Hls Farias, Pacl Pequeno, W. A. Priyanka P. Silva, VF Melo, L. Carvalho, Rdo Perdiz, AC Citó, PM Fearnside, R. Barbosa
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A single sample was extracted from each of 680 individuals (108 species, 82 genera, 38 families; stem diameter ≥10 cm) dispersed among 129 plots distributed along a hydro-edaphic gradient. General community-averaged WD (0.703 ± 0.133 g cm -3 ; range: 0.203 to 1.102 g cm -3 ) was high in relation to other Amazonian areas because 62% of the species and 69% of the sampled individuals had high WD values (>0.650 g cm -3 ). Altitude (a proxy for drainage), clay and soil micronutrient content explained 23% of the spatial variation in WD. Partitioning WD variation into species-substitution (turnover) and intraspecific-variation components slightly increased the explanatory power to 26%. The analysis of inter-specific variability showed that forests occurring in seasonally flooded areas are characterized by tree assemblages with species tolerant to P-poor soils, where mean WD (0.742 g cm -3 ) is about 4% higher than the mean (0.713 g cm -3 ) for tree assemblages on unflooded uplands where soils have less limitations from nutrient poverty. 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引用次数: 0
摘要
木材密度(WD)是树种的一项重要功能性状。将空间WD变异性理解为环境决定因素的函数可以提高我们估计热带森林木质生物量碳储量的能力。然而,对于大多数森林生态系统来说,每个环境变量对WD的种内变异性和种间变异性的影响并不完全清楚。在亚马逊地区,对区域木质生物量的估计经常存在不确定性。本研究的目的是研究环境条件对巴西北部亚马逊森林树木群落WD的种内和种间变异的影响。从38科82属108种680个个体中各提取1份样本;茎径≥10 cm)分布在129个样地,沿水势梯度分布。一般社区平均WD(0.703±0.133 g cm -3);范围为0.203 ~ 1.102 g cm -3), 62%的物种和69%的样本个体具有高WD值(>0.650 g cm -3)。海拔(排水指标)、粘土和土壤微量元素含量解释了23%的WD空间变异。将WD变异划分为物种替代(更替)和种内变异两部分,解释力略提高至26%。种间变异分析表明,季节性洪泛区的森林以耐贫磷土壤的乔木组合为特征,其平均WD (0.742 g cm -3)比土壤受养分缺乏限制较少的非洪泛区乔木组合的平均值(0.713 g cm -3)高约4%。我们的结果代表了生物量估计值的改进,因为它们促进了对巴西北部亚马逊森林中先前考虑不同环境条件的木质生物量估计值的调整(1.4%-16.3%)。
Amazon forest biomass: intra- and interspecific variability in wood density drive divergences in Brazil’s far north
Wood density (WD) is an important functional trait of tree species. Understanding spatial WD variability as a function of environmental determinants improves our ability to estimate carbon stocks in the woody biomass of tropical forests. However, the role of each environmental variable affecting the in- tra-and interspecific variability of WD is not entirely clear for most forest ecosystems. In Amazonia there are recurrent uncertainties in estimates of regional woody biomass. The aim of the study was to investigate the effects of environmental conditions on the intra-and interspecific variability of WD for tree assemblages in forests of the northern Brazilian Amazon. A single sample was extracted from each of 680 individuals (108 species, 82 genera, 38 families; stem diameter ≥10 cm) dispersed among 129 plots distributed along a hydro-edaphic gradient. General community-averaged WD (0.703 ± 0.133 g cm -3 ; range: 0.203 to 1.102 g cm -3 ) was high in relation to other Amazonian areas because 62% of the species and 69% of the sampled individuals had high WD values (>0.650 g cm -3 ). Altitude (a proxy for drainage), clay and soil micronutrient content explained 23% of the spatial variation in WD. Partitioning WD variation into species-substitution (turnover) and intraspecific-variation components slightly increased the explanatory power to 26%. The analysis of inter-specific variability showed that forests occurring in seasonally flooded areas are characterized by tree assemblages with species tolerant to P-poor soils, where mean WD (0.742 g cm -3 ) is about 4% higher than the mean (0.713 g cm -3 ) for tree assemblages on unflooded uplands where soils have less limitations from nutrient poverty. Our results represent an improvement in the estimates of biomass because they promote adjustments (1.4%-16.3%) to the previous estimates of woody biomass in the northern Brazilian Amazon forests considering different environmental conditions.
期刊介绍:
The journal encompasses a broad range of research aspects concerning forest science: forest ecology, biodiversity/genetics and ecophysiology, silviculture, forest inventory and planning, forest protection and monitoring, forest harvesting, landscape ecology, forest history, wood technology.