DIFFERENT CONTRIBUTION OF SPECIES AND FUNCTIONAL TRAIT DIVERSITY TO ABOVEGROUND BIOMASS DYNAMICS IN A FOREST LONG-TERM ECOLOGICAL RESEARCH SITE, SOUTH KOREA

June 1 Pub Date : 2020-03-25 DOI:10.36899/japs.2020.3.0086

J. Chun, J. Lim, C. Lee

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Abstract

Understanding the key drivers controlling biomass production in forest ecosystems is an important process from both theoretical and practical perspectives. Here, we examined the relationships of aboveground biomass (AGB) production variables with species diversity, community weighted mean (CWM) values and variety of functional traits during temperate forest succession in a forest long-term ecological research site, South Korea. Our results revealed that species diversity and CWM trait values are crucial drivers for AGB production in a Korean temperate forest. The relative importance of the explanatory variables was different among AGB production variables. Mass ratio mechanism by CWM values of dominant traits was a main driver for initial and last AGBs and the increment of AGB by survivors and recruits, whereas AGB loss by mortality of stems was govern by species diversity. The mechanism governing AGB loss associated with species diversity may relate to size-dependent demographic processes of individual woody stems, especially, the withering of canopy trees. Therefore, our results suggest that mass ratio and size-dependent mechanisms of woody plants may be important drivers shaping the AGB dynamics in our study system.

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韩国森林长期生态研究点物种和功能性状多样性对地上生物量动态的不同贡献

从理论和实践的角度来看，了解森林生态系统中控制生物量生产的关键驱动因素是一个重要的过程。研究了温带森林演替过程中地上生物量(AGB)生产变量与物种多样性、群落加权平均值(CWM)值和功能性状多样性的关系。结果表明，物种多样性和CWM性状值是韩国温带森林AGB生产的重要驱动因素。各解释变量的相对重要性在AGB生产变量中存在差异。优势性状CWM值的质量比机制是初始和最终AGB以及生存者和新生者AGB增加的主要驱动因素，而茎干死亡导致的AGB损失则受物种多样性的控制。与物种多样性相关的AGB损失的控制机制可能与单个木本茎的大小依赖的人口统计学过程有关，特别是冠层树木的枯萎。因此，我们的研究结果表明木本植物的质量比和大小依赖机制可能是形成我们研究系统中AGB动态的重要驱动因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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June 1

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