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Morphological diversity valuation of exotic and advanced lines of bread wheat (Triticum Aestivum L.) via multivariate analysis

By: Muhammad Zulkiffal, Saima Gulnaz, Javed Ahmed, Aziz ur Rehman, Muhammad Musa, Muhammad Abdullah, Muhammad Makky Javaid, Jaffar Salim

Key Words: Morphological, Diversity, Exotic, Advanced, Multivariate, Wheat

Int. J. Agron. Agri. Res. 13(2), 149-156, August 2018.

Certification: ijaar 2018 0143 [Generate Certificate]

Abstract

Morphological diversity assessment of 28 exotic and 8 advanced lines was carried out.The data of 12 different traits were subjected to different multivariate techniques. The correlation analysis revealed heavier positive correlation among 1000 grain weight with the yield, spikelet spike-1, Normalized vegetation index (NDVI) and negative correlation with spike length, days to heading and maturity. NDVI and CTD (Canopy temperature depression) at booting stage revealed positive correlation with NDVI and CTD at anthesis stage. CTD and NDVI is a good indicator of a genotype’s fitness against heat stress environment and this trait may be used as selection tools for developing heat and drought stress tolerant genotypes. Principal component analysis showed first 5 PCs having eigen value >1 explaining 78.1% of the total variability. The lines speared into 4 clusters. Cluster 1, 2, 3 comprised of exotic lines while all varieties in cluster 4 comprised of advanced lines. Therefore, the traits of the exotic lines should be used in advanced lines and vice versa during crossing schemes. Plot and tree diagrams demonstrated adequate diversity among the accession for various traits and some extent of association between different clusters. In all described entries disease reaction (leaf and yellow rust) ranged from 0-100S.The results concluded that morphological diversity in the deliberate material is planned by genotypes and this diversity could be utilized for further breeding of exotic lines with advanced lines to cope with climate change mitigation and food security.

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Morphological diversity valuation of exotic and advanced lines of bread wheat (Triticum Aestivum L.) via multivariate analysis

Balota M, Amani I, Reynolds MP, Acevedo E. 1993. Evaluation of membrane thermostability and canopy depression as screening traits for heat tolerance in wheat. CIMMYT; Mexico. Wheat special report No. 20, 1-26.

Daniel H, Mebrahtom M, Tsige G. 2011. Genetic Divergence Analysis on some Bread Wheat Genotypes Grown in Ethiopia. Journal of Central European Agriculture 12, 344-352

Duguid SD, Brule-Babel AL. 1994. Rate and duration of grain filling in five springwheat (Triticumaestivum L.) genotypes. Canadian Journal of Plant Science 74, 681-686.

El-Mohsen AAA, Hegazy SRA, Taha MH. 2012. Genotypic and phenotypic interrelationships among yield and yield components in Egyptian bread wheat genotypes. Journal Plant Breeding and Crop Science 4, 9-16.

Freeman KW, Raun WR, Johnson GV, Mullen RW, Stone ML, Solie JB. 2007. Late-season prediction of wheat grain yield and grain protein. Communication in Soil Science and Plant Analysis 34, 1837-1852.

Gaju O. 2007. Identifying physiological processes limiting genetic improvement of ear fertility in wheat. PhD thesis, University of Nottingham 1-265.

Gomez D, Vanzetti L, Helguera M, Lombardo L, Fraschina J, Miralles DJ. 2014. Effect of Vrn-1, Ppd-1 genes and earliness on heading time in Argentinean bread wheat cultivars. Field Crops Research 158, 73-81.

Khalil AL, Mahboob AS, Afzal A, Umar DM, Sher M, Pirzada AJ. 2010. Comparative performance of wheat advance lines for yield and its associated traits. World Applied Science Journal 8, 34-37.

Marta SL, Ibrahim E , Peter SB, Sukhwinder S, Conxita R, Kursad O, Husnu A, Emel O, Fatih O, Alagu M, Tomohiro B, Prashant V. 2015. Exploiting genetic diversity from landraces in wheat breeding for adaptation to climate change. Journal of Experimental Botany 66, 3477-3486.

Mason RE, Singh RP. 2014. Considerations when deploying canopy temperature to select high yielding wheat breeding lines under drought and heat stress. Agronomy 4, 191-201.

Mondal S, Ravi S, Huerta-Espino J, Kehel Z, Autrique E. 2015.Characterization of heatand drought stress tolerance in high yielding spring wheat. Crop Science 55, 1-11.

Pecetti L, Damania AB. 1994. Geographic variation in tetraploid wheat (Triticum turgidum ssp.Turgidum convar.durum) landraces from two provinces in Ethiopia. Genetics Research and Crop Evolution 43, 395-407.

Peterson RF, Champbell AB, Hannah AE. 1948. A diagrammatic scale for estimating rust intensity of leaves and stem of cereals 26, 496-500.

Reynolds MP, Ortiz-Monasterio JI, McNab A. 2001. Application of physiology in wheat breeding. CIMMYT, Mexico 59-76.

Scotford IM, Miller PCH. 2005. Applications of spectral reflectance techniques in Northern European cereal production. A review of Biosystems engineering 90, 235-250.

Sneath PHA, Sokal RR. 1975. Numerical Taxonomy-The Principles and Practice of Numerical Classification. Taylor and Francis Publishing Ltd. 24, 263-268.

Tamoor HM, Tariq Z, Akram JI, Attiq R, Ghulam R. 2014. Estimation of some genetic parameters and inter-relationship of grain yield and yield related attributes in certain exotic lines of wheat (Triticum aestivum L.). Journal of Biology Agriculture and Health Care. 4, 48-53.

Verhulst N, and Govaerts B. 2010. The normalized difference vegetation index (NDVI) green seeker TM handheld sensor: Toward the integrated evaluation of crop management. Part A: Concepts and case studies. CIMMYT, Mexico 1-12.

Zaman M, Siddquie NA, RahmanM, Abida MY, Islam MJ. 2014. Divergence analysis of drought tolerant. Bangladesh Journal of Agriculture Research 39, 385-396.

Muhammad Zulkiffal, Saima Gulnaz, Javed Ahmed, Aziz ur Rehman, Muhammad Musa, Muhammad Abdullah, Muhammad Makky Javaid, Jaffar Salim.
Morphological diversity valuation of exotic and advanced lines of bread wheat (Triticum Aestivum L.) via multivariate analysis.
Int. J. Agron. Agri. Res. 13(2), 149-156, August 2018.
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