资源环境科技发展态势分析平台

Analysis of growth and biomass turnover in natural forests of Eucalyptus regnans, the world's tallest angiosperm, reveals it is also the world's most productive forest type, with fire disturbance an important mediator of net primary productivity (NPP). A comprehensive empirical database was used to calculate the averaged temporal pattern of NPP from regeneration to 250years age. NPP peaks at 23.1 +/- 3.8 (95% interquantile range) Mg Cha(-1)year(-1) at age 14years, and declines gradually to about 9.2 +/- 0.8 Mg Cha(-1)year(-1) at 130years, with an average NPP over 250years of 11.4 +/- 1.1Mg Cha(-1)year(-1), a value similar to the most productive temperate and tropical forests around the world. We then applied the age-class distribution of E.regnans resulting from relatively recent historical fires to estimate current NPP for the forest estate. Values of NPP were 40% higher (13Mg Cha(-1)year(-1)) than if forests were assumed to be at maturity (9.2Mg Cha(-1)year(-1)). The empirically derived NPP time series for the E.regnans estate was then compared against predictions from 21 global circulation models, showing that none of them had the capacity to simulate a post-disturbance peak in NPP, as found in E.regnans. The potential importance of disturbance impacts on NPP was further tested by applying a similar approach to the temperate forests of conterminous United States and of China. Allowing for the effects of disturbance, NPP summed across both regions was on average 11% (or 194Tg C/year) greater than if all forests were assumed to be in a mature state. The results illustrate the importance of accounting for past disturbance history and growth stage when estimating forest primary productivity, with implications for carbon balance modelling at local to global scales.