Estimation of Variance and Heritability Components in F2 Populations of Maize (Zea mays L.) in Dry Land
Authors
Amanah Aulia Adeputri , M. Taufik Fauzi , Suwardji , A. A. Ketut SudharmawanDOI:
10.29303/jbt.v23i4.5326Published:
2023-11-07Issue:
Vol. 23 No. 4 (2023): October - DecemberKeywords:
Additive variance, dominant variance, dryland, heritability, maize.Articles
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Abstract
The F2 population of maize plants that has been obtained from hybridization between NK212 and NK7328 varieties has not been suspected of genetic diversity components and heritability in the narrow sense. This study aimed to determine the magnitude of the alleged value of variety components and heritability, as well as determine the types of varieties to be formed. The experimental design used was the Group Randomized Design (RAK) - North Carrolina I (NCI) consisting of 120 treatments. The experimental setup involved 40 male parent plants, each paired with 3 female parent plants in season I, and this procedure was replicated twice, resulting in a total of 240 treatment groups. The collected data was subjected to analysis through variety analysis (ANOVA) utilizing the NCI model. The results showed that the presumptive value of additive variety and dominant variety based on the results of data analysis varied, but in all observed traits the dominant variety value tended to be greater. Most of the observed traits have a negative heritability presumptive value, except for stem diameter, panicle exit age, fresh pruning weight, and 1000 seed weights. The conclusion obtained is that most of the observed properties have additive variance values and negative heritability values; the dominant variance value in all observed properties is greater than that of additive variety; The heritability of most traits cannot be predicted because they are negative. Therefore, it is advisable for the improvement of the F2 population is with the formation of hybrids.
References
Abdurachman, A., Dariah, A., & Mulyani, A. (2008). Strategi Dan Teknologi Pengelolaan Lahan Kering Mendukung Pengadaan Pangan Nasional. Jurnal Litbang Pertanian, 43.
Adriani, Azrai, M., Suwanto, W. B., & Sutjahjo, S. H. (2015). Pendugaan Keragaman Genetik dan Heritabilita Jagung Hibrida Silang Puncak pada Perlakuan Cekaman Kekeringan. Jurnal Informatika Pertanian, 1(24), 91-100. DOI: 10.21082/ip.v24n1.2015.p91-100
El-Badawy, M. E. (2011). Estimation of Genetic Variance and its Components in New Synthetic "Moshtohor2" of White Maize. Journal of Applied Sciences Research, 7(12), 2489-2494.
Hadini, H., Nasrullah, Taryono, & Basunanda, P. (2015). Estimates of Genetic Variance Components of an Equlibrium Population of Corn. Jurnal Agrivita, 37(1), 45-50. DOI: http://doi.org/10.17503/agrivita.v37i1.486
Hallauer, A. R., Carena, M. J., & Filho, J. B. (1988). Quantitative Genetics in Maize Breeding. USA: Springer.
Handini, M. A., D, S., & B, W. (2020). Parameter genetik karakter komponen hasil dan seleksi 82 genotipe ercis di dataran rendah. Jurnal Kultivasi, 19(2), 1162-1179. DOI: https://doi.org/10.24198/kultivasi.v19i2.22931
Jauhari, S., Samijan, Praptana, R., Setiapermas, M., Utomo, B., Oelviani, R., & Winarni, E. (2022). Adaptation of growth and yield of several hybrid corn varieties of Balitbangtan on dryland agroecosystems in young Albasia Forest Area. Bristol, 1107(1), 1-9. DOI: 10.1088/1755-1315/1107/1/012052
Juliati, F., Sudika, I. W., & Sutresna, I. W. (2023). Kajian Parameter Genetik Karakter Kuantitatif Tanaman Jagung (Zea mays L.) di Lahan Kering. Agroteksos, 33(1), 79-87. DOI: https://doi.org/10.29303/agroteksos.v33i1.786
Krisnamukti, B. (2010). Manfaat Jagung dan Peran Produk Bioteknologi Serelia dalam Menghadapi Krisis Pangan, Pakan, dan Energi di Indonesia. Prosiding Pekan Serelia Nasional (pp. 1-9). Jakarta: LitbangPertanian.
Kumar, N., Joshi, V. N., & Dagla, M. C. (2013). Estiamtion of Components of Genetic Variance in Maize (Zea mays L.). The Biosean Journal, 8(2), 503-507.
Li, D., Li, G., Wang, H., Guo, Y., Wang, M., Lu, X., Liu, W. (2022). Genetic Dissection of Phosphorus Use Efficiency and Genotype-by-Environment Interaction in Maize. International Journal of Molecular Science, 23(22), 1-18. DOI: https://doi.org/10.3390/ijms232213943
Lobus , I. J., Idris, & Ujianto, L. (2016). Pendugaan Ragam Genetik Populasi F1 Hasil Persilangan PHKRL vs PIONEER 21. Crop Agro, 1-7.
Lombu, W. K., Wisaniyasa, N. W., & Wiadnyani, A. S. (2018). Perbedaan Karakteristik Kimia Dan Daya Cerna Pati Tepung Jagung Dan Tepung Kecambah Jagung (Zea mays L.). Jurnal ITEPA, 7(1), 43-51. DOI: https://doi.org/10.24843/itepa.2018.v07.i01.p05
Mendez-Natera, J.R., A. Rondon, J. Hernandes, and J. F. Merazo- Pinto. (2012). Genetic Studies in Upland Cotton. III. Genetic Parameters, Correlation and Path Analysis. SABRAO Journal of Breeding and Genetics 44(1) : 112-128. URL: https://www.researchgate.net/publication/265887144_Genetic_studies_in_upland_cotton_III_genetic_parameters_correlation_and_path_analysis
Nguyen, H. T., Chen, Z. Q., Fries, A., Berlin, Hallingback, H. R., & Wu, H. X. (2021). Effect of Additive, Dominant, and Epistatic Variance on Breeding and Deployment Strategy in Norway Spruce. Forestry, 416-427. DOI: https://doi.org/10.1093/forestry/cpab052
Priyanto, S. B., Azra'i, & Syakir, M. (2018). Analisis Ragam Genetik, Heritabilitas, dan Sidik Lintas Karakter Agronomik Jagung Hibrida Silang Tunggal. Informatika Pertanian, 1-8. DOI: 10.21082/ip.v27n1.2018.p1-8
Priyanto, S.B., dan R. Efendi, 2015. Evaluasi galur jagung terhadap cekaman kekeringan. Balai Penelitian Tanaman Serealia. Prosiding Seminar Nasional Serealia : 69-76.
Sa'diyah, N., Widiastuti, M., & Ardian. (2013). Keragaan, Keragaman, Dan Heritabilitas Karakter Agronomi Kacang Panjang (Vigna Unguiculata) Generasi F1 Hasil Persilangan Tiga Genotipe. Jurnal Agrotek, 1(1), 32-37. DOI: http://dx.doi.org/10.23960/jat.v1i1.1885
Sudika, I. W., & Anugrahwati, D. R. (2021). Perbaikan Sudut Daun Populasi Komposit Tanaman Jagung Melalui Hibridisasi dengan Varietas Hibrida. Jurnal Sains Teknologi dan Lingkungan, 254-266. DOI: 10.29303/jstl.v0i0.261
Sudika, I. W., & Yakop, U. M. (2021). Pendugaan Komponen Ragam Genetik Pada Populasi Tanaman Jagung Hasil Seleks Massa Dengan Indeks Dasar. Crop Agro, 17. DOI: https://doi.org/10.29303/caj.v14i1.679
Sudika, I. W., Anugrahwati, D. R., Muliarta, I. G., & Sudharmawan, A. K. (2018). Pengenalan Paket Teknologi Varietas Jagung Komposit dan Hibrida Pada Kondisi Cekaman Kekeringan di Lahan Kering. PKM CSR, 1, 537-545. URL: https://prosiding-pkmcsr.org/index.php/pkmcsr/article/view/231
Sudika, I. W., Basuki, N., Sugiharto, A. N., & Soegianto, A. (2015). Estimation of Genetic Variance Components from Composite and Hybrid Maize (Zea mays L.) Hybridiztion. International Journal of Plant Research, 5(5), 107-112. DOI: 10.5923/j.plant.20150505.03
Syukur, M., S. Sujiprihati, R. Yunianti, K. Nida. (2012). Pendugaan Komponen Ragam, Heritabilitas, dan Korelasi untuk Menentukan Kriteria Seleksi Cabai (Capsicum annum L.) Populasi F5. J. Hort. Indonesia. 1(3): 74-80. DOI: https://doi.org/10.29244/jhi.1.2.74-80
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