1. Abdollahi Hesar, A., O. Sofalian, B. Alizadeh, A. Asghari and H. Zali. 2020. Evaluation of some autumn canola genotypes based on agronomy traits and SIIG index. Journal of Crop Breeding, 12(34): 151-159 (In Persian). [
DOI:10.29252/jcb.12.34.151]
2. Ahamed, K.U., B. Akhter, M.R. Islam, M.R. Humaun and M.J Alam. 2014. Morphological characterization and genetic diversity in lentil (Lens culinaris medikus ssp. Culinaris) germplasm. International Journal of Agricultural Research, Innovation and Technology, 4(1): 70-76. [
DOI:10.3329/ijarit.v4i1.21095]
3. Ahmadi, K., H.R. Ebadzadeh, F. Hatami, H. Abdeshah and A. Kazemian. 2020. Agricultural Statistics of the Years 2018-2019, Volume I - Crops. Information and Communication Technology Center, Planning and Economic Affairs, Ministry of Agriculture-Jahad, Iran. 89p (In Persian).
4. Alghamdi, S.S., S.A. Al-Faifi, H.M. Migdadi, S.L. Al-Rowaily, E.H. El-Harty and M. Farooq. 2017. Genetic diversity and field performance of mung bean, faba bean and lentil genotypes in the Kingdom of Saudi Arabia. International Journal of Agriculture and Biology, 19: 689-696. [
DOI:10.17957/IJAB/15.0336]
5. Amiri, R., S. Sasani, S. Jalali-Honarmand, A. Rasaei, B. Seifolahpour and S. Bahraminejad. 2018. Genetic diversity of bread wheat genotypes in Iran for some nutritional value and baking quality traits. Physiology and Molecular Biology of Plants, 24(1): 147-157. [
DOI:10.1007/s12298-017-0481-4]
6. Babayeva, S., Z. Akparov, L. Amirov, K. Shikhaliyeva, S. Hasanova, K. Rustamov, R. Mirzayev, V. Izzatullayeva, I. Mirzaliyeva, A. Mammadov and M. Abbasov. 2018. Genetic relationship among introduced lentil germplasm using agronomic traits and ISSR markers. GENETIKA, 50(2): 575-590. [
DOI:10.2298/GENSR1802575B]
7. Badirdast, H., S.Y. Salehi-Lisar, H. Sabouri, A. Movafeghi and E. Gholamalipour. 2019. Identification of drought stress tolerant genotypes in external rice germplasm using GGE biplot graphical technique under drench and drought stress conditions. Environmental Stresses in Crop Sciences, 12(2): 347-363 (In Persian).
8. Bagheri, A., M. Goldani and M. Hassanzadeh. 1998. Agronomy and plant breeding of lentil (translation). Mashhad University Jahad Publications. 284p. (In Persian).
9. Chelladurai, V. and C. Erkinbaev. 2020. Lentils. In: Manickavasagan, A. and P. Thirunathan, (eds.), Pulses. Springer Nature Switzerland AG.
https://doi.org/10.1007/978-3-030-41376-7_8 [
DOI:10.1007/978-3-030-41376-7_8.]
10. Faris, M.E., H.R. Takruri and A.Y. Issa. 2013. Role of lentils (Lens culinaris L.) in human health and nutrition: a review. Mediterranean Journal of Nutrition and Metabolism, 6: 3-16. [
DOI:10.3233/s12349-012-0109-8]
11. Gautam, N.K., N. Singh, M.A. Iquebal, M. Singh, J. Akhtar, Z. Khan and B. Ram. 2014. Genetic diversity analysis for quantitative traits in lentil (Lens culinaris Medik.) germplasm. Legume Research, 37(2): 139-144. [
DOI:10.5958/j.0976-0571.37.2.021]
12. Gholami Rezvani, N., A. Nezami and M. Kafi. 2019. Evaluation of lentil (Lens culinaris) genotypes for autumn sowing in cold temperate regions under field conditions. Electronic Journal of Crop Production, 11(4): 142-147 (In Persian).
13. Gupta, D., R.H. Dadu, P. Sambasivam, I. Bar, M. Azad, N. Beera, R. Ford and S. Biju. 2020. Conventional and Biotechnological Approaches for Targeted Trait Improvement in Lentil. In: Gosal, S.S. and S.H. Wani, (eds.), Accelerated Plant Breeding, Volume 3. Springer Nature Switzerland AG.
https://doi.org/10.1007/978-3-030-47306-8_3 [
DOI:10.1007/978-3-030-47306-8_3.]
14. Haghighatnia, H. and A. Alhani. 2020. Evaluation of irrigation water salinity tolerance indices in new cultivars and lines of safflower. Iranian Journal of Soil and Water Research, 51(7): 1811-1821 (In Persian).
15. IBPGR. 1985. Lentil Descriptors. ICARDA, Aleppo, Syria.
16. Idrissi, O., A.R. Piergiovanni, F. Toklu, C. Houasli, S.M. Udupa, E. De Keyser, P. Van Damme and J. De Riek. 2018. Molecular variance and population structure of lentil (Lens culinaris Medik.) landraces from Mediterranean countries as revealed by simple sequence repeat DNA markers: implications for conservation and use. Plant Genetic Resources, 16: 249-59. [
DOI:10.1017/S1479262117000260]
17. Jawad, M., S.R. Malik, M.A. Sarwar, M. Asadullah, I. Hussain and R. Khalid. 2019. Genetic analysis of lentil (Lens culinaris) exotic germplasm to identify genotypes suitable for mechanical harvesting. Pakistan Journal of Agricultural Research, 32(1): 152-158. [
DOI:10.17582/journal.pjar/2019/32.1.152.158]
18. Kanouni, H., D. Sadeghzadeh, A. Saeid, M.K. Abbasi, A. Rostami, K. Sotoudeh Maram and A. Hesami. 2020. Assessment of morphological diversity in local landraces of desi type chickpea in west Iran. Journal of Crop Breeding, 12(35): 189-201 (In Persian).
19. Kumar, J., D.S. Gupta and S. Kumar. 2021. Genetic Potential of Lentil as a Nutritionally Rich Food Legume Crop. In: Gupta, D.S., S. Gupta and J. Kumar, (eds.), Breeding for Enhanced Nutrition and Bio-Active Compounds in Food Legumes. Springer Nature Switzerland AG.
https://doi.org/10.1007/978-3-030-59215-8_4 [
DOI:10.1007/978-3-030-59215-8_4.]
20. Kumar, S., S.B.L. Srivastava, I.P.S. Malik and R. Kumar. 2012. Grouping of Lentil (Lens culinaris Medik.) genotypes using non-hierarchical cluster analysis. Legume Research, 35(3): 239-242.
21. Kumari, M., R.K. Mittal, R.K. Chahota, K. Thakur, S. Lata and D. Gupta. 2018. Assessing genetic potential of elite interspecific and intraspecific advanced lentil lines for agronomic traits and their reaction to rust (Uromyces viciae-fabae). Crop and Pasture Science, 69: 999-1008. [
DOI:10.1071/CP17145]
22. Laskar, R.A., S. Khan, C.R. Deb, N. Tomlekova, M.R. Wani, A. Raina, R. Amin. 2019. Lentil (Lens culinaris Medik.) Diversity, Cytogenetics and Breeding. In: Al-Khayri, J.M., S.M. Jain and D.V. Johnson, (eds.), Advances in Plant Breeding Strategies: Legumes, Springer Nature Switzerland. [
DOI:10.1007/978-3-030-23400-3_9]
23. Majnoun Hosseini, N. 2008. Agronomy and production of pulses. Tehran Unit of Jahad-e Daneshgahi. 281p (In Persian).
24. Majnoun Hosseini, N. and Naghavi, M.R. 2017. Genetic variation for seed yield and biomass in some lentil genotypes (Lens culinaris). Iranian Journal of Field Crop Science, 48(3): 665-671 (In Persian).
25. Mardi, M., A.R. Taleei and M. Omidi. 2003. A study of genetic diversity and identification of yield components in desi chickpea. Iranian Journal of Agriculture Science, 34(2): 345-351 (In Persian).
26. Moghadam, M., P. Safari and S.F. Danyali. 2012. GGE Biplot Analysis: A graphical Tool for Breeders, Geneticists and Agronomists. Parivar publication, 396 p (In Persian).
27. Mohammadali-Pouryamchi, H., M.R. Bihamta, S.A. Peighambari and M.R. Naghavi. 2012. Effect of terminal drought stress on grain yield and yield components in Kabuli chickpea genotypes. Iranian Journal of Crop Sciences, 14(3): 202-217 (In Persian).
28. Moradi, S., J. Saba, A. Tavakoli and K. Afsahi. 2020. Evaluation of variations of agro-morphological traits in landrace lentil populations of Zanjan province and selection of superior genotypes in rainfed conditions. Electronic Journal of Crop Production, 12(4): 171-186 (In Persian).
29. Moravek, D., A.M. Duncan, L.B. VanderSluis, S.J. Turkstra, E.J. Rogers, J.M. Wilson, A. Hawke and D.D. Ramdath. 2018. Carbohydrate replacement of rice or potato with lentils reduces the postprandial glycemic response in healthy adults in an acute, randomized, crossover trial. Journal of Nutrition, 148(4): 535-541. [
DOI:10.1093/jn/nxy018]
30. Najafi Mirak, T., M. Dastfal, B. Andarzian, H. Farzadi, M. Bahari and H. Zali. 2018. Stability analysis of grain yield of durum wheat promising lines in warm and dry areas using parametric and non-parametric methods. Journal of Crop Production and Processing, 8(2): 79-96 (In Persian). [
DOI:10.29252/jcpp.8.2.79]
31. Nouri Goghari, M., H. Dashti, S. Madah Hosseini and E. Dehghan. 2015. Evaluation of genetic diversity of lentil germplasm using morphological traits in Bardsir. Iranian Journal of Field Crop Sciences, 45(4): 541-551 (In Persian).
32. Pezeshkpour, P. and S. Afkar. 2019. Assessment of variability of lentil genotypes for agronomic traits using multivariate analyses. Journal of Crop Breeding, 11(30): 142-151. [
DOI:10.29252/jcb.11.30.142]
33. Pouresmael, M., M. Akbari, Sh. Vaezi and Sh. Shahmoradi. 2009. Effects of drought stress gradient on agronomic traits in Kabuli chickpea core collection. Iranian Journal of Crop Sciences, 11(4): 307-324 (In Persian).
34. Pouresmael, M., F. Ghanavati and E. Beizaie. 2012. Interspecific variation of morphological traits in Lens nigricans, L. ervoides and L. odemensis wild lentil species. Seed and Plant Journal, 28(4): 545-562 (In Persian).
35. Rahimi, M.H., S. Houshmand, M. Khadambashi and N. Ghasemi Siani. 2018. Study of genetic diversity and relationships between agronomic traits in lentil. Iranian Journal of Pulses Research, 9(2): 100-113 (In Persian).
36. Rahmati, M. 2020. Assessment of relationships among traits and selection of superior bread wheat genotypes using genotype by yield × trait biplot method. Cereal Research, 10(1): 61-72 (In Persian).
37. Roy, S., M.A. Islam, A. Sarker, M.A. Malek, M.Y. Rafii and M.R. Ismail. 2013. Determination of genetic diversity in lentil germplasm based on quantitative traits. Australian Journal of Crop Science, 7(1): 14-21.
38. Tadili, S., A. Asghari, R. Karimizadeh, O. Sofalian and H. Mohammaddoust Chamanabad. 2020. Evaluation of drought stress tolerance in advanced lines durum wheat using the selection index of ideal genotype (SIIG). Journal of Crop Ecophysiology, 14(1): 45-62 (In Persian).
39. Tahmasebi, S., M. Dastfal, H. Zali and M. Rajaie. 2018. Drought tolerance evaluation of bread wheat cultivars and promising lines in warm and dry climate of the south. Cereal Research, 8(2): 209-225 (In Persian).
40. Toklu, F., T. Karakӧy, E. Hakl, T. Bicer, A. Brandolini, B. Kilian and H. Ӧzkan. 2009. Genetic variation among lentil (Lens culinaris Medik) landraces from Southeast Turkey. Plant Breeding, 128(2): 178-186. [
DOI:10.1111/j.1439-0523.2008.01548.x]
41. Tyagi, S.D. and M.H. Khan. 2010. Studies on genetic variability and interrelationship among the different traits in Microsperma lentil (Lens culinaris Medik). Journal of Agricultural Biotechnology and Sustainable Development, 2(1): 15-20.
42. Usefi, M., H. Dashti, M.R. Bihamta and S. Madah Hosseini. 2017. Analysis of genetic diversity in agronomic traits of Chickpea (Cicer arietinum L.) genotypes using multivariate methods. Iranian Journal of Field Crop Science, 48(2): 567-578 (In Persian).
43. Vanave, P.B., A.H. Jadhav, A.V. Mane, S.G. Mahadik, M.G. Palshetkar and S.G. Bhave. 2019. Genetic variability studies in lentil (Lens culinaris Medic.) genotypes for seed yield and attributes. Electronic Journal of Plant Breeding, 10(2): 685-691. [
DOI:10.5958/0975-928X.2019.00087.5]
44. Yarahmadi, S., Gh.A. Nematzade, H. Sabouri and H. Najafi Zarini. 2021. Selection of agro-morphological traits related to spring wheat yield in dryland conditions as selection indices. Environmental Stresses in Crop Sciences, 13(4): 1019-1030 (In Persian).
45. Zaccardelli, M., F. Lupo, A.R. Piergiovanni, G. Laghetti, G. Sonnante and M.G. Daminati. 2012. Characterization of Italian lentil (Lens culinaris Medik.) germplasm by agronomic traits, biochemical and molecular markers. Genetic Resources and Crop Evolution, 59: 727-738. [
DOI:10.1007/s10722-011-9714-5]
46. Zahedi, F., D Nabati Ahmadi, M. Mohammadi and R. Karimizadeh. 2016. Path analysis to study morph-physiological traits, yield and traits related to yield of lentil genotypes under rain fed condition. Journal of Plant Productions, 39(2): 71-80 (In Persian).
47. Zali, H. and A. Barati. 2020. Evaluation of selection index of ideal genotype (SIIG) in other to selection of barley promising lines with high yield and desirable agronomy traits. Journal of Crop Breeding, 12(34): 93-104 (In Persian). [
DOI:10.29252/jcb.12.34.93]
48. Zali, H., T. Hasanloo, O. Sofalian, A. Asghari and M. Zeinalabedini. 2016. Appropriate strategies for selection of drought tolerant genotypes in canola. Journal of Crop Breeding, 8(20): 77-90 (In Persian). [
DOI:10.29252/jcb.8.18.191]
49. Zali, H., O. Sofalian, T. Hasanloo, A. Asghari and S.M. Hoseini. 2015. Appraising of drought tolerance relying on stability analysis indices in canola genotypes simultaneously, using selection index of ideal genotype SIIG) technique: Introduction of new method. Biological Forum - An International Journal, 7(2): 703-711.