辽东山区落叶松人工林生态系统碳通量及对气候变化的响应

Carbon Flux and Climate Change Response of Larix olgensis Plantation Ecosystem in Eastern Liaoning Mountainous Area

  • 摘要: 依托冰砬山森林生态系统国家定位观测研究站长白落叶松人工林固定样地的气候、土壤、林分生长等长期定位观测数据,对Forest-DNDC模型进行了参数率定,运用参数率定模型模拟了辽东山区长白落叶松人工林生态系统碳通量的动态变化及其对气候变化的响应。结果表明:经参数率定后的Forest-DNDC模型对辽东山区落叶松人工林土壤呼吸速率的模拟结果与野外观测的实测值具有很好的一致性(R2=0.8657),模型模拟的数据偏差、线性吻合度较好,吻合变异能力决定系数为0.93;生态系统的年平均总初级生产力为13.234 t/hm2,自养呼吸释放碳量相当于生态系统碳输入的52.71%,异养呼吸占生态系统碳输入的15.63%,辽东山区落叶松人工林生态系统的净生产力为3.204 t /(hm2·a),相当于生态系统碳输入量的24.21%;未来3种气候变化情景下的区域落叶松人工林生态系统净初级生产力将降低15.03%~29.65%。模拟结果可为区域长白落叶松人工林的经营管理及其应对气候变化政策的制定提供参考。

     

    Abstract: In the present study, long-term observation data of climate, soil, forest growth of Larix olgensis plantation in Bingla Mountain Forest Ecosystem Research Station were used. The parameters of the Forest-DNDC model were calibrated. The dynamic change of carbon flux and its response to climate change in L. olgensis plantation in Eastern Liaoning mountainous area were simulated by parameter calibration model. The findings indicated that the simulation results of soil respiration of L. olgensis plantation in Eastern Liaoning mountainous area by the Forest-DNDC model after parameter calibration were in good consistency with the measured values in the field (R2=0.8657). The data deviation and linear fit of the model were good, and the coefficient of variation ability of the model was r2=0.93. The average annual gross primary productivity (GPP) of the ecosystem was 13.234 t/hm2. The amount of C released by autotrophic respiration was equivalent to 52.71% of the C input of ecosystem. The heterotrophic respiration accounted for 15.63% of the ecosystem C input. The net productivity (NEE) of L. olgensis plantation ecosystem in Eastern Liaoning mountainous area was 3.204 t /(hm2·a)and was equivalent to 24.21% of ecosystem C input. The NPP of L. olgensis plantation ecosystem in this region would decrease by 15.03%-29.65% under the 3 climate change scenarios. The simulation results can provide reference for the management of regional L. olgensis plantation and the formulation of climate change tackle policy.

     

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