Pendugaan parameter genetik karakter biomassa dan hasil pada galur-galur F7 sorgum numbu X samurai 2.

Muhammad Antony Jefri Pratama; Trikoesoemaningtyas Trikoesoemaningtyas; Desta Wirnas

doi:10.15575/35978

Authors

Muhammad Antony Jefri Pratama Program Studi Pemuliaan dan Bioteknologi Tanaman, Fakultas Pertanian, IPB, Darmaga, Bogor 16680, Indonesia
Trikoesoemaningtyas Trikoesoemaningtyas Departemen Agronomi dan Hortikultura, Fakultas Pertanian, IPB, Darmaga, Bogor 16680, Indonesia
Desta Wirnas Departemen Agronomi dan Hortikultura, Fakultas Pertanian, IPB, Darmaga, Bogor 16680, Indonesia

DOI:

https://doi.org/10.15575/35978

Keywords:

Biomass, Index selection, Line of sorghum, Path analysis, Yield

Abstract

This research is a preliminary yield test of the F7 lines crossing from Numbu x Samurai 2. The aims are to obtain selection criteria, a relationship between vegetative characters and yield and biomass characters, and to obtain vegetative characters that have a direct influence on character Yield and biomass and have high production potential. This study used 20 F7 lines and 4 check lines grown using a Randomized Complete Block Design. The data were analyzed for variance and to estimate variance component analysis, broad sense heritability, genetic diversity coefficient, correlation analysis, cross-trace analysis, and selection index. The results showed that to obtain lines with high biomass, attention should be put on the characters of plant height, panicle diameter, and weight while selecting lines with high yields needs to pay attention tocharacters of the number of leaves at harvest and panicle weight. These characters show wide genetic variation, high broad sense heritability values, and have a high correlation and direct influence on biomass and yield. Therefore, they were potent selection criteria for sorghum plant breeding programs. The F7 lines selected for high biomass and yield based on the selection index were NS021, NS126, NS107, NS123, NS112, NS020, NS015, NS119, NS121 and NS011. Penelitian ini merupakan bagian dari uji daya hasil pendahuluan galur-galur F7 hasil persilangan Numbu x Samurai 2. Tujuannya adalah memperoleh kriteria seleksi hasil dan biomassa, memperoleh hubungan antar karakter vegetatif dengan karakter hasil dan biomassa, memperoleh karakter vegetatif yang berpengaruh langsung terhadap karakter hasil dan biomassa dan memperoleh galur sorgum yang memiliki potensi produksi tinggi. Penelitian ini menggunakan 20 galur F7 dan 4 galur pembanding yang ditanam menggunakan Rancangan Kelompok Lengkap Teracak. Data dianalisis ragam, analisis komponen ragam, heritabilitas arti luas, koefisien keragaman genetik, analisis korelasi, analisis sidik lintas dan Indeks seleksi. Hasil analisis menunjukkan bahwa untuk mendapatkan galur dengan biomassa tinggi perlu memperhatikan karakter tinggi tanaman, diameter dan bobot malai. Sedangkan seleksi galur dengan hasil tinggi perlu memperhatikan karakter bobot malai. Karakter-karakter tersebut menunjukkan ragam genetik yang luas, nilai heritabilitas dalam arti luas yang tinggi, dan mempunyai korelasi dan pengaruh langsung besar terhadap biomassa dan hasil, sehingga merupakan karakter seleksi yang sangat baik untuk program pemuliaan tanaman sorgum. Galur F7 yang terseleksi dengan biomassa dan hasil tinggi berdasarkan indeks seleksi adalah NS021, NS126, NS107, NS123, NS112, NS020, NS015, NS119, NS121 dan NS011.

Author Biographies

Trikoesoemaningtyas Trikoesoemaningtyas, Departemen Agronomi dan Hortikultura, Fakultas Pertanian, IPB, Darmaga, Bogor 16680

Agronomy and Horticulture

Plant Breeding Division

Desta Wirnas, Departemen Agronomi dan Hortikultura, Fakultas Pertanian, IPB, Darmaga, Bogor 16680

Agronomy and Horticulture

Plant Breeding Division

References

Abdelkhalek A.A., Darwesh R.K., El-Mansoury M.A.M. (2015). Response of some wheat varieties to irrigation and nitrogen fertilization using ammonia gas in North Nile Delta region. Ann. Agric. Sci. 60(2):245â€“256.doi:10.1016/j.aoas.2015.10.012.

Ahmad M.S.L., Wigena A.H., & Human S. (2014). Identifikasi pengaruh beberapa karakter agronomi terhadap daya hasil sorgum (Sorghum bicolor L. Moench) dengan analisis lintas. Jurnal Ilmiah Aplikasi Isotop Dan Radiasi. 10(2): 127-136.

Andriani D., Wirnas D., Trikoesoemaningtyas. (2019). Efektivitas Metode Seleksi Pedigreedan Modified Bulk pada Tiga Populasi Sorgum(Sorghum bicolor [L.] Moench). J. Agron. Indonesia. 47(3):275-282DOI: https://dx.doi.org/ 10.24831/jai.v47i3.27661.

Andriani D., Wirnas D., Trikosoemaningtyas, Irawan J., Jasmi. (2023). Uji Korelasi dan Analisis Lintas Terhadap Karakter Agronomi dan Hasil Pada Galur-Galur Sorgum (Sorghum bicolor L.). Jurnal Agrotek Lestari. 9(1) PP. 23 â€“ 31.

Anyomi, W.E., Barnor M.T., Danquah A., Ofori K., Padi F.K., Avicor S.W., Hale L., & Danquah E.Y. (2023). Heritability and genetic advance estimates of key shea fruit traits. Agronomy. 13(3):640. https://doi.org/10.3390/ agronomy13030640.

Ariefin, M.N., Harsono P., Sakya A.T. (2021). Potential of Sorghum Varieties as Biofuel. Agromet. 35 (2): 108-115.DOI:10.29244/j.agromet.35. 2.108-115.

Ariska, T., Sebayang H.T. & Suminarti N.E. (2017). Upaya efisiensi pemanfaatan lahan melalui penanaman tanaman sela dalam sistem tanam tumpang sari dengan tanaman sorgum di lahan kering. Jurnal Produksi Tanaman 5 (8): 1367-1374.

Ayer D., Sharma A., Ojha B., Paudel A., Dhakal K. (2017). Correlation and path coefficient analysis in advanced wheat genotypes. SAARC J. Agric. 15(1):1â€“12. doi:10.3329/sja.v15i1.33155.

[BATAN] Badan Tenaga Nuklir Nasional. (2014). Deskripsi varietas sorgum samurai 2. Keputusan Menteri Pertanian Republik Indonesia. Kementerian Pertanian Indonesia.

Batista L.G., Gaynor R.C., Margarido G.R.A., Byrne T., Amer P., Gorjanc G., Hickey J.M. (2021). Long-termcomparison between index selection and optimal in dependent culling in plant breeding program swith genomic prediction. J. Plos One. 16(5):e0235554. doi.org/ 10.1371/ journal. pone.0235554

Delgado I.D., GonÃ§alves F.M.A., Parrella R.A.D.C., Castro F.M.R.D., Nunes J.A.R. (2019). Genotype by environment interaction and adaptability of photoperiod-sensitive biomass sorghum hybrids. J Bragantia.78:509-521. https://doi.org /10.1590/1678-4499.20190028.

Dewi, T.I. (2021). Keragaman Karakter Agronomi, Stay Green dan Hasil Galur F4 Sorgum. Skripsi. Bogor: Institut Pertanian Bogor.

de Almeida L.G.F., Parrella R.A.C., Simeone M.L.F., de O Ribeiro P.C., dos Santos A.S., da Costa A.S.V., GuimarÃ£es A.G., Schaffert R.E. (2019). Composition and growth of sorghum biomass genotypes for ethanol. J Production Biomass and Bioenergy 122 (2019) 343â€“348.

Elangovan, M., Reddy G.V., Babu P.K., Rani M.J. (2014). Preliminary evaluation of mini-core collections of sorghum for utilization. Conference: Global consultaltion on Millets Promotion for Health & Nutritional Security. Directorate of Sorghum Research. Hyderabad. Volume: . ISBN: 81-89335-47-2. Pp. 99-104.

Erdurmus, C., Yucel C., Cinar O., Yegin A.B., Oten M. (2018). Bioethanol and sugar yields of sweet sorghum. The International Journal of Engineering and Science. 7(11), 21â€“26.

[FAO] Food and Agricultural Organization. (2021). World Food and Agriculture - Statistical Yearbook 2021. FAO. Rome. https://doi,org/10,4060/cb4477en

He, S., Tang C., Wang M.L., Li S., Diallo B., Xu Y., Zhou F., Sun L., Shi W., Xie G.H. (2020). Combining ability of cytoplasmic male sterility on yield and agronomic traits of sorghum for grain and biomass dual-purpose use. Industrial Crops & Products 157 (2020) 112894.https://doi,org/10.1016/j.indcrop.2020. 112894.

Istianingrum, P., Damanhuri. (2016). Keragaman dan heritabilitas sembilan genotip tomat (Lycopersicum esculentum Mill.) pada budidaya organik. Jur. Agroekotek. 8(2):70-81

Jain, S.K., & Patel P.R. (2014). Characters association and path analysis in sorghum (Sorghum bicolor (L.) Moench) F1S and their parents. J. Annals of Plant and Soil Research. 16(2):107-110

Jafar, M., Tesso B., Mengistu G. (2023). Genetic variability, heritability, and genetic advance for quantitative traits of sorghum [Sorghum bicolor (L.) Moench] genotypes at Fedis, Eastern Ethiopia. Int J Agric Sc Food Technol. 9(3):064-075.DOI: https://dx.doi.org/ 10.17352/ijasft.

Kumar, A.A., Sharma H.C., Sharma R., Blummel M., Reddy P.S., Reddy B.V.S. (2016). Phenotyping in Sorghum [Sorghum bicolor (L.) Moench]. Springer Science+Business Media New York. DOI: 10.1007/978-1-4614-8320-5_3.

Kumari, P., Pahuja S.K., Panchta R, Arya S, Satpal, Tokas J., Aruna C. (2017). Evaluation of forage sorghum brown midrib lines for quality biomass production. Global Journal of Bio-science and Biotechnology 6:234-239.

Lestari, T., Sopandie D., Trikoesoemaningtyas, Ardie S.W. (2015). Screening of Sorghum (Sorghum bicolor L. Moench) Genotypes for Alumunium Stress Tolerance in Nutrient Culture. Proc. Int. Conf. Plt. Phy. 2014. ISBN 978-967-10840-4-5.

Mattjik, A.A., Sumertajaya M. (2013). Perancangan percobaan dengan aplikasi SAS dan MINITAB. Bogor (ID): IPB Pr.

Missanjo, E., Matsumura J. (2017). Multiple Trait Selection Index for Simultaneous Improvement of Wood Properties and Growth Traits in Pinus kesiya Royle ex Gordon in Malawi. Forests. 8(4): 96.

Momongan, J.D., Trikoesoemaningtyas, Wirnas D., Sopandie D. (2019). Potensi hasil dan toleransi galur-galur inbrida sorgum pada tanah dengan hara fosfor rendah. Jurnal Agronomi Indonesia. 47:39-46.

Munarti, Wirnas D., Trikoesoemaningtyas, Syukur M., Sobir, Sopandie D. (2022). Kendali Genetik Stay Greenness dan Hasil serta Identifikasi Segregan Transgresif pada Empat Populasi F2 Sorgum. J. Agron. Indonesia. 50(1):41-48. DOI: https://dx.doi.org/ 10.24831 /jai.v50i1.39067.

Nakato, G.V., Okonya J.S., Kantungeko D., Ocimati W., Mahuku G., Legg J.P., Blomme G. (2023). Influence of altitude as a proxy for temperature on key Musa pests and diseases in watershed areas of Burundi and Rwanda.J.Heliyon.9(3):e13854.doi:10.1016/J.HELIYON. 2023.E13854.

Naoura, G., Sawadogo N., Atchozou E.A., Emendack Y., Hassan M.A., Reoungal D., Amos D.N., Djirabeye N., Tabo R., Laza H. (2019). Assesment of agro-morphological variability of dry-season sorghum cultivars in Chad as novel sources of drought tolerance. Scientific Reports. 9(1):19581. DOI:10.1038/s41598-019-56192-6.

Reddy, P.S., Reddy B.V.S. (2019). History of Sorghum Improvement, Breeding Sorghum for Diverse End Uses. Woodhead Publishing Series in Food Science, Technology and Nutrition. https://doi.org/10,1016/B978-0-08-101879-8.00004-8.

[PPVTPP] Pusat Perlindungan Varietas Tanaman dan Perizinan Pertanian. (2020). Sistem informasi database tanaman [internet]. Tersedia pada http://pvtpp. Setjen.pertanian. go.id/.

Setiawan, K., Restiningtias R., Utomo S.D., Ardian A., Hadi M.S., Sunyoto S., Yuliadi E. (2019). Keragaman genetik, fenotip dan heritabilitas beberapa genotip sorghum pada kondisi tumpangsari dan monokultur. Jurnal Agro. 6(2): 95-109.

Silva, K.J., Teodoro P.E., de Menezes C.B., JÃºlio M.P.M., de Souza V.P., da Silva M.J., Pimentel L.D., BorÃ©m A. (2017). Contribution of morphoagronomic traits to grain yield and earliness in grain sorghum. J Genetics and Molecular Research. 16(2): 3-10.

Sitompul SM Guritno B. 1995. Analisis Pertumbuhan Tanaman. Gadjah Mada University Press. Yogyakarta.

Suarni, Singgih S. (2002). Karakteristik sifat fisik dan komposisi kimia beberapa varietas/galur biji sorgum. J. Stigma. 10(2):127-130.

Takanashi, H., Weijde V.D. (2023). Genetic control of morphological traits useful for improving sorghum. Breeding Science. 73(1):57-69. doi: 10.1270/ jsbbs.22069

Trikoesoemaningtyas, Winas D., Sopandie D., Tesso T. (2015). Genotypes X environment interaction effect on nutritional quality of sorghum lines in Indonesia. Ekin J. Crop Breeding Genet. 1:26-31.

Trikoesoemaningtyas, Wirnas D., Saragih E.L., Rini E.P., Sari M., Marwiyah S., Sopandie D. (2017). Kendali genetik karakter morfologi dan agronomi pada tiga populasi sorgum (Sorghum bicolor (L.) Moench). J. Agron Indonesia. 45(3):285-291.

Venables, W.N., Ripley B.D. (2002). Modern Applied Statistics with S Fourth edition by. World. USA: Cambridge Publisher.

Wardiana, E. (2018). Menelisik Indikator Tingkat Ketelitian Suatu Penelitian Percobaan. Industrial and Beverage Crops Research Institute. Agency for Agricultural Research and Development. Ministry of Agriculture. Indonesia.

Wirnas, D., Trikoesoemaningtyas, Sutjahjo S.H., Sopandie D., Rohaeni W.R., Marwiyah S., Sumianti. (2016). Keragaman karakter komponen hasil dan hasil pada genotipe kedelai hitam. J. Agron. Indonesia. 40(3):184 â€“189.

Xiao, M.Z., Sun Q., Hong S., Chen W.J., Pang B., Du Z.Y., Yang W.B., Sun Z., Yuan T.Q. (2021). Sweet sorghum for phytoremediation and bioethanol production. Journal of Leather Science and Engineering. 3:32. https:// doi.org/ 10.1186/s42825-021-00074-z

Yuliasari, R., Kamal M., Sunyoto. (2014). Distribusi bahan kering sorgum (Sorghum bicolor (L,) Moench) yang ditumpangsarikan dengan ubikayu (Manihot esculenta Crantz). J. Agrotek Tropika 2(1):61-64.

Pendugaan parameter genetik karakter biomassa dan hasil pada galur-galur F7 sorgum numbu X samurai 2.

Authors

DOI:

Keywords:

Abstract

Author Biographies

Trikoesoemaningtyas Trikoesoemaningtyas, Departemen Agronomi dan Hortikultura, Fakultas Pertanian, IPB, Darmaga, Bogor 16680

Desta Wirnas, Departemen Agronomi dan Hortikultura, Fakultas Pertanian, IPB, Darmaga, Bogor 16680

References

Downloads

Published

Issue

Section

Citation Check

License

Make a Submission

sidebar-jurnalagro

Keywords