光合作用
限制
开枪
呼吸
氮气
光合能力
植物
碳纤维
生物
增长率
增长模型
园艺
化学
数学
有机化学
数理经济学
几何学
工程类
复合数
机械工程
算法
作者
Lluís Coll,Robert Schneider,Frank Berninger,Susy Domenicano,Christian Messier
出处
期刊:Tree Physiology
[Oxford University Press]
日期:2011-04-01
卷期号:31 (4): 381-390
被引量:9
标识
DOI:10.1093/treephys/tpr013
摘要
We evaluate the importance of changes in photosynthetic capacity, respiration rates, root shoot ratio, pipe model parameters and specific leaf area in the early-growth response of hybrid poplar to nitrogen availability. Juvenile growth simulations for trees with three different levels of leaf nitrogen concentration (N(leaf)) (low (1.2%), medium (2.4%) and high (3.6%)) were conducted with the carbon-balance model CROBAS. Five-year growth simulations showed the diameter and height of poplar trees to be, respectively, four and three times larger in plants with 2.4% N(leaf) compared with those with 1.2% N(leaf). Increasing N(leaf) from 2.4 to 3.6% resulted in 34 and 16% higher diameter and height growth of trees. According to the model, changes in the photosynthetic capacity accounted for most of the differences in growth between trees with different levels of N(leaf); the other parameters were much less influential. This suggests that in fast-growing early-successional broadleaved species such as poplars, physiological rather than allocational and morphological traits predominate in determining growth, at least under non-limiting light conditions.
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