Phytoliths from some grasses (Poaceae) in arid lands of Xinjiang, China

Opal phytoliths, as silicon dioxide inclusions, are abundant in different parts of a plant. It is known that grasses are the most representative in this respect. The research of phytoliths, removed from 25 most common grass species in the arid and semiarid lands of the Junggar Basin and adjacent are...

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Bibliographic Details
Published in:Acta Biologica Sibirica
Main Authors: Marina V. Olonova, Polina D. Gudkova, Valeria D. Shiposha, Elizaveta A. Kriuchkova, Natalia S. Mezina, Mikhail Blinnikov
Format: Article in Journal/Newspaper
Language:English
Published: Altai State University 2021
Subjects:
Central Asia
deserts
plant anatomy
silicon diox
Biology (General)
QH301-705.5
Sibirica
Online Access:https://doi.org/10.3897/abs.7.e76105
https://doaj.org/article/d3c69257585b4649a9d1dff65a1dfac7
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Summary:Opal phytoliths, as silicon dioxide inclusions, are abundant in different parts of a plant. It is known that grasses are the most representative in this respect. The research of phytoliths, removed from 25 most common grass species in the arid and semiarid lands of the Junggar Basin and adjacent areas, has been undertaken. The visual estimation of diversity and variability of silica cells and identification of their morphological types (patterns) were also the aim of our research. Since the work is preliminary, we have emphasized on the visual estimation of silica cell variability and involved only the leaf blades in the analysis. Drawings of the revealed silica cells, characteristic of 25 species, are provided. The sig-nificant morphological diversity of phytoliths has been revealed, as well as their taxonomic similarity at the level of subfamilies. These data can be used for the identification of phytoliths from sediments.

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