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植物研究 ›› 1996, Vol. 16 ›› Issue (1): 146-154.

• 论文 • 上一篇    

生物多样性的熵值结构

欧乐其, 何小双   

  1. 1. Department of Plant Sciences, the Universityof Western Ontario, London, Canada N6A 5B7;
    2. Northeast ForestUniversity and presently a Graduate Student at the University of Western
  • 收稿日期:1995-08-01 出版日期:1996-03-15 发布日期:2016-06-14

THE ENTROPY STRUCTURE OF BIODIVERSITY

Orlóci lászló, He Xiao-shuang   

  1. 1. Department of Plant Sciences, the University of Western Ontario, London, Canada N6A 5B7;
    2. Northeast Forest University and presently a Graduate Student at the University of Western
  • Received:1995-08-01 Online:1996-03-15 Published:2016-06-14

摘要: 多样性一般定义为生物进化过程中物种表现型的丰富程度。从广义上讲,生物进化与环境归类作用的结构复杂性对生物为多样性的解释是很有益处的。我们认为区域水平与样地水平上的气候归类型与植被归类型是最基本的划分因子,本文以中国东北部黑龙江省的山地植被为例,采用多等级熵值分配的方法来证明所使用的方法。我们得出气候归类型与植被归类型所占有的熵值成分要弱于物种表现型丰富度所占有的熵值成份。值得注意的是其相对的熵值贡献率对每一个因子的最大熵值的变化规律。分析结果表明气候归类型占有较低的熵值而植被归类型占有较高的熵值。因此仅仅以在区域气候型为主要指标所划分的物种生态位是不够的,而以小区域内的植被型为指标所产生的物种生态位具有较高利用价值。

关键词: 多样性, 熵, 气候归类型, 植被归类型

Abstract: The notion of biodiversity connotes in common usage phenotype richness produced by the process of evolution. We believe it is useful for specific purposes to think of biodiversity in broader terms, having in point of fact the implication of structural complexities for which evolution and environmental sorting of the phenotypes are jointly responsible. We consider these on the regional and site levels where climate types and climax types are the primary sorting agents. In order to quantify the components contributed by evolution and by the sorting types, we suggest hierarchical entropy partitions. We use data from the upland and montane vegetations of Heilongjiang province in northeast China to illustrate the method. The results are intriguing. For example. the entropy components attributed to climate type sorting and climax type sorting are dwarfed by the level of entropy in phenotype richness. While this is expected, the relative contributions in relation to their respective maximum values are surprising. The entropy component contributed by climate type sorting is low; the component contributed by climax type sorting is high. The latter indicates a highly even utilization of the climax type niches, while the latter points to insufficient richness to allow a more even utilization of the climate niches in the region.

Key words: Biodiversity, Entropy partition, Climate type, Climax type