Separation of wavy and polylobate forms of phytoliths of the “crenate” morphotype in Pooideae Benth. species of the south of Western Siberia on the basis of phylogenetic data
Keywords:
grasses, phylogeny, phytoliths, Pooideae, short cells
Abstract
The article deals with the problem of nomenclature and classification of phytoliths. The division of the “crenate” morphotype (ICPN 2.0) into two forms – polylobate and wavy – is substantiated using Pooideae grasses from the south of Western Siberia. An analysis of the literature data confirms the heterogeneity of this morphotype and various interpretations of its variations. The polylobate group includes phytoliths high in lateral projection with distinct lobes, and the wavy group includes flattened forms with a wavy edge. The article details the formation of these two morphotypes in 52 grass species belonging to 25 genera. The main content of the study is an analysis of the occurrence of forms in various tribes and subtribes according to modern information on the phylogeny of cereals. The differences in the formation of these morphotypes at the sectional and subgeneric levels are considered using as examples three genera. The detailed analysis shows that wavy plates are most typical for the subtribe Aveninae(Poeae), polylobed particles are typical for the subtribe Agrostidinae (Poeae) and the tribe Meliceae. For some taxa, for example, the tribe Stipeae, ambiguous data have been obtained that are inconsistent with information from other territories, which indicates the need for further research on this problem. The analysis of occurrence of forms at the intrageneric level shows that in the genera Poa and Festuca there are differences between individual subgenera and sections, while for the genus Calamagrostis there are no such differences. The results obtained point to the prospect of using phylogenetic information in the classification of phytoliths and the need for a more complete study of large genera of grasses in terms of phytolith composition (Festuca, Calamagrostis, Poa, Stipa, etc.).
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References
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Hošková K., Neustupa J., Pokorný P., Pokorná A. 2021. Phylogenetic, ecological and intraindividual variability patterns in grass phytolith shape. Annals of Botany XX: 1–11. DOI: 10.1093/aob/mcab143
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Jattisha P. I., Sabu M. 2015. Foliar phytoliths as an aid to the identification of Paniceae (Panicoideae: Poaceae) grasses in South India. Webbia: Journal of Plant Taxonomy and Geography 70, 1: 115–131. DOI: 10.1080/00837792.2015.1005908
Jattisha P. I., Sabu M. 2012. Phytoliths as a tool for the identification of some Chloridoideae grasses in Kerala. ISRN Botany 2012: 9. DOI: 10.5402/2012/246057
Хохлова О. С., Моргунова Н. Л., Хохлов А. А., Гольева А. А. Изменения климата и растительности за последние 7000 лет в степном Предуралье // Почвоведение, 2018. № 5. С. 538–550.
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Krishnan S., Samson N. P., Ravichandran P., Narasimhan D., Dayanandan P. 2000. Phytoliths of Indian grasses and their potential use in identification. Bot J Linn Soc. 132: 241–252. DOI: 10.1006/bojl.1999.0300
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Лада Н. Ю., Гаврилов Д. А. Анализ фитолитного состава основных растений степных экосистем Западной Сибири // Вестник Томского государственного университета. Биология, 2016. № 2(34). С. 53–68. DOI: 10.17223/19988591/34/4.
Lu H., Liu K.-b. 2003a. Morphological variations of lobate phytoliths from grasses in China and the south-eastern United States. Diversity and Distribution 9(1): 73–87. DOI: 10.1046/j.1472-4642.2003.00166.x
Lu H., Liu K-b. 2003b. Phytoliths of common grasses in the coastal environments of southeastern USA. Estuarine, Coastal and Shelf Science 58(3): 587–600. DOI: 10.1016/S0272-7714(03)00137-9
Madella M., Alexandre A., Ball T. 2005. International Code for Phytolith Nomenclature 1.0. Annals of Botany 96: 253–260. DOI: 10.1201/NOE9058093455.ch1
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Published
2022-12-24
How to Cite
Solomonova M. Y., Speranskaya N. Y., Blinnikov M. S., Zhembrovskaya T. A., Silantyeva M. M. Separation of wavy and polylobate forms of phytoliths of the “crenate” morphotype in Pooideae Benth. species of the south of Western Siberia on the basis of phylogenetic data // Turczaninowia, 2022. Vol. 25, № 4. P. 122-135 DOI: 10.14258/turczaninowia.25.4.13. URL: https://turczaninowia.asu.ru/article/view/12370.
Section
Science articles
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