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Evaluation of Advanced Lentil Lines for Diversity in Seed Mineral Concentration, Grain Yield and Yield Components

Year 2017, Volume: 23 Issue: 2, 213 - 222, 01.03.2017

Abstract

Lentil is one of the most important grain legumes, which plays a significant role in human nutrition and animal feed through the world. In developing countries, the prohibitively high cost of meat has rendered, lentil, with its high seed protein and essential amino acid content, important source of dietary protein. In this research, 181 lentil advanced lines F7 generation of Karacadağ x Silvan and Karacadağ x Çağıl 2004 crosses were evaluated for grain yield, yield components and seed mineral concentrations in two diverse environments in Turkey. Considerable diversity was observed with regard to yield components and seed mineral concentrations in the advanced lentil lines. The greatest phenotypic diversity was observed in the biological yield, number of pods and weight of pods per plant, the number of seeds and weight of seeds per plant, and seed Ca, Zn and Fe concentrations. Grain yield per plant was significantly positively correlated with the biological yield per plant, number of pods per plant, weight of pods per plant, and number of seeds per plant. Plant grain yield and yield components were strongly positively correlated with seed potassium K , calcium Ca , magnesium Mg and zinc Zn concentrations but was negatively correlated with Fe concentration. In conclusion, promising lentil advanced lines for the grain yield, yield components and mineral concentrations could be evaluated for developing new lentil varieties and spesific breeding purposes

References

  • Abo-Hegazy S R E, Selim T & El-Emam E A A (2012). Correlation and path co-efficient analysis of yield and some yield components in lentil. Egyptian Journal of Plant Breeding 16(3): 147-159
  • Alcock N W (1987). A hydrogen-peroxide digestion system for tissue trace-metal analysis. Biological Trace Element Research 13: 363-370
  • Ayub K, Hashmi N I & Khan A (2004). Performance of exotic lentil varieties under rainfed conditions in Mingora (NWFP) Pakistan. Online International Journal of Biological Sciences 1(5): 343-344
  • Bicer B T & Sakar D (2008). Studies on variability of lentil genotypes in Southeastern Anatolia of Turkey. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 36(1): 20-24
  • Blair M W (2013). Mineral biofortification strategies for food staples: The Example of Common Bean. Journal of Agricultural and Food Chemistry 61: 8287-8294
  • Cubero J I (1981). Origin, taxonomy and domestication. In: Webb C & Hawtin G (Eds), Lentils, CAB, Slough, UK, pp. 15-38
  • Gepts P (2006). Plant genetic resources conservation and utilization: The accomplishments and future of a societal insurance policy. Crop Science 46: 2278- 2292
  • Graham R D, Welch R M, Saunders D A, Ortiz-Monasterio I, Bouis H E, Bonierbale M, de Haan S, Burgos G, Thiele G & Liria R (2007). Nutritious subsistence food systems. Advances in Agronomy 92: 1-74
  • Grusak M A (2002). Enhancing mineral content in plant food products. Journal of the American College of Nutrition 21: 178-183
  • Iqbal A, Khalil I A, Ateeq N & Khan M S (2006). Nutritional quality of important food legumes. Food Chemistry 97: 331-335
  • Karaköy T, Erdem H, Baloch F S, Toklu F, Eker S, Kilian B & Özkan H (2012). Diversity of macro- and micronutrients in the seeds of lentil landraces. The Scientific World Journal 2012: 1-9
  • Kayan N & Olgun M (2012). Evaluation of yield and some yield components in lentil (Lens culinaris Medik). International Journal of Agriculture: Research and Review 2: 834-843
  • Khan M A (1987). Nutritional attributes of food legumes. Progressive Farming (Pakistan) 7: 36-40
  • Khan M A, Rana I A, Ullah I & Jaffery S (1987). Physiochemical characters and nutrient composition of some improved lines of lentils grown in Pakistan. Journal of Food Composition and Analysis 1: 65-70
  • Lev-Yadun S, Gopher A & Abbo S (2000). The cradle of agriculture. Science 288: 1602-1603
  • Mayer J E, Pfeiffer W H & Beyer P (2008). Biofortified crops to alleviate micronutrient malnutrition. Current Opinion in Plant Biology 11: 166-170
  • Mekonnen F, Mekbib F, Kumar S, Ahmed S & Sharma T R (2014). Agromorphological traits variability of the Ethiopian lentil and exotic genotypes. Advances in Agriculture 2014: Article ID 870864
  • Mondal M M A, Puteh A B, Abdul Malek M, Roy S & Rafii Yusop M (2013). Contribution of morpho- physiological traits on yield of lentil (Lens culinaris Medik). Australian Journal of Crop Science 7: 1167- 1172
  • Muehlbauer F J, Cho S, Sarker A, McPhee K E, Coyne C J, Rajesh P N & Ford R (2006). Application of biotechnology in breeding lentil for resistance to biotic and abiotic stress. Euphytica 147: 149-165
  • Roy S, Islam M A, Sarker A, Malek M A & Ismail M R (2013). Determination of genetic diversity in lentil germplasm based on quantitative traits. Australians Journal of Crop Science 7(1): 14-21
  • Sarwar G, Abbas G & Asghar M J (2010). Genetic study for quantitative traits in F generation of lentil (Lens 5 culinaris Medik). Journal of Agricultural Research 48(3): 279-288
  • Sarwar G, Abbas G & Asghar M J (2013). Quantitatıve analysis of yield related traits in lentil (Lens culinaris Medik) germplasm. Journal of Agricultural Research 51(3): 239-246
  • SAS (2007). SAS Institute. JMP 7.0 Users guide. Carry, NC: Release SAS Institute Inc
  • Shahzad Z, Rouached H & Rakha A (2014). Combating mineral malnutrition through iron and zinc biofortification of cereals. Comprehensive Reviews in Food Science and Food Safety 13(3): 329-346
  • Sharma V, Paswan S K, Sıngh V K & Khandagale S (2014). Correlation and path coefficient analysis of economically ımportant traits in lentil (Lens culinaris Medik) germplasm. The Bioscan 9(2): 819-822
  • Singh M, Bisht I S, Kumar S, Dutta M, Bansal K C, Karale M, Sarker A, Amri A, Kumar S & Datta S K (2014). Global wild annual Lens collection: A potential resource for lentil genetic base broadening and yield enhancement. PLoS One 9: e107781. doi:10.1371/ journal.pone.0107781
  • Solanki I S, Kapoor A C & Singh U (1999). Nutritional parameters and yield evaluation of newly developed genotypes of lentil (Lens culinaris Medik). Plant Foods for Human Nutrition 54: 79-87
  • Toklu F, Karaköy T, Hakli E, Bicer T, Brandolini A, Kilian B & Özkan H (2009a). Genetic variation among lentil (Lens culinaris Medik) landraces from Southeast Turkey. Plant Breeding 128(2): 178-186
  • Toklu F, Biçer B T & Karaköy T (2009b). Agro- morphological characterization of the Turkish lentil landraces. African Journal of Biotechnology 8(17): 4121-4127
  • Tyagi S D & Khan M H (2011). Correlation, path-coefficient and genetic diversity in lentil (Lens culinaris Medik) under rainfed conditions. International Research Journal of Plant Science 2(7): 191-200
  • Upadhyaya H D, Thudi M, Dronavalli N, Gujaria N, Singh S, Sharma S & Varshney R K (2011). Genomic tools and germplasm diversity for chickpea improvement. Plant Genetic Resources 9(1): 45-58
  • Vanda M, Khodambashi M, Houshmand S, Shiran B & Amiri-Fahlian R (2013). Determination of gene action and heritability for some biometrical traits in lentil (Lens culinaris Medik) using F families. International Journal of Agriculture and Crop Sciences 5(13): 1427-1431 2:3
  • Welch R M & Graham R D (2004). Breeding for micronutrients in staple food crops from a human nutrition perspective. Journal of Experimental Botany 55: 353-364
  • White P J & Broadley M R (2005). Biofortifing crops with essential mineral elements. Trends in Plant Science 10(12): 586-593
  • White P J & Broadley M R (2009). Biofortification of crops with seven mineral elements often lacking in human diets-iron, zinc, copper, calcium, magnesium, selenium and iodine. New Phytologist 182: 49-84
  • WHO (1999). Malnutrition worldwide. Geneva, Switzerland: World Health Organization. http://www. who.int/nut/malnutrition_worldwide.htm. 1-13

cUSDA Washington State University, Department of Crop and Soil Science, Johnson Hall 59, Pullman, WA, USA

Year 2017, Volume: 23 Issue: 2, 213 - 222, 01.03.2017

Abstract

Mercimek, insan ve hayvan beslenmesi yönünden yemeklik dane baklagiller grubunun en önemli üyelerinden birisidir. Gelişmekte olan ülkelerde et fiyatının yüksek olması; yüksek protein içeriği ve amino asit kompozisyonu ile mercimeği protein kaynağı olarak ön plana çıkarmaktadır. Bu araştırmada, Karacadağ x Silvan ve Karacadağ x Çağıl 2004 mercimek melez kombinasyonlarına ilişkin ileri kademedeki F7 181 adet mecimek hattı iki farklı lokasyonda yetiştirilerek, dane verimi, verim komponentleri ve danede mineral madde konsantrasyonu yönünden incelenmiştir. Verim komponentleri ve mineral madde konsantrasyonu yönünden ileri kademedeki mercimek hatları arasında önemli düzeyde varyasyonlar saptanmıştır. Biyolojik verim, bitkide bakla sayısı, bitkide bakla ağırlığı, bitkide tohum sayısı, bitki dane verimi, tohumda kalsiyum Ca , çinko Zn ve demir Fe konsantrasyonu yönünden önemli varyasyonlar tespit edilmiştir. Bitki dane verimi ile biyolojik verim, bitkide bakla sayısı, bitkide bakla ağırlığı ve bitkide dane sayısı arasında önemli pozitif ilişkiler belirlenmiştir. Dane verimi ve verim komponentlerinin danede potasyum K , kalsiyum Ca , magnezyum Mg ve çinko Zn konsantrasyonları ile pozitif, demir Fe konsantrasyonu ile negatif ilişkili olduğu saptanmıştır. Sonuç olarak, incelenen kırmızı mercimek ileri melez hatları içerisinde dane verimi, verim komponentleri ve mineral madde konsantrasyonu yönünden ümitvar olanların, gelecekte çeşit adayı olabileceği ve ıslah çalışmalarında spesifik amaçlar için kullanılabileceği tespit edilmiştir

References

  • Abo-Hegazy S R E, Selim T & El-Emam E A A (2012). Correlation and path co-efficient analysis of yield and some yield components in lentil. Egyptian Journal of Plant Breeding 16(3): 147-159
  • Alcock N W (1987). A hydrogen-peroxide digestion system for tissue trace-metal analysis. Biological Trace Element Research 13: 363-370
  • Ayub K, Hashmi N I & Khan A (2004). Performance of exotic lentil varieties under rainfed conditions in Mingora (NWFP) Pakistan. Online International Journal of Biological Sciences 1(5): 343-344
  • Bicer B T & Sakar D (2008). Studies on variability of lentil genotypes in Southeastern Anatolia of Turkey. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 36(1): 20-24
  • Blair M W (2013). Mineral biofortification strategies for food staples: The Example of Common Bean. Journal of Agricultural and Food Chemistry 61: 8287-8294
  • Cubero J I (1981). Origin, taxonomy and domestication. In: Webb C & Hawtin G (Eds), Lentils, CAB, Slough, UK, pp. 15-38
  • Gepts P (2006). Plant genetic resources conservation and utilization: The accomplishments and future of a societal insurance policy. Crop Science 46: 2278- 2292
  • Graham R D, Welch R M, Saunders D A, Ortiz-Monasterio I, Bouis H E, Bonierbale M, de Haan S, Burgos G, Thiele G & Liria R (2007). Nutritious subsistence food systems. Advances in Agronomy 92: 1-74
  • Grusak M A (2002). Enhancing mineral content in plant food products. Journal of the American College of Nutrition 21: 178-183
  • Iqbal A, Khalil I A, Ateeq N & Khan M S (2006). Nutritional quality of important food legumes. Food Chemistry 97: 331-335
  • Karaköy T, Erdem H, Baloch F S, Toklu F, Eker S, Kilian B & Özkan H (2012). Diversity of macro- and micronutrients in the seeds of lentil landraces. The Scientific World Journal 2012: 1-9
  • Kayan N & Olgun M (2012). Evaluation of yield and some yield components in lentil (Lens culinaris Medik). International Journal of Agriculture: Research and Review 2: 834-843
  • Khan M A (1987). Nutritional attributes of food legumes. Progressive Farming (Pakistan) 7: 36-40
  • Khan M A, Rana I A, Ullah I & Jaffery S (1987). Physiochemical characters and nutrient composition of some improved lines of lentils grown in Pakistan. Journal of Food Composition and Analysis 1: 65-70
  • Lev-Yadun S, Gopher A & Abbo S (2000). The cradle of agriculture. Science 288: 1602-1603
  • Mayer J E, Pfeiffer W H & Beyer P (2008). Biofortified crops to alleviate micronutrient malnutrition. Current Opinion in Plant Biology 11: 166-170
  • Mekonnen F, Mekbib F, Kumar S, Ahmed S & Sharma T R (2014). Agromorphological traits variability of the Ethiopian lentil and exotic genotypes. Advances in Agriculture 2014: Article ID 870864
  • Mondal M M A, Puteh A B, Abdul Malek M, Roy S & Rafii Yusop M (2013). Contribution of morpho- physiological traits on yield of lentil (Lens culinaris Medik). Australian Journal of Crop Science 7: 1167- 1172
  • Muehlbauer F J, Cho S, Sarker A, McPhee K E, Coyne C J, Rajesh P N & Ford R (2006). Application of biotechnology in breeding lentil for resistance to biotic and abiotic stress. Euphytica 147: 149-165
  • Roy S, Islam M A, Sarker A, Malek M A & Ismail M R (2013). Determination of genetic diversity in lentil germplasm based on quantitative traits. Australians Journal of Crop Science 7(1): 14-21
  • Sarwar G, Abbas G & Asghar M J (2010). Genetic study for quantitative traits in F generation of lentil (Lens 5 culinaris Medik). Journal of Agricultural Research 48(3): 279-288
  • Sarwar G, Abbas G & Asghar M J (2013). Quantitatıve analysis of yield related traits in lentil (Lens culinaris Medik) germplasm. Journal of Agricultural Research 51(3): 239-246
  • SAS (2007). SAS Institute. JMP 7.0 Users guide. Carry, NC: Release SAS Institute Inc
  • Shahzad Z, Rouached H & Rakha A (2014). Combating mineral malnutrition through iron and zinc biofortification of cereals. Comprehensive Reviews in Food Science and Food Safety 13(3): 329-346
  • Sharma V, Paswan S K, Sıngh V K & Khandagale S (2014). Correlation and path coefficient analysis of economically ımportant traits in lentil (Lens culinaris Medik) germplasm. The Bioscan 9(2): 819-822
  • Singh M, Bisht I S, Kumar S, Dutta M, Bansal K C, Karale M, Sarker A, Amri A, Kumar S & Datta S K (2014). Global wild annual Lens collection: A potential resource for lentil genetic base broadening and yield enhancement. PLoS One 9: e107781. doi:10.1371/ journal.pone.0107781
  • Solanki I S, Kapoor A C & Singh U (1999). Nutritional parameters and yield evaluation of newly developed genotypes of lentil (Lens culinaris Medik). Plant Foods for Human Nutrition 54: 79-87
  • Toklu F, Karaköy T, Hakli E, Bicer T, Brandolini A, Kilian B & Özkan H (2009a). Genetic variation among lentil (Lens culinaris Medik) landraces from Southeast Turkey. Plant Breeding 128(2): 178-186
  • Toklu F, Biçer B T & Karaköy T (2009b). Agro- morphological characterization of the Turkish lentil landraces. African Journal of Biotechnology 8(17): 4121-4127
  • Tyagi S D & Khan M H (2011). Correlation, path-coefficient and genetic diversity in lentil (Lens culinaris Medik) under rainfed conditions. International Research Journal of Plant Science 2(7): 191-200
  • Upadhyaya H D, Thudi M, Dronavalli N, Gujaria N, Singh S, Sharma S & Varshney R K (2011). Genomic tools and germplasm diversity for chickpea improvement. Plant Genetic Resources 9(1): 45-58
  • Vanda M, Khodambashi M, Houshmand S, Shiran B & Amiri-Fahlian R (2013). Determination of gene action and heritability for some biometrical traits in lentil (Lens culinaris Medik) using F families. International Journal of Agriculture and Crop Sciences 5(13): 1427-1431 2:3
  • Welch R M & Graham R D (2004). Breeding for micronutrients in staple food crops from a human nutrition perspective. Journal of Experimental Botany 55: 353-364
  • White P J & Broadley M R (2005). Biofortifing crops with essential mineral elements. Trends in Plant Science 10(12): 586-593
  • White P J & Broadley M R (2009). Biofortification of crops with seven mineral elements often lacking in human diets-iron, zinc, copper, calcium, magnesium, selenium and iodine. New Phytologist 182: 49-84
  • WHO (1999). Malnutrition worldwide. Geneva, Switzerland: World Health Organization. http://www. who.int/nut/malnutrition_worldwide.htm. 1-13
There are 36 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Faruk Toklu This is me

Hakan Özkan This is me

Tolga Karaköy This is me

Clarice J Coyne This is me

Publication Date March 1, 2017
Published in Issue Year 2017 Volume: 23 Issue: 2

Cite

APA Toklu, F., Özkan, H., Karaköy, T., Coyne, C. J. (2017). Evaluation of Advanced Lentil Lines for Diversity in Seed Mineral Concentration, Grain Yield and Yield Components. Journal of Agricultural Sciences, 23(2), 213-222.

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