Decomposition Analysis of Competitive Symmetry and Size Structure Dynamics

An analysis is introduced, based on the decomposition of relativegrowth rates, to examine the mode of competition (i.e. whethercompetition is symmetric or asymmetric), the size-dependenceof growth, and their interdependence. In particular, the basisfor two commonly held views is examined: (1) that the type ofresource limitation determines the mode of competition, and(2) that asymmetric competition always leads to size-divergencebetween unequal competitors. It is shown that in field-grownmillet plants, competition for light was symmetric at low densityand asymmetric at high density. However, size variation at lowdensity decreased during growth, because small plants had greaterrelative growth rates than larger plants. Size variation stayedconstant at high density, since plants of all sizes had equalaverage relative growth rates. Based on these results and ageneral discussion, it is proposed that the type of resourcelimitation does not determine the mode of competition. Competitionfor light can be symmetric, and foraging for heterogeneouslydistributed soil resources can produce asymmetric competitionbelow-ground. Furthermore, the mode of competition alone doesnot determine size structure dynamics. Size-dependence of resourceconversion efficiency and allocation can modify the effectsof resource uptake on growth. Pennisetum americanum‘Custer ’; mode of competition; size structure dynamics; plant growth analysis     

采用稳定同位素技术判定喀斯特地区植物水分来源的挑战与可能应对方案

占全球陆地面积约15%的喀斯特地区,有着不同于绝大多数非喀斯特地区的水文地质结构,使得许多在非喀斯特地区行之有效的研究方法难以直接用于喀斯特地区,而且这种限制在植物水分来源的研究上体现得尤为明显.本文从为什么要在喀斯特地区开展植物水分来源的研究、为什么一定要用稳定同位素的方法、使用该方法在喀斯特地区有何挑战,以及应对这些挑战的可能解决方案是什么等4个方面,综述了喀斯特地区植物水分来源研究普遍关注问题的由来和可能应对方案.文中重点阐述了与其他方法相比,稳定同位素技术在喀斯特地区植物水分来源研究中的优势以及难以完全满足其前提条件的挑战,结合现有相关研究的有益探索,提出在喀斯特地区的研究不必过分追求对各水源在具体深度上的细致划分,从水源特性的角度进行区分是更为适宜的途径.