Abstract
Aesculus hippocastanum trees are commonly infested by the leaf miner Cameraria ohridella, whose larval activity causes the destruction of the leaf parenchyma and induces defoliation. Pest attacks result in, e.g., production of smaller fruits and tree re-flowering in autumn. Concerning pest influence on stem structure only scarce information of narrower annual growth rings of wood has been published. Therefore, we determined the effect of the presence of the leaf miner infestation on intra-annual cambial activity and on differentiation of conductive tissues. These data were compared with phenological phases and pest activity. Pest feeding resulted in changes in onset, cessation and duration of cambial divisions, and differentiation of secondary xylem. The duration of cambial activity was about a month shorter in heavily infested trees and was connected with premature tree defoliation. Affected trees were characterised by a reduction in cambial divisions and earlier cessation of wood differentiation resulting in narrower wood rings. Furthermore, the infested trees exhibited altered wood structure, with more vessels of smaller diameters, however these changes did not affect its theoretical hydraulic conductivity. Interestingly, pest attack did not influence secondary phloem differentiation. The probable influence of long-term infestation on tree growth and condition was discussed.
Highlights
The negative impact of leaf miner infestation on the condition of A. hippocastanum trees have been observed for many years, undoubtedly, due to the aesthetic value of the trees of this species [5,8,39]
Developmental, and anatomical studies of secondary conductive tissues coupled with tree phenology are lacking
In A. hippocastanum the onset of cambium activity was correlated with bud swelling to other diffuse porous trees [52]
Summary
Worth mentioning is that the changes in tree functioning, visible in late summer and autumn, are related to natural leaf senescence, and some authors state that the effects of C. ohridella feeding are not as destructive for the tree as generally believed [4,7]. These results, which mainly concentrate on the tree functioning and physiology, are contradicting. A detailed analysis of the influence of C. ohridella on the secondary thickening (secondary growth) of A. hippocastanum trees is lacking
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