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    光合特性与长白山阔叶红松林主要树种凋落叶分解速率的关系

    Relationship between photosynthetic characteristics and litter decomposition rate of main tree species in Changbai Mountain broadleaved Korean pine forest of northeastern China

    • 摘要:
      目的 阐明长白山阔叶红松林乔木树种和灌木树种凋落叶分解之间的差异,探讨光合参数与植物凋落叶分解速率之间的关系,为揭示叶片经济学谱的普适性提供依据。
      方法 以19个乔木树种和11个灌木树种作为研究对象,采用网袋法做分解试验,2019年10月26日布设分解袋,2020年4月26日、6月26日、8月26日、10月26日回收分解袋;通过Olson负指数衰减模型拟合分解系数,使用Li-6400便携式光合测定仪测定原位活体叶片的光响应曲线,拟合光合参数,分析相关性,并进行回归分析。
      结果 (1)乔木树种中,红松分解系数最小(0.24),黄檗最大(1.05);灌木树种中,毛榛分解系数最小(0.52),瘤枝卫矛最大(1.63);灌木树种分解系数总体高于乔木树种(P = 0.003)。(2)光合参数表现为光饱和点处的净光合速率(Pn)、气孔导度(Gs)、叶片羧化速率(CE)、光饱和点(LSP)、最大净光合速率(Pmax)、光补偿点(LCP)、蒸腾速率(Tr)、气孔限制值(Ls)、暗呼吸速率(Rd)这9个光合参数的均值乔木树种高于灌木树种(P < 0.05),胞间CO2浓度(Ci)和水分利用效率(WUE)在乔灌木树种之间不存在显著差异(P > 0.05)。(3)乔灌木树种分解系数(k)与Pn、LSP、PmaxGs、CE、LCP呈显著负相关关系,与Rd无明显相关性;PnPmax存在多重共线性,逐步回归结果表明Pnk的解释和指示作用最强。
      结论 光照强度通过影响叶片形态以及养分含量进而影响凋落叶的分解速率,使得乔木树种虽然有更高的光合参数,但分解系数比灌木树种更低,即分解速率更慢,存在光照强度—叶片形态、养分含量—凋落叶分解速率的连通关系;PnGs、CE、LSP、Pmax、LCP基本符合叶经济学谱理论,Pn可以解释和预测叶凋落物的分解速率。

       

      Abstract:
      Objective This paper aims to elucidate the differences between leaf litter decomposition of tree and shrub species in the broadleaved Korean pine forest in Changbai Mountain of northeastern China, explore the relationship of photosynthetic parameters and the decomposition rate of leaf litter, and provide a basis for revealing the universality of leaf economic spectrum.
      Method Taking 19 tree and 11 shrub species as research objects, the litter bag method was used for the decomposition experiment. On April 26, June 26, August 26, and October 26, 2020, litter bags were carried out four times in turn. After recovery, the decomposition coefficient was calculated by fitting the Olson negative exponential decay model. At the same time, the light response curve of the in-situ living leaves was measured using the Li-6400 portable photosynthesis instrument, the photosynthetic parameters were fitted, the correlation was analyzed, and regression analysis was performed.
      Result (1) Among the arbor species, the decomposition coefficient of Pinus koraiensis was the smallest (0.24), versus the largest for Phellodendron amurense (1.05). The decomposition coefficients of shrub species were larger (or faster) than that of tree species (P = 0.003). Corylus mandshurica had the smallest decomposition coefficient (0.52), and Euonymus verrucosus had the largest (1.63); (2) The photosynthetic parameters were expressed as the net photosynthetic rate at the light saturation point (Pn), stomatal conductance (Gs), leaf carboxylation rate (CE), light saturation point (LSP), and the maximum net photosynthetic rate (Pmax), light compensation point (LCP), transpiration rate (Tr), stomatal limit value (Ls), dark respiration rate (Rd), the mean values of the 9 photosynthetic parameters of tree species were higher than those of shrub species (P < 0.05). There was no significant difference in CO2 concentration (Ci) and water use efficiency (WUE) between tree and shrub species (P > 0.05). (3) Decomposition coefficient (k) showed a significant negative correlation with all physiological properties of leaves, including Pn, LSP, Pmax, Gs, CE, LCP, but Rd had no significant correlation. There was multicollinearity between Pn and Pmax, and the stepwise regression showed that Pn had the strongest explanatory and indicative effect on k.
      Conclusion Light intensity affects the decomposition rate of leaf litter by affecting leaf morphology and nutrient content, resulting in tree species having higher photosynthetic parameters but lower decomposition coefficients than shrub species, i.e. slower decomposition rate. There is a connectivity relationship between light intensity, leaf morphology, nutrient content, and decomposition rate of leaf litter. Pn, Gs, CE, LSP, Pmax, LCP basically in line with pectral theory of leaf economics, Pn can explain and predict the decomposition rate of leaf litter.

       

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