The results of the variety testing of cannabis in the conditions of the Republic of Bashkortostan

Relevance. In recent years, this crop, which is cultivated in order to obtain oil and fiber, is gradually gaining its abundance, increasing the acreage. In many agro-industrial enterprises, hemp is being introduced into crop rotations, and plants for its processing are being built. This culture plays a huge national economic importance and finds its application in various industries. One of the main elements of cannabis cultivation technology is the use of highly productive varieties.

Methodology. The laying of field experiments, related observations and records were carried out in accordance with existing methodological guidelines for conducting field and vegetation experiments with cannabis.

Results. The most optimal variety for the conditions of the Southern forest-steppe zone of the Republic of Bashkortostan is the Nadezhda variety. This variety is superior to the others (Vera and Omegadar-1) in terms of quality and quantity. For example, from the 2021–2022 studies on biomorphometric indicators, it follows that Nadezhda achieved the best indicators for: plant height (194.50 cm and 194.33 cm), technical stem length (160.60 cm and 162.45 cm), inflorescence length (33.90 cm and 31.88 cm), stem diameter (0.8–0.9 cm), the number of internodes (8–9 pcs.), the average length of internodes (12.5 cm and 19.87 cm). The weight of 1000 seeds was 17.01 g and 18.10 g, oil content — 32.89% and 33.72%, yield — 0.88 t/ha and 1.71 t/ha. The greatest results in 2022 are associated with agrometeorological conditions.

1. Small E. Evolution and Classification of Cannabis sativa (Marijuana, Hemp) in Relation to Human Utilization. The Botanical Review. 2015; 81(3): 189–294. https://doi.org/10.1007/s12229-015-9157-3

2. Schultes R.E., Hofmann A. The Botany and Chemistry of Hallucinogens. Springfield, IL: Charles C. Thomas. 1980; 437.

3. Small E., Naraine S.G.U. Size matters: evolution of large drug-secreting resin glands in elite pharmaceutical strains of Cannabis sativa (marijuana). Genetic Resources and Crop Evolution. 2016; 63(2): 349–359. https://doi.org/10.1007/s10722-015-0254-2

4. di Giacomo V., Ferrante C., Menghini L., Orlando G. Nutraceutical potential of industrial hemp. Pojić M., Tiwari B.K. (eds.). Industrial Hemp. Academic Press. 2022; 173–190. https://doi.org/10.1016/B978-0-323-90910-5.00006-3

5. Alonso-Esteban J.I. et al. Chemical composition and biological activities of whole and dehulled hemp (Cannabis sativa L.) seeds. Food Chemistry. 2022; 374: 131754. https://doi.org/10.1016/j.foodchem.2021.131754

6. Farinon B., Molinari R., Costantini L., Merendino N. The Seed of Industrial Hemp (Cannabis sativa L.): Nutritional Quality and Potential Functionality for Human Health and Nutrition. Nutrients. 2020; 12(7): 1935. https://doi.org/10.3390/nu12071935

7. Yano H., Fu W. Hemp: A Sustainable Plant with High Industrial Value in Food Processing. Foods. 2023; 12(3): 651. https://doi.org/10.3390/foods12030651

8. Illarionova K.V., Grigoriev S.V. The diversity of properties of hempy oil of various origins. International Technical Journal. 2014; (6): 80–83 (in Russian). https://elibrary.ru/tmhgsr

9. Deferne J.-L., Pate D.W. Hemp seed oil: A source of valuable essential fatty acids. Journal of the International Hemp Association. 1996; 3(1): 4–7.

10. Romero-Aguilera F., Alonso-Esteban J.I., Torija-Isasa M.E., Cámara M., Sánchez-Mata M.C. Improvement and validation of phytate determination in edible seeds and derived products, as mineral complexing activity. Food Analytical Methods. 2017; 10(10): 3285–3291. https://doi.org/10.1007/s12161-017-0890-6

11. Stepanov G.S., Fadeev A.P., Romanova I.V. Oilseed hemp and its energy efficiency. Agricultural Science Euro-North-East. 2007; (9): 39–42 (in Russian). https://elibrary.ru/kwbril

12. Callaway J.C. Hempseed as a nutritional resource: An overview. Euphytica. 2004; 140(1–2): 65–72. https://doi.org/10.1007/s10681-004-4811-6

13. Amaducci S., Colauzzi М., Bellocchi G., Venturi G. Modelling post-emergent hemp phenology (Cannabis sativa L.): Theory and evaluation. European Journal of Agronomy. 2008; 28(2): 90–102. https://doi.org/10.1016/j.eja.2007.05.006

14. Romanenko A.A., Skripnikov S.G., Sukhorada T.I. Hemp. Past. Present. Future?. Achievements of Science and Technology of AIC. 2016; 30(3): 39–41 (in Russian). https://elibrary.ru/vuzzrl

15. Serkov V.A., Belousov R.O., Alexandrova M.R., Davydova O.K. Latest directions of common hemp selection for solving modern problems of domestic economy and import substitution. Volga Region Farmland. 2019; (3): 24–30. https://doi.org/10.26177/VRF.2019.3.3.005

16. Sukhorada T.I., Proydak M.N., Gerasimova A.S., Semynin S.A., Shabelny M.M. New oil hemp variety Omegadar-1. Maslichnye kul′tury. 2009; (1): 147–150 (in Russian). https://elibrary.ru/knosqn

17. Dimitriev V.L., Shashkarov L.G., Lozhkin A.G. Comparative evaluation of hashish-free varieties of the Middle Russian hemp. Vestnik Chuvash State Agricultural Academy. 2020; (4): 17–21 (in Russian). https://elibrary.ru/qhgsaf

18. Bakulova I.V. Primary seed production of drug-free varieties of cannabis in the Middle Volga region. Agricultural Scientific Journal. 2021; (5): 4–8 (in Russian). https://doi.org/10.28983/asj.y2021i5pp4-8

19. Goreeva V.N., Korepanova E.V., Fatykhov I.Sh., Islamova Ch.M., Galieva G.R. Quality of fiber and oil crops seeds. Perm Agrarian Journal. 2021; (4): 30–37 (in Russian). https://doi.org/10.47737/2307-2873_2021_36_30