日本落叶松枝条属性特征对气候变量的响应OA北大核心CSTPCDMEDLINE

We established a mixed-effects model incorporating climatic factors for the base diameter and length of the primary branches of Larix kaempferi using stepwise regression,based on climatic data from a total of 40 standard plots located in Xiaolongshan,Gansu Province,Changlinggang Forest Farm in Jianshi County,Hubei Province,and Dagujia Forest Farm in Qingyuan County,Liaoning Province,as well as the data from 120 L.kaempferi sample trees.Additionally,we created prediction charts for the fixed effects portion of the optimal mixed model to deter-mine the relationship between climatic factors and base diameter and branch length,to explore the differential re-sponse of L.kaempferi branches to climatic variables.The results showed that the base diameter mixing model with annual mean temperature and water vapor deficit and the branch length mixing model with annual mean temperature had the best fitting effect,with R2 of 0.6152 and 0.6823,respectively.Based on the fixed effects prediction chart of the mixed model,the overall basal diameter showed an increasing trend with the increases of relative branch depth.The average basal diameter size was in an order of young-aged plantation＜middle-aged plantation＜near mature plan-tation＜mature plantation.The lower the annual mean temperature,the larger the base diameter and length.The lar-ger the water vapor deficit value,the smaller the base diameter of the branches.Branch length was more sensitive to temperature compared with base diameter.In different developmental stages,the base diameter and branch length of mature plantation were the most sensitive to temperature,while the young plantation was the weakest.Among the rank trees,the base diameter and branch length of the dominant trees were the most sensitive to temperature,while the inferior trees were the weakest.Mixed effect model was more practical in tree modeling.Temperature and pre-cipitation could affect the growth of L.kaempferi.L.kaempferi would grow well in the environment with low tempera-ture and high humidity.