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Abstract
We applied environmental stresses, namely dehydration, pruning and bending, to woody taproots of Fraxinus ornus L. in order to: (i) identify a method that could be applied in routine studies of lateral root development from a secondary structure; and (ii) carry out anatomical investigations to identify the tissue involved in the recruitment of lateral root mother cells (LRMC). We found that all three methods induce the formation of new lateral roots from a woody parental root. However, bending stress considerably reduced the zone of the woody parental root (the curvature) for analysis when studying the process of emission of a new lateral root. The trace left by a new lateral root in the taproot secondary xylem forms a V-shaped insertion zone that starts in contact with a growth ring and enlarges toward the periphery. This type of insertion zone suggests that the vascular cambium is the tissue-source of initials that produce the root primordium of a new lateral root. In the case of root bending, the emission of a new lateral root occurs also in the convex side of the curvature and is preceded by the formation, at the same site, of a small amount of reaction wood. Thus, reaction wood and lateral root emission are two aspects of the same response mechanism to bending. Consequently, anatomical and cytological studies of lateral root formation should focus on this part of the woody taproot. By peeling off the bark at this site, one has direct access to the underlying living tissues and can thus investigate lateral root formation also at a biochemical and molecular level.
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Acknowledgements
This study was supported by the Italian MUR (Ministero dell'Università e della Ricerca; PRIN 2005 fund), the Università dell'Insubria (FAR fund) and COST-ACTION E38 (European Cooperation in the field of Scientific and Technical Research) EU Framework Programme. The authors thank Jean Ann Gilder for text editing.