Volume 16, Issue 49 (4-2024)
jcb 2024, 16(49): 103-115 |
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Ghaffari Neamat Abad G, Saba J, Mohsenifard E, Tavakoli Zaniani A. (2024). Evaluation and Selection of Native Lentil Lines Collected from Zanjan Province Regarding Potential Yield and Agro-Morphological Trait. jcb. 16(49), 103-115.
URL: http://jcb.sanru.ac.ir/article-1-1487-en.html
URL: http://jcb.sanru.ac.ir/article-1-1487-en.html
Department of Genetics and Plant Production, Faculity of Agriculture, University of Zanjan, Znjan, Iran
Abstract: (206 Views)
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.
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.
Keywords: Genetic Advance, Genetic Coefficient of Variation, Heritability, Inbred Lines Selection, Lentil Improvment
Type of Study: Research |
Subject:
اصلاح نباتات، بیومتری
Received: 2023/06/25 | Revised: 2024/04/29 | Accepted: 2023/09/4 | Published: 2024/04/17
Received: 2023/06/25 | Revised: 2024/04/29 | Accepted: 2023/09/4 | Published: 2024/04/17
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