Environmental trials of a model population of Phaseolus vulgaris L. in contrast climates

Authors

  • O. M. Bezugla Plant Production Institute nd a V.Ya. Yuriev of NAAS, Ukraine
  • L. N. Kobyzeva Plant Production Institute nd a V.Ya. Yuriev of NAAS, Ukraine
  • N. M. Vus Plant Production Institute nd a V.Ya. Yuriev of NAAS, Ukraine
  • P. M. Solonechnyi Plant Production Institute nd a V.Ya. Yuriev of NAAS, Ukraine

DOI:

https://doi.org/10.30835/2413-7510.2020.222257

Keywords:

bean, genotype, environment, GGE biplot

Abstract

Purpose – assess the capacities of a particular genotype and to offer breeders starting material that is adapted to a region where a would-be variety will be created.

Materials and Methods. To accomplish this purpose, an environmental trial of collection bean (Phaseolus L.) accessions was carried out in four locations, which that differ in climatic characteristics: Plant Production Institute named after V.Ya. Yuriev NAAS – Kharkiv, eastern Forest-Steppe; Ustymivka Experimental Station of Plant Production of the Plant Production Institute named after V.Ya. Yuriev NAAS – Poltavska Oblast, southern Forest-Steppe; Bukovyna State Agricultural Experimental Station of the Institute of Agriculture of the Carpathian Region of NAAS – Chernivtsi, Woodlands; Plant Breeding and Genetics Institute -National Center of Seed and Cultivar Investigation – Odesa, southern Steppe.

Results and discussion. Genotypes and test environments were assessed by GGE biplot method, which made it possible to graphically visualize the environmental trial results. To create varieties for different zones of Ukraine, we recommend to select parents with due account for weather conditions: South of Ukraine – drought-resistant genotypes with high heat resistance (Holberg); Woodlands – intensive genotypes (Pervomaiska, Mistseva Bomba 5); Forest-Steppe –stable genotypes with high drought resistance (Holberg, Nadiia, UD030104).

Conclusions. From the GGE biplot results, the environmental trial locations, which allow one to fully assess the adaptability of a genotype, were identified: Plant Production Institute named after V.Ya. Yuriev NAAS and Ustymivka Experimental Station of Plant Production. In their conditions, stable genotypes were distinguished: Holberg, Otrada, UD0300104, Bogema, UD0300152, N 201-15 and Sinelnikivska 8. Of these accessions, Holberg, Otrada, UD0300104 and Sinelnikivska 8 combined stability and high performance, approaching the "ideal" genotypes Holberg and UD0300104.

References

Hagos HG, Abay F. AMMI and GGE biplot analysis of bread wheat genotypes in the northern part of Ethiopia. Journal of Plant Breeding and Genetics. 2013; 01: 12–18.

Morsi A, Abdel-Raham RA, Fares WM, Hasari A. Interpretation of genotype x environment interaction for soybean variety trials using different stability procedures. WRB. 2017. URL: https://www.researchgate.net/publication/332986588_INTERPRETATION_OF_GENOTYPE_X_ENVIRONMENT_INTERACTION_FOR_SOYBEAN_VARIETY_TRIALS_USING_DIFFERENT_STABILITY_PROCEDURES.

Merezhko AF. Principles of search for, development and use of donors of valuable trains in plant breeding. Identifitsirovannyy Genofond Rasteniy i Selektsiya. St-Petersburg, 2005. P. 189–204

Pourdad SS, Moghaddam MJ. Study on seed yield stability of sunflower inbred lines through GGE biplot. HELIA. 2013; 36(58): 19–28. DOI: 1018-1806/2013/1018-18061358019P.

Kazydub NG, Marakaeva TV. Comparative assessment of economic and valuable signs of samples of haricot (Phaseolus vulgaris L.) and creation on their basis of new selection material for conditions of the southern forest-steppe of the Western Siberia. Omsk, 2015. 150 р.

Bezugla OM, Kobyzeva LN. Plant genetic resources in solving bean breeding challenges. Zbirnyk Naukovykh Prats Selektsiino-Henetychnoho Instytutu – Natsionalnoho Tsentru Nasinnytstva ta Sortovyvchennia. 2015; 26(66): 74–86.

Kobyzeva LN, Bezugla OM, Vus NО, Biryukova ОV, Tertyshnyi ОV. The genetic resources of grain legumes and millet with resistance to abiotic factors. In: Osnovy Upravlinnia Produktsiinym Protsesom Polevykh Kultur. Kharkiv, 2016. P. 70–96.

Bezugla OM, Kobyzeva LN. Scientific principles of formation of a trait collection of common bean (Phaseolus vulgaris L.). Genetychni Resursy Roslyn. 2014; 14: 50–61.

Bezuglaia ON. Adaptive potential of collection bean accessions. Maslichnyye Kultury. 2017; 4(172): 23–28.

WRB. Pogoda i klimat. 2018. http://www.pogodaiklimat.ru/.

Bezugla OM, Kobyzeva LN, Ryabchun VK, Drepin IM, Izhik MK, Sokol TV, Duplyak O. Wide unified descriptors list of the genus Phaseolus L. Kharkiv, 2004. 50 p.

Kobyzeva LN, Bezugla OM, Sylenko SI, Kolotilov VV, Sokol TV, Dokukina KI, Vasylenko AO, Bezuglyi IM, Vus NO. Methodical recommendations for studying the genetic resources of grain legumes. Kharkiv, 2016. 84 p.

Yan W, Kang MS. GGE biplot analysis: a graphical tool for breeders, geneticists and agronomists. CRC Press, Boca Raton, FL, 2003.

Yan W, Tinker NA. Analyse par double projection des résultats des essais multi-environnementaux: principes et applications. Canadian Journal of Plant Science. 2006; 86: 623–645.

Solonechnyi P, Kozachenko M, Vasko N, Gudzenko V, Ishenko V, Kozelets G, Logvinenko Y, Vinyukov A. AMMI and GGE biplot analysis of yield performance of spring barley (Hordeum vulgare L.) varieties in multi environment trials. Agriculture and Forestry. 2018; 64(1): 121–132. DOI: 10.17707/AgricultForest.64.1.15.

Gauch HG. Statistical analysis of yield trials by AMMI and GGE. Crop Science. 2006; 46: 1488–1500. DOI: 10.2135/cropsci2005.07-0193.

Yan W, Kang MS, Ma B, Woods PL, Cornelius PL. GGE biplot vs. AMMI analysis of genotype – by-environment data. Crop Science. 2007; 47: 643–655. DOI: 10.2135/cropsci2006.06.0374.

Solonechnyi PN. AMMI and GGE biplot analyses of genotype-environment interaction in spring barley lines. Vavilov Journal of Genetics and Breeding. 2017; 21(6): 657–662. DOI: 10.18699/VJ17.283.

Mohammadi R, Amri A. Genotype × environment interaction and genetic improvement for yield and yield stability of rainfed durum wheat in Iran. Euphytica. 2013; 192(2): 227–249. DOI: 10.1007/s10681-012-0839-1.

Kadir M, Kaimuddin M, Forid B, Nusa Y. GGE-biplot analysis of yield stability in environment trial of tropical wheat (Triticum aestivum L.) genotype under dry season in Indonesia. Research on Crops. 2018; 19(4): 680–688.

Aruna C., Rakshit S, Shrotria PK, Pahuja S, Jain SK, Siva Kumar S, Modi ND, Deshmukh DT, Kapoor R, Patil JV. Assessing genotype-by-environment interactions and trait associations in forage sorghum using GGE biplot analysis. The Journal of Agricultural Science. 2015; 1(1): 73–86. DOI: 10.1017/S0021859615000106.

Mare M, Manjeru P, Ncube B, Sisito G. GGE biplot analysis of genotypes by environment interaction on Sorghum bicolor L. (Moench) in Zimbabwe. African Journal of Plant Science. 2017; 11(7): 308–319. DOI: 10.5897/AJPS2017.1538

Seyoum A, Gebreyohannes A, Nega A, Nida H, Tadesse T, Tirfessa A, Bejiga T. Performance evaluation of Sorghum (Sorghum bicolor (L.) Moench) genotypes for grain yield and yield related traits in drought prone areas of Ethiopia. Advances in Crop Science and Technology. 2019; 7(2): 423.

Qin J, Xu R, Li H, Yang C. Evaluation of productivity and stability of elite summer soybean cultivars in multi-environment trials. Euphytica. 2015; 206(3): 759–773. DOI: 10.1007/s10681-015-1513-1.

Bhatiya A, Aditya JP, Kumari V, Kishore N. GGE biplot & ammi analysis of yield stability in multi-environment trial of soybean [Glycine max (L.) Merrill] genotypes under rainfed condition of north western Himalayan hills. Indian Journal of Genetics and Plant Breeding. 2017; 27(1): 227–238.

Mathobo R, Marais D. Evaluation of genotype x environment interaction using GGE-biplot on dry beans (Phaseolus vulgaris L.) in Limpopo province of South Africa. Australian Journal of Crop Science. 2017; 11(05): 506–515. DOI: 10.21475/ajcs.17.11.05.p303.

Oliveira TRA, Gravina GA, Oliveira GHF, Araújo KC, Araújo LC, Daher RF, Vivas M, Gravina LM, Cruz DP. The GT biplot analysis of green bean traits. Ciencia Rural. 2018; 48(6). DOI: 10.1590/0103-8478cr20170757.

Fan XM, Kang MS, Chen H, Zhang Y, Tan J, Xu C. Yield stability of maize hybrids evaluated in multi-environment trials in Yunnan, China. Agronomy Journal. 2007; 99(1): 220–228. DOI: 10.2134/agroj2006.0144.

Solonechnyi PM, Kozachenko MR, Vasko NI, Naumov OG, Vazhenina OE, Solonechna OV, Dmitrenko PP, Kovalenko AI. GGE biplot analysis of genotype – environment interaction in spring barley varieties. Sel. Nasinn. 2014; 106: 93–102. DOI: 10.30835/2413-7510.2014.42134.

Solonechnyi P, Vasko N, Naumov A, Solonechnaya O, Vazhenina O, Bondareva O, Logvinenko Y. GGE biplot analysis of genotype by environment interaction of spring barley varieties. Zemdirbyste-Agriculture. 2015; 102(4): 431–436. DOI: 10.13080/z-a.2015.102.055.

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Published

2020-12-30

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METHODS AND RESULTS SELECTION