Light shortage as a modifying factor for growth dynamics and wood anatomy in young deciduous trees

Abstract

Suppressed trees growing under the canopy of mature forests exceed the number of tall, dominant individuals by far. This paper focuses on the wood structure of suppressed trees modified by light shortage. Secondly, the growth dynamics of suppressed deciduous trees within two sites was reconstructed by internal (tree rings) and external (bud scale scars) age determination. The social status of each specimen within the natural regeneration changes with time. Suppressed plants could once have held higher-ranking positions and individuals suffering from periods of suppression are able to recover after light conditions improve. This is an important process for the long-term survival strategy of shade tolerant tree species. Wood anatomy modified by suppression provides additional information on tree growth through the following properties: low percentage of pores in earlywood, changed distribution of pores, indistinct or absent growth ring boundaries, discontinuous growth rings. The low percentage of pores in earlywood may be a means of identifying light shortage in deciduous trees.