AGRIS - International System for Agricultural Science and Technology

Genetic Diversity and Molecular Characterization of Cultivated and Wild Barly Species in the Southern Regionn and Evaluation of their Resistance to Lodging

2023

Fatima Hazzy


Bibliographic information
Publisher
Damascus University . Faculty of agricultural engineering
Other Subjects
Issr; معامل التعددية الشكلي; Wild and cultivated barely; تقنية ssr; الرّقاد; طراز بري; Polymorphic information content; الشعير; تقنية issr; Lodging ssr
Language
Arabic
Note
References 1. Abdelgurfi A., Rahal Bouziane H., Merdas S., Nait S.M. (2016) Genetic diversity of traditional genotypes of barley (Hordeum Vulgare L.) in Algeria by phenomorphological and agronomic traits. African Journal of Agriculture Research 10(31): 3041-3048. 2. Abd-EL-Haleem, S.H.M., Reham, M.A., and M.S. Mohamed. 2009. Genetic analysis and RAPD polymorphism in some durum wheat genotypes. Glopal J Biotech Biochem 4(1):1-9. 3. Abeledo, L.G., D. F. Calderini, and G.A. Slafer. (2002). Physiological changes associated with genetic improvement of grain yield in barley. In: “Barley science: recent advances from molecular biology to agronomy of yield and quality” G. A. Slafer, J. L. Molin-Cano, R. Savin, J. L. Araus, I. Romagosa (eds.) Haworth, New York, pp 361–386. 4. Akbulut, M., Ocal, N., Ceylan, A., Gurcan, K. and Aliyev., R.T. (2018). Estimation of Genetic Diversity and Population Structur among Turkish and Azerbaijani Barley Accessions based on ISSR and RAPD Markers. The J. Anim. Plant Sci. 28(3). 5. Al_ Hadeithi, Z. S. M. (2015). Using ISSR markers to build a phylogenetic of Barley Genotypes. Iraqi Journal of Science,56(2) PP: 1682-1688. 6. AL-Atawneh, N; A., Shehaden; A., Amri and N., Maxted. (2009). Conservation Field Guide to Medics. ICARDA. Syria. 7. AL-Hassan, S.A., N.H.Zeboon , and H.A.A.Baqer.( 2015). Eeffect of timinor and rates of potassium application on some growth trails of bread. The Iraqi J Agri (accept for poblish). 8. Alley, M., M. Brann., D. E. Hammons., J. L. Peter Scharf., and W. E. Baethgen. 1999. Nitrogen Management for Winter Wheat: Principles and Recommendations. Crop and Soil Environmental Sciences, PUBLICATION 424-026. 9. Alonso-Blanco C, Aarts MG, Bentsink L, Keurentjes JJ, Reymond M, Vreugdenhil D, et al.2009. What has natural variation taught us about plant development, physiology, and adaptation? Plant Cell 2009;21(7):1877–96. 10. Alqudah A Samarah N, 2011Effects of late-terminal drought stress on seed germination and vigor of barley (Hordeum Vulgare L.). Arch Agron Soil Sci.; 57: 27–32. https://doi.org/10.1080/ 03650340903191663.11. Amberger ، A. (2006). Fertilizers are applied with irrigation water (Fertigation) to maxi Mize. The EgyptianAcademy of Scientific Research and Technology. Fertilizer and Agriculture Septemper . 1 : 12. Anne, C 2006, ‘Choosing the right molecular genetic markers for studying biodiversity: from molecular evolution to practical aspects’, Genetica, vol. 127, pp. 101–120 13. Arafeh, R.M; Sapir, Y.; Shmida, A.; Iraki, N.; Fragman, O. and Coms, P. (2002). Patterns of genetic and phenotypic variation Iris hayni and I. atrofusca (Iris sect. Onocyclus= the royal irises) along an ecogeographical gradient in Palastine and the West Bank, Mol. Ecol.,11, pp. 39-53 14. Araus. J, J. Bort, P. Steduto, D. Villegas, and C. Royo. (2003). Breeding cereals for Mediterranean conditions: Ecophysiological clues for biotechnology application. Annals of Applied Biology, 142(2): 129-141. 15. Backes, G., Madsen, L.H., Jaiser, H., Stougaard, J., Herz, M., Mohler, V., and Jahoor, A.)2003(. Localization of genes for resistance against Blumeria graminis f. Sp. Hordei and Puccinia graminis in a cross between abarley cultivar and awild barley (HordeumVulgare ssp. Spontaneum) line. Theor. Appl. Genet.106:353-362 16. Badr A, Müller K, Schäfer-Pregl R, El Rabey H, Effgen S, Ibrahim HH, Pozzi C, Rohde W, Salamini F (2000) On the origin and domestication history of barley (Hordeum Vulgare). Molecular Biology and Evolution 11: 155-165. 17. Bai. Y., X. Yao. X., H. Yao. U., H. Wu. K., L. (2019). Difference of Traits Relating to Lodging Resistance in Hulless Barley Genotypes. Scientia Agricultura Sinica. 52(2): 228- 238. 18. Barrett B.A. and K.K. Kidwell. (1998). Comparison of AFLP and Pedigree-Based Genetic Diversity Assessment Methods Using Wheat Cultivars from the Pacific Northwest. Crop Science. 38: 1271-1278. 19. Baum, M., S. Grando, G. Backes, A. Jahoor, A. Sabbagh, and S. Ceccarelli. (2003). QTLs for agronomic traits in the Mediterranean environment identified in recombinant inbred lines of the cross ‘Arta’ x H. Spontaneum 41-1. Theor. Appl. Genet. 107:1215–1225. 20. Ben Mbarek Naceur. H,B,Salah. M.el Faleh. (2017). Molecular characterization of Tunisian barley (Hordeum vulgare L.) genotpes using microsatellites (SSRs) markers. European Jornal of Scientific Reasearch. 5-16. 21. Berry, P. M., & Spink, J. (2012). Predicting yield losses caused by lodging in wheat. Field Crops Research, 137, 19–26. 22. Berry. P.M.; Sterling. M.; Spink, J. H., Baker, C. J., Sylvesterbradley, R., Mooney. S.J., Tams, A. R., and Ennos. A. R (2004). Unserstanding and reducing lodging in cereals. Advances Agronomy. 84: 217-271.23. Bian. D. Jia. G. Cai. L. Ma. Z. Eneji. A. Cui. Y. (2016). Effects of tillage practices on root characteristics and root lodging resistance of maize. Field Crops Research. 185: 89-96. 24. Blattner F, Mendez A (2001) RAPD data do not support a second center barley domestication. Genetic Resources and Crop Evolution 48: 13-19. 25. Blattner F.R. (2018) Taxonomy of the Genus Hordeum and Barley (Hordeum Vulgare). In: Stein N., Muehlbauer G. (eds) The Barley Genome. Compendium of Plant Genomes. Springer, Cham. https://doi.org/10.1007/978-3-319-92528-8_2 26. Bornet B., F. Goraguer., G. Joly., and M. Branchard. 2002. Genetic diversity in European and Argentinian cultivated potatoes (Solanum tuberosum subsp. tuberosum) detected by inter-simple sequence repeats (ISSRs). Genome 45: 481-484. 27. Bouziane H., Merdas S., Nait S.M Abdelgurfi A.,. (2016) Genetic diversity of traditional genotypes of barley (Hordeum Vulgare L.) in Algeria by phenomorphological and agronomic traits. African Journal of Agriculture Research 10(31): 3041-3048. 28. Bradford MM. 1976A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Analytical Biochemistry;72(1):248-54. 29. Brasier, M., Ravel, C., Paux, E., (2019). The parmeters of grain filling and yield components in commonWheat (Triticum aestivum L.) and durum wheat. Central European J. of Biology, 75-82. 30. Caierao. E. (2006). Effect of induced lodging on grain yield and quality of brewing barley.Crop Breeding and Applied Biotechnology. 6: 215- 221. 31. Caldwell K, Russell J, Langridge P, Powell W (2005) Extreme population-dependent linkage disequilibrium detected in an inbreeding plant species, Hordeum Vulgare. Genetics 172:557–567. https://doi.org/10.1534/genetics.104.038489 32. Ceccarelli, S., )1989(. Wide adaptation. How wide? Euphytica. 33. Ceccarelli, S., Grando, S., Tutwiler, R., Baha, J., Martini, A.M., Salahieh, H., Goodchild, A., and M. Michael, )2000(. AMethodological Study on Participatory Barley Breeding. Selection Phase. Euphytica 111: 91-104. 34. Chahal, C. S., and Gosal, S. S. )2002(. Principales and procedures of plant breeding. Alpha Science International. United Kingdom. 35. Champagne. E.T., Bett-Garber. K. L., McClung. A. M., Bergman. C. (2004). Sensory characteristics of diverse rice varieties as influenced by genetic and environmental factors. Cereal Chem.; 81:237–43. 36. Chanteau, J. P., )1993(. Lesbases de labio diversite currier de la planet. No. 19.37. Chee, P.W., E.M. Elias., J.A. Anderson., S.F. Kianian. (2001). Evaluation of A High Protein QTL from Triticum turgidum L. var. dicoccoides in An Adapted Durum Wheat Background. Crop Sci. 41:295-301. 38. Chen W.Y., Liu Z.M., Deng G.B., Pan Z.F., Liang J.J., Zeng X.Q., Tashi N.M., Long H. and Yu M.Q., (2014). Genetic Relationship between lodging and lodging components in barley (Hordeum Vulgare L.) based on unconditional and conditional quantitative trait locus analyses. Genetics and Molecular Research 13 (1): 1909-1925. 39. Choi. D.W, M.C. Koag, and T.J. Close. (2000). Map location of Dhn gene determine by gene – specific PCR. Theor. Appl Genet. 101; 350-354. 40. Cui, Z., Z. Dou, X. Chen, X. Ju, and F. Zhang. 2014. Managing agricultural nutrients for food security in China: Past, present, and future. Agronomy Journal 106 (1):191–8. 41. Dai F, Nevo E, Wu D, Comadran J, Zhou M, et al. (2012) Tibet is one of the centers of domestication of cultivated barley. Proc Natl Acad Sci USA www.pnas.org/cgi/doi/10.1073/pnas.1215265109. 42. Dai. X. Wang. Y. Dong. X. Qian. T. Yin. L. Dong. S. Chu. J. He. M. (2017). Delayed sowing can increase lodging resistance while maintaining grain yield and nitrogen use efficiency in winter wheat. The Crop Journal. 5(6): 541-552. 43. Darrah, L.., L Zuber, M. S. (1987). Breeding, genetics, and seed corn production. in Corn Chemistry and Technology. Am Assoc Cereal Chem St. Paul, MN, 31-47. 44. De Riek, J; Calsyn, E.; Everaet,L; Van, Bockstaele, E.; De Loose, M. AFLP.(2001). AFLP based alternatives for the assessment of distinctness, uniformity and stability of sugar beet varieties. Theortical and Applied Genetics 103: 1254-1265.doi.10.1007//s001220100710. 45. Deniz, B; Kavurmaci, Z and Topal, M. (2009). Determination of ontogenetic selection criteria for grain yield in spring barley (Hordeum Vulgare L.) by pathcoefficient analysis. African Journal of Biotechnology, 8(11):2616-2622. 46. Diederichsen, A., L. R. Boguslavskij., M. Halanand., and W. K.Richards. (2007). Collecting plant genetic resources in the eastern Carpathian Mountains within the territory of Ukraine in 2005, Plant Genetic Newsletter, Bioversity International and FAO. n 151, p:14-21. 47. Djshwar Lateef, Kamil Mahmud Mostfa, Nawroz Tahir, (2021). Genomic vanation and genetic stracture profile of Iraqi barley accessions using ISSR and arbitrary functional gene-based molecular markers. Article fromUniversity Sulaimani, Augast, 17th, http//doi.org//0.2103/rs.3.rs-787338/v1. 48. Donmez, E.; Sears, R. G.; Shroyer, J. P. and Paulesen, G. M. (2001). Genetic gain in yield attributes of winter wheat in the Great Plains. Crop Sci. 41: 1412-1419.49. Dunn. G.J.; and Briggs. K.G. (1989). Variation in culm anatomy among barley genotypes differing in lodging resistance. Can J Bot 67: 1838-1848. 50. Easson. D.L.; Pickles. S.J.; and White. E.M. (1993). A study of lodging in cereals. HGCA Report No. 52. HGCA, London. 51. Ellis RP, Forster BP, Robinson D, Handley LL, Gordon DC, Russell JR, PowellW(2000) Wild barley: a source of genes for crop improvement in the 21st century? J Exp Bot 51:9–17 52. FAOSTAT data. (2010). http://apps.fao.org/faostat/defaul.jsp, accessed 2010. 53. FAOSTAT data. (2021). http://apps.fao.org/faostat/defaul.jsp, accessed 2021. 54. Fernandes, M. E.; A.M., figueiras.; c., Benito. (2002). Theuse of TSSR and RAP D markers for detecting DNA polymorphism, genetype identification and genetic diversity among barley cultivars with known origin. Theoretical and Applied Genetics 104: 848 – 851. 55. Ferreira. J. R., Pereira. J. F., Turchetto. C., Minella. E., Consoli. L., and Delatorre C. A. (2016). Assessment of genetic diversity in Brazilian barley using SSR markers. Genetics and Molecular Biology. 39(1) PP 86-96. 56. Fischbeck, G. 2003. Diversification through breeding. In: R. Bothmer,T. H. Hintum, H. Knüpffer, K. Sato (eds), Diversity in Barley (Hordeum Vulgare). Elsevier Science B.V., Amsterdam, The Netherlands. pp. 29–52. 57. Fisher, R.A., and J.T. Wood. (1985). Drought resistance in spring wheat cultivars. III. Yield association with morph-physiological traits. Aust. J. Agric. Res. 30,1001-1020. 58. Forster BP, Ellis RP, Moir J, Talame V, Sanguinet MC, Tuberosa R, This D, Teulat-Merah B, Ahmed I, Mariy S, Bahri H, Ouahabi ME, Zoumarou-Wallis N, El-Fellah M, Salem MB (2004) Genotype and phenotype associations with drought tolerance in barley tested in North Africa. Ann Appl Biol 144:157–168 59. Forster BP, Ellis RP, Thomas WTB, Newton AC, Tuberosa R, This D, El-Enein RA, Bahri MH, Salem MB (2000) The development and application of molecular markers for abiotic stress tolerance in barley. J Exp Bot 51:19–27. 60. Foulkes MJ, Slafer GA, Davies WJ, Berry PM, Sylvester-Bradley R, Martre P, Reynolds MP (2011). Raising yield potential of wheat. III. Optimizing partitioning to grain while maintaining lodging resistance. J Exp Bot 62:469–486. 61. Friedt W, Horsley RD, Harvey BL et al (2011) Barley breeding history, progress, objectives, and technology. In: Barley. Wiley-Blackwell, pp 160–220. 62. Gemayel R, Cho J, Boeynaems S and Verstrepen KJ (2012) Beyond Junk-Variable Tandem repeats as facilitators of rapid evolution of regulatory and coding sequences. Genes 3:461-480.63. Gholamin R., Zaeifizadeh M., Khayatnezhad M. (2010). Study of Drought Tolerance of Durum Wheat Genotypes under Drought and Irrigated Conditions. World Applied Sciencea Journal 10(9): 1020-1023. 64. Golparvar A. R. (2003). Genetic Analysis of Drought Resistance in Bread Wheat Cultivars. Ph.D Thesis, Islamic Azad University. Branch of Science and Research of Tehran, Pp: 287 (in Persian). 65. González, A.; Martín, I. and Ayerbe, L. (1999). Barley yield in water-stress conditions. The influence of precocity, osmotic adjustment and stomatal conductance. Field Crops Research 62, 23–34 66. González-Curbelo MÁ, Herrera-Herrera AV, Ravelo-Pérez LM, Hernández-Borges J (2012). Sample-preparation methods for pesticide-residue analysis in cereals and derivatives. TrAC Trends Anal Chem 38:32–51. 67. Gonzalez-Hernandez, J.L., E.M. Elias, and S.F. Kianian. (2004). Mapping Genes for Grain Protein Concentration and Grain Yield on Chromosome 5B of Triticum turgidum (L.) var. dicoccoides. Euphytica 139:217-225. 68. Gougerdchi. A., Dezhsetan. S., Ebrahimi. M.A., Sadeghzadeh. B., Savari. S. (2014) Using SSR Markers for Assessment Genetic Diversity and Detection Drought Escape Candidate Genes in Barley Lines (Hordeum Vulgare L.). DOI: 10.1515/plass-2015-0009. 69. Grando S, von Bothmer R, Ceccarelli S (2001) Genetic diversity of barley: use of locally adapted germplasm to enhance yield and yield stability of barley in dry areas. In: Cooper HD, Spillane C, Hodgkin T (eds) Broadening the genetic base of crop production, pp 351–372 70. Graner A. (2008). Genbank Treasure of Biodiversity, Rural 21, The International Journal for Rural Development, v.42. no.2, P: 38. 71. Grausgruber, H.; H. Bointner; R. Tumpold and P. Ruckenbauer. (2002). Genetic improvement in grain yield, yield components and agronomic traits of spring barley (Hordeum Vulgare L.). University of Agricultural Sciences, Dept. Plant Breeding, Vienna, Austria. p.p. 268-273. 72. Groos, C., N. Robert, E. Bervas., and G. Charmet, (2003). Genetic Analysis of Grain Protein-Content, Grain Yield and Thousand-Kernel Weight in Bread Wheat. Theor. Appl. Genet. 106:1032-1040. 73. Gunasekera, D.; Santakumari, M.; Glinka, Z. and Berkowitz, G.A., (1994). Wild and cultivated barley genotypes demonstrate varying ability to acclimate to plant water deficits. Plant Sci. 99, 125 – 134. 74. Halford, N.G., and Shewry, P.R. (2002). Cereal seed storage proteins: structures, properties and role in grain utilization. J Exp Bot, 53, 947–958. 75. Hammer, K., Knupffer, H., Xhuveli, L. And Perrino, P. (1996). Estimating genetic erosion in landraces: Tow case studies. Genet. Res. Crop E. 43:329- 336.76. Hejcman. M., Berkova. M., and Kunzova. E. (2013). Effect of long-term fertilizer application on yieldand concentrations of elements (N, P, K, Ca, Mg, As,Cd, Cu, Cr, Fe, Mn, Ni, Pb, Zn) in grain of spring barley. Plant Soil Environ. 59(7): 329- 334. 77. Henry, R.J. ed. (2001) Plant Genotyping CABI Publishing. 78. Hirano. K. Okuno. A. Hobo. T. Ordonio. R. Shinozaki. Y. Asano. K. Kitano. H. Matsuoka. M. (2014). Utilization of stiff culm trait of rice smos1 mutant for increased lodging resistance. PLoS ONE. 9(7): e96009. 79. IPGRI The International Plant Genetic Resources Institute. (2001). Newsletter for Central &West Asia and North Africa, IPGRI/CWANA. Issue no.22. February 2001. Aleppo, Syria. 80. IPGRI. (1994). Descriptors for barley (Hordeum Vulgare L.). International Plant Genetic Resources Institute, Roma, Italy. 81. Islam MS, Peng S, Visperas RM, Ereful N, Bhuiya MSU, Julfiquar AW (2007). Lodging-related morphological traits of hybrid rice in a tropical irrigated ecosystem. Field Crop Res 101:240–248. 82. Ivanova, A., M. Nankova, and N. Tsenov. 2007. Effect of previous crop, mineral fertilization and environment on the characters of some wheat varieties. Bulgarian Journal of Agricultural Science. 13:55. 83. Jakob SS, Meister A, Blattner FR (2004) The considerable genome size variation of Hordeum species (Poaceae) is linked to phylogeny, life form, ecology, and speciation rates. Mol Biol Evol 21:860–9. 84. Jarrah, M. (1993). Variability of morph-physiological and quality traits of Mediterranean durum wheat landraces. M.Sc. Chukorova Univ., Turkey. 85. Jarvis D. I., L. Myer., H. Klemick., M. Smale., A. H. D. Brown., M. Sadiki., B. Sthapit., and T. Hodgkin. (2000). A Training Guide for In Situ Conservation on-Farm. Version1. International Plant Genetic Resources Institute, Rome, Italy. 86. Jezowski, S., Surma, M., and Adamski, T., (2000). Genetic control of morphological and physical characteristics determining resistance to lodging in barley (Hordeum Vulgare L.). Int. Agrophysics,15,157-160. 87. Kalbermatten D. G. (2007). Millennium Assessment1, Desertification and Natural Resources, Environment and Food Security. Agricultural and Rural Development-Contributing to International Cooperation, Frankfurt, Germany, v.14, n.1, P:10-12 88. Karsai, I., Mezsaros. K, Hayes. P.M, and Bedo. Z (1997). Effects loci on chromosomes 2(2H) and7(5H) on developmental patterns in barley under different photoperiod regimes. Theor. Appl. Genet. 94: 612- 618. 89. Kearsey M, Pooni H (1996). The Genetic Analysis of Quantitative Traits. Chapman and Hall, London, UK. 90. Kelbert A.J., Spaner D., Briggs K. G., and King J. R., (2004). Screening for lodging resistance in spring wheat breeding programmes. Plant Breeding, 123, 349-354.91. Keller C, Karutz M, Schmid JE, Stamp P, Winzeler M, Keller. B, and Messmer M.M. (1999). Quantitative trait loci for lodging resistance in a segregating wheat x spelt population. Theoretical and Applied Genetics 98, 1171–1182. 92. Kertesz, Z. (1983). Improvement of harvest index. Proceedings of the 10th Congress of Eukarpia, Wageningen (The Netherlands), 19-24. 93. Khan, M.J. (2007). physiological and biochemical mechanisms of salinity tolerance in different wheat genotypes. Thesis of ph.D.N.W.F.P., Agricultural University, pesh awar , Pakistan . 94. Kijas, J. M. H.; J. C. S., Fowwler and M. R., Thomas. (1995). An evaluation of sequence tagged microsatellite site markers for genetic analysis within Citrus and related species. Genome 38: 349-355. 95. Komatsuda T, Mohammad P, He C, Perumal A, Hiroyuki K, Dragan P, Stein N, Graner A, Wicker T, Tagiri A, Lundqvist U, Fujimura T, Matsuoka M, Matsumoto T, Yano M (2007) Six- rowed barley originated from a mutation in a homeodomain-leucine zipper l-class homeobox gene. Proceedings of the National Academy of Sciences of the United States of America 104(4): 1424-1429. 96. Kong E., Liu D., Guo X., Yang W., Sun J., Li X., Zhan K., Cui D., Lin J., and Zhang A., (2013). Anatomical and chemical characteristics associated with lodging resistance in wheat. The Crop J., 1, 43-49. 97. Konzak, C. F. (1977). Genetic control of the content, amino acid composition and processing properties of proteins in wheat. Adv Gen, 19, 407-582. 98. Kovacevic. V., and Kovacevic. J. (2010). Response of malting winter barley to ameliorative NPK- fertilization. Research Journal of Agricultural Science. 42(1): 138-142. 99. Kraljevic – Balalic, M; Worland, A. J; Porceddu, E and Kuburovic, M. (2001). Variability and gene effects in wheat. Genetics and breeding of small grains. Belgrade. 100. Lakew B, Eglinton J, Henry RJ, Baum M, Grando S, Ceccarelli S (2011) The potential contribution of wild barley (Hordeum Vulgare spp Spontaneum) germplasm to drought resistance of cultivated barley (Hordeum Vulgare spp Vulgare). Field Crops Res 120:161–168. 101. Lane A. (2007). An introduction to crop wild relatives, Geneflow, Publication about Agricultural Biodiversity, Bioversity International, p:19. 102. Lang YZ, Yang XD, Wang ME, Zhu QS (2012). Effects of lodging at different filling stages on rice yield and grain quality. Rice Sci 19:315–319. 103. Larid J. (2007). Crop Diversity: A Secret Weapon, Geneflow, Publication about Agricultural Biodiversity, Bioversity International, P:31-32. 104. Lenssen, A. W. (2008). Planting date and preplant weed management influence yield, water use, and weed. Seed production in herbicidefree forage barley. Weed Technol., 21(3): 486-492.105. Li J, Zhang HC, Gong JL, Chang Y, Dai QG, Huo ZY, Wei HY (2011). Effects of different planting methods on the culm lodging resistance of super rice. Sci Agric Sin 44:2234–2243. 106. Li X, Xu C, Zhang Q (2004) Ribosomal DNA spacer-length polymorphisms in three samples of wild and cultivated barleys and their relevance to the origin of cultivated barley. Plant Breeding 123: 30-34. 107. Liu, H., Bayer, M., SHi, A., et al. (2013). An evaluation of genotyping by sequencing (GBS) to map the breviaristatum-E (Ari-E) locus in cultivated Barley. BMC Genomics 15:104. 108. Liu, Z. W., Biyashev, R. M, Saghai Maroof, M. A. )1996. (Development of Simple Sequence Repeat DNA Markers and their integration into a barley linkage map. Theor Appl Genet. 93:, 869–876. 109. Lopez-Bellido, R.J., L. Lopez-Bellido, F.J. Lopez-Bellido, and J.E. Castillo. (2003). Faba Bean Response to Tillage and Soil Residual Nitrogen in A Continuous Rotation with Wheat under Rainfed Mediterranean Conditions. Agron. J. 95:1253-1261. 110. Lopez-Castaneda, C., R.A. Richards, G.D. Farquhar and R.E. Williamson. 1996. Seed and seedling characteristics contributing to variation in early vigor among temperate cereals. Crop Sci. 36:1257-1266. 111. Madic, M; Knezevic, D; Paunovic, A And Zecevic, V. (2009). inheritance of stem height and second-internode length in barley hybrids. Genetika, 41(3): 229-236. 112. Madic, M; Kuburovic, M; Paunovic, A. (2000). Genetic analysis of grain mass per plant in barley hybrids. Genetika, 32 (1): 71-79. 113. Madic. M. Knezevic, D; Paunovic, A And Durovic. D. (2016). Plant height and internode length as components of lodging resistance in barley. Acta Agriculturae Serbica. 42: 99- 106. 114. Maniatis. T, E. F. Fritsch, and J. Sambrook. (1982). Molecular cloning, a laboratory manual (Cold Spring Harbor: Cold Spring Harbor Laboratory). 115. -Manitoba. J. (2004). About cereal lodging: how and why. Available at http:\\www.gov.mb.ca/agriculture. Assessed inSeptember 10, 2004. 116. Mascher M, Gundlach H, Himmelbach A, Beier S, Twardziok SO, Wicker T, et al.2017. A chromosome conformation capture ordered sequence of the barleygenome. Nature 2017;544(7651):427–33. 117. Matusinsky. B., Svobodova.I., Misa. P. (2015). Spring barley stand structure as an indicator of lodging risk. Zemdirbyste Agriculture, 2015:102(3). 273- 280.118. Matusinsky. B., Svobodova.I., Misa. P. (2015). Spring barley stand structure as an indicator of lodging risk. Zemdirbyste Agriculture, 2015:102(3). 273- 280. 119. McDonald, C. K. 2006. Effect of soil properties on variation in growth, grain yield and nutrient concentration of Wheat and Barley. Australian Journal of Experimental Agriculture, 46:93-105. 120. Mengel K. and Kirkby EA. (2001). Principles of Plant Nutrition, 5th ed.; Kluwer Academic Publishers: Dordrecht, the Netherlands, pp. 481–509. 121. Meyer, and J. Rdik. 1993. Nucleotide sequence of a gene encoding a585 kilodalton barley dehydrin that lacks of serine tract. Plant physiol.; 107 (1): 289- 290. 122. Migdadi, H. M. (2001). Genetic variation in some Aegilops species as revealed by morphological and molecμlar techniques, ph. D. Thesis, University of Jordan, Amman, Jordan. 123. -Mike O., )2011) .Lodging control for wheat and barley in Arizona. 124. Molina-Cano J, Moralejo M, Igartua E, Romagosa I (1999) Further evidence supporting Morocco as a center of origin of barley. Theoretical and Applied Genetics 98: 913-918. 125. Molina-Cano J, Russell J, Moralejo M, Escacena J, Arias G, Powell W (2005) Chloroplast DNA microsatellite analysis supports a polyphyletic origin for barley. Theoretical and Applied Genetics 110(4): 613-619. 126. Mollasadeghi, V., A.A. R. Imani Shahryari., and M. Khayatnezhad.(2011). Classifying bread wheat genotypes by multivariable statistical analysis to achieve high yield under after anthesis drought. Middle-East J. Sci. Res., 7(2): 217-220. 127. Mora F, Quitral YA, Matus I et al (2016) SNP-based QTL mapping of 15 complex traits in barley under rain-fed and well-watered conditions by a mixed modeling approach. Front Plant Sci 7:909. 128. Moral. L.G., D. J. Miralles, G. A. Slafer. (2002). Initiation and appearance of vegetative and reproductive structures throughout barley development. In: Barley Science : Recent advances from molecular biology to agronomy of yield and quality, Slafer, G. A., J. L. Molina-Cano, R. Savin, J. L. Araus, And I. Romagosa. Food Products Press, an Imprint of the Haworth Press, Inc. New York. pp. 243-268. 129. Morrell, P. L., Gonzales, A. M., Meyer, K. K., and Clegg, M. T. 2014. Resequencing data indicate a modest effect of domestication on diversity in barley: a cultigen with multiple origins. J. Hered. 105: 253–264. 130. Mousavi, Gh. Tajalli, H. Arazmjo, E..(2012). Evaluating Yield and Drought Strees Indices under End Season Drought Stress in Promising Genotpes of Barley. P:171-184.131. Murakami. T, Yui. M, Amaha. K. (2012). Canopy height measurement by photogrammetric analysis of aerial images: Application to buckwheat (Fagopyrum esculentum Moench) lodging evaluation. Computers and Electronics in Agriculture. 89: 70-75. 132. Nagaraju, J., M. Kathirvel., R. Ramesh Kumar., E.A. Siddiq., and S.E. Hasnain. 2002. Genetic analysis of traditional and evolved Basmati and non-Basmati rice varieties by using fluorescence-based ISSR-PCR and SSR markers. Proc. Natl. Acad. Sci. U.S.A. 99 5836-5841. 133. Nandha PS and Singh J (2014) Comparative assessment of genetic diversity between wild and cultivated barley using gSSR and EST-SSR markers. Plant Breed 133:28-35. 134. Nazir, M. 2015. Study on response of triticale genotypes at water limited conditions at different developmental stages. PhD thesis, University of Tehran, Iran. 135. Nei, M. (1987). Molecular Evolutionary Genetics. Columbia University Press, New York, NY . 136. Nesbit, M., D. Samuel. (1995). From staple crop to extinction the archaeology and history of the hulled wheat. Procc. Inter. Workshop on hulled wheat 21- 22 Jul. 1995. Tuscany Italy. 137. Nevo E, Chen G (2010) Drought and salt tolerances in wild relatives for wheat and barley improvement. Plant Cell Environ 33:670–685. 138. Newton AC, Flavell AJ, George TS, Leat P, Mullholland B, Ramsay L, et al.2011. 139. Niklas, K.J., (1990). The mechanical significance of clasping leaf sheaths in grasses: evidence from two cultivars of Avena sativa. Ann. Bot. 65, 505-512. 140. Niu. L, Feng. S, Ru. Z, Li. G, Zhang. Z, Wang. Z. (2012). Rapid determination of single-stalk and population lodging resistance strengths and an assessment of the stem lodging wind speeds for winter wheat. Field Crops Research. 139: 1-8. 141. Nourhane O. Abaza.2021. The efficiency of Scot, ISSR, and SRAP markers for detecting genetic polymorphism among Egyptian barley genotypes. Journal of Pharmaceutical Negative.DOi: https://doi.org/10.47750/pnr.2022.13.s03.282. 142. Okuno A, Hirano K, Asano K, Takase W, Masuda R, Morinaka Y, Matsuoka M (2014). New approach to increasing rice lodging resistance and biomass yield through the use of high gibberellin producing varieties. PLoS One 19. 143. Olivieri A ,Morgante M (1993) PCR-amplified microsatellites as markers in plant genetics. The Plant Journal 3(1): 175-182. 144. Orabi J, Backes G, Wolday A, Yahyaoui A, Jahoor A (2007) The Horn of Africa as a centre of barley diversification and a potential domestication site. Theor Appl Genet 114: 1117–1127.145. Ortiz R, Nurminiemi M, Madsen S, Rognli O, Bjørnstad Å (2002) Genetic giants in Nordic spring barley breeding over sixty years. Euphytica 126: 283-289. 146. Paul, A. K., M. A. Islam., M.J. Hasan., and M. M. H. Chowdhury. (2006). Genetic Variation of Some Morpho-Physiological Characters in Triticum durum Wheat. International J. Sust. Agril. Tech., 2(8): 11-14. 147. Pedersen C, Giese H, Linde-Laursen I (1995) Towards an integration of the physical and the genetic chromosome maps of barley by in situ hybridization. Hereditas 123: 77- 88. 148. Peng D, Chen X, Yin Y, Lu K, Yang W, Tang Y, Wang Z (2014). Lodging resistance of winter wheat (Triticum aestivum L.) lignin accumulation and its related enzymes activities due to the application of paclobutrazol or gibberellin acid. Field Crop Res 157:1–7. 149. Pillen K, Binder A, Kreuzkam B, Ramsay L, Waugh R, Förster J, Léon J (2000) Mapping new EMBL-derived barley microsatellites and their use in differentiating German barley cultivars. Theoretical and Applied Genetics 101: 652-660. 150. Pillen, K., A. Zacharias, and J.Léon. (2003). Advanced backcross QTL analysis in barley (Hordeum Vulgare L.). Theor. Appl. Genet. 107: 340-352. 151. Piñera-Chavez FJ, Berry PM, Foulkes MJ, Jesson MA, Reynolds MP (2016). Avoiding lodging in irrigated spring wheat. I. Stem and root structural requirements. Field Crop Res 196:325–336. 152. Poets AM, Fang Z, Clegg MT, Morell PL.2015. Barley landraces are characterized by geographically heterogeneous genomic origins. Genome Biol.; 16:173. 153. Powell W., M. Morgante, J.J. Doyle, J. Mcnical, S.V. Tingey, and A.J. Rafalski. (1998). Genepool Variation in Genus Glycine Subgenus Soja Revealed by polymorphic Nuclear and chloroplast microsatellites, Genetics 144:793-803. 154. Prasad, p.S. A. Staggenborg, and Z. Ristic. (2008). Impacts of Drought and/ or Heat Stress on Physiological. Development, Growth, and Yeild Processes of Crop Plant. in L. R. Ahuja, V.R. Reddy, S.A. Saseendran and Y.Qiang. (edrs). Understanding and Modeling Water Stress Effect on Plant Growth Processes. Pp. 450. 155. Rabbani, G. 2009. Inheritance mechanisms of drought tolerance and yield attributes in wheat under irrigated and rainfed conditions, .Ph.D Thesis, Faculty of Crop and Food Science Pir Mehr Ali Shah, Arid Agriculture University, Rawalpindi, Pakistan 156. Reynolds MP,Foulkes MJ, Slafer GA, Davies WJ, Berry PM, Sylvester-Bradley R, Martre P. (2011). Raising yield potential of wheat. III. Optimizing partitioning to grain while maintaining lodging resistance. J Exp Bot 62:469–486.157. Ripple T, William L, Mary SPC, Michael W, Craig IC (2009) The effects of barely-derived soluble fiber on serum lipids. Annals of Family Medicine 7(2): 157-163. 158. Roberson. D., J. Julias. M. Lee. S., Y. Cook. D., D. (2017). Maize stalk lodging: Morphological determinants of stalk strength. Crop Science. 57(2): 926-934. 159. Roder, M.S., V. Korzum., K. Wendehake., J. Plaschke., M.H. Tixier., P. Leory., and M.W. Ganal.1998. A microsatellite map in wheat. Genetics. 149: 202-207. 160. Russell, J.R., J.D. Fuller, G. Young, B. Thomas, G. Taramino, M. Macaulay, R. Waugh & W. Powell, 1997. Discriminating between barley genotypes using microsatellite markers. Genome 40: 442–450. 161. Salamini F, Ozkan H, Brandolini A, Schafer-Pregl R, Martin W (2002) Genetics and geography of wild cereal domestication in the near east. Nat Rev Genet 3: 429–441 162. Sameh Magdeldin, ed. (2012). Gel electrophoresis – Principles and Basics. InTech. 163. Sameh, A. M., Mona, A., F. and Karima, A., R. (2018). Morphological and Molecular Characterization of Some Egyption Barley Cultivars under Calcareous Soil conditions. Middle East Journal of Agriculture Research. 7(2) pp: 408-420. 164. Sankar, S. M., Satyavathi, C. T., Singh, M., Bharadwaj, C., Singh, S. P., and Barthakur, S. (2013). Genetic Variability and Association Studies in Pearl Millet for Grain Yield and High Temperature Stress Tolerance. Indian Journal of Dryland Agricultural Research and Development, 28, 71-76. 165. Shabala, S., and I. Pottosin. 2014. Regulation of potassium transport in plants under hostile conditions: Implications for abiotic and biotic stress tolerance. Physiologia Plantarum 151 (3):257–79. doi: 10.1111/ppl.12165. 166. Shah.A. D, Tanveer. M, Rehman. A, Anjum. S. A, Iqbal. J, Ahmad. R. (2016). Lodging stress in cereal- effects and management: an overview. Environ Sci Pollut Res., 24(6): 5222- 5237. 167. Sharma, D.L. and Anderson, W.K. (2003). The influence of climatic factors and crop nutrition on seed vigor of wheat. Solution for a better environment. Proc. of the 11th Australian Agron. Conf., Geelong, Victoria, Australia Soc. of Agron., 2-6 Feb., 2003. 168. Shayan, S., Mohammadi, S., Moghaddam Vahed, M., & Ghassemi-Golezani, K. (2019). Genetic diversity of winter barley genotypes using ISSR markers. 169. Shiva, I.,Kianoosh, C. and Danial, K.(2017). Another culture response and genetic relationships between Iranian and European barley (Hordeum Vulgare L.) cultivars. Journal of Biotechnology, 98(4), pp: 295-304. 170. Singh, V.P. and Arora, A. 2001. Intraspecific variation in nitrogen uptake and nitrogen utilization efficiency in wheat (Triticum aestivum L.). Crop Sci. 186: 239-244.171. Slafer. G.A., F.H. Andrade., and E.H. Satorre. 1996 Genetic-improvement effects on pre-anthesis physiology attributes related wheat grain yield. Field Crops Res. 23: 255-263. 172. Slafer. G.A., F.H. Andrade., and E.H. Satorre. 2003. Genetic-improvement effects on pre-anthesis physiology attributes related wheat grain yield. Field Crops Res. 23: 255-263. 173. Smith J.A.C. & Griffiths H. 1984 Water Deficits: Plant Responses from Cell to Community. Bios Scientific Publishers, Oxford, UK, pp. 1–332. 174. Steer B.T and. Hocking, P.J. (1982). Nitrogen nutrition of Sunflower with special reference to nitrogen stress. Proc. 10th.Inter. sunflower safers Paradise. Australia P. 73-78. 175. Sui-Kwong Y, Musa N, Mohamad F (2011). Early sowing and irrigation to increase barley yields and water use efficiency in Mediterranean conditions. Agric Water Manag 98:1776–1781. 176. Sweigart. A, K. Karoly, A. Jones, and H.J. Willis. 1999. The distribution of individual inbreeding coefficients and pairwise relatedness in population of Mimulusguttalus. Herditiy 83:625 - 632. 177. Tahir Nawroz., Diyar Abubakr.Ahmad.2021. Genom diversity and population of Iranian Landrace and improved barley (Hordeum Vulgare) genotypes using arbitrary functional gene-baseed molecular markers. Genetic Resource and crop Evaluation Article.31 october. P35. 178. Tauz D (1989) Hypervariability of simple sequences as a general source for polymorphic DNA markers. Nucleic Acids Research 17(16): 6463-6471. 179. Terefe. D., Desalegn. T and Ashagre. H. (2018). Effect of Nitrogen Fertilizer Levels on Grain Yield and Quality of Malt Barley (Hordeum Vulgare L.) Varieties at Wolmera District, Central Highland of Ethiopia. International Journal of Research Studies in Agricultural Sciences. 4(4): 29- 43. 180. Theoulakis, N., E. Iconomou, and K. Bladenopoulos. 1992. Harvest index as a selection criterion for improving grain yield in segregating populations of barley. Rachis 11(1/2): 3-6. 181. Tian. B H, Luan. S R, Zhang. L X, LIU Y L, Zhang. L, Li H J. (2018). Penalties in yield and yield associated traits caused by stem lodging at different developmental stages in summer and spring foxtail millet cultivars. Field Crops Research. 217: 104-112. 182. Tigre. W., Worku. W., and Haile. W. (2014). Effects of nitrogen and phosphorus fertilizer levels on growth and development of barley (Hordeum Vulgare L.) at Bore District, Southern Oromia, Ethiopia. American Journal of Life Sciences.2(5): 260- 266. 183. Tingey S.V. and.Rafalski. J.A. 1993. Genetic diagnostics in plant breeding: RAPDs, microsatellites and machines. Trends Genetics. 9(8), 275-280. 184. Tripathi. S.C, Sayre. K.D, Kaul. J.N, Narang. R.S (2003). Growth and morphology of spring wheat (Triticum aestivum L.) culms and theirassociation with lodging: effects of genotypes, N levels and ethephon. Field Crops Res. 84:271-290. 185. Troccoli A, G.M. Borrelli, P. De Vita, C. Fares, N. Di Fonzo. (2000). Durum Wheat Quality: A Multidisciplinary Concept. J. Of Cereal Sci, 32: 99-113. 186. Turk. M.A., AL-Tawaha. A.M., Nikus. O.,and Rifaee. M. (2003). Response of Six-Row Barley to Seeding Rate with or without Ethrel Spray in the Absence of Moisture Stress. International Journal of Agriculture and Biology., 416-418. 187. Ullrich, SE (2002) Barley for food: characteristics, improvement, and renewed interest. J Cereal Sci 48:233-242. 188. Van Beuningen, L.T. and Busch R.H. (1997). Genetic diversity among North American spring wheat cultivars: III. Cluster analysis based on quantitative morphological traits. Crop Sci.37: 981-988. 189. Velicevici G., Madosa, E., ciulca S.,Camen, D.,ciulcaA., Petolescu. C Malaescu. M., Nistor. E and Beinsan. C. (2018). Analysis of genetic diversity in barley cultivars using ISSR markers. Journal of Horticulture, Forestry and Biotechnology, 22 (2), pp:19-25. 190. Velicevici G., Madosa, E., Sumalan, R., ciulca S., Popescu S. and Petolescu C. (2012). The use of RAPD and ISSR markers for genetic diversity among some barley cultivars. Romanian Biotechnological Letters, 17 (4), pp:7493-7503. 191. Verma V, Worland AJ, Sayers EJ, Fish L, et al. (2005). Identification and characterization of quantitative trait loci related to lodging resistance and associated traits in bread wheat. Plant Breed. 124: 234-241. 192. Von Bothmer R, Jacobsen N, Baden C, Jørgensen, RB, Linde-Laursen I (2009) An Eco- geographic study of the genus Hordeum. Systematic and eco-geographic studies on crop gene pools 7, International Board for Plant Genetic Resources, Rome, Italy. 193. Wang ME, Zhu QS (2012). Effects of lodging at different filling stages on rice yield and grain quality. Rice Sci 19:315–319. 194. Wang Y, Xiang B, Xian J X, Jiang L G, Zhang Y C. (2007). Research status and existing problems of rice resistance to lodging. Guangxi Agricultural Sciences. 38(2): 141-144. 195. Wang. G.L, D.J. Mackill, M. Bonman, S.R. McCouch., M.C. Champoux, and R.J. Nelson. 1994. RFLP mapping of genes conferring complete and partial resistance to blast in a durably resistant rice cultivar. Genetics 136:1421-1434. 196. Wang. J.; Zhu.J.M.; Lin. Q.Q.; Li.X.J.; ZHSH Li. T.N.J.; Li. B.; and Zhang. A.M (2006). The effect of the anatomical structure and chemical components of the culm on lodging resistance in wheat. Sci Bulletin 51 (5): 1 – 7.197. Waqas, M. B. 2006. Role of some agronomic traits for grain yield production in wheat genotypes under drought conditions Cientifica UDO Agricola. 6(1): 11-19. 198. Winter, S.R. and Ohrogge, A.G. 1973. Leaf area and leaf area index measurements. Agr. J., 65(3): 395-397. 199. Xiang B, Xian J X, Jiang L G, Zhang Y C. (2018). Research status and existing problems of rice resistance to lodging. Guangxi Agricultural Sciences. 38(2): 141-144. 200. Yabasanlar T. and Kiliç, H. 2010. The effect of drought stress on grain yield, yield components and some quality traits of wheat (Triticum Ssp.) cultivars, not. Bot. Hort. Agrobot. Cluj 38 (1) 2010, 164-170. 201. Yang S, Wei Y, Qi P, Zheng Y (2008) Sequence polymorphisms and phylogenetic relationships of hina gene in wild barley from Tibet, China. Agricultural Sciences in China 7(7): 796-803. 202. Yeh, F.C., R.C. Yang and T. Boyle. (1999). POPGENE 32- version 1.31. Population Genetics Software. 203. Yu. Y.G, M.A. Saghai Maroof, G.R. Buss, P.J. Maughan, and S.A. Tolin. 1994. RFLP and microsatellite mapping of a gene for soybean mosaic virus resistance. Phytopathology 84: 60-64. 204. Zerafa c., Ghanai A.et Benlaribi M., 2017. Comportement phenoloique et Morpho-physiologiqe de Quelques Genotypes .287-29 (AN ARABE). 205. Zhang. J. Li. G. Song. Y. Liu. Z. Yang. C. Tang. Y. Zheng. H. Wang. S. Ding. Y. (2014). Lodging resistance characteristics of high yieldin rice populations. Field Crops Research. 161: 64-74. 206. Zhong, J.; X.Lv; R.Liu and H.Chen. (2009). Genetic Relationship of Sweet Cherry (Prunus avium L.) Based on SSR Markers. Plant Sciences Research. 2(1): 6-10. 207. Zhu. G. Li. G. Wang. D. Yuan. S. Wang. F. (2016). Changes in the lodging-related traits along with rice genetic improvement in China. PLoS ONE. 11(7): e0160104. 208. Zietkiewicz E, A. Rafalski, and A. Labuda. 1994. Genome fingerprinting by simple sequence repeat (SSR) anchored polymerase chain reaction amplification. Genomics 20:178–183. 209. Zohary, D., and M. HOPF. 1993. Domestication of plants in the Old World. The origin and spread of cultivated plants in West Asia, Europe and the Nile Valley. Clarendon Press, Oxford, England. 210. Zohary, D., M. Hopf, and E. Weiss. 2012. Domestication of plants in the Old World: The origin and spread of domesticated plants in Southwest Asia, Europe, and the Mediterranean Basin. Oxford, United Kingdom: Oxford
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