Victoria Batrakova’s scientific contributions

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Publications (1)

Table 1 . Stomatal density and stomata size of leaf abaxial surfaces of F. ananassa plantlets under MC after 8 wk of culture
Fig. Leaf blade anatomy characteristics of F. ananassa plantlets after 8 wk of culture ('Alpha'): a) stomata on hormone-free B 5 medium; b) stomata on medium supplemented with 5 mg L-1 MC; c) transverse section of leaf blade on hormone-free B 5 medium; d) transverse section of leaf blade on medium supplemented with 10 mg L-1 MC.
Effect of a biogenic silica and green-teaflavonoids-based mechanocomposite on Fragaria × ananassa Duch. leaf anatomy in in vitro conditions
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January 2018

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285 Reads

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2 Citations

BIO Web of Conferences

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Victoria Batrakova

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Alexander Krasnikov

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For the first time light and scanning electron microscopy have been to reveal changes in the anatomical structure of leaf blades of Fragaria × ananassa Duch. regenerants cultivated in nutrient media supplemented with biogenic silica and green-tea-flavonoids-based mechanocomposite. An increase in the density of stomata per unit area of the leaf, size of the stomatal gaps, thickness of the epidermis and mesophyll have been noted. The revealed changes in the leaf blade structure under mechanocomposite treatment contribute to the further successful acclimatization of regenerants to ex vitro conditions.

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Citations (1)

... Recently, MC has been shown to increase in vitro plant growth and the photosynthetic capacity of chickpea and strawberry plantlets, and positively affects the anatomical and morphological parameters of the leaves of strawberry plantlets (Rozhanskaya et al. 2016;Ambros et al. 2018a;Ambros et al. 2019). Moreover, MC treatments contributed to successful acclimatization of strawberry regenerants to ex vitro conditions (Ambros et al. 2015(Ambros et al. , 2018b. ...

Reference:

Silicon chelates from plant waste promote in vitro shoot production and physiological changes in strawberry plantlets
Effect of a biogenic silica and green-teaflavonoids-based mechanocomposite on Fragaria × ananassa Duch. leaf anatomy in in vitro conditions

BIO Web of Conferences

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Victoria Batrakova

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Alexander Krasnikov

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[...]

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