Aspen Bibliography

Survival rate and nuclear irregularity index of sapwood ray parenchyma cells in four tree species

K.C. Yang

Document Type

Article

Journal/Book Title/Conference

Canadian Journal of Forest Research

Volume

23

Issue

4

First Page

673

Last Page

679

Publication Date

1993

Abstract

Survival rate and the newly developed nuclear irregularity index (NII) of sapwood ray parenchyma cells were studied within single trees of four species: Pinusbanksiana Lamb., Piceamariana (Mill.) B.S.P., Abiesbalsamea (L.) Mill., and Populustremuloides Michx. The survival rate of ray parenchyma cells is defined as the number of living earlywood ray parenchyma cells in uniseriate rays, divided by the total number of dead and living ray parenchyma cells recorded, multiplied by 100. NII is defined as the ratio of the number of irregularly shaped nuclei of uniseriate ray parenchyma cells to the total number of the irregular and regular nuclei recorded in earlywood, multiplied by 100. The location where death of ray parenchyma cells was first seen in the sapwood varied with species from the second to the seventh growth ring, counted from the cambium. In general, the marginal cells in the outer sapwood died earlier in a given growth ring than the central cells. The survival rate of the sapwood ray parenchyma cells decreased curvilinearly from the outer or middle sapwood towards the boundary of sapwood and heartwood. Based on survival rate classification, Pinusbanksiana and Populustremuloides are type II species, in which some ray parenchyma cells die in the middle or inner sapwood and the number of dead cells increases from the middle sapwood towards the heartwood. Piceamariana and Abiesbalsamea are type III species, in which some ray parenchyma cells die in outer sapwood and the number of dead cells increases from the outer sapwood towards the heartwood. NII increased from the middle of the sapwood towards the sapwood–heartwood boundary and reached its maximum at the growth ring immediately adjacent to the heartwood. NII increased from May to a maximum in the middle of the growing season and then decreased sharply. The months of sharpest decline of the NII in Pinusbanksiana, Piceamariana, and Populustremuloides were August, July–August, and August–October, respectively. In Abiesbalsamea no sharp decline of NII was observed. The findings of this study are in agreement with those of other investigators who used different criteria to indicate the initiation time of heartwood formation. Thus it appears that NII can be added to the list of indicators that pinpoint the initiation time of heartwood formation.

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