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Ecological and trophic determination of the ontogenesis in vitro plants of the genus Betula

Larysa Filipova

Larysa Filipova

Bila Tserkva National Agrarian UniversityBila Tserkva, Ukraine
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Filipova, Larysa
, 
Vyacheslav Matskevych

Vyacheslav Matskevych

Bila Tserkva National Agrarian UniversityBila Tserkva, Ukraine
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Matskevych, Vyacheslav
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Małgorzata Sułkowska

Małgorzata Sułkowska

Forest Research Institute, Department of Silviculture and Genetics of Forest TreesRaszyn, Poland
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Sułkowska, Małgorzata
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Vasyl Yukhnovskyi

Vasyl Yukhnovskyi

National University of Life and Environmental Sciences of UkraineKyiv, Ukraine
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Yukhnovskyi, Vasyl
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Olga Tupchii

Olga Tupchii

National University of Life and Environmental Sciences of UkraineKyiv, Ukraine
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Tupchii, Olga
  
14 sept. 2025
Ecological and trophic determination of the ontogenesis in vitro plants of the genus Betula's Cover Image
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Catégorie d'article: Original Article
Publié en ligne: 14 sept. 2025
Pages: 150 - 167
Reçu: 06 févr. 2025
Accepté: 17 juin 2025
DOI: https://doi.org/10.2478/ffp-2025-0013
Mots clés
© 2025 Larysa Filipova et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Figure 1.

Collection of mother plants (depository)
Collection of mother plants (depository)

Figure 2.

Cultivation of birch plants in vitro in culture containers with a volume of 200 ml on light racks
Cultivation of birch plants in vitro in culture containers with a volume of 200 ml on light racks

Figure 3.

Sterilization of instruments
Sterilization of instruments

Figure 4.

Concentration of salts in nutrient media
Concentration of salts in nutrient media

Figure 5.

Condition of explants at the fifth passage on MS medium, variety Jacquemontii
Condition of explants at the fifth passage on MS medium, variety Jacquemontii

Figure 6.

State of explants at the fifth passage on medium MS1/2, variety Jacquemontii
State of explants at the fifth passage on medium MS1/2, variety Jacquemontii

Figure 7.

Development of birch regenerants under unfavourable nutrient medium acidity: pH 5.1, variety Royal Frost; pH 6.0, variety Jacquemontii
Development of birch regenerants under unfavourable nutrient medium acidity: pH 5.1, variety Royal Frost; pH 6.0, variety Jacquemontii

Figure 8.

Development of birch regenerants at pH 5.5 nutrient medium acidity, varieties Jacquemontii (green in the centre) and Royal Frost (with burgundy colour)
Development of birch regenerants at pH 5.5 nutrient medium acidity, varieties Jacquemontii (green in the centre) and Royal Frost (with burgundy colour)

Figure 9.

Symptoms of excess sulphur in the nutrient medium, Royal Frost variety
Symptoms of excess sulphur in the nutrient medium, Royal Frost variety

Figure 10.

Visual signs of deficiency caused by excess sulphur in the nutrient medium, variety Jacquemontii
Visual signs of deficiency caused by excess sulphur in the nutrient medium, variety Jacquemontii

Figure 11.

Condition of birch plants before (1, 2) and after feeding (3, 4), where 1, 3 – Royal Frost variety; 2, 4 – Jacquemontii variety
Condition of birch plants before (1, 2) and after feeding (3, 4), where 1, 3 – Royal Frost variety; 2, 4 – Jacquemontii variety

Figure 12.

Post-aseptic cutting the top, variety Royal Frost: 1 – a plant transplanted from in vitro on 22 January 2024, from which the top was separated for rooting on 7 February 2024; 2 – two new shoots grow in the decapitation zone
Post-aseptic cutting the top, variety Royal Frost: 1 – a plant transplanted from in vitro on 22 January 2024, from which the top was separated for rooting on 7 February 2024; 2 – two new shoots grow in the decapitation zone

The influence of cultivation conditions on the adaptation of birch plants in vitro on the 14th and 30th days of cultivation

Adaptation conditions Basis of the substrate Shoot height, cm Root length, cm
Royal Frost Jacquemontii Royal Frost Jacquemontii
14th day of cultivation
Wet chamber peat 8.8±0.60 7.3±0.55 3.2±0.41 3.0±0.30
perlite 9.7±0.72 7.8±0.62 3.6±0.49 3.0±0.42
Bioreactor peat 20.1±1.91 17.6±1.31 19.3±1.65 13.4±1.17
perlite 23.1±2.10 18.4±1.76 20.6±1.72 15.7±1.22
30th day of cultivation
Wet chamber peat 15.3±1.13 11.7±0.81 7.7±0.51 6.4±0.30
perlite 16.1±1.33 12.9±1.15 12.6±1.12 9.8±0.72
Bioreactor peat 39.6±2.31 32.1±2.32 29.7±2.33 23.3±1.93
perlite 45.4±3.48 33.7±2.64 33.0±2.84 27.6±2.44

The influence of the age of donor plants on the features of decontamination and morphogenesis of primary birch explants in the MS medium

Index Variety Age, years
1 3 7
Decontamination efficiency, % royal frost 31.4±4.09 23.2±3.11 14.1±2.07
jacquemontii 19.5±1.99 11.4±2.01 7.4±1.86
Morphogenesis of explants, % royal frost 11.9±2.02 9.0±1.98 6.1±2.02
jacquemontii 6.3±0.98 5.1±0.88 3.3±1.07

Influence of growing conditions of annual donor plants on features of decontamination and morphogenesis of primary birch explants in the MS medium

Index Variety Field conditions Depository
Decontamination efficiency, % royal frost 30.4±4.01 47.7±5.13
jacquemontii 21.2±3.12 39.5±4.32
Morphogenesis of explants, % royal frost 10.2±2.08 23.3±3.22
jacquemontii 7.1±0.89 17.2±3.06

Dynamics of morphogenesis of birch explants on different media

Index Variety Media
MS MS1/2
age, years
1 5 1 5 7
Decontamination efficiency, % royal frost 2.1±0.21 1.3±0.08 2.2±0.30 1.7±0.11 1.5±0.09
jacquemontii 1.6±0.10 1.1± 0.06 1.7±0.11 1.5±0.08 1.5±0.10
Morphogenesis of explants, % royal frost 39.5±3.09 12.1± 1.41 47±3.20 41.4±2.91 36.5±2.73
jacquemontii 33.2±2.82 11.0± 1.22 38±2.73 32.6±2.43 27.5±2.64

The influence of combinations of nutrient media on shoot formation in birch regenerants during long-term cultivation

Option Index
height of a shoot, mm number of nodes, pcs.
...WPM–WPM... ...MS1/2–WPM... ...WPM–WPM... ... MS1/2–WPM...
Variety Royal Frost 36.3±2.21 75.5±3.84 4.1±1.59 9.1±1.99
Variety Jacquemontii 29.4±1.98 65.2±3.32 3.3±1.42 7.4±2.43

Biometric indicators of birch regenerants on different nutrient media

Index Cutting Medium
MS MS1/2 DKW QL WPM
Royal Frost
The number of microshoots in the conglomerate, pcs first 2.0±0.21 2.2±0.17 1.9±0.14 1.8±0.21 3.9±0.10
fifth 1.3±0.18 1.7±0.31 1.8±0.30 1.8±0.33 4.1±0.22
Height of regenerants, mm first 36.2±3.3 47.4±4.2 44.4±5.12 32.0±0.29 63.8±4.1
fifth 31.1±2.90 41.1± 4.3 32.8±3.42 28.4±3.1 61.6±4.4
The number of internodes in the main shoot of regenerates, pcs first 2.4±0.21 2.9±0.11 2.7±0.40 2.3±0.22 3.6±0.10
fifth 1.7±0.18 2.3±0.16 1.3±0.31 2.1±0.19 3.5±0.08
Jacquemontii
The number of microshoots in the conglomerate, pcs first 1.4±0.22 1.7±0.19 2.0±0.11 2.2±0.21 3.7±0.29
fifth 1.1±0.28 1.5±0.30 1.6±0.21 1.7±0.27 3.6±0.20
Height of regenerants, mm first 32.3±3.1 38.6±5.5 41.2±3.3 30.4±3.1 59.9±3.6
fifth 21.2±2.4 32.6±4.8 27.7±2.4 25.3±2.2 62.8±3.4
The number of internodes in the main shoot of regenerates, pcs first 2.1±0.16 2.6±0.24 2.2±0.13 1.9±0.21 3.3±0.20
fifth 1.3±0.15 1.8±0.19 1.1±0.15 1.8±0.22 3.4±0.18

The influence of combinations of nutrient media on the features of rhizogenesis of birch regenerants during long-term cultivation

Option Index
the length of the root system, mm number of roots, pcs.
...WPM–WPM... ...MS1/2–WPM... ...WPM–WPM... ...MS1/2–WPM...
Variety Royal Frost 36±3 69±4 2±1 7±2
Variety Jacquemontii 11±3 37±3 5±2 14±2

Influence of the origin of primary bud explants on the features of decontamination and morphogenesis

Index Variety Bud
apical medial basal
Decontamination efficiency, % royal frost 49.8±5.46 56.7±6.32 13.5±3.98
jacquemontii 38.3±4.05 48.5±5.23 9.1±2.86
Morphogenesis of explants, % royal frost 20.3±3.11 31.3±4.21 6.4±1.88
jacquemontii 16.6±3.16 27.6±3.09 3.21±2.01

Decontamination and morphogenesis of primary birch explants with various antiseptics

Index Variety NaClO AgNO3 C2H5OH Blanidas 300
Decontamination efficiency, % royal frost 56±6 78±5
jacquemontii 48±5 69±5
Morphogenesis of explants, % royal frost 31±4 54±3
jacquemontii 27±3 51±3
Langue:
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Sciences de la vie, Sciences végétales, Médecine, Médecine vétérinaire
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