Selection of watermelon starting material by adaptability for breeding for suitability for intensive and organic growing technologies

O. V. Serhiienko; O. M. Shabetia; Z. P. Linnik; M. B. Serhiienko; I. Ye. Povlin

doi:10.30835/2413-7510.2023.293879

Авторы

O. V. Serhiienko Institute of Vegetable and Melon Growing of the National Academy of Agrarian Sciences of Ukraine, Ukraine
O. M. Shabetia Institute of Vegetable and Melon Growing of the National Academy of Agrarian Sciences of Ukraine, Ukraine
Z. P. Linnik Institute of Vegetable and Melon Growing of the National Academy of Agrarian Sciences of Ukraine, Ukraine
M. B. Serhiienko Institute of Vegetable and Melon Growing of the National Academy of Agrarian Sciences of Ukraine, Ukraine
I. Ye. Povlin Ferenc Rakoczi II Transcarpathian Hungarian College of Higher Education of the Ministry of Education and Science of Ukraine, Ukraine

DOI:

https://doi.org/10.30835/2413-7510.2023.293879

Ключевые слова:

watermelon, breeding, collection accessions, breeding trait, growing technology, stability, plasticity, breeding value

Аннотация

Purpose and Objectives. To select watermelon starting materials by major productive indicators (yield, average marketable fruit weight) for the breeding of genotypes suitable for intensive and organic cultivation technologies.

Materials and Methods. Collection watermelon accessions were studied: 101 cultivars and lines from 9 countries. Cv. ‘Maks Plus’ (Ukraine) was taken as the control accession. The following parameters were determined: Sg_i – genotype’s stability, b_i – regression coefficient of the genotype's response to changing conditions (plasticity), GBV_i – genotype’s breeding value. Plants were grown by traditional technology in the Forest-Steppe of Ukraine (DSTU 3805-98, 1998; DSTU 5045:2008, 2008). Watermelon plants were fertilized and protected in compliance with scientific and practical recommendations. The study was conducted in accordance with routine methods of breeding. Kilchevskiy & Khotylyova’s method, 1997 was used to estimate the genotypes’ stability parameters. The coefficient of environmental plasticity (b_i) was calculated by Eberhart & Russel algorithm, 1966. Data were statistically and mathematically processed in Statistica 6.

Results and Discussion. The adaptive potential of the watermelon collection was evaluated for the following characteristics: total and marketable yields and average marketable fruit weight. The following parameters were determined: b_i - coefficient of regression of the genotype’s response to changes in conditions (plasticity), Sgi – genotype’s stability, and GBV_i – genotype’s breeding value of the watermelon collection. We established the amplitudes and ranges of variation of the yield indicators. By the coefficient of environmental plasticity b_i, the collection watermelon accessions were grouped as showing low, medium or high environmental plasticity for different traits. The collection accessions were categorized as follows: 1 - intensive genotypes with enhanced responses to growing conditions; 2 - with medium environmental plasticity; 3 - highly plastic, which slightly respond to changes in growing conditions. For breeding for various traits, we identified accessions of practical value in terms of stability parameters and genotype’s breeding value (GBV_i) for intensive and organic cultivation technologies. Taking into account the environmental variability parameters in collection watermelon accessions to be used in the breeding of cultivars and hybrids suitable for intensive technologies, we selected accessions with enhanced responses to changing growing conditions, which also consistently yielded sufficiently high. As to the yield constituents (productive traits), 5 breeding-valuable accessions were selected by the "total yield" trait, 6 – by the "marketable yield" trait, and 1 – by the "average fruit weight" trait. Analysis of the environmental variability parameters in the watermelon collection to be used as starting materials in the breeding of genotypes suitable for organic cultivation enabled us to select a number of accessions by productive traits: 6 breeding-valuable accessions were distinguished due to the "total yield" trait, 4 – due to the "marketable yield" trait, and 6 - due to the "average fruit weight" trait. The selected accessions optimally responded to year’s conditions and were relatively stable in terms of high levels of expression of these traits under in changing growing conditions.

Conclusions. For the breeding of genotypes suitable for intensive technologies, accessions with enhanced responses to changing growing conditions were selected; at the same time, they maintained a sufficiently high stability of yields. The breeding-valuable accessions were selected by yield constituents: 5 - by the "total yield" trait; 6 – by the "marketable yield" trait; and 1 – by the "average fruit weight" trait.

Analysis of the environmental variability parameters in the watermelon collection to be used as starting materials in the breeding of genotypes suitable for organic cultivation enabled us to select a number of accessions: 6 – by the "total yield" trait; 4 – by the "marketable yield" trait; and 6 - by the characteristic "average fruit weight" trait. The selected accessions optimally responded to changing conditions of cultivation and showed relatively stable and strong expression of these traits.

Библиографические ссылки

Lymar V.A., Kholodnyak O.М. Results of adaptive selection of vegetable and melon crops under climate change. Bulletin of Agrarian Science. 2020; 3: 50–54. DOI: 10.31073/agrovisnyk202003-07.

Naumov A.O., Lymar A.O. Ways to increase the adaptive capacity of watermelon plants to negative abiotic factors of the Southern Steppe. Visnyk Ahrarnoi Nauky. 2019; 9: 21–28. DOI: 10.31073/agrovisnyk201909-03. [in Ukrainian]

Sych Z.D. Top watermelon varieties for each region of Ukraine. Sontse Sad, 2021; 4. URL: soncesad.com/statti/ovochi/kavuni/kavun-%E2%80%93%E2%80%94-smachni-liki-iz-vlasnogo-gorodu-(zhurnal-sonczesad-%E2% 84%964/2021). [in Ukrainian]

Scientific basics of adaptation of agricultural systems to climatic changes in the Southern Steppe of Ukraine. Monograph. Dedicated to the 100th anniversary of the National Academy of Agrarian Sciences of Ukraine / edited by R.A. Vozhehova. Kherson: OLDI-PLIUS, 2018. 752 p. [in Ukrainian]

Shablia O.S., Kholodniak O.G. Organizational and marketing approach to the breeding of new varieties of melons in the southern region of Ukraine. Ovochivnytstvo i Bashtannytstvo. 2021; 69: 131–139. DOI: 10.32717/0131-0062-2021-69-131-139. [in Ukrainian]

Linnik Z. P., Mytenko I. M., Serhiienko O. V. Comparison of Ukrainian and foreign watermelon accessions. Genetičnì Resursi Roslin. Kharkiv, 2021; 28: 71–77. DOI: 10.36814/pgr.2021.28.07 [in Ukrainian]

Korniienko S.I., Serhiienko O.V., Krutko R.V. Methodical approaches to selection and creation of watermelon starting material in heterosis breeding. Vinnytsia: TOV Tvory, 2016. 106 р. [in Ukrainian]

Linnik Z.P., Chaiuk O.O., Serhiienko O.V., Onyshchenko O.I. Starting material of watermelon for breeding for complex resistance to diseases. Ovochivnytstvo i Bashtannytstvo. 2021; 69: 13–23. DOI: 10.32717/0131-0062-2021-69-13-23. [in Ukrainian]

Sych Z.D. Ukrainian watermelon: a healing berry for the price of gold. Yahidnyk. 2021. URL: jagodnik.info/ukrayinskyj-kavun-tsilyushha-yagoda-na-tsinu-zolota/ [in Ukrainian]

Linnik Z.P., Sergienko O.V., Garbovska T.M. Screening and monitoring of кavun's input material for the storage period of the vegetation period in the minds of the lisstep of Ukraine. Eureka: Life Sciences. Talin. 2021; 5: 18–25. DOI: 10.21303/2504-5695.2021.002087.

Serhiienko O. V. Starting material of monoecious watermelon. Creation of a gene pool of vegetables and melons with high adaptive potential and production of ecologically clean products: Abstracts of the Scientific and Practical Conference (Olexandrivka village, August 29, 2014). Vinnytsia: "Nilan-LTD" LLC: 56–58. [in Ukrainian]

Brytik O.A. Breeding value of collection watermelon specimens. Zroshuvalne Zemlerobstvo. 2015; 64: 166–168. [in Ukrainian]

Harkavyi V.K., Yarova V.V. Mathematical statistics. Kyiv: VD Profesional, 2004. 384 p. [in Ukrainian]

Pakudin V.Z., Lopatina L.M. Evaluation of environmental plasticity and stability. Moscow 1984. 38 р. [in Russian]

Jalal A. A. Genetic variation, heritability, phenotypic and genotypic correlation studies for yield and yield components in promising barley genotypes. Journal of Agricultural Science. 2012; 4(3): 194–210.

Eberhart S. A., Russel W. A. Stability parameters for comparing varieties. Crop. Sci., 1966; 6(1): 36–40.

Mazur V.A., Palamarchuk V.D., Polishchuk I.S., Palamarchuk O.D. Novel agrotechnologies in crop production. Vinnytsia; 2017. 588 р. [in Ukrainian]

Kish D. Transcarpathian watermelons. https://kiszo.news/2023/06/13. [in Ukrainian]

Mykyta V. Watermelons are grown on an industrial scale in the Transcarpathia. URL: ukrinform.ua/rubric-regions/3570822-na-zakarpatti-virosuut-kavuni-u-promislovih-obsagah.html. [in Ukrainian]

Hnyp H. The first watermelons in the Transcarpathia. URL: agrotimes.ua/ovochi-sad/pershi-zakarpatski-kavuny-na-zakarpatti-zbyratymut-20-lypnya/. [in Ukrainian]

State Standard of Ukraine DSTU 5045: 2008. Watermelon, melon, pumpkin. Cultivation technology. General requirements. [Valid from 2009.07.01]. Official edition. Kyiv: Derzhspozhyvstandard of Ukraine, 2008. 16 p. [in Ukrainian]

State Standard of Ukraine DSTU 3805–98. Fresh edible watermelons. Specifications. [To replace GOST 7177-80; valid from 01.01.2000]. Official edition. Kyiv: Derzhspozhyvstandard of Ukraine, 1998. 16 p. [in Ukrainian]

Kuts. O.V., Serhiienko O.V., Paramonova T.V., (Eds.) Optimization of watermelon fertilization and protection for integrated cultivation technologies (practical recommendations). Selektsiine village: IVMG NAAS, 2021. 20 p. [in Ukrainian]

Horovа T.К., Yakovenkо K.I. (Eds.) Modern methods of vegetablе and melon breeding. Kharkiv: Osnova, 2001. 432 р. [in Ukrainian]

Lymar A. O. Methods of breeding and field experimentation with melons: methodological recommendations. Kyiv: Ahrarna Nauka, 2001. 131 р. [in Ukrainian]

Serhiienko O.V., Mohylna O.M., Linnik Z.P., Lukianchykova O.A. Methodical approaches using of line material identified by morphological genes in heterosis breeding of watermelon: monograph. Vinnytsia: TOV Tvory, 2020. 100 p. [in Ukrainian]

Ivchenko T.V., Miroshnichenko T.M., Mozhovska H.V. Scientific justification of the effectiveness of biotechnological methods in vegetable breeding and seed production: monograph / edited by T.V. Ivchenko. Kyiv: Ahrarna Nauka, 2022. 200 p. [in Ukrainian]

Vitanov O.D. Modern systems of vegetable production: monograph / edited by O.D. Vitanov. Vinnytsia: TOV Tvory, 2022. 214 p. [in Ukrainian]

Kilchevskiy AV, Khotylyova LV. Environmental plant breeding. Minsk: Tekhnologii; 1997. 372 p. [in Russian]

Selection of watermelon starting material by adaptability for breeding for suitability for intensive and organic growing technologies

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