Distinctive Traits of European Mistletoe (<i>Viscum album</i> spp. <i>austriacum</i>) and Its Impact on Host Tree Wood (<i>Pinus sylvestris</i>)

Distinctive Traits of European Mistletoe (<i>Viscum album</i> spp. <i>austriacum</i>) and Its Impact on Host Tree Wood (<i>Pinus sylvestris</i>)

European mistletoe is a hemi-parasitic plant increasingly infesting forests in Central Europe, causing premature tree death, and is anticipated to expand its range due to global warming. This study aimed to describe the unique anatomical features of mistletoe and examine the morpho-anatomical respon...

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Bibliographic Details
Main Authors: Alicja Dołkin-Lewko, Esra Pulat, Roman Wójcik, Barbaros Yaman, Urszula Zajączkowska, Tomasz Oszako, Mirela Tulik
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Plants
Subjects:
forest dieback
callose
structural dimorphism
parasite–host interaction
wood
Online Access:https://www.mdpi.com/2223-7747/14/10/1489
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Summary:European mistletoe is a hemi-parasitic plant increasingly infesting forests in Central Europe, causing premature tree death, and is anticipated to expand its range due to global warming. This study aimed to describe the unique anatomical features of mistletoe and examine the morpho-anatomical response of pine trees to infestation. Anatomical analyses were conducted on mistletoe internodes and the branch wood of affected pines. The findings revealed that mistletoe infestation triggers callose deposition in the cell walls of pine tracheids, a defense mechanism that restricts water flow to the mistletoe. Unique structural features of mistletoe were also identified, including structural dimorphism with the inner system forming only vessels and parenchyma cells, in contrast to the outer system, composed of protective, ground, and conductive tissues, and which displays an uneven distribution of chlorophyll and starch grains along the plant axis. Additionally, starch and chlorophyll were present in the parenchyma cells of the haustorium. Starch presence there may potentially enable internal photosynthesis, and the compounds formed after starch hydrolysis may facilitate water uptake from the host’s xylem sap. These results provide new insights into the anatomical adaptations of mistletoe and the defensive responses of pine trees, contributing to a deeper understanding of host–parasite interactions in forest ecosystems.
ISSN:2223-7747

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