In optimal irrigation regimes, moderate and severe drought stress under inoculation and non-inoculation conditions with mycorrhiza, the highest genetic variance was observed in biological yield, number of seeds per square meter and seed yield, respectively. The highest heritability in optimum irrigation conditions without mycorrhiza inoculation of traits (seed yield and number of grains per capsule), in optimum irrigation conditions and inoculation with mycorrhiza (both two species) (seed yield and 1000 seed weight), in moderate drought stress conditions and no inoculation with mycorrhiza (seed yield, 1000 seed weight and number of seeds per capsule), under moderate drought stress and inoculation with mycorrhiza G. mosseae (1000 seed weight and number of grains per capsule), under moderate stress conditions and inoculation with mycorrhiza G. intradices (seed yield, 1000 seed weight and number of grains per capsule), under severe drought stress conditions and without inoculation with mycorrhiza (stem diameter and 1000 seed weight), under severe drought stress conditions and inoculation with mycorrhiza G. mosseae (stem diameter, number of seeds per capsule and number of seeds per square meter) and in conditions of severe drought stress and inoculation with mycorrhiza G. intraradices (stem diameter, number of seeds per square meter and 1000 seed weight) were observed. Seed yield, biological yield and seed yield components had high genetic gain and genetic advance in all three different irrigation conditions. Among the components of grain yield, considering that the heritability of number of seeds per capsule and 1000 seed weight in all three different irrigation conditions is higher compared to the number of capsules per plant, so selection through number of seeds per capsule and 1000 seed weight to increase seed yield will be more efficient.
Conclusion: Therefore, commercial sesame cultivars that have more seeds per capsule and a 1000 seed weight can be used in breeding programs to produce cultivars with high seed yield. According to the information of this study, only general heritability can be calculated, but since many studies on commercial sesame cultivars in interaction with different conditions of irrigation and inoculation and non-inoculation with mycorrhiza have not been done, so this study can useful for researchers.

Miss Bafrin Molaei, Dr Sohbat Bahraminejad, Dr Leila Zarei,
Volume 16, Issue 1 (4-2024)
Abstract

Extended Abstract
Introduction: Oat, as a dual-purpose cereal, has an important role to provide human food and animal feed and fodder regarding to its high amounts of beta-glucan, protein, vitamins, minerals, fatty acids and valuable antioxidants. Oat breeding programs have been steadily decreasing compared to other cereals due to decrease in cultivated area. Therefore, identifying and studying sources of diversity in oats is critical and valuable regarding to release new cultivars with better quality and higher grain yield per unit area. Thus, this experiment was carried out with the aim of evaluating different genetic parameters and principal component analysis in order to determine the amount of genetic diversity in oat genotypes.
Materials and methods: In this study, 361 oat genotypes of seven species belong to 50 countries from five continents which were received from Australian Grain Genebank (AGG) and kept in the genebank of the Campus of Agriculture and Natural Resources, Razi University were investigated. Estimation of the genetic parameters related to plant height, panicle length, days to 50% flowering, days to 50% physiological maturity, biological yield, grain yield, straw yield, harvest index, thousand seed weight, number of seeds per panicle and number of panicle per square meter of the genotypes were performed. This experiment was conducted in a simple square lattice design with two replications under normal irrigation condition, in two cropping years 2017-2019 in the research farm of the Agriculture and Natural Resources Campus, Razi University, Kermanshah.
Results: Based on the results of the one-year variance analysis, there was a highly significant difference between genotypes regarding all the measured traits which indicates the presence of considerable genetic diversity between these genotypes. The results of mean comparison based on LSD method showed (NILE), (KENT), (LA PREVISION), (ZLATAK), SDO-185), OX87:080-2), (ACACIA), AND (DUNNART) genotypes had the highest grain yield for two years, while, Genotypes (LIGOWA), (NILE), (VENTURA), (YULAF), (NMO-712), (SDO-185), (VDO-931.1), (SLAVUGE), and (no.9278) had the highest mean for biomass in two cropping years. The results of the descriptive statistics showed the wide range of changes for the most of the investigated traits, as it was variable for grain yield from 56.30 to 789.81 g/m2 in the first year and from 39.59 to 627.28 g/m2 in the second year. Based on the results of correlation analysis, the most positive and significant phenotypic correlation was calculated between biological yield and straw yield in both years. The result of phenotypic and genotypic correlation also, showed a significant relationship between grain yield and all studied traits except plant height, panicle length, days to heading, and days to maturity in the first year. Also, it had a significant phenotypic correlation with all traits except plant height and straw yield in the second year. The traits of 1000- kernel weight, plant height, days to heading, and number of panicles per square meter had the highest genetic variance in both years. The range of general heritability in the first year was variable from 70.06 to 95.87%, respectively, for the traits of days to physiological maturity and 1000 seed weight, and in the second year, from 77.85 to 94.91% for biological yield and 1000 seed weight. Grain yield, biological yield, straw yield, number of panicles per square meter, and number of grains per panicle had a high percentage of heritability and genetic advance simultaneously. Based on the principal component analysis the first two main components explained 63.3 and 67.8 percent of the total changes in each year, respectively.
Conclusion: The results of variance analysis of the data obtained from this study indicated the existence of significant genetic diversity among the evaluated genotypes in terms of all measured traits, which can be attributed to the existence of different species with different geographical origins. Comparing the average data, genotypes 336, 349, 356 and 360 were introduced as the genotypes with the highest average grain yield in both years. Based on the results of Principal Component Analysis and Correlations Analysis, it can be found that the attributes of the number of panicles per square meter, the number of grains per panicle, 1000-kernel weight, and biological performance are very effective in breeding programs to achieve superior varieties. The genotypes NILE, LA PREVISION, OX87:080-2 and DUNNART were the superior genotypes in terms of the mentioned traits and grain yield. The estimation of genetic parameters showed that the selection based on the number of panicles per plot, the number of grains per panicle, and plant height plays a significant role in improving grain yield because of having a high broad heritability and significant genetic advance at the same time. According to the results of this study, it is possible to separate the superior genotypes in terms of grain yield and biological yield, and perform subsequent tests for grain and fodder genotypes, separately. Also, valuable traits for easier access to this important issue in subsequent oat improvement programs could be identified.

 

Gader Ghaffari Neamat Abad, Jalal Saba, Ehsan Mohsenifard, Afshin Tavakoli Zaniani,
Volume 16, Issue 1 (4-2024)
Abstract

Extended Abstract
Introduction and Objective: Lentil (Lens Culinaris Medik.) belongs to cool season pulses. It is annual, self pollinated and diploid crop and its seed is rich in protein. Lentil, such as other legumes that are in symbiosis with nitrogen-fixing bacteria plays an important role in reducing fertilizer consumption and increasing the productivity of other crops that are in rotation with lentil. Success in breeding programs depends on genetic diversity, heritability and selection. Investigating the genetic diversity is the basis of breeding and releasing high-yielding cultivars with high quantitative and qualitative characteristics and capacities. Therefore, the evaluation of genetic diversity in crops is essential for breeding programs and the protection of genetic resources. For this purpose, it is necessary to collect plant germplasm to be evaluated as a base population, and genotypes with yield potential and other desirable traits are identified and exploited. Due to the low yield potential of the exsistance cultivars, investigating the genetic diversity among native lentil lines and comparing them with control cultivars could assiste the breeder in selecting superior lines in terms of yield potential and agromorphological triats.
Material and Methods: To select and introduce new cultivars, native lentil lines collected from the target areas in Zanjan province were evaluated in the two cropping years of 2017-2018 and 2018-2019 in the experimental farm of Zanjan University's Faculty of Agriculture. In both years of the experiment, improved cultivars such as Kimia, Sabz Koohin, Gachsaran, Maragheh and Bilehsavar were used as control cultivars. The first year, the experiment was conducted in the augmented design based on randomized complete bloke design with 200 lines. Each experimental unit consisted of one metere row. The distance between the rows was 25 cm, the distance on the rows was 5 cm, and the planting depth was 5 cm. At the beginning and end of each block, two rows of Sabz Koohin were planted as borders. The second year, Due to echeaving enough seeds from the first year, the experiment was carried out in square lattice design with tow replications and larger experimental units for the selected lines from the first year. Each experimental unit consisted of two one-meter rows. The distance between the rows, the distance on the rows and the planting depth were similar to the first year experiment. At the beginning and end of each incomplete blocks, two rows of Sabz Koohin were planted as borders.
Results: In the first year, the results of analysis of variance showed that there is significant difference among lentil lines in terms of canopy temperature difference, podding period, number of seed per plant, seed yield per plant, harvest index per plant, number of seed per area, seed yield per area and 1000-seed weight at 0.01and 0.05 level. in this year, canopy temperature difference, podding period, first branch height, number of pod per plant, number of vacant pod per plant, number of seed per plant, seed yield per plant, harvest index per plant, number of seed per area, seed yield per area and 1000-seed weight had high value of genetic variation coefficient, heritability and genetic advance. lines 14, 68 and 165 were the superior lines in terms of phonological traits. The height of the plant and the height of the first pod in lines 85, 92, 193 and 195 were higher than other lines. Lines 32, 90 and 156 had the highest number of full pods. Lines 122, 163, 165 and 200 had the highest seed yield per plant. The 1000- seed weight in lines 163, 166, 171 and 174 was higher in compared with other lines. The highest seed yield was observed in lines 23, 150, 192 and 200. Finaly, based on the results of comparison of mean with superior control cultivar for each trait by LSD method and considering the degree of importance of traits, the 95 superior lentil lines from 200 examined lines were selected. In the second year, the results of analysis of variance indicated a significant variation among lentil lines in terms of all studied traits except for the first branch height at 0.01 and 0.05 levels. The canopy temperature difference, number of vacant pods per plant and number of seed per plant had high value of genetic variation coefficient. High heritability was observed in the days to 50% flowering, flowering period, days to 50% podding, days to 50% physiological maturity, seed filling period and straw yield per plant. The canopy temperature difference, flowering period, first pod height, number of vacant pod per plant, seed yield per plant, biomass per plant and straw yield per plant had high genetic advance. lines 150, 155, 173 and 176 were the superior lines in terms of phonological traits. The highest plant height and the highest height of the first pod was observed in lines 146 and 180 and lines 12, 47 and 130 respectively. Lines 1, 131 and 176 had the highest number of full pods. In terms of yield and yield components per plant, lines 1, 131 and 176 had the highest number of seeds and seed yield. The 1000- seed weight in lines 23, 52, 163 and 178 was higher in compared with other lines. In terms of yield and yield components, lines 55, 69, 86, and 176 were recognized as the superior lines. Finally, based on the results of comparison of mean lines with superior control cultivar for each trait by LSD method and considering the degree of importance of traits, the 44 superior lentil lines from 100 examined lines were selected. 
Conclusion: The evaluated lines were significantly different from each other in terms of most traits. High heritability was observed in the days to 50% flowering, flowering period, days to 50% podding, days to 50% physiological maturatry, seed filling period and straw yield per plant. Comparing to the control cultivars, the evaluated lines had a higher mean in most of the studied traits. Therefor by selecting superior lines in terms of yield potential and agromorphological traits this genetic potential can be used to create superior population and introduce high yield cultivars.

 


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