Breeding of parthenocarpic cucumber hybrids for unheated greenhouses

Relevance. Cucumber is very popular and in demand in households of the population (personal subsidiary farms), as evidenced by the data on the acreage occupied under this crop in the territory of the Russian Federation (37.4 thousand hectares).

Methodology. This article presents the results of evaluating the combinational ability of eight parthenocarpic inbreeding lines and testing thirteen new hybrid combinations obtained on the basis of the studied lines under the conditions of spring-summer turnover in a polycarbonate unheated greenhouse in the Moscow region in comparison with the hybrids F1 SV 4097 CV (Seminis, the Netherlands) and F1 Piligrim (Agrofirma Poisk LLC, Russia).

The purpose of the scientific work is to develop productive and high-yielding heterotic cucumber hybrids with a complex of economically useful traits for cultivation in unheated greenhouses. Testing and introduction of competitive and technologically advanced hybrids into commercial vegetable production is one of the important stages of scientific research in the field of breeding. The research was carried out in ARRIVG – a branch of FSBSI “Federal Scientific Vegeculture Center” in the conditions of polycarbonate unheated ground greenhouses during 2020-2021 (Moscow region, Ramensky district).

Results. As a result of evaluation of the combinational ability of parthenocarpic inbreeding lines, it was found that inbreeding lines L.21 (2.4 kg/m2 ), L.415 (0.8 kg/m2 ), L.993 (0.4 kg/m2 ), L.1010 (0.1 kg/m2 ) should be used during hybridization as a paternal component for obtaining early-ripening parthenocarpic cucumber hybrids. To develop more productive and high-yielding parthenocarpic cucumber hybrids, inbreeding lines L.21, L.415, L.1008 should be used. As a result of the research work, four hybrid combinations (L.993×L.415, L.1010×L.21, L.993×L.21, L.993×L.1008) were identified for high yield and productivity in protected soil conditions, which exceeded the standards of SV 4097 CV F1 and Piligrim F1. 

1. Chistyakova L.A., Baklanova O.V., Breeding of parthenocarpic cucumber hybrids for heated greenhouses. Potatoes and vegetables. 2022;(3):27-31. (In Russ.) https://doi.org/10.25630/PAV.2022.78.85.005

2. Chistyakova L.A., Baklanova O.V. Cucumber breeding in Agroholding "Poisk". Potatoes and vegetables. 2020;(8):8-9. (In Russ.)

3. https://reestr.gossortrf.ru/.

4. Litvinov S.S. Field experiment technique in vegetable growing. Moscow: Rosselkhozakademiya, 2011. 648 p. (In Russ.)

5. Recommendations and guidelines for selection and seed production of cucumber. VNIISSOK. M., 1999. 293 p. (In Russ.)

6. Guidelines for selection and seed production of heterotic cucumber hybrids. Compiled by N.N. Tkachenko, O. V. Yurina, E.T. Meshcherov et al. M., 1985. 56 p. (In Russ.)

7. Guidelines for the selection and seed production of cucumbers in greenhouses. M., VASKHNIL, 1976. 73 p. (In Russ.)

8. Guidelines for the selection of cucumbers. VNIISSOK. Compiled by: O.V. Yurina, N.N. Korganova, I.V. Ermolenko and others. Moscow: Agropromizdat, 1985. 55 p. (In Russ.)

9. Methodology for state variety testing of agricultural crops. M., 1985. 263 p. (In Russ.)

10. Dospekhov B.A. Methods of field experience, M.: "Kolos", 1985. 423 p. (In Russ.)

11. Makarova E.L., Chistyakova L.A., Baklanova O.V., BortsovaYu.V. Variety study of parthenocrypic cucumber hybrids under conditions of the second light zone (Kirov). Potatoes and vegetables. 2020;(11):22-25. DOI: 10.25630/PAV.2020.30.39.004

12. https://sad24.ru/ogorod/formirovanie-kusta-ogurcov-v-odin-osnovnojstebel-opisanie-sxema-video.html 13. http://potatoveg.ru/ogorodnik/kak-formirovat-rasteniya-partenokarpicheskix-gibridov-ogurca-v-plenochnyx-teplicax.html

13. Methodology RTG / 0061/2 "Assessmentfordistinctness, uniformity and stability of cucumber (Cucumis sativus L.)" dated June 29, 2009. No. 12-06 / 13.

14. Baklanova O.V., Chistyakova L.A. New cucumber hybrid F1 Piligrim: cultivation in greenhouses. Potatoes and vegetables. 2019;(3):37-40. (In Russ.) https://doi.org/10.25630/PAV.2019.71.84.001.

15. Ushanov A.А., Ulyanov R.A., Mironov A.A. Evaluation of heterosis through reciprocal crosses of inbred cucumber lines (Cucumis sativus L.). Vegetable crops of Russia. 2022;(1):19-23. (In Russ.) https://doi.org/10.18619/2072- 9146-2022-1- 19-23.

16. Mokryanskaya T.I., Gorokhovsckyi V.F. The nature of the manifestation of heterosis is a reliable indicator of a high specific combination ability in a cucumber of the bee-pollinated type. Vegetable crops of Russia. 2021;(3):76- 83. (In Russ.) https://doi.org/10.18619/2072-9146-2021-3-76-83

17. https://studbooks.net/1315553/agropromyshlennost/statisticheskaya_obrabotka_dannyh_gibridologicheskogo_analiza

18. Kibalnik O.P., Hybrid vigour effect in sorghum selection. Bulletin of NSAU. 2019;2(51):15-24. (In Russ.) https://doi.org/ 10.31677/2072-6724-2019-51-2- 15-24

19. Savchenko, V.K. Method of estimation of combinational ability of genetically different-quality sets of parent forms. Minsk: NaukaiTekhnika. 1973. Pp. 48- 78. (In Russ.)