Adaptive Morphophysiological Features of Neottia ovata (Orchidaceae) Contributing to Its Natural Colonization on Fly Ash Deposits

Olga Sinenko,Margarita Glazyrina,Galina Borisova,Natalia Lukina,Elena Filimonova,Maria Maleva,Nadezhda Chukina

doi:10.3390/horticulturae7050109

Olga Sinenko, Margarita Glazyrina + Show 5 more

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https://doi.org/10.3390/horticulturae7050109

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Journal: Horticulturae	Publication Date: May 11, 2021
Citations: 8	License type: CC BY 4.0

Affiliation: Ural Federal University

Abstract

In previous decades, some species of the Orchidaceae family have been found growing in man-made habitats. Neottia ovata is one of the most widespread orchids in Europe, however it is quite rare in Russia and is included in several regional Red Data Books. The purpose of this study was to compare the chemical composition and morphophysiological parameters of N. ovata from two forest communities of the Middle Urals, Russia: natural and transformed (fly ash dump of Verkhnetagil’skaya Thermal Power Station) for determining orchid adaptive features. The content of most of the studied metals in the underground parts (rhizome + roots) of N. ovata was considerably higher than in the leaves, which diminished the harmful effect of toxic metals on the aboveground organs. The adaptive changes in the leaf mesostructure of N. ovata such as an increase in epidermis thickness, the number of chloroplasts in the cell, and the internal assimilating surface were found for the first time. The orchids from the fly ash deposits were characterized by a higher content of chlorophyll b and carotenoids than plants from the natural forest community that evidenced the compensatory response on the decrease in chlorophyll a. The ability of N. ovata from the transformed habitat to maintain a relatively favorable water balance and stable assimilation indexes further contribute to its high viability. The study of orchid adaptive responses to unfavorable factors is necessary for their successful naturalization and introduction into a new environment.

Highlights

The Orchidaceae family has a broad variety of more than 28,000 species distributed in about 763 genera and widespread from the Arctic tundra to tropical Brazilian rainforests [1,2]
The present study aims to identify the adaptive responses of the rare orchid N. ovata that contribute to natural colonization under the adverse conditions of a fly ash deposits
The present study revealed those adaptive structural and functional features of Neottia ovata that contribute to its survival strategies in a transformed habitat

Summary

Introduction

The Orchidaceae family has a broad variety of more than 28,000 species distributed in about 763 genera and widespread from the Arctic tundra to tropical Brazilian rainforests [1,2]. It includes species with complex adaptations to pollination by specific insect. Horticulturae 2021, 7, 109 species and very different life strategies: from epiphytic to terrestrial, from evergreen to completely chlorophyll-free [3,4]. The physiological parameters of Orchidaceae species are still less studied and need much more attention [16]. Changing natural habitats have caused the extinction of many orchid species [17]. Some orchids, especially in temperate regions of Europe and North America, have been found in anthropogenically disturbed territories, such as industrial dumps formed after the excavation and extraction of coal, iron, and some trace elements, and the fly ash dumps of thermal power plants [13,14,18,19,20,21]

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