1. bookVolumen 68 (2022): Heft 1 (April 2022)
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Phenotypic performance of new pro-vitamin A maize (Zea mays L.) hybrids using three selection indices

Online veröffentlicht: 12 Aug 2022
Volumen & Heft: Volumen 68 (2022) - Heft 1 (April 2022)
Seitenbereich: 1 - 12
Eingereicht: 09 Dec 2021
Akzeptiert: 05 May 2022
Zeitschriftendaten
License
Format
Zeitschrift
eISSN
1338-4376
Erstveröffentlichung
06 Jun 2011
Erscheinungsweise
4 Hefte pro Jahr
Sprachen
Englisch

Adebayo, M.A., Kolawole, A.O., Raji, I., and Ajayi, J. (2017). Agronomic evaluation of testcrosses of drought-tolerant maize (Zea mays L.) inbred lines using different selection index methods. Archives of Agronomy and Soil Science, 63(9), 1292 ‒ 1300. DOI:10.1080/03650340.2016.1274977. DOI öffnenSearch in Google Scholar

Ajala, S.O. (2010). Expected responses to aggregate trait selection in maize (Zea mays L). Journal of Food, Agriculture & Environment, 8(1), 185 ‒ 189. Search in Google Scholar

Akbar, M.R., Purwoko, B.S., Dewi, I.S., and Suwarno, W.B. (2018). Agronomic and drought tolerance evaluation of doubled haploid rice breeding lines derived from anther culture. SABRAO Journal of Breeding & Genetics, 50(2), 115 ‒ 128. Search in Google Scholar

Anshori, M.F., Purwoko, B.S., Dewi, I.S., Ardie, S.W., and Suwarno, W.B. (2019). Selection index based on multivariate analysis for selecting doubled-haploid rice lines in lowland saline prone area. SABRAO Journal of Breeding & Genetics, 51(2), 161 ‒ 174. Search in Google Scholar

Berilli, A.P.C.G., Pereira, M.G., Tindade, R.S., and Costa, F.R. (2013). Response to the selection in the 11th cycle of reciprocal recurrent selection among full-sib families of maize. Acta Scientiarum- Agronomy, 35(4), 435 ‒ 441. DOI:10.4025/actasciagron.v35i4.17489. DOI öffnenSearch in Google Scholar

Brim, C.A., Johnson, H.W., and Cockerham, C.C. (1959). Multiple selection criteria in soybeans. Agronomy Journal, 51(1), 42 ‒ 46. DOI:10.2134/agronj1959.00021962005100010015. DOI öffnenSearch in Google Scholar

Crevelari, J.A., Durães, N.N.L., Bendia, L.R.C., da Silva, A.J., Azevedo, Valdinei Cruz Azeredo, F.H.V., and Pereira, M.G. (2018). Assessment of agronomic performance and prediction of genetic gains through selection indices in silage corn. Australian Journal of Crop Science, 12(5), 800 ‒ 807. DOI:10.3316/informit.732995213896131. DOI öffnenSearch in Google Scholar

Crosbie, T.M., Mock, J.J. and Smith, O.S. (1980). Comparison of gains predicted by several selection methods for cold tolerance traits of two maize populations Crop Science, 20(5), 649 ‒ 655. DOI:10.2135/cropsci1980.0011183X002000050027x. DOI öffnenSearch in Google Scholar

de Azeredo, A.A.C., Bhering, L.L., Brasileiro, B.P., Cruz, C.D., Silveira, L.C.I., Oliveira, R.A., Bespalhok Filho, J.C., and Daros, E. (2017). Comparison between different selection indices in energy cane breeding. Genetic and Molecular Research, 16(1), gmr16019535. DOI:10.4238/gmr16019535.28301673 DOI öffnenSearch in Google Scholar

de Santiago, S., de Souza Junior, C.L., Lemos, L.B., and Môro, G.V. (2019). Prediction of genetic gain using selection indices in maize lines. African Journal of Agricultural Research, 14(17), 787 ‒ 793. DOI:10.5897/AJAR2015.10696. DOI öffnenSearch in Google Scholar

Dermail, A., Fuengtee, A., Lertrat, K., Suwarno,W.B., Lübberstedt, T., and Suriharn, K. (2022). Simultaneous selection of sweet-waxy corn ideotypes appealing to hybrid seed producers, growers, and consumers in Thailand. Agronomy, 12(1), 87. DOI:10.3390/agronomy12010087. DOI öffnenSearch in Google Scholar

Elston, R.C. (1963). A weight free index for the purpose of ranking of selection with respect to several traits at a time. Biometrics, 19(1), 85 ‒ 97. DOI:10.2307/2527573. DOI öffnenSearch in Google Scholar

Emmanuel, G., Vah, E.G., Ndebeh, J., Akromah, R., and Obeng-Antwi, K. (2017). Evaluation of maize top cross hybrids for grain yield and associated traits in three agroecological zones in Ghana. International Journal of Environment, Agriculture and Biotechnology, 2(4), 2076 ‒ 2087. DOI:10.22161/ijeab/2.4.66. DOI öffnenSearch in Google Scholar

Ewool, M.B., Akromah, R. and Acheampong, P.P. (2016). Performance of pro-vitamin A maize synthetics and hybrids selected for release in Ghana. International Journal of Science and Technology, 5(6), 268 ‒ 293. Search in Google Scholar

Guimarães, P.H.R., Melo, P.G.S., Cordeiro, A.C.C., Torga, P. P., Rangel, P.H.N., and de Castro, A.P. (2021). Index selection can improve the selection efficiency in a rice recurrent selection population. Euphytica, 217(5), 1 ‒ 16. DOI:10.1007/s10681-021-02819-7. DOI öffnenSearch in Google Scholar

Hazel, L.N. (1943). The genetic basis for constructing selection index. Genetics, 28(6), 476 ‒ 490. DOI:10.1093/genetics/28.6.476.120922517247099 DOI öffnenSearch in Google Scholar

Kempthorne, O. and Nordskog, A.W. (1959). Restricted selection indices. Biometrics, 15(1), 10 ‒ 19. DOI: 10.2307/2527598. DOI öffnenSearch in Google Scholar

Kolawole, A.O., Menkir, A., Blay, E., Ofori, K., and Kling, J. G. (2018). Genetic advance in grain yield and other traits in two tropical maize composites developed via reciprocal recurrent selection. Crop Science, 58(6), 2360 ‒ 2369. DOI:10.2135/cropsci2018.02.0099. DOI öffnenSearch in Google Scholar

Kolawole, A.O., Raji, I.A., and Oyekale, S.A. (2021). The performance of new early maturing pro-vitamin A maize (Zea mays L.) hybrids in the derived savanna agro-ecology of Nigeria. Journal of Agricultural Sciences, Belgrade, 66(3), 231 ‒ 245. DOI:10.2298/JAS2103231K. DOI öffnenSearch in Google Scholar

León, R., Rosero, A., García, J.L., Morelo, J., Orozco, A., Silva, G., De la Ossa, V., Correa, E., Cordero, C., Villalba, L., and Belalcazar, J. (2021). Multi-trait selection indices for identifying new cassava varieties adapted to the Caribbean Region of Colombia. Agronomy, 11(9), 1694. DOI:10.3390/agronomy11091694. DOI öffnenSearch in Google Scholar

Lunezzo de Oliveira, R., Garcia Von Pinho, R., Furtado Ferreira, D., Miranda Pires, L. P., and Costa Melo, W.M. (2014). Selection index in the study of adaptability and stability in maize. The Scientific World Journal, 2014, 1 ‒ 6. DOI:10.1155/2014/360570.394835824696641 DOI öffnenSearch in Google Scholar

Menkir, A., Dieng, I., Mengesha, W., Meseka, S., Maziya-Dixon, B., Alamu, O.E., Bossey, B., Muhyideen, O., Ewool, M., and Coulibaly, M.M. (2021). Unravelling the effect of pro-vitamin A enrichment on agronomic performance of tropical maize hybrids. Plants, 10(8), 1580. DOI:10.3390/plants10081580.839842334451625 DOI öffnenSearch in Google Scholar

Mulamba, N.N. and Mock, J.J. (1978). Improvement of yield potential of the Eto Blanco maize (Zea mays L.) population by breeding for plant traits. Egyptian Journal of Genetics and Cytology, 7(1), 40 ‒ 51. ID: 87140435. Search in Google Scholar

Musundire, L., Derera, J., Dari, S., Lagat, A., and Tongoona, P. (2021). Stability assessment of single-cross maize hybrids using GGE-Biplot Analysis. Journal of Agricultural Science, 13(2), 78 ‒ 94. DOI:10.5539/jas.v13n2p78. DOI öffnenSearch in Google Scholar

Obeng-Bio, E., Badu-Apraku, B., Ifie, B.E., Danquah, A., Blay, E.T., and Annor, B. (2019). Genetic analysis of grain yield and agronomic traits of early pro-vitamin A quality protein maize inbred lines in contrasting environments. The Journal of Agricultural Science, 157(5), 413 ‒ 433. DOI:10.1017/S0021859619000753. DOI öffnenSearch in Google Scholar

Ogunniyan, D.J, Adetumbi, J.A., Olasoji, J.O. and Makinde, S.A. (2021). The variability of grain yield, seed morphometric and vigour traits of early maturing hybrid maize. Journal of Agricultural Sciences (Belgrade), 66(2), 105 ‒ 119. DOI:10.2298/JAS2102105O. DOI öffnenSearch in Google Scholar

Olaniyan, A.B. (2015). Maize: Panacea for hunger in Nigeria. African Journal of Plant Science, 9(3), 155 ‒ 174. DOI:10.5897/AJPS2014.1203. DOI öffnenSearch in Google Scholar

Oloyede-Kamiyo, Q.O. (2019). Efficiency of index-based selection methods for stem borer resistance in maize (Zea mays L.). Journal of Crop Science and Biotechnology, 22(3), 205 ‒ 211. DOI:10.1007/s12892-017-0130-0. DOI öffnenSearch in Google Scholar

Pesek, J. and Baker, R.J. (1969). Desired improvement in relation to selection indices. Canadian Journal of Plant Science, 49(6), 803 ‒ 804. DOI:10.4141/cjps69-137. DOI öffnenSearch in Google Scholar

Pixley, K., Rojas, N.N., Babu, R., Mutale, R., Surles, R., and Simpungwe, E. (2013). Biofortification of maize with pro vitamin A carotenoids. In Tanumihardjo, S.A. (Ed.), Carotenoids and Human Health, 1st ed. Totowa, NJ, USA: Humana Press, pp. 271 ‒ 292. DOI:10.1007/978-1-62703-203-2_17. DOI öffnenSearch in Google Scholar

Reif, J.C., Melchinger, A.E., Xia, X.C., Warburton, M.L., Hoisington, D.A., Vasal, S.K., Srinivasan, G., Bohn, M., and Frisch, M. (2003). Genetic distance based on simple sequence repeats and heterosis in tropical maize populations. Crop Science, 43(4), 1275 ‒ 1282. DOI:10.2135/cropsci2003.1275. DOI öffnenSearch in Google Scholar

SAS Institute (2010). Statistical Analysis Software (SAS). Users guide, SAS Inst. Inc. Cary, NC. Search in Google Scholar

Silva, M.F., Maciel, G.M., Finzi, R.R., Peixoto, J.V.M., Rezende, W.S., and Castoldi, R. (2020). Selection indexes for agronomic and chemical traits in segregating sweet corn populations. Horticultura Brasileira, 38(1), 71 ‒ 77. DOI:10.1590/S0102-053620200111. DOI öffnenSearch in Google Scholar

Smith, H.F.A. (1936). Discriminant function for plant selection. Annals of Eugenics, 7(3), 240 ‒ 250. DOI:10.1111/j.1469-1809.1936.tb02143.x. DOI öffnenSearch in Google Scholar

Smith, O.S., Hallauer, A.R., and Russell, W.A. (1981). Use of index selection in recurrent selection programs in maize. Euphytica, 3(30), 611 ‒ 618. DOI:10.1007/bf00038788. DOI öffnenSearch in Google Scholar

Tai, G.C.C. (1977). Index selection with desired gains. Crop Science, 17(1), 182 ‒ 183. Search in Google Scholar

Tardin, F.D., Pereira, M.G., Gabriel, A.P.C., Amaral Júnior, A.T., and Souza Filho, G.A. (2007). Selection index and molecular markers in reciprocal recurrent selection in maize. Crop Breeding and Applied Biotechnology, 7, 225 ‒ 233. DOI: 10.12702/1984-7033.v07n03a01. DOI öffnenSearch in Google Scholar

Tripathi, M.P., Shrestha, J. and Gurung, D.B. (2016). Performance evaluation of commercial maize hybrids across diverse Terai environments during the winter season in Nepal. Journal of Maize Research and Development 2(1), 1 ‒ 12. DOI:10.3126/jmrd.v2i1.16210. DOI öffnenSearch in Google Scholar

USDA (1999). United States Department of Agriculture, Natural Resources Conservation Service. In Soil Taxonomy: A Basic System of Soil Classification for Making and Interpreting Soil Surveys. Agriculture Handbook 2nd ed. Madison: University of Wisconsin Press, 754p. Search in Google Scholar

Vieira, R.A., Rocha, R., Scapim, C.A., Amaral Júnior, A.T., and Vivas, M. (2016). Selection index based on the relative importance of traits and possibilities in breeding popcorn. Genetic and Molecular Research, 15(2), gmr.15027719. DOI:10.4238/gmr.15027719.27173260 DOI öffnenSearch in Google Scholar

Williams, J.S. (1962). The evaluation of a selection index. Biometrics, 18(3), 375 ‒ 393. DOI:10.2307/2527479. DOI öffnenSearch in Google Scholar

Wricke, G. and Weber, W.E (1986). Quantitative genetics and selection in plant breeding. New York: Walter de Gruyter, 406p. DOI:10.1515/9783110837520.41. DOI öffnenSearch in Google Scholar

Zaffar, G., Shikari, A.B., Rather, M.A., and Guleria, S.K. (2005). Comparison of selection Indices for screening maize (Zea mays L.) germplasm for cold tolerance. Cereal Research Communications, 33(2 ‒ 3), 525 ‒ 531. DOI:10.1556/CRC.33.2005.2-3.115. DOI öffnenSearch in Google Scholar

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