摘要
基于分形理论和管状模型理论建立了油松根系的三维静态模型。根系模型主要建立在根系拓扑、分枝规律、连结长度、连结直径和根系分枝角度基础上。检测模型主要考虑参数α和q。参数α为根系分枝前后的横截面积之比,q定义分枝后新连结的生物量。虽然参数α和q相对于根系直径独立,但是它们的变化可能影响预测的正确性。在植物水平上,模型提供适当的根系干重,根系全长和根系直径的预测。这一静态模型较适合研究成熟根系,与其它模型相比,该模型的主要优点是它的可塑性和易于应用。
A static three-dimensional model of the Pinus tabulaeformis Carr. root system was developed by the fractal and pipe model assumptions. The model was constructed from the observations for topology, branching rules, link length and diameter and root orientation. Evaluation tests were carried out at the plant level. The test principally concerned the coefficients of α and q, where factor α is a ratio of the total cross-sectional area of a root before branching to that afterbranching, and the allocation parameter q defines the new link biomass after branching. Although they are independent of root diameter, the coefficients show some variability that may affect the precision of prediction. The model provides adequate predictions for dry root matter, total root length and root diameter at the plant level. The static model appears to be suitable for the root system of adult trees. Compared with other models, the main advantages of the fractal model are its plasticity and ease of use.
出处
《水土保持通报》
CSCD
北大核心
2007年第1期47-50,54,共5页
Bulletin of Soil and Water Conservation
基金
"973"国家重大基础研究项目(2002CB111502)
国家自然科学基金项目(30571531)
关键词
油松
自相似理论
管状模型
根系结构模型
Pinus tabulaeformis Carr.
self similarity
pipe model theory
root architecture mode
