Abstract
AbstractThe old Ginkgo biloba L. trees often develop cylindrical woody structures that grow downward from the underside of the large branches near the trunks. This structure is traditionally called “chi-chi” (a breast) in Japan. The structure of chi-chi has not been investigated in detail because of the rarity of such old trees of G. biloba. This study examined the chi-chi from wood anatomy and chemistry viewpoints. After debarking, there were many woody bulges and latent buds. There were hollows corresponding to these latent buds on the inner side of the bark. In the transverse section obtained from the tip part of the chi-chi sample, we found tracheids curving in a horizontal plane, and the parenchymatous latent bud tissue is the center of the swirl. Microscopic observations and X-ray micro-computed tomography suggest the growing course of the chi-chi due to several swirls contiguous to each other. From these observations, the downward growth of the chi-chi starting from the cambium cell division might be driven by the woody bulges with latent buds. The cell walls of the curved tracheids were not thickened, not rounded, and had no intercellular spaces, but their S3 layers disappeared. Furthermore, the results of thioacidolysis and acetyl bromide analyses exhibited p-hydroxyphenyl subunits deposition to lignin and high lignin content on the tip part of the chi-chi. These results suggest that the curved tracheids in the chi-chi have compression-wood-like properties to some extent.
Funder
Japan Society for the Promotion of Science
Publisher
Springer Science and Business Media LLC