Інтродукція та використання рослин  видів роду Physalis L. в Україні

О. П. Бондарчук; О. М. Вергун; В. В. Фіщенко; Д. Б. Рахметов

doi:10.21498/2518-1017.16.4.2020.224048

Authors

О. П. Бондарчук M. M. Hryshko National Botanical Garden, NAS of Ukraine, Ukraine https://orcid.org/0000-0001-6367-9063
О. М. Вергун M. M. Hryshko National Botanical Garden, NAS of Ukraine, Ukraine https://orcid.org/0000-0003-2924-1580
В. В. Фіщенко M. M. Hryshko National Botanical Garden, NAS of Ukraine, Ukraine https://orcid.org/0000-0002-7714-1739
Д. Б. Рахметов M. M. Hryshko National Botanical Garden, NAS of Ukraine, Ukraine https://orcid.org/0000-0001-7260-3263

DOI:

https://doi.org/10.21498/2518-1017.16.4.2020.224048

Keywords:

Physalis L., introduction, ontomorphogenesis, biological and morphological features, biochemical composition, features of reproduction and introduction into culture

Abstract

Purpose. Development of scientific and applied foundations for the introduction, selection and use of plants of the species of the genus Physalis L. to ensure food security in Ukraine.

Methods. Subject of study – plants of the genus Physalis. The study was conducted in 2014–2018. on the introduction plots of the department of cultural flora of the M. M. Hryshko National Botanical Garden, NAS of Ukraine (NBG). The work used general scientific and special methods: field, introduction, biological and morphological; laboratory (chemical, biochemical), statistical (methods of analysis of variance and statistical estimation of average data using Microsoft Excel (2010).

Results. The features of ontomorphogenesis were established, the biological and morphological parameters of plants of the species of the genus Physalis L. were investigated under conditions of introduction in the Right-Bank Forest-Steppe Ukraine. It was found that the content of dry matter in plant fruits varied from 10 to 18.34%, sugars – from 39.34 to 67.97%, tannins – 1.57 to 3.35% and carotene – from 0.200 to 0.583%, ascorbic acid – from 123.91 to 284.95 mg/100 g, depending on the species, varietal and shape characteristics.

Conclusions. It was found that the introduced plant species of the genus Physalis in conditions of culture have four age periods and 10 developmental states: seeds (se), sprouts (p), juvenile (j), immature (im), virginal (v), generative (g), subsenilny (ss) and senile (se). Ph. ixocarpa ‘Likhtaryk’ of the NBG selection was distinguished among the studied introduced species in terms of biological and morphological parameters and biochemical composition. The obtained data can be used for further research and determining the prospects for the introduction of these introduced species into a wide culture

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Author Biographies

О. П. Бондарчук, M. M. Hryshko National Botanical Garden, NAS of Ukraine

Oleksandr Bondarchuk

О. М. Вергун, M. M. Hryshko National Botanical Garden, NAS of Ukraine

Olena Vergun

В. В. Фіщенко, M. M. Hryshko National Botanical Garden, NAS of Ukraine

Valentyna Fishchenko

Д. Б. Рахметов, M. M. Hryshko National Botanical Garden, NAS of Ukraine

Dzhamal Rakhmetov

References

Chernetskyi, V. M., & Cherednychenko, L. I. (2012). Tasks of vegetable growing in Ukraine and ways to solve them. Zbirnyk naukovykh prats VNAU [Proceedings of VNAU], 36, 115–122. [in Ukrainian]

Sunayama, R., Kuroyanagi, M., Umehara, K., & Ueno, A. (1993). Physalin and neophysalins from Physalis alkekengi var. francheti and their differentiation inducing activity. Phytochemistry, 34(2), 529–533. doi: 10.1016/0031-9422(93)80040-Y

Kuz’minskaya, A. S., & Ignatenko, I.S. (2019). Growing different types of physalis. In Ovoshchevodstvo – ot teorii k praktike: sb. statey po mater. II Regionoy nauchno-prakt. konf. molodykh uchenykh [Vegetable growing – from theory to practice: collection of articles based on the materials of the II Regional Scientific and Practical Conference of Young Scientists] (pp. 31–34). March 20–21, 2019,Krasnodar,Russian Federation. [in Russian]

El-Sheikha, A. F., Ribeyre, F., Larroque, M., Reynes, M., & Montet, D. (2009). Quality of Physalis (Physalis pubescens L.) juice packaged in glass bottles and flexible laminated packs during storage at 5°C. Afr. J. Food Agric. Nutr. Dev., 9(6), 1388–1405.

Wen, X., Hempel, J., Schweiggert, R. M., Ni, Y., & Carle, R. (2017). Carotenoids and carotenoid esters of red and yellow Physalis (Physalis alkekengi L. and P. pubescens L.) fruits and calyces. J. Agric. Food Chem., 65(30), 6140–6151. doi: 10.1021/acs.jafc.7b02514

Arenas, P., & Kamienkowski, N. M. (2013). Ethnobotany of the Genus Physalis L. (Solanaceae) in the South American Gran Chaco. Candollea, 68(2), 251–266. doi: 10.15553/c2012v682a9

Luchese, C. L., Gurak, P. D., & Marczak, L. D. F. (2015). Osmotic dehydration of physalis (Physalis peruviana L.): Evaluation of water loss and sucrose incorporation and the quantification of carotenoids. LWT, 63(2), 1128–1136. doi: 10.1016/j.lwt. 2015.04.060

Gorlacheva, Z. S. (2003). Peculiarities of ontogeny and leaf blade anatomical structure of Physalis pubescens L. (Solanaceae Juss.) at the different stages of its development in the conditions of Donbass. Promyshlennaya botanika [Industrial Botany], 3, 158–165. [in Russian]

Vdovenko, S. A., & Polutin, O. O. (2016). Study of the effect of the technology elements of tomatillo growing in Ukraine. Sìl˜s’ke gospodarstvo ta lìsìvnictvo [Agriculture and Forestry], 3, 171–177. [in Ukrainian]

Bondarchuk, O. P., & Rakhmetov, D. B. (2017). Prospects for the introduction and use of plants of the genus Physalis L. for a balanced and healthy diet. In Suchasni aspekty zberezhennia zdorovia liudyny: zbirnyk prats X Mizhnar. mizhdystsyplinarnoi nauk.-prakt. konf. [Modern aspects of human health: Coll. works X Int. interdisciplinary scientific-practical conf.] (pp. 217–220). April 21–22, 2017,Uzhhorod,Ukraine. [in Ukrainian]

Rakhmetov, D. B., Korablova, O. A., Stadnichuk, N. O., Andrushchenko, O. L., & Kovtun-Vodianytska, S. M. (2015). Katalog roslyn viddilu novyh kultur [Catalog of plants of the Department of New Cultures]. Kyiv: Fitosotsiotsentr. [in Ukrainian]

Khan, W., Bakht, J., & Khan, B. M. (2017). In vitro antifungal, antioxidant and HPLC analysis of the extracts of Physalis philadelphica. Bangladesh J. Pharmacol., 12(3), 313–318. doi: 10.3329/bjp.v12i3.31965

Cirigliano, A., Colamarino, I., Mariggiani, G., & Bado, S. (2008). Biological effects of Physalis peruviana L. (Solanaceae) crude extracts and its major whitanolides on Ceratitis capitata Wiedemann (Doptera: Tephritidae). Bol. San. Veg. Plagas., 34(4), 509–515.

Puente, L. A., Pinto-Muñoz, C. A., Castro, E. S., & Cortés, M. (2011). Physalis peruviana Linnaeus, the multiple properties of a highly functional fruit: A review. Food Res. Int., 44(7), 1733–1740. doi: 10.1016/j.foodres.2010.09.034

Zhang, W.-N., & Tong, W.-Y. (2016). Chemical constituents and biological activities of plants from the genus Physalis. Chem. Biodivers., 13(1), 48–65. doi: 10.1002.cbdv.201400435

Mazova, N., Popova, V., & Stoyanova, A. (2020). Phytochemical composition and biological activity of Physalis spp.: A mini-review. Food Sci. Appl. Biotechnol., 3(1), 56–70. doi: 10.30721/fsab2020.v3i1.80

Bazalar Pereda, M. S., Nazareno, M. A., & Viturro, C. I. (2018). Nutritional and antioxidant properties of Physalis peruviana L. fruits from the Argentinean Andean region. Plant Foods Hum. Nutr., 74(1), 68–75. doi: 10.1007/s11130-018-0702-1

Hegazy, E. M., Ali, A. O., El-Sayed, H. S., & Kassem, J. M. (2019). Quality properties of husk tomato juice and its impact instirred probiotic yogurt. Asian Food Sci. J., 7(2), 1–10. doi: 10.9734/afsj/2019/v7i229962

Ivanova, T., Popova, V., Mazova, N., Stoyanova, A., & Damyanova, S. (2019). Extracts from physalis leaves (Physalis peruviana L.) for prospective application in medicine and cosmetics. Ukr. Food J., 8(1), 34–44. doi: 10.24263/2304-974X-2019-8-1-5

Rodrigues, M. H. B., Lopes, K. P., Silva, J. G., Pereira, N. A. E., Paiva, F. J. S., Sa, J. M., & Costa, C. C. (2018). Phenological characterization and productivity of the Physalis peruviana L., cultivated in greenhouse. J. Agricult. Sci., 10(9), 234–243. doi: 10.5539/jas.v10n9p234

Rakhmetov, D. B. (2011). Teoretychni ta prykladni aspekty introduktsii roslyn v Ukraini [Theoretical and practical aspects of plant introduction inUkraine]. Kyiv: Agrar Media Grup. [in Ukrainian]

Ignateva, I.P. (1989). Ontogeneticheskiy morfogenez vegetativnyh organov travyanistyh rasteniy [Ontogenetic morphogenesis of vegetative organs of herbaceous plants]. (3^nd ed., rev.).Moscow: TSHA. [in Russian]

Rabotnov, T. A. (1960). Methods for determining the age and length of life of herbaceous plants. In Polevaya geobotanika [Field geobotany] (Vol. 2, pp. 249–278).Moscow;Leningrad: Izd-vo AN SSSR. [in Russian]

Zyman, S. M., Mosiakin, S. L., Bulakh, O. V., Tsarenko, O. M., & Felbaba-Klyshyna, L. M. (2004). Iliustrovanyi dovidnyk z morfolohii kvitkovykh roslyn [Illustrated guide to the morphology of flowering plants]. Uzhhorod: Medium. [in Ukrainian]

Zyman, S. M., Mosiakin, S. L., Hrodzynskyi, D. M., Bulakh, O. V., & Dremliuha, N. H. (2012). Iliustrovanyi dovidnyk z morfolohii kvitkovykh roslyn [Illustrated guide to the morphology of flowering plants]. (2^nd ed., rev. and enl.). Kyiv: Fitosotsiotsentr. [in Ukrainian]

Serebryakov, I.G. (1962). Ekologicheskaya morfologiya rasteniy. Zhiznennye formy pokrytosemennykh i khvoynykh [Ecological plant morphology. Life forms of angiosperms and conifers].Moscow: Visshaya shkola. [in Russian]

Serebryakova, T. I. (1972). The doctrine of the life forms of plant at the present stage. Itogi nauki i tekhniki. Ser. Botanika [Results of Science and Technology. Ser. Botany], 1, 84–169. [in Russian]

The method of observation in the botanical gardens of the USSR. (1987). In Metodiki introduktsionnykh issledovaniy v Kazakhstane [Methods of introduction research inKazakhstan].Alma-Ata: Nauka. [in Russian]

Krishchenko, V. P. (1983). Metody otsenki kachestva rastitel’noy produktsii [Methods for evaluating of quality of plant production].Moscow: Kolos. [in Russian]

Pleshkov, B. P. (1985). Prakticum po biohimii rasteniy [Plant biochemistry workshop].Moscow: Kolos. [in Russian]

Ramadan, M. F., & Moersel, J. T. (2007). Impact of enzymatic treatment on chemical composition, physicochemical properties and radical scavenging activity of goldenberry (Physalis peruviana L.) juice. J. Sci. Food Agric., 87(3), 452–460. doi: 10.1002/jsfa.2728

Hassan, A. I., & Ghoneim, M. A. (2013). A possible inhibitory effect of Physalis (Physalis pubescens L.) on diabetes in male rats. World Appl. Sci. J., 21(5), 681–688. doi: 10.5829/idosi.wasj.2013.21.5.7220

Ostrzycka, J., Horbowicz, M., Dobrzański, W., Jankiewicz, L. S., & Borkowski, J. (1988). Nutritive value of tomatillo fruit (Physalis ixocarpa Brot.). Acta Soc. Bot. Pol., 57(4), 507–521. doi: 10.5586/asbp.1988.049

Briones-Labarca, V., Giovagnal-Vicuña, C., Figueroa-Alvarez, P., Quispe-Fuentes, I., & Pérez-Won, M. (2013). Extraction of b-carotene, vitamin C and antioxidant compounds from Physalis peruviana (cape gooseberry) assisted by high hydrostatic pressure. Food Nutr. Sci., 4(8), 109–118. doi: 10.4236/fns.2013.48A014

Kondrat’eva, I.Yu., & Engalychev, M. R. (2013). New variety of vegetable husk tomato cv. Lakomka. Ovoshchi Rossii [Vegetable Crops of Russia], 3, 64–65. doi: 10.18619/2072-9146-2013-3-64-65 [in Russian]

Terokhina, L. A., Ruchkin, O. V., & Rudnytska, T. O. (2011). Innovations for the vegetable industry. Ovočivnictvo i baštannictvo [Vegetables and Melon Growing], 57, 225–231. [in Ukrainian]

Mamedov, M. I., Engalychev, M. R., & Dzhos, E. A. (2017). Morpho-biological properties and biochemical composition of physalis (Physalis pubescens L.) fruits in a temperate climate. Ovoshchi Rossii [Vegetable Crops of Russia.], 2, 76–80. doi: 10.18619/ 2072-9146-2017-2-76-80 [in Russian]

Morongová, M., Mnahončaková, E., Grygorieva, O., & Brindza, J. (2017). Úzitková hodnota machovky peruanskej (Physalis peruviana L.). In Suchasni aspekty zberezhennia zdorovia liudyny: zb. prats X Mizhnar. mizhdystsyplinarnoi nauk.-prakt. konf. [Modern aspects of human health: Coll. works X Int. interdisciplinary scientific-practical. conf.] (pp. 213–215). April 21–22, 2017,Uzhhorod,Ukraine. [in Slovak]

Rop, O., Mlcek, J., Jurikova, T., & Valsikova, M. (2012). Bioactive content and antioxidant capacity of Cape gooseberry fruit. Cent. Eur. J. Biol., 7(4), 672–679. doi: 10.2478/s11535-012-0063-y

Benzel, L. V., Darmohrai, R. Ye., Oliinyk, P. V., & Benzel, I. L. (2010). Likarski roslyny i fitoterapiia (fitoterapevtychna retseptura) [Medicinal plants and phytotherapy (phytotherapeutic formulation)]. Kyiv: VSV “Medytsyna”. [in Ukrainian]

Sposib laboratornoho vypikannia khliba pshenychnoho z fizalisom [Method of laboratory baking of wheat bread with physalis]: Patent of Ukraine No. 121878, MPK A 2/38. No. U 2017 02885; applic. 27.03.17; publ. 26.12.2017, Biul. No. 24. [in Ukrainian]