+7 (499) 754-99-94
Журналов:     Статей:        
Главная Статья в Elpub
РУСENG

Вестник Томского государственного университета. Биология. 2017; : 58-72

Морфотипическое разнообразие в популяциях Populus nigra L., P. laurifolia Ledeb. и P. x jrtyschensis Ch. Y. Yang. в зоне естественной гибридизации

Климов А. В., Прошкин Б. В.

https://doi.org/10.17223/19988591/39/4

Аннотация

Проведены исследования фенетической дифференциации популяций в зоне гибридизации P. nigra, P. laurifolia и P. х jrtyschensis. На основе анализа изменчивости качественных признаков побега и листа, отвечающих критериям «фена», в одновидовых и гибридных популяциях тополя в бассейне р. Томи выявлены характерные морфотипы для P. nigra, P. laurifolia и P. х jrtyschensis в количестве 2, 3 и 3 соответственно. В изученных популяциях родительских видов и гибридов присутствуют все выделенные морфотипы в разном соотношении, но всегда преобладает один. Выявлен не типичный для P. nigra морфотип с опушением черешка и основания листовой пластинки, возникший, вероятно, вследствие интрогрессии. Установлено, что среди гибридов во всех изученных популяциях преобладают особи с промежуточными качественными признаками листа. С учетом дифференциации побегов кроны гибриды уклоняются к P. laurifolia. Морфотипы упростят идентификацию чистых видов и гибридов и отбор ценных форм в зоне естественной гибридизации.
Список литературы

1. Eckenwalder J.E. Systematics and evolution in Populus // Biology of Populus and its implications for management and conservation / eds. by R. Stettler, H. Bradshaw Jr, P. Heilman and T. Hinckley. NRC Research Press, National Research Council of Canada. 1996. Ch. 1. PP. 7-32.

2. Vanden Broeck A., Villar M., Van Bockstaele E., Van Slycken J. Natural hybridization between cultivated poplars and their wild relatives: evidence and consequences for native poplar populations // Annals of Forest Science. 2005. № 62. PP. 601-613.

3. Wang Z.S., Du S.H., Dayanandan S., Wang D.S., Zeng Y.F., Zhang J.G. Phylogeny reconstruction and hybrid analysis of Populus (Salicaceae) based on nucleotide sequences of multiple single-copy nuclear genes and plastid fragments // PLoS ONE. 2014. Vol. 9: e103645. doi: 10.1371/journal.pone.0103645

4. Du S.H., Wang Z.S., Ingvarsson P.K., Wang D.S., Wang J.H., Wu Z.Q. Multilocus analysis of nucleotide variation and speciation in three closely related Populus (Salicaceae) species // Molecular Ecology. 2015. № 24. PP. 4994-5005.

5. Liu X., Wang Z., Shao W., Ye Z., Zhang J. Phylogenetic and Taxonomic Status Analyses of the Abaso Section from Multiple Nuclear Genes and Plastid Fragments Reveal New Insights into the North America Origin of Populus (Salicaceae) // Frontier Plant Science. 2017. doi: 10.3389/fpls.2016.02022

6. Floate K.D. Extent and patterns of hybridization among the three species of Populus that constitute the riparian forest of southern Alberta, Canada // Canadian Journal of Botany. 2004. Vol. 82. PP. 253-264.

7. Zsuffa L. Some problems of hybrid poplar selection and management in Ontario // The Forestry Chronicle. 1975. № 51. PP. 240-242.

8. Бессчетнов П.П. Роль интрогрессивной гибридизации в образовании новых видов тополей // Труды института экологии растений и животных (УНЦ АН СССР). 1975. Вып. 91. С. 3-9.

9. Isebrands J.G., Richardson J. Poplars and willows: trees for society and the environment / ed. by J.G. Isebrands and J. Richardson. Published jointly by CAB International and FAO Food and Agriculture Organization of the United Nations (FAO) Viale delle Terme di Caracalla, 2014. PP. 30-39.

10. Климов А.В., Прошкин Б.В. Морфологическая идентификация естественных гибридов P. nigra х P. laurifolia в пойме реки Томи // Сибирский лесной журнал. 2016. № 5. С. 55-62.

11. Cheng-fu F., Shi-dong Z., Skvortsov A. Salicaceae // Flora of China. 1999. № 4. P. 139-274.

12. Jiang D., Feng J., Dong M., Wu G., Mao K., Liu J. Genetic origin and composition of a natural hybrid poplar Populus x jrtyschensis from two distantly related species // BMC Plant Biology. 2016. 16:89. doi: 10.1186/s12870-016-0776-6

13. Yang C.Y., Shen K.M., Mao Z.M. Populus L. Flora Xinjianggensis Tomus 1, vol. 2. Urumqi : Technology & Hygiene Publishing House, 1992. PP. 122-158.

14. Климов А.В., Прошкин Б.В., Тараканов В.В. Гибриды сибирских тополей: перспективы исследований // Сохранение лесных генетических ресурсов Сибири : материалы 4-го Международного совещания, 24-29 августа. Барнаул, 2015. С. 85-86.

15. Видякин А.И. Методические основы выделения фенов лесных древесных растений (на примере сосны обыкновенной Pinus sylvestris L.) // Новые научные методики и информационные технологии. Сыктывкар : Коми научный центр УрО РАН, 2010. Вып. 65. 28 с.

16. Тараканов В.В., Кальченко Л.И. Фенетический анализ клоновых и естественных популяций сосны в Алтайском крае. Новосибирск : Гео, 2015. 107 с.

17. Животовский Л.А. Популяционная биометрия. М. : Наука, 1991. 271 с.

18. Siler B., Skoric M., Misic D., Kovacevic B., Jelic M., Patenkovic A., Kurbalija Novicic Z. Variability of European Black Poplar (Populus nigra) in the Danube Basin. Novi Sad : Vojvodinasume, 2014. 128 p.

19. Janjic N. Prilog poznavanju svojti crne topole (P. nigra L.) u Bosni i Hercegovini // Glasnik Zemaljskog muzeja BiH u Sarajevu. 1984. PP. 255-278.

20. Ballian D., Kajba D., Idzojtic M. Morphological diversity of hairy European black poplar (Populus nigra subsp. caudina) // Bulletin Faculty of Forestry. 2006. № 5. PP. 13-22.

21. Kajba D., Ballian D., Idzojtic M. Leaf Morphology Variation of Populus nigra L. in Natural Populations along the Rivers in Croatia and Bosnia and Herzegovina // South-east European Forestry. 2015. № 6. PP. 39-51.

Tomsk State University Journal of Biology. 2017; : 58-72

Morphotypic diversity in populations of Populus nigra L., P. laurifolia Ledeb. and P. x jrtyschensis Ch. Y. Yang. in the zone of natural hybridization

Klimov A. V., Proshkin B. V.

https://doi.org/10.17223/19988591/39/4

Abstract

Natural interspecific hybridization provides extensive opportunities for the selection of valuable forms and serves as a base for the selection of forest tree species. The purpose of this study was to investigate the polymorphism of qualitative characteristics and the isolation, on their basis, of morphotypes in P. nigra, P. laurifolia and their spontaneous hybrid P. x jrtyschensis. The knowledge of morphotypes will simplify identification of pure species and hybrids and selection of valuable forms in the zone of natural hybridization of the Tom River basin. The Tom is the right tributary of the Ob river (estuary: height 68 m, coordinates: 56°50'00''N; 84°29'20''E). It originates in the south of the Kuznetsk Alatau in the area of its articulation with the Abakan ridge (source: height 903 m, 53°39'05"N; 89°45'50"E). The river basin is located on the border of the West Siberian Plain and the Altai-Sayan mountainous country, in temperate latitudes. For the upper and middle reaches of the Tom River, the flood plain multi-face is typical. The river branches, forming islands occupied by poplar forests. Morphotypic diversity was studied in 432 individuals from 15 populations of P. nigra, P. laurifolia and P. х jrtyschensis. Populations of P. х jrtyschensis in the Tom River basin are confined to disturbed habitats, whose occurrence is associated with the dynamics of channel processes, or with human economic activity in the floodplain. We carried out these studies using a comparative morphological method. Each complex studied the set of qualitative characteristics: the shape of the surface of elongated shoots, the types of truncated shoots of the crown, the pubescence of the shortened shoot, the leaf petiole, the underside and the edge of the leaf blade, on the basis of which the morphotypes were isolated. Qualitative characteristics were selected in such a way that they met the criteria of "fen": 1) discreteness - alternative; 2) genetic conditioning. Study of the shape of the surface of elongated shoots of the examined species showed that in P. nigra they are always cylindrical, and P. laurifolia is ribbed. In hybrids, there are shoots typical of parent species, but the intermediate ones with ribbing in the upper part predominate, which disappears down to the base. All the P. х jrtyschensis specimens studied, even with the external similarity of P. nigra leaf blade, always show shortened rosette shoots characteristic of P. laurifolia. In parent species and hybrids, the nature of pubescence and trichome length varies, although the latter are always hiding, unicellular, simple hairs. In general, the pubescence is not typical of P. nigra. However, in populations of the Tom River in the foci of hybridization, individuals with developed pubescence are found. In P. laurifolia shoots and leaves are of different pubescence degree. Among the individuals of P. х jrtyschensis, plants with developed pubescence also predominate. The studied qualitative characteristics of shoots and leaves are only found in certain combinations, which form a series of morphotypes. Morphotypes for P. nigra, P. laurifolia and P. х jrtyschensis in 2, 3 and 3, respectively, were detected in single-species and hybrid populations. They are found in all studied populations, in different ratios, but one morphotype always prevails. In P. х jrtyschensis populations, most individuals have intermediate qualitative characteristics of the leaf. Given the differentiation of shoots, an asymmetry towards P. laurifolia is observed for the crowns of hybrids. The presence of a morphotype not typical of P. nigra with pubescent petiole and the base of the leaf blade is explained by introgression. The article contains 5 Figures, 2 Tables, 21 References.
References

1. Eckenwalder J.E. Systematics and evolution in Populus // Biology of Populus and its implications for management and conservation / eds. by R. Stettler, H. Bradshaw Jr, P. Heilman and T. Hinckley. NRC Research Press, National Research Council of Canada. 1996. Ch. 1. PP. 7-32.

2. Vanden Broeck A., Villar M., Van Bockstaele E., Van Slycken J. Natural hybridization between cultivated poplars and their wild relatives: evidence and consequences for native poplar populations // Annals of Forest Science. 2005. № 62. PP. 601-613.

3. Wang Z.S., Du S.H., Dayanandan S., Wang D.S., Zeng Y.F., Zhang J.G. Phylogeny reconstruction and hybrid analysis of Populus (Salicaceae) based on nucleotide sequences of multiple single-copy nuclear genes and plastid fragments // PLoS ONE. 2014. Vol. 9: e103645. doi: 10.1371/journal.pone.0103645

4. Du S.H., Wang Z.S., Ingvarsson P.K., Wang D.S., Wang J.H., Wu Z.Q. Multilocus analysis of nucleotide variation and speciation in three closely related Populus (Salicaceae) species // Molecular Ecology. 2015. № 24. PP. 4994-5005.

5. Liu X., Wang Z., Shao W., Ye Z., Zhang J. Phylogenetic and Taxonomic Status Analyses of the Abaso Section from Multiple Nuclear Genes and Plastid Fragments Reveal New Insights into the North America Origin of Populus (Salicaceae) // Frontier Plant Science. 2017. doi: 10.3389/fpls.2016.02022

6. Floate K.D. Extent and patterns of hybridization among the three species of Populus that constitute the riparian forest of southern Alberta, Canada // Canadian Journal of Botany. 2004. Vol. 82. PP. 253-264.

7. Zsuffa L. Some problems of hybrid poplar selection and management in Ontario // The Forestry Chronicle. 1975. № 51. PP. 240-242.

8. Besschetnov P.P. Rol' introgressivnoi gibridizatsii v obrazovanii novykh vidov topolei // Trudy instituta ekologii rastenii i zhivotnykh (UNTs AN SSSR). 1975. Vyp. 91. S. 3-9.

9. Isebrands J.G., Richardson J. Poplars and willows: trees for society and the environment / ed. by J.G. Isebrands and J. Richardson. Published jointly by CAB International and FAO Food and Agriculture Organization of the United Nations (FAO) Viale delle Terme di Caracalla, 2014. PP. 30-39.

10. Klimov A.V., Proshkin B.V. Morfologicheskaya identifikatsiya estestvennykh gibridov P. nigra kh P. laurifolia v poime reki Tomi // Sibirskii lesnoi zhurnal. 2016. № 5. S. 55-62.

11. Cheng-fu F., Shi-dong Z., Skvortsov A. Salicaceae // Flora of China. 1999. № 4. P. 139-274.

12. Jiang D., Feng J., Dong M., Wu G., Mao K., Liu J. Genetic origin and composition of a natural hybrid poplar Populus x jrtyschensis from two distantly related species // BMC Plant Biology. 2016. 16:89. doi: 10.1186/s12870-016-0776-6

13. Yang C.Y., Shen K.M., Mao Z.M. Populus L. Flora Xinjianggensis Tomus 1, vol. 2. Urumqi : Technology & Hygiene Publishing House, 1992. PP. 122-158.

14. Klimov A.V., Proshkin B.V., Tarakanov V.V. Gibridy sibirskikh topolei: perspektivy issledovanii // Sokhranenie lesnykh geneticheskikh resursov Sibiri : materialy 4-go Mezhdunarodnogo soveshchaniya, 24-29 avgusta. Barnaul, 2015. S. 85-86.

15. Vidyakin A.I. Metodicheskie osnovy vydeleniya fenov lesnykh drevesnykh rastenii (na primere sosny obyknovennoi Pinus sylvestris L.) // Novye nauchnye metodiki i informatsionnye tekhnologii. Syktyvkar : Komi nauchnyi tsentr UrO RAN, 2010. Vyp. 65. 28 s.

16. Tarakanov V.V., Kal'chenko L.I. Feneticheskii analiz klonovykh i estestvennykh populyatsii sosny v Altaiskom krae. Novosibirsk : Geo, 2015. 107 s.

17. Zhivotovskii L.A. Populyatsionnaya biometriya. M. : Nauka, 1991. 271 s.

18. Siler B., Skoric M., Misic D., Kovacevic B., Jelic M., Patenkovic A., Kurbalija Novicic Z. Variability of European Black Poplar (Populus nigra) in the Danube Basin. Novi Sad : Vojvodinasume, 2014. 128 p.

19. Janjic N. Prilog poznavanju svojti crne topole (P. nigra L.) u Bosni i Hercegovini // Glasnik Zemaljskog muzeja BiH u Sarajevu. 1984. PP. 255-278.

20. Ballian D., Kajba D., Idzojtic M. Morphological diversity of hairy European black poplar (Populus nigra subsp. caudina) // Bulletin Faculty of Forestry. 2006. № 5. PP. 13-22.

21. Kajba D., Ballian D., Idzojtic M. Leaf Morphology Variation of Populus nigra L. in Natural Populations along the Rivers in Croatia and Bosnia and Herzegovina // South-east European Forestry. 2015. № 6. PP. 39-51.

Презентация платформыСкачать
Календарь образовательной программыПодробнее

События

Смотреть все новости >>>
Почему сайт важен для научного журнала Подробнее

EasyCookieInfo

115114, Москва, ул. Летниковская, д. 4, стр. 5,
офис 2.4, тел.\факс: +7 (499) 754-99-93

Политика обработки персональных данных

© 2013 - 2025 Elpub