• Reference :1

    Ahmed, M.S., Bashar, M.K., Shamsuddin, A.K.M., 2016. Diversity level, Spearman’s ranking and core collections from 98 rice germplasm through quantitative, qualitative and molecular characterizations. Rice Genomics and Genetics 7(2), 1–10.

    Brejda, J.J., Moorman, T.B., Karlen, D.L., Dao, T.H., 2000. Identification of regional soil quality factors and indicators in central and southern high- plains. Soil Science Society of American Journal 64, 2115–2124.

    Chakravorty, A., Ghosh, P.D., 2013.Characterization of landraces of rice from Eastern India. Indian Journal of  Plant Genetic Resources 26(1), 62–67.

    Chakravorty, A., Ghosh, P.D., Sahu, P.K., 2013. Multivariate analysis of phenotypic diversity of landraces of rice of West Bengal. American Journal of Experimental Agriculture 3(1), 110–123.

    Das B., Sengupta S., Parida, S.K., Roy, B., Ghosh, M., Prasad, M., Ghose, T.K., 2013. Genetic diversity and population structure of rice landraces from Eastern and North Eastern states of India. BMC Genetics 14, 71.

    Dwivedi, S.L., Ceccarelli, S., Blair, M.W., Upadhyaya, H.D., Are, A.K., Ortiz, R., 2016. Landrace germplasm for improving yield and abiotic stress adaptation. Trends in Plant Science 21(1), 31–42.

    Federer, W.T., 1956. Augmented (or Hoonuiaku) designs. Hawaiian Planters’ Record 55, 191–208.

    Gana, A.S., Shaba, S.Z., Tsado, E.K., 2013. Principal component analysis of morphological traits in thirty-nine accessions of rice (Oryza sativa) grown in a rainfed lowland ecology of Nigeria. Journal of Plant Breeding Crop Science 5, 120–126.

    Ilieva, V., Ruzdik, N.M., Mihajlov, L., Ilievski, M., 2019. Assessment of agro-morphological variability in rice using multivariate analysis. Journal of Agriculture and Plant Sciences 17(1), 79–85.

    Jolliffe, I.T., 2002. Principal component analysis (2nd Edn.). Springer-Verlag, New York, USA.

    Khan, M.H., Dar, Z.A., Dar, S.A., 2015. Breeding strategies for improving rice yield -A review. Agricultural Sciences 6, 467–478.

    Kovach, M.J., McCouch, S.R., 2008. Leveraging natural diversity: back through the bottleneck. Current Opinion in  Plant Biology 11(2), 193–200.

    Kumbhar, S.D., Kulwal, P.L., Patil, J.V., Sarawate, C.D., Gaikwad, A.P., Jadhav, A.S., 2015. Genetic diversity and population structure in landraces and improved rice varieties from India. Rice Science 22(3), 99–107.

    Leonard, K., Peter, R.J., 2009. Finding Groups in Data: An Introduction to Cluster Analysis, 344.

    Mahendran, R., Veerabadhiran, P., Robin, S., Raveendran, M., 2015. Principal component analysis of rice germplasm accessions under high temperature stress. International Journal of Agricultural Science and Research 5(3), 355–360.

    Maji, A.T., Shaibu, A.A., 2012. Application of principal component analysis for rice germplasm characterization and evaluation. Journal of Plant Breeding and Crop Science 4(6), 87–93.

    Nachimuthu, V.V., Muthurajan, R., Duraialaguraja, S., Sivakami, R., Pandian, B.A., Ponniah, G., Sabariappan, R., 2015. Analysis of population structure and genetic diversity in rice germplasm using SSR markers: an initiative towards association mapping of agronomic traits in Oryza sativa. Rice 8(1), 30.

    Nachimuthu, V.V., Robin, S., Sudhakar, D., Raveendran, M., Rajeswari, S., Manonmani, S., 2014. Evaluation of rice genetic diversity and variability in a population pannel by principal component analysis. Indian Journal of Science and Technology 7(10), 1555–1562.

    Nambara, E., Nonogaki, H., 2012. Seed biology in the 21st century: Perspectives and new directions. Plant and Cell Physiology 53(1), 1–4.

    Nayak, A.R., Chaudhury, D., Reddy, J.N., 2002. Genetic variability, heritability and genetic advance in scented rice. Indian Journal of Agricultural Science 46(12), 45-47.

    Perez-de-Castro, A.M., Vilanova, S., Canizares, J., Pascual, L., Blanca, J.M., Diez, M.J., Prohens, J., Pico, B., 2012. Application of genomic tools in plant breeding. Current Genomics 13(3), 179–195.

    Ringer, M., 2008. What is principal component analysis? Nature Biotechnology 26(3), 303–304.

    Sang, T., Ge, S., 2013. Understanding rice domestication and implications for cultivar improvement. Current Opinion in Plant Biology 16(2), 139–146.

    Sarma, B., Basumatary, N.R., Nahar, S., Tanti, B., 2016. Effect of drought stress on morpho-physiological traits in some traditional rice cultivars of Kokrajhar district, Assam, India. Annals of Plant Sciences 5(8), 1402–1408.

    Sood, B.G., Siddiq, E.A., 1978. A rapid technique for scent determination in rice. Indian Journal of Genetics and Plant Breeding 38, 268–271.

    Tiwari, S., Yadav, M.C., Dikshit, N., Yadav, M.C., Pani, D.R., Latha, M., 2020. Morphological characterization and genetic identity of crop wild relatives of rice (Oryza sativa L.) collected from different ecological niches of India. Genetic Resources and Crop Evolution 67, 2037–2055.

    Yugandhar, R.P., Suneetha, K., Kiran, U.B., Sridhar, M., 2018. Principal component analysis for agro-morphological and quality characters in germplasm of rice (Oryza sativa L.). International Journal of Advanced Biological Research 8(2), 268–273.

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