Concentration of Nutrients in Individual Organs of European Beech (Fagus sylvatica L.) Seedlings and Root System Development as a Result of Different Fertilization

The large-scale dieback of spruce monocultures, especially in the lower alpine, has become a significant problem and has necessitated the restoration of these areas, mainly using seedlings produced in forest nurseries. The primary source of nutrients for seedlings can be slow-release fertilizers and...

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Bibliographic Details
Published in:Forests 2024-11, Vol.15 (11), p.2016
Main Authors: Jasik, Michał, Staszel-Szlachta, Karolina, Małek, Stanisław, Banach, Jacek
Format: Article
Language:English
Subjects:
Accumulation
Beech
Biogeochemistry
Dieback
Environmental conditions
Environmental impact
Environmental restoration
Experiments
Fertilization
Fertilizers
Forests
Leaves
Mineral fertilizers
Monoculture
Morphology
Nitrates
Nitrogen
Nutrients
Nutritional status
Phosphorus
Physiology
Potassium
Precipitation
Roots
Seedlings
Shoots
Slow release fertilizers
Trees
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Summary:The large-scale dieback of spruce monocultures, especially in the lower alpine, has become a significant problem and has necessitated the restoration of these areas, mainly using seedlings produced in forest nurseries. The primary source of nutrients for seedlings can be slow-release fertilizers and an appropriate dose of fertilizer improves the efficiency of its use and minimizes the negative environmental impact associated with the excessive use of mineral fertilizers. Aims: This study aimed to evaluate the effect of applying different fertilizer dose combinations on the accumulation of macronutrients in different parts of the seedlings (roots, shoots, and leaves) and on the morphology and development of fine roots. Methods: This research was carried out on producing beech seedlings with the application of starter soil fertilization with Yara Mila Complex (YMC) and Osmocote Exact Standard 3-4M (OES) fertilizers in four varying doses. Results: No deficiency of the analyzed macronutrients was noted in any of the tested fertilization variants. The highest content of all analyzed macronutrients was recorded in the leaves of beech seedlings, with values in roots and shoots being several times lower. The mixed fertilization variant OES 1.0 + YMC 1.0 shows a positive correlation with all analyzed elements and the parameters DQI (Dickson Quality Index), SA (Surface Area), RV (Root Volume), and mass. Conclusions: Results confirm the hypothesis that applying a mixture of fast-acting (YMC) and slow-acting (OES) fertilizer positively affects the nutrition and accumulation of macronutrients and the development of root systems in beech seedlings compared to fertilization with a single fertilizer.
ISSN:1999-4907
1999-4907
DOI:10.3390/f15112016