Inter-relations between tree-ring width and vessel features in black alder (Alnus glutinosa)

Oladi, Reza; Nasiriani, Saeideh; Danekar, Afshin

doi:10.22092/ijwpr.2015.12925

Document Type : Research Paper

Authors

¹ M.Sc., Department of wood and paper science and technology, Faculty of natural resources, University of Tehran, Karaj, Iran

² Associate Prof., Department of Environmental Sciences, Faculty of natural resources, University of Tehran, Karaj, Iran

https://doi.org/10.22092/ijwpr.2015.12925

Abstract

From a long time ago, researchers in the fields of wood science, dendroclimatology and tree physiology were interested in variation of tree-ring width and vessel features within a tree. However, mutual relationship and interplay between these anatomical features were less studied. In this regard, the main question is whether the pattern of adjustment in wood anatomical traits (tree-ring width and vessel features) is similar in all hardwoods and in every site? Or may the same species chose different strategies in different sites? To answer these questions, two growing sites of black alder (Alnus glutinosa) with completely different micro-climates (dry and brackish) were selected near Astara city. In each site, a few trees were selected, cut or cored. After preliminary treatments, wood cross sections were prepared from the bark to the pith of each tree. These sections were scanned and by using an image analysis software, tree-ring width (TRW), average vessel lumen area (AVLA), number of vessel in the unite of an area (VF), and the porosity (Porosity) of a tree ring were measured in the last 20 annual rings of each tree. To study the inter-relations between variables at each site, they were analyzed using different statistical tests. The results showed that the inter- and mutual-relations between tree-ring width and vessel features were similar in tow studied sites. In brief, it can be concluded that regardless of site and climatic condition, in alder trees, wider tree rings leads to fewer vessels and these two anatomical traits are controlled by the same component but AVLA is affected by a different component and is not associated with the tree-ring width.

Keywords

Main Subjects

Biology and Wood Protection

References

- Abrantes, J., Campelo, F. and García-González, I., 2013. Environmental control of vessel traits in Quercus ilex under Mediterranean climate: Relating xylem anatomy to function. Trees, 27(3): 655-662.

- Aguilar-Rodríguez, S., Terrazas, T. and López-Mata, L., 2006. Anatomical wood variation of Buddleja cordata (Buddlejaceae) along its natural range in Mexico. Trees, 20 (2): 253–261.

- Ballesteros, J.A., Stoffel, M., Bollschweiler, M., Bodoque del Pozo, J. M. and Díez-Herrero, A., 2010. Flash-flood impacts cause changes in wood anatomy of Alnus glutinosa, Fraxinus angustifolia and Quercus pyrenaica. Tree Physiology, 30: 773–781.

- Eckstein, D. and Frisse, E., 1982. The influence of temperature and precipitation on vessel area and ring width of oak and beech: 12–13. In: Hughes, M.K. et al (Eds). Climate from tree rings. Cambridge University Press, Cambridge, 233 p.

- Fichtler, E. and Worbes, M., 2012. Wood anatomical variables in tropical trees and their relation to site conditions and individual tree morphology. IAWA Journal, 33(2): 119-140.

- Fonti, P., von Arx, G., Garcia-Gonzalez, I., Elimann, B., Sass-Klaassen, U., Gartner, H. and Eckstein, D., 2010. Studying global changes through investigation on the plastic responses of xylem anatomy in tree rings. New Phytologist, 185: 42–63.

- Fritts, H.C., 2001. Tree Rings and Climate. The Blackburn Press, New Jersey, 566 p.

- Matisons, R., and Brumelis, G., 2012. Influence of climate on tree-ring and earlywood vessel formation in Quercus robur in Latvia. Trees, 26(4): 1251-1266.

- Oladi, R., Bräuning, A. and Pourtahmasi, K., 2014. ‘‘Plastic’’ and ‘‘static’’ behavior of vessel-anatomical features in Oriental beech (Fagus orientalis Lipsky) in view of xylem hydraulic conductivity. Trees, 28(2): 493–502.

- Pourtahmasi, K., Lotfiomran, N., Bräuning, A. and Parsapajouh, D., 2011. Tree-ring width and vessel characteristics of oriental beech (Fagus orientalis) along an altitudinal gradient in the Caspian forests, Northern Iran. IAWA Journal, 32: 461–473.

- Schume, H., Grabner, M. and Eckmüllner, O., 2004. The influence of an altered groundwater regime on vessel properties of hybrid poplar. Trees, 18(2): 184–194.

- Schweingruber, F.H., 1990. Anatomy of European woods. Verlag Paul Haupt Publishers, Berne and Stuttgart, 800 p.

- Speer, J.H., 2010. Fundamentals of tree-ring research. The University of Arizona Press, Tucson, 368 p.

- Sperry, J.S., Hacke, U.G. and Pittermann, J., 2006. Size and function in conifer tracheids and angiosperm vessels. American Journal of Botany, 93: 1490–1500.

- Woodcock, D.W., 1989. Climate sensitivity of wood anatomical features in a ring-porous oak (Quercus macrocarpa). Canadian Journal of Forest Research, 19: 639–644.

Iranian Journal of Wood and Paper Science Research

Inter-relations between tree-ring width and vessel features in black alder (Alnus glutinosa)

References

References

Volume 30, Summer 2 - Serial Number 51
August 2015
Pages 278-288

Inter-relations between tree-ring width and vessel features in black alder (Alnus glutinosa)

References

References

Volume 30, Summer 2 - Serial Number 51August 2015Pages 278-288

Volume 30, Summer 2 - Serial Number 51
August 2015
Pages 278-288