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Growth and Phenological Development of Introduced Wild Rose (Rosa L.) Species in Volgograd Region

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A.V. Semenyutina, A.S. Solomentseva

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UDС

631.524:582.71

DOI:

10.17238/issn0536-1036.2018.5.105

Abstract

Studying of growth processes and phonological development is essential in theory and practice of plants growing in the conditions of introduction. The study was carried out in Volgograd region in 2008–2016. The climate of the region is arid and extremely continental. It is described by long hot dry sunny summer, long sunny autumn, the lack of atmospheric precipitation, the extreme winter temperature fluctuations which limit growth and development of plants. Plants (8–17 years of age) of different geographical origin were the objects of the study. Among them were R. rugosa, R. cinnamomea, R. beggeriana, R. acicularis, R. ecae, R. pomifera, R. spinosissima, R. canina. We took not less than 25 plants of each species for the research. It was found that the climatic conditions of Volgograd region are favorable for wild roses from North America, Japan, China and Central Asia. In each stage of seasonal development under new environmental conditions they need the same temperatures for normal development as they had in their homeland. All the studied wild roses species bloom and bear fruits profusely in favorable hydrothermal years. Early blooming (the end of April) of Rosa ecae in Volgograd conditions were observed. Its habitat is the mountains of Central Asia. Rosa beggeriana and Rosa cinnamomea are blooming in early May. Rosa acicularis and Rosa pomifera are tardy flowering (the late May, June). The duration of blooming of the species depends on their geographical origin and the weather conditions of the growing season. The most part of wild roses are blooming for 27–45 days. Rosa rugosa blooms from the late June until the freezing temperatures. It is an excellent decorative plant for ground landings. It is found that the phenological stages of wild roses are usually associated with the dynamics of regional thermal resources and seasonal variations of average daily air temperature. The habit of wild roses is formed under drought conditions with a good environmental illumination. The studied species were divided into three groups according to their height: I – from 2 to 3 m; II – from 1 to 2 m; III – up to 1 m. Rosa acicularis is in the II group; Rosa cinnamomea, Rosa beggeriana and Rosa pomifera are in the I group. The most low-growing shrubs are Rosa ecae and Rosa rugosa. They reach up to 0.6 – 0.7 m of height at the age of fifteen growing in light chestnut soils. Wild roses grow very rapidly at a young age, especially in irrigated nursery, under groundbreaking drought conditions of soil and air and intensive illumination.

Authors

A.V. Semenyutina, Doctor of Agricultural Sciences, Professor
A.S. Solomentseva, Junior Research Scientist

Affiliation

Federal Scientific Center for Agroecology, Complex Melioration and Protective Forestation, Russian Academy of Sciences, pr. Universitetskiy, 97, Volgograd, 400062, Russian Federation; 
e-mail: alexis2425@mail.ru

Keywords

wild roses Rosa L., growth, phenological development, forest melioration, greening, introduction, shrubs, environmental factors

For citation

Semenyutina A.V., Solomentseva A.S. Growth and Phenological Development of Introduced Wild Rose (Rosa L.) Species in Volgograd Region. Lesnoy Zhurnal [Forestry Journal], 2018, no. 5, pp. 105–115. DOI: 10.17238/issn0536-1036.2018.5.105

References

1. Agrolesomelioratsiya [Agricultural Forest Melioration]. Ed. By А.L. Ivanov, K.N. Kulik, Volgograd, VNIALMI Publ., 2006. 746 p. (In Russ.) 2. Anuchin N.P. Lesnaya taksatsiya: ucheb. dlya vuzov [Forest Inventory. Textbook for University]. Moscow, Lesnaya promyshlennost’ Publ., 1971. 512 p. (In Russ.)
3. Kosulina L.G., Lutsenko E.K., Aksenova V.A. Fiziologiya ustoychivosti rasteniy k neblagopriyatnym faktoram sredy: ucheb. posobiye [Physiology of Plant Resistance to Adverse Environmental Factors. Educational Textbook]. Rostov-on-Don, Rostov University Publ., 1993. 240 р. (In Russ.)
4. Kruglyak V.V., Semenyutina A.V., Gur’yeva E.I. Modeli arkhitektoniki rekreatsionnykh nasazhdeniy dlya adaptivnykh sistem ozeleneniya [Architectonical Models of Recreational Plantations for Adaptive Systems of Landscaping]. Vestn. VGU. Ser.: Geografiya. Geoekologiya [Proceedings of Voronezh State University. Geography and Geoecology Series], 2017, no. 3, pp. 108–112.
5. Kushnirenko M.D. Fiziologiya vodoobmena i zasukhoustoychivosti plodovykh rasteniy [Physiology of Water Exchange and Drought Resistance of Fruit Plants]. Ed. by P.A. Genkelya, Chisinau, Shtiintsa Publ., 1975. 214 p. (In Russ.) 6. Mazurenko M.T., Khokhryakov A.P. Struktura i morfogenez kustarnikov [Structure and Morphogenesis of Shrubs]. Мoscow, Nauka Publ., 1977. 160 p. (In Russ.)
7. Metodika fenologicheskikh nablyudeniy v Botanicheskikh sadakh SSSR [Methods of Phenological Observations in the Botanical Gardens of the USSR]. Byulleten’ Glavnogo botanicheskogo sada Akademii nauk SSSR [Bulletin of the Main Botanical Garden of the Academy of Sciences of the USSR], 1979, vol. 113, pp. 3–8.
8. Pogoda v Volgograde [Weather in Volgograd].“Weather and Climate”. Website Available at: http://www.pogodaiklimat.ru/ monitor.php?id=34560 (accessed 26.11.2017). 9. Sazhin A.N. Prirodno-klimaticheskiy potentsial Volgogradskoy oblasti: nauchnoye issledovaniye prirodno-klimaticheskikh resursov oblasti za 100-letniy period [Natural and Climatic Potential of Volgograd Region: Scientific Research of Natural and Climatic Recourses of the Region within 100 Years]. Volgograd, Volgograd. s.-kh. in-t Publ., 1993. 28 p. (In Russ.)
10. Semenyutina A.V., Svintsov I.P., Kostyukov S.M. Genofond kustarnikov dlya zelenogo stroitel’stva [The Gene Pool of Shrubs for Green Building]. Мoscow, Nauka Publ., 2016. 238 p. (In Russ.)
11. Semenyutina A.V., Solomentseva A.S. Obosnovaniye assortimenta shipovnikov dlya obogashcheniya lesomeliorativnykh kompleksov v zasushlivykh usloviyakh [Substantiation of Wild Rose Selection for Enrichment of Agroforestry Systems in Drought Conditions]. Izvestiya Nizhnevolzhskogo agrouniversitetskogo kompleksa: nauka i vyssheye professional’noye obrazovaniye [Proceedings of Nizhnevozskskiy Agrouniversity Complex: Science and Higher Professional Education], 2013, no. 3(31), pp. 71–79.
12. Sokolov S.Ya., Svyazeva O.A. Geografiya drevesnykh rasteniy SSSR [Geography of Woody Plants of the USSR]. Moscow, Nauka Publ., 1965. 265 p. (In Russ.)
13. Sokolov S.Ya., Svyazeva O.A., Kubli V.A. i dr. Arealy derev’yev i kustarnikov SSSR: v 3 t. T. 2: Grechishnyye–rozotsvetnyye [The Ranges of Trees and Shrubs of the USSR. In 3 vol. Vol. 2. Polygonaceae – Rosaceae]. Leningrad, Nauka Publ., 1980. 144 p. (In Russ.) 14. Sokolov S.Ya., Svyazeva O.A., Kubli V.A. I dr. Arealy derev’yev i kustarnikov SSSR: v 3 t. T. 3: Bobovyye–zhimolostnyye [The Ranges of Trees and Shrubs of the USSR. In 3 vol. Vol. 2. Leguminosae – Caprifoliaceae]. Leningrad, Nauka Publ., 1986. 182 p. (In Russ.)
15. Takhtadzhyan A.L. Floristicheskiye oblasti Zemli [Floristic Regions of the Earth]. AN SSSR. Botan. in-t im. V.L. Komarova [AS USSR. Botanical Institute named after V.L. Komarov]. Leningrad, Nauka Publ., 1978. 247 p. (In Russ.) 
16. Bruun H.H. Prospects for Biocontrol of Invasive Rosa rugose. BioControl, 2006, vol. 51, pp. 141–181. DOI: 10.1007/s10526-005-6757-6 
17. Bruun H.H., Kelager A., Pedersen J.S. Multiple Introductions and No Loss of Genetic Diversity: Invasion History of Japanese Rose, Rosa rugosa, in Europe. Biological Invasions, 2013, vol. 15, pp. 1125–1141. DOI 10.1007/s10530-012-0356-0 
18. Cuizhi G., Tseue-Chin K., Robertson K.R. Rosa Linnaeus, Sp. Pl.1:491.1753. Flora of China, 2003, vol. 9, pp. 339–381. 
19. Kollmann, J., Frederiksen L., Vestergaard P., Bruun H.H. Limiting Factors for Seedling Emergence and Establishment of the Invasive Non-Native Rosa rugosa in а Coastal Dune System. Biological Invasions, 2007, vol. 9, iss. 1, pp. 31–42. DOI: 10.1007/s10530-006-9003-y
20. Nybom, H. Genetics and Genomics of Rosaceae. Series: Plant Genetics and Genomics: Crops and Models. Vol. 6. Ed. by K.M. Folta, S.E. Gardiner, New York, NY, Springer, 2009. 636 p.
21. Semenyutina A.V., Kostyukov S.М. Bioecological Justification Assortment of Shrubs for Landscaping Urban Landscapes. Montreal, QC, Canada, Accent Graphics Communications, 2013. 164 p.
22. Semenyutina A.V. Podkovyrov I.Y., Huzhahmetova A.Sh., Semenyutina V.A., Podkovyrova G.V. Mathematical Justification of the Selection of Wood Plants Biodiversity in the Reconstruction of Objects of Gardening. International Journal of Pure and Applied Mathematics, 2016, vol. 110, no. 2, pp. 361–368. 
23. Zimmerman H., Ritz C.M., Hirsch H., Renison D., Wesche K., Hensen I. Highly Reduced Genetic Divercity of Rosa rubiginosa L. Populations in the Invasive Range. International Journal of Plants Sciences, 2010, vol. 171 no. 4, pp. 435–446.

Received on April 12, 2018


Growth and Phenological Development of Introduced Wild Rose (Rosa L.) Species in Volgograd Region

 

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