机构地区:[1]太原师范学院,地理科学学院,晋中030619 [2]中国科学院寒区旱区环境与工程研究所,沙漠与沙漠化重点实验室,兰州730000
出 处:《生态学报》2016年第18期5759-5767,共9页Acta Ecologica Sinica
基 金:国家自然科学基金项目(41501219)
摘 要:以青藏高原高寒草甸为研究区,设置模拟增温实验样地,于2010年开始持续增温,2012和2013年调查植被地上-地下生物量,探讨气候变暖背景下高寒草甸生物量的动态变化及其与环境因子的关系。结果表明:(1)增温处理下地上-地下生物量与根冠比的中值和平均值大于对照,其中地下生物量(变异系数为0.30)的增加幅度大于地上生物量(变异系数为0.27),根冠比的变异系数(0.33)大于地上-地下生物量,这表明增温可导致高寒草甸植被生物量分配出现差异。(2)地上-地下生物量呈极显著的幂指数函数关系(R^2=0.147,P<0.001),表现为异速生长,但在增温处理下异速生长出现减缓(R^2=0.102,P<0.05)。(3)地上生物量受深层土壤水分和浅层土壤温度影响较大,地下生物量受深层土壤水分和深层土壤温度影响较大;土壤温度对地上-地下生物量的影响强于土壤水分,表现为20 cm深度土壤温度对地上生物量(R=0.582,P<0.01)和根冠比(R=-0.238,P<0.05)影响较大,60 cm深度土壤温度对地下生物量影响较大(R=0.388,P<0.01),100 cm深度土壤水分对地上生物量(R=0.423,P<0.01)和地下生物量(R=0.245,P<0.05)影响较大,这说明增温导致浅层土壤温度对生物量分配产生影响,使生物量更多分配到地上部分,而冻土融化致使深层土壤水分对生物量产生影响。The Qinghai-Tibetan Plateau (QTP) is considered to be an ideal region in which to study the responses of terrestrial ecosystems to climate warming. Alpine meadows, a common ecosystem on the QTP, are extremely fragile and highly sensitive to increasing temperatures, and, once destroyed, are very unlikely to recover quickly, potentially leading to desertification of the site. It is therefore extremely important that we gain a full understanding of the changes in the floral communities of alpine meadows that will occur in response to climate warming on the QTP. In previous research, we established 20 experimental plots based on a randomized-block design in an alpine meadow on the QTP, which included five replicates of four treatments:control, warming alone, clipping alone, and interaction of warming and clipping. In the present study, we focused on the control and warming-alone plots and surveyed aboveground biomass (AGB), and belowground biomass (BGB) of vegetation in the 2012 and 2013 growing seasons (from May to September) in the two types of plots. The aim of this study was to examine the variations in biomass allocation and the relationship between biomass and environmental factors. The biomass indexes we focused on included AGB, BGB, and root-to-shoot ratio (RSR), with the environmental factors consisting of soil temperature and soil moisture at various depths (10, 20, 40, 60, and 100 cm). We found the followings. (1) The AGB, BGB, and RSR data fitted to normal distributions, where the frequency range of BGB was greater than that of RSR, which was in turn greater than that of AGB. Median and mean values of AGB, BGB, and RSR were all higher in the warming-alone treatment than in the control, where the increased amplitude of BGB with a coefficient of variation of 0.30 was larger than that of AGB (0.27). The coefficient of variation of RSR (0.33) was larger than that of both AGB and BGB in different treatments, illustrating that biomass variation resulted from the considerabl
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