庐山森林景观格局变化的长期动态模拟  被引量：23

作　　者：梁艳艳[1] 周年兴[1] 谢慧玮[1] 蒋铭萍[1] 

机构地区：[1]南京师范大学地理科学学院,南京210023

出　　处：《生态学报》2013年第24期7807-7818,共12页Acta Ecologica Sinica

基　　金：国家自然科学基金资助项目(41271150);江苏省高校优势学科建设工程资助项目

摘　　要：在以植被格局为基础的森林景观动态分析中,可通过森林演替推断景观格局的动态变化以及相应的景观生态过程。运用空间直观景观模型LANDIS,以庐山风景区为案例地,模拟森林植被在未来300 a的自然演替动态,在此基础上选取斑块面积比、聚集度、分维数、多样性指数和均匀度指数等景观格局指数,分析森林景观格局随森林演替的动态变化。结果表明:(1)阔叶林树种的绝对优势地位保证其斑块面积比呈现持续增长的稳定趋势,森林植被将朝着地带性常绿阔叶林方向演替;(2)景观聚集度特征方面,阔叶林树种在前150 a缓慢增长,而后150 a保持相对稳定,杉木林一直保持平稳,毛竹林在整个模拟阶段一直在不断下降直至演替结束;(3)各优势树种植被斑块的分维数都保持在1—1.1之间,说明各景观斑块的边缘相对较规则且变化较小;(4)景观多样性指数呈现出先上升后缓慢下降的趋势,而均匀度指数则呈现出先下降后上升再缓慢下降的变化态势。景观格局指数的变化特征与植被向顶极群落演替的趋势相吻合,该模拟结果可运用到庐山森林景观的管理实践中。从长远来看,应该继续实行严格的封山育林政策。Forest succession is a naturally occurring process of reorganization which occurs constantly in forest ecosystems; the term refers to the process of one plant community being replaced by another over time. The process of forest vegetation ecological succession is driven by underlying natural conditions and anthropogenic disturbance. We can infer dynamic changes of landscape patterns and corresponding ecological processes of forest succession using forest landscape dynamic analysis based on vegetation patterns. Research related to vegetational succession provides a foundation for the understanding of dynamic changes of forest landscape patterns. The changes of forest landscape pattern also influence nutrient cycling and energy flows in forest ecosystems while restricting a variety of ecological processes. As a result, the study on forest landscape patterns explains very important dynamic processes of forest succession. The natural laboratory of Mount Lushan provides a unique site for studying ecological succession as it relates to vegetation and restoration ecology. The study of forest succession is the foundation of recovery and restoration activities. This type of research depends on the study of ecological succession of vegetation which can provide a basis for understanding the dynamics of landscape change. Using the spatially explicit landscape simulation model （LANDIS）, this paper analyzes forest vegetation on Mount Lushan, by stimulating the dynamics of the vegetation＇s ecological succession in the next 300 a under undisturbed natural conditions, and determines the representative landscape pattern indices of each patch. This process includes measures of the proportion of the landscape covered by each type of patch area as well as determining the values for the aggregation, fractal dimension, diversity and evenness indices. This process allows the analysis of the spatial distribution pattern of dominant tree species, which helps reveal the factors regulating vegetation succession and helps predict the f

关 键 词：LANDIS模型 动态模拟 景观格局 庐山 

分 类 号：S718.5[农业科学—林学]