Ontogenetic variation in chemical and physical characteristics of adaxial apple leaf surfaces

The chemical composition of cuticular waxes, the micromorphology and the hydrophobicity of the adaxial side of apple leaves were examined during ontogenesis of apple plantlets grown under controlled environmental conditions. For the first time, α-tocopherol was detected in the epicuticular wax layer...

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Bibliographic Details
Published in:Phytochemistry (Oxford) 2006, Vol.67 (2), p.161-170
Main Authors: Bringe, Katja, Schumacher, Christina F.A., Schmitz-Eiberger, Michaela, Steiner, Ulrike, Oerke, Erich-Christian
Format: Article
Language:English
Subjects:
alpha-tocopherol
alpha-Tocopherol - chemistry
apples
Biological and medical sciences
Chemical composition
Chemical constitution
epicuticular wax
fruit crops
Fundamental and applied biological sciences. Psychology
Hydrophobicity
Leaf
leaf development
leaves
Malus - chemistry
Malus - growth & development
Malus domestica
Micromorphology
physicochemical properties
Plant Leaves - chemistry
Plant Leaves - growth & development
Plant physiology and development
Rosaceae
Surface Properties
Surface wax
Tocopherol
Waxes - chemistry
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Summary:The chemical composition of cuticular waxes, the micromorphology and the hydrophobicity of the adaxial side of apple leaves were examined during ontogenesis of apple plantlets grown under controlled environmental conditions. For the first time, α-tocopherol was detected in the epicuticular wax layer of apple leaves. The reaction of plants to environmental factors often varies with developmental stage. It was hypothesized, that also the cuticle, the outer surface layer of plants is modified during ontogenesis. Apple plantlets, cv. Golden Delicious, were grown under controlled conditions avoiding biotic and abiotic stress factors. The cuticular wax surface of adaxial apple leaves was analyzed for its chemical composition as well as for its micromorphology and hydrophobicity just after unfolding of leaves ending in the seventh leaf insertion. The outer surface of apple leaves was formed by a thin amorphous layer of epicuticular waxes. Epidermal cells of young leaves exhibited a distinctive curvature of the periclinal cell walls resulting in an undulated surface of the cuticle including pronounced lamellae, with the highest density at the centre of cells. As epidermal cells expanded during ontogenesis, the upper surface showed only minor surface sculpturing and a decrease in lamellae. With increasing leaf age the hydrophobicity of adaxial leaf side decreased significantly indicated by a decrease in contact angle. Extracted from plants, the amount of apolar cuticular wax per area unit ranged from only 0.9 μg cm −2 for the oldest studied leaf to 1.5 μg cm −2 for the youngest studied leaf. Differences in the total amount of cuticular waxes per leaf were not significant for older leaves. For young leaves, triterpenes (ursolic acid and oleanolic acid), esters and alcohols were the main wax components. During ontogenesis, the proportion of triterpenes in total mass of apolar waxes decreased from 32% (leaf 1) to 13% (leaf 7); absolute amounts decreased by more than 50%. The proportion of wax alcohols and esters, and alkanes to a lesser degree, increased with leaf age, whereas the proportion of acids decreased. The epicuticular wax layer also contained α-tocopherol described for the first time to be present also in the epicuticular wax. The modifications in the chemical composition of cuticular waxes are discussed in relation to the varying physical characteristics of the cuticle during ontogenesis of apple leaves.
ISSN:0031-9422
1873-3700
DOI:10.1016/j.phytochem.2005.10.018