Larson D W
Department of Botany, University of Guelph, Ontario, N1G 2W1, Guelph, Canada.
Exp Gerontol. 2001 Apr;36(4-6):651-73. doi: 10.1016/s0531-5565(00)00233-3.
Thuja occidentalis is a tree species that was once thought to be relatively short-lived (80 years). Up until 10 years ago maximum ages were considered to be near 400 years, but such trees were thought to be rare. Research along the cliffs of the Niagara Escarpment has altered this view. Exceptionally slow-growing trees of this species have been found with ring counts to 1653 years and estimated ages to 1890 years. Senescence is slow or absent. Injury and death is due to rockfall and sporadic severe drought that kills small sectors of the trees by exposing and killing the roots. Experiments in which colored dyes are infused into roots show that each tree is composed of hydraulically independent units that allow mortality in one part of the 'individual' with little negative effect on the remaining parts of the tree. The trees are small, so environmental loadings of ice, snow, and wind are low. Slow growth of the trees results in a much greater mechanical strength in the wood. Together these properties increase the ability of the cedars to persist on cliffs for long periods of time. The paradox of great longevity in this 'short-lived' tree species is explained by slow growth that minimizes maintenance and repair costs while maximizing durability and strength, combined with an internal architecture that creates functionally independent units within each tree.
北美香柏是一种曾被认为寿命相对较短(80年)的树种。直到10年前,人们还认为其最大树龄接近400年,但这类树木被认为很罕见。尼亚加拉断崖悬崖边的研究改变了这一观点。人们发现了这种生长异常缓慢的树种,其年轮计数可达1653年,估计树龄达1890年。衰老过程缓慢或不存在。树木的损伤和死亡是由于落石和偶发的严重干旱,干旱通过暴露并杀死树根导致树木的小部分死亡。将彩色染料注入树根的实验表明,每棵树都由水力独立的单元组成,这使得“个体”的一部分死亡对树的其余部分几乎没有负面影响。这些树体型较小,因此冰雪和风对环境的负荷较低。树木生长缓慢导致木材具有更大的机械强度。这些特性共同提高了雪松在悬崖上长期存活的能力。这种“短命”树种具有极长寿命的矛盾之处在于,其生长缓慢,将维护和修复成本降至最低,同时使耐久性和强度最大化,再加上其内部结构在每棵树内创造出功能独立的单元。
