基于地统计学丰林自然保护区森林生物量估测及空间格局分析
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中国科学院战略性先导科技专项-应对气候变化的碳收支认证及相关问题(XDA05050201); 国家林业公益性行业专项(200804001); 国家自然科学基金项目(30870441)


Estimation and spatial pattern analysis of forest biomass in Fenglin Nature Reserve based on Geostatistics
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    摘要:

    基于丰林保护区1997年样地调查数据,根据一元生物量估测模型,计算样地生物量,在此基础上,利用ArcGIS地统计插值方法得到整个研究区森林生物量分布,并从林分结构(林型、林龄组)和地形因子(海拔、坡度、坡向)两个方面对保护区森林生物量空间格局进行了分析。结果表明,利用地统计插值得到区域水平的森林生物量是可行的,保护区森林平均生物量水平为171.5t/hm2,总生物量为3.08Tg(1Tg=1012g);不同林分结构(林型、林龄组)有不同的生物量水平;地形因子与生物量有显著的相关性,并得到它们之间的回归方程,为保护区森林生态系统的可持续经营提供了科学依据。

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    The biomass of 120 randomly selected from 158 sample plots, were calculated based on forest inventory data in 1997, Fenglin National Nature Reserve, Northeastern China, through the biomass estimation model. In addition, the remaining 38 sample plots were used to validate the model with correlation coefficients between the predicted and real values. Furthermore, the spatial distribution of forest biomass for each cell of the study region was derived by the spatial interpolation with geostatistics of ArcGIS on the biomass of those plots, and the relationship between the spatial distribution pattern of biomass, forest structures (including 8 forest type and 5 age groups) and terrain factors (including elevation, aspect and slope) were analyzed. The results showed that the interpolation method is mostly available method to estimate forest biomass based on forest inventory point data, since the predicted and real biomass was mostly correlated (R2=0.78). Spatially, the biomass varied obviously in this region, it ranged from 41.6 t/hm2 to 376.9 t/hm2, and at average the biomass was 171.5 t/hm2. The total biomass of this region kept up to 3.08 million ton for that time. Respect to forest biomass and forest structure, the biomass varied significantly with forest age, and increased with increasing forest age. The oldest forest yielded more biomass than younger forest; the biomass for the former was up to 174.8 t/hm2 and for the latter reached 155.1 t/hm2. In addition, the biomass varied with forest type, and decrease from coniferous forest (e.g. fir-spruce forest), conifer-deciduous mixed forest (e.g. mixed Korean pine forest) to deciduous forest. The biomass in coniferous forest, conifer-deciduous mixed forest and deciduous forest were 175.0 t/hm2, 162.5 t/hm2, and 156.7 t/hm2, respectively. Respect to forest biomass and terrain factors, the biomass was significantly affected by the terrain factors. The sites at the increasing elevation yielded lower biomass, and at the gradient of elevation (from 250 m to 700 m) the biomass decreased from 175.0 t/hm2 to 155.1 t/hm2. The sites at the wet-cold aspect showed higher biomass than that on dry-warm aspect, and at the gradient it ranged from 174.0 t/hm2 to 163.5 t/hm2. However, the relationship between slope index and the biomass showed more complicated results, the biomass decreased from 176.0 t/hm2 to 167.0 t/hm2 while the slope increased from 0° to 24°, and then increased to 175.0 t/hm2 while slope continue to increase. Our results would be a guide to forest manager to estimate the biomass based on the inventory data, and provide a way to mitigate forest type and age to control local biomass and carbon stocks.

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刘晓梅,布仁仓,邓华卫,胡远满,刘志华,吴志伟.基于地统计学丰林自然保护区森林生物量估测及空间格局分析.生态学报,2011,31(16):4783~4790

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