Spatial variations in the net ecosystem productivity of a primeval tropical forest in a 50-ha plot in Pasoh, Peninsular Malaysia

IF 1 Q4 ECOLOGY Tropics Pub Date : 2017-01-01 DOI:10.3759/TROPICS.MS16-12
T. Yoneda, H. Mizunaga, T. Okuda, W. R. Kadir
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引用次数: 4

Abstract

We assessed the spatial variations in net ecosystem productivity (NEP) using a biometric method based on the dynamics of coarse woody organs in a primeval lowland tropical rain forest in Pasoh, Peninsular Malaysia. The average NEP and carbon stocks in biomass and coarse woody debris over 15 years from 1990 to 2005 were -0.75 t C ha y, 205 t C ha, and 22 t C ha, respectively. However, there were large spatial variations among the five communities, which were correlated with edaphic and topographical features. A mature carbon cycling system with high biomass (where NEP ≈ 0) was observed in a subcommunity on west-facing slopes of the hill community. Over the course of 15 years, a drought and storms were the major agents causing forest disturbances. These factors affected the spatial variations of NEP through not only spatial distribution patterns in species with different sensitivities to stress but also differences in the extent of stress depending on topography. We modeled the disturbance regime as elapsing from 1907 to 1947 basing on observed values of net primary production and biomass of five communities during the 15 years. When we extrapolated high mortalities of trees under this regime, our simulation suggested that a 50-ha plot will remain a carbon-source system for the atmosphere at an average rate of NEP=-0.95 t C ha y until 2060, with different biomass decreases among these five communities.
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马来西亚半岛帕索50公顷原始热带森林净生态系统生产力的空间变化
本文采用基于粗木本器官动态的生物识别方法对马来西亚半岛帕索原始低地热带雨林净生态系统生产力(NEP)的空间变化进行了评估。1990 ~ 2005年15 a间生物量和粗木屑的平均NEP和碳储量分别为-0.75 t C /年、205 t C /年和22 t C /年。但是,5个群落间存在较大的空间差异,这与土壤地形特征有关。在西坡山地群落的亚群落中发现了一个成熟的高生物量(NEP≈0)的碳循环系统。在15年的时间里,干旱和风暴是造成森林紊乱的主要因素。这些因素不仅通过不同胁迫敏感性物种的空间分布格局,而且通过不同地形胁迫程度的差异影响NEP的空间变化。我们基于15年间5个群落的净初级生产量和生物量的观测值,模拟了1907 - 1947年的扰动状态。当我们推断在这种情况下树木的高死亡率时,我们的模拟表明,直到2060年,50公顷的地块将以平均NEP=-0.95 t C / h的速率保持大气的碳源系统,这五个群落的生物量减少不同。
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来源期刊
Tropics
Tropics ECOLOGY-
CiteScore
1.40
自引率
0.00%
发文量
7
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