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1.
生态学系统的空间异质性   总被引:35,自引:8,他引:35  
陈玉福  董鸣 《生态学报》2003,23(2):346-352
空间异质性是生态学系统的一个普遍牧场生,生态学家对它在生态学中的重要性已取得了比以往更深刻的认识。试图从空间异质性的含义,空间异质性与尺度和等级的关系,空间异质性的定量描述,空间异质性对生物和非生物过程的影响,以及空间异质性的动态等5个方面综述了有关空间异质性的生态学研究的新进展。  相似文献   

2.
伍业钢  邬建国 《生态学杂志》1992,11(6):34-41,73
自然界各种等级系统都普遍存在时间和空间的缀块性。它反映了系统内部或系统间的时空异质性,影响着生态学过程。不同缀块的大小、形状、边际性质以及缀块间的距离等空间分布特征构成缀块性的差异,并控制生态过程的速率。某一空间特有的缀块性也是生态过程的结果。把这种因果关系在时间轴上  相似文献   

3.
缀块性和缀块动态:Ⅰ.概念与机制   总被引:6,自引:2,他引:4  
缀块性(patchiness)是自然界中最为普遍的现象之一,它存在于各种生态学系统的每一时空尺度上。森林、农田、草地、湖泊等生态系统,通常构成景观缀块(landscape patches),每一景观缀块内部又具有大小、持续时间以及内容都不同的各种缀块。在不同时、空  相似文献   

4.
张彤  蔡永立 《生态科学》2004,23(2):175-178
尺度是生态学中的核心问题,时间和空间尺度包含于任何生态过程中,尺度在生态学研究中越来越显现出其重要性,原因是解决地球环境问题要求在大尺度上理解格局和过程,而以前生态学调查的数据主要是基于小尺度的,并且有许多研究表明,一个生态问题的结论在很大程度上取决于研究所采纳的尺度。但目前尺度研究还存在很多的问题;一些相关概念易与尺度混淆;缺乏成熟的尺度识别方法和系统完备的尺度转换方法等。针对这些问题,本文首先阐明了尺度的确切含义,并对尺度研究的发展历史,重要性作了问题的阐述:分析探讨了尺度与等级理论,格局的关系,及尺度识别,尺度转换的方法和发展趋势。  相似文献   

5.
景观生态学——概念与理论   总被引:229,自引:10,他引:219  
现代景观生态学是一门新兴的、正在深入开拓和迅速发展的学科。因此 ,不但欧洲和北美的景观生态学有显著不同 ,就是在北美景观生态学短暂的发展进程中也逐渐形成了不同的观点和论说。概括地说 ,景观生态学研究的重点主要集中在下列几个方面 ,即 :空间异质性或格局的形成及动态 ;空间异质性与生态学过程的相互作用 ;景观的等级结构特征 ;格局 -过程 -尺度之间的相互关系 ;人类活动与景观结构 ,功能的反馈关系以及景观异质性 (或多样性 )的维持和管理[1~ 6] 。反映这些研究重点的主要景观生态学概念和理论是什么呢 ?本文拟在总结该学科最近 2…  相似文献   

6.
本文研究了一般的m缀块上n种群Lotka-Volterra合作系统的渐近性,在适当条件下证明了此系统能持续生存,对于周期系统其周期解是存在唯一的。  相似文献   

7.
景观健康概念、特征及其评价   总被引:11,自引:1,他引:10  
景观健康是近年来出现景观生态学与新兴的生态系统健康学领域的一个新的生态学概念,旨在探讨人类强烈活动干扰下遭受严重污染与退化,甚至会逐渐消失的景观生态系统的健康问题。本文针对目前所存在的有关景观健康的基本概念,景观健康的特征与标准进行了详细介绍,并就景观健康评价指标的确立,评价时空尺度与等级以及评价方法分别进行了探讨。最后,还强调了在进行景观健康评价时应运用比较的,综合的以及发展的观点开展研究。  相似文献   

8.
生态学中的尺度及尺度转移方法   总被引:20,自引:1,他引:19  
吕一河  傅伯杰 《生态学报》2001,21(12):2096-2105
尺度作籽生态学的重要范式,已经引起了广泛重视,但对尺度问题的研究还不够成熟。尺度具有多样性特点,即功能尺度,空间尺度、时间尺度等,但生态学研究的重点是空间和时间尺度。并且时空尺度还具有复杂性、变异性特征、尺度研究的根本目的在于通过适宜的空间和时间尺度来揭示和把握复杂的生态学规律。为此,科学有效的尺度选择和尺度转换方法不可或缺。常见的尺度转换方法有图示法、回归分析、变异函数、自相关分析、谱分析、分形和小波变换,同时遥感和地理依信息系统技术在尺度研究中也发挥着重要作用。结合实例对上述方法进行了分析和论述,认为各种方法都有有其内在的优势和不足,新方法的引入和应用对于尺度转换方法体系的充实和完善非常重要。有关尺度的研究将进一步加强,研究的重点是尺度变异性、不同尺度间的相互作用机制以及尺度转换方法等。  相似文献   

9.
空间粒度变化对景观格局分析的影响   总被引:46,自引:6,他引:46  
申卫军  邬建国  林永标  任海  李勤奋 《生态学报》2003,23(12):2506-2519
认识空间异质性的多尺度依赖性和景观格局特征对尺度效应关系的影响是进行空间尺度推绎的基础。以2种真实景观(中国广东粤北植被景观与美国凤凰城城市景观)和SIMMAP景观中性模型产生的27种模拟景观为对象。利用景观格局分析软件FRAGSTATS对18种常用景观指数的尺度效应进行了系统的分析。根据这些指数对空间粒度变化的响应曲线和尺度效应关系,18种景观指数可分为3类。第1类指数随空间粒度的增大单调减小。具有比较明确的尺度效应关系(幂函数下降),尺度效应关系受景观空间格局特征的影响较小;这类指数包括缀块数、缀块密度、边界总长、边界密度、景观形状指数、缀块面积变异系数、面积加权平均缀块形状指数、平均缀块分维数和面积加权平均缀块分维数。第2类指数随空间粒度的增大将最终下降。但不是单调下降的;尺度效应关系比较多样,可表现为幂函数下降、直线下降或阶梯形下降。主要受缀块空间分布方式和缀块类优势度的交互影响;这类指数有5种:平均缀块形状指数、双对数回归分维数、缀块丰度、缀块丰度密度和Shannon多样性指数。第3类指数随空间粒度的变粗而增加。随缀块类优势度均等性的增加。尺度效应关系由阶梯形增加、对数函数增加、直线增加向幂函数增加过渡。尺度效应关系主要受缀块类优势度的影响;此类指数包括平均缀块面积、缀块面积标准差、最大缀块指数与聚集度。景观指数随空间粒度变化是一种1临界现象,当粒度大于或小于1临界值时,景观指数对空间粒度变化非常敏感。变化速率非常大。绝大部分情况下。真实景观粒度效应关系和曲线形状与模拟景观所得分析结果相似。说明模拟景观具有很好的代表性。文中也讨论了本研究结果与前人研究的异同。分析了造成差异的原因。景观指数的粒度效应关系与指数本身所反映的景观格局信息有一定关系,总体上来说。随粒度增加。缀块数、边界长度、缀块形状的复杂性、多样性将减小,而平均缀块面积和聚集度将增加。一系列的尺度效应图和不同景观指数的尺度效应关系可作为景观格局分析时指数选择、分析结果的解释和进行空间尺度推绎的参考。  相似文献   

10.
非自治带扩散的Kolmogorov系统的持续生存性   总被引:1,自引:0,他引:1  
本文把持续生存的定义推广到n个种群m个缀块间扩散的非自治Kolmogorov系统中去,应用持续生存函数,讨论了系统的一致持续生存性和永久共存性,获得了系统持续生存的几个充分条件,并应用上述结果讨论了具有一生非自治扩散的Lotka-Volterra系统持续生存性。  相似文献   

11.
Fluvial landscape ecology: addressing uniqueness within the river discontinuum   总被引:19,自引:1,他引:18  
1. As rivers and streams are patchy and strongly hierarchical systems, a hierarchical patch dynamics perspective can be used as a framework for visualising interactions between structure and function in fluvial landscapes. The perspective is useful for addressing fundamental attributes of lotic ecosystems, such as heterogeneity, hierarchy, directionality and process feedback occurring across spatial scales and for illustrating spatio‐temporal linkages between disparate concepts in lotic system ecology such as the River Continuum Concept, the Serial Discontinuity Concept, the Flood Pulse Concept and the Hyporheic Corridor Concept. 2. At coarse spatial scales, the hierarchical patch dynamics perspective describes each river network as a unique, patchy discontinuum from headwaters to mouth. The discontinuum is comprised of a longitudinal series of alternating stream segments with different geomorphological structures. Each confluence in the steam network further punctuates the discontinuum because the sudden change in stream characteristics can create a `gap' in the expected pattern of downstream transitions. The discontinuum view recognises general trends in habitat characteristics along the longitudinal profile, but creates a framework for studying and understanding the ecological importance of each stream's individual pattern of habitat transitions along longitudinal, lateral or vertical vectors at any scale. 3. Object‐oriented modelling and programming techniques provide a means for developing robust, quantitative simulation models that describe the dynamic structure of patch hierarchies. Such models can simulate how the structure and function of lotic ecosystems are influenced by the landscape context of the system (the ecological conditions within which the system is set) and the metastructure (structural characteristics and juxtaposition) of finer‐scale patches comprising the system. 4. A simple object‐oriented, multiscale, discontinuum model of solute transformation and biological response along a stream channel illustrates how changing the branching pattern of a stream and the arrangement of its component patches along the downstream profile will result in substantial changes in predicted patterns of solute concentration and biotic community structure. 5. The importance of context, structure, and metastructure in determining lotic ecosystem function serves to underscore 27 ) concept that `every stream is likely to be individual.' Advancing the discipline of fluvial landscape ecology provides an excellent opportunity to develop general concepts and tools that address the individual character of each stream network and integrate the concept of `uniqueness within the river discontinuum' into our ecological understanding of rivers and streams.  相似文献   

12.
熊小刚  韩兴国  陈全胜  米湘成 《生态学报》2004,24(10):2165-2170
为认识放牧系统的复杂性和稳定性 ,产生了放牧系统的平衡生态学和非平衡生态学原理。放牧系统的平衡生态学原理假定 :一旦干扰在系统中发生 ,系统将偏离平衡态 ;而当干扰解除后 ,系统将自动返回原来的状态或在新的领域实现平衡。在对内蒙古锡林河流域典型草原放牧系统动态的研究中 ,来自平衡生态学的 Clem ents- Duksterhuis演替理论提供了一个基本的研究框架。尽管已经证实对退化不太严重的典型草原放牧系统 ,平衡生态学原理是适用的 ,但是对于这一地区严重退化的放牧系统的动态 ,它显然并不能给予合理的解释。事实上许多放牧系统动态遵循非平衡生态学原理。在非平衡放牧系统中 ,稳定的状态是不会实现的 ,因为在这样的系统中 ,非生物变量对于植被的动态似乎起着决定性的影响 ,从而也决定着草食动物的种群动态。状态与过渡模型基于非平衡生态学原理 ,它能够解释过度放牧下典型草原生态系统的崩溃或灌丛化 ,因此它适于该地区严重退化的典型草原放牧系统的动态。鉴于内蒙古锡林河流域典型草原放牧系统普遍严重退化的现实 ,未来该地退化放牧系统的研究应更多地应用非平衡生态学原理 ,并且严重退化的草原生态系统的恢复试验 ,特别是灌丛化草原的重建也应置于它的指导之下  相似文献   

13.
Traditional approaches to ecotoxicology and ecological risk assessment frequently have ignored the complexities arising due to the spatial heterogeneity of natural systems. In recent years, however, ecologists have become increasingly aware of the influence of spatial organization on ecological processes. Landscape ecology provides a conceptual and theoretical framework for the analysis of spatial patterns, the characterization of spatial aspects of ecosystem function, and the understanding of landscape dynamics. Incorporating the insights of landscape ecology into ecotoxicology will enhance our ability to understand and ultimately predict the effects of toxic substances in ecological systems. Ecological risk assessments need to explicitly consider multiple spatial scales, accounting for heterogeneity within contaminated areas and for the larger landscape context. A simple simulation model is presented to illustrate the effects of spatial heterogeneity by linking an individual-based toxicokinetic model with a spatially distributed metapopulation model. Dispersal of organisms between contaminated and uncontaminated patches creates a situation where risk analysis must consider a spatial extent broader than the toxicant-contaminated area. In general, the addition of a toxicant to a source patch (i.e., a net exporter of individuals) will have a greater impact than the same toxicant addition to a sink patch (i.e., a net importer of individuals).  相似文献   

14.
Abstract

The analysis of landscape changes in space and time plays an important role in landscape ecology. Analyzing landscape dynamics through time may be crucial for identifying historical and current processes that shape the actual landscapes and for developing predictive landscape models for ecosystem management and conservation. In this view, the propensity of land cover patches to change is at least partially related to the nature of their contact types. The interactions of a given patch with adjacent land cover types affect both land use exploitation by humans and vegetation dynamics. The aim of this paper is to use patch boundary dynamics for describing the landscape changes that occurred in the Lepini Mountains (central Italy) during 1954 – 2000. Results show an increase in landscape complexity in the Mediterranean land units and a corresponding decrease in landscape complexity in the Temperate land units. This differential trend is due to a complex, human-driven temporal dynamics of Mediterranean ecosystems that generates heterogeneity as opposed to a diffuse landscape abandonment in the Temperate region that leads to a more homogeneous boundary structure.  相似文献   

15.
Spatial heterogeneity is a fundamental feature of ecosystems, and ecologists have identified it as a factor promoting the stability of population dynamics. In particular, differences in interaction strengths and resource supply between patches generate an asymmetry of biomass turnover with a fast and a slow patch coupled by a mobile predator. Here, we demonstrate that asymmetry leads to opposite stability patterns in metacommunities receiving localized perturbations depending on the characteristics of the perturbed patch. Perturbing prey in the fast patch synchronizes the dynamics of prey biomass between the two patches and destabilizes predator dynamics by increasing the predator's temporal variability. Conversely, perturbing prey in the slow patch decreases the synchrony of the prey's dynamics and stabilizes predator dynamics. Our results have implications for conservation ecology and suggest reinforcing protection policies in fast patches to dampen the effects of perturbations and promote the stability of population dynamics at the regional scale.  相似文献   

16.
岛屿生物地理学理论:模型与应用   总被引:18,自引:1,他引:17  
前言岛屿有许多显著特征,如地理隔离,生物类群简单。这些特点为重复性研究和统计学分析奠定了基础,从而有利于许多深入而细致的生物学研究。因此,岛屿为发展和检验自然选择、物种形成及演化,以及生物地理学和生态学诸领域的理论和假设,提供了重要的自然实验室。岛屿生物地理学理论(MacArthurwilson学说)即为岛屿生物学研究中所产生的著名理论之一。该理论发展之  相似文献   

17.
Increasingly, restoration ecologists and managers are challenged to restore ecological processes that lead to self‐sustaining ecosystem dynamics. Due to changing environmental conditions, however, restoration goals need to include novel regimes beyond prior reference conditions or reference dynamics. In face of these fundamental challenges in process‐based restoration ecology, disturbance ecology can offer useful insights. Here, I discuss the contribution of disturbance ecology to understanding assembly rules, ecosystem dynamics, regime shifts, and nonlinear dynamics. Using the patch and multipatch concept, all insights are organized according to two spatial and two temporal categories: “patch–event,”“patch–multievent,”“multipatch–event,” and “multipatch–multievent.” This concept implies the consideration of both spatial patterns and temporal rhythms inside and outside of a restoration site. Emerging issues, such as uncoupling of internal and external dynamics, are considered.  相似文献   

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