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海拔对新源野杏树体结构及枝叶功能性状的影响

Relationships between tree structures and functional traits of branches and leaves and altitude changes in Prunus armeniaca from Xinyuan

  • 摘要: 以伊犁哈萨克自治州新源县吐尔根乡杏花沟不同海拔的新疆野杏自然种群为研究对象,沿海拔11001700 m范围内保持沿海拔升高的连续性设置共12个样地,以每3个样地分布为梯度,分4级海拔研究了新疆野杏树体结构、当年生枝及叶功能性状与海拔变化的关系,探索其对海拔的适应性。结果表明:新疆野杏树体结构是12001350 m海拔分布的新疆野杏种群密度、胸径和冠幅最大,11001200 m海拔树体最高,各海拔的野杏林种群密度与冠幅呈极显著正相关,海拔对种群密度与胸径的的直接作用分别是最大与最小;随着海拔升高,野杏叶面积、叶长、叶宽、比叶面积逐渐减小,叶厚逐渐增大,13501550 m海拔的叶鲜与干质量最大,1200~1350m海拔叶绿素值最大,海拔梯度与叶长、叶宽呈极显著负相关,与叶厚呈极显著正相关,海拔对叶干质量的直接作用最大,不同海拔的叶功能性状有不同程度的变异;野杏当年生枝条是11001200 m海拔枝条最长,12001350 m海拔的枝条粗度和叶片数量最大,海拔变化与枝条长度呈极显著负相关,与叶片数量呈显著负相关,海拔对枝条长度的直接作用最大,枝条变异程度随海拔升高而增大。新疆野杏自然种群的树体结构,枝叶功能性状与海拔变化显著相关,群体生长功能性状变化指示了其对海拔环境变化的适应性。

     

    Abstract: The structures and function of woody plants and the rule of variation of their current-year branches and leaf traits with altitude changes are important contents to grasp the adaptability of vertical distribution. Taking the natural population of P. armeniaca at different altitudes in Xinghuagou, Tuergen Township, Xinyuan County, Yili Kazak Autonomous Prefecture as the research object, a total of 12 plots were set up along the elevation of 1100-1700 m, and the distribution of each 3 plots was used as a gradient. The relationship between the tree structures, current-year branches and leaf functional traits of P. armeniaca and altitude changes was studied in four gradients, and its adaptability to altitude changes was explored. The results indicated that : (1) The population density, DBH and crown width of P. armeniaca were the highest at 12001350 m altitude, and reached the peak of tree heights at 11001200 m altitude. The population density and crown width of P. armeniaca forests at different altitudes were significantly positively correlated, and the direct effects of altitude on stand density and DBH were the largest and smallest, respectively. (2) With the increase of altitude, the leaf area, leaf length, leaf width and specific leaf area of P. armeniaca decreased gradually, and the leaf thickness increased gradually. The fresh and dry weight of leaves at 13501550 m altitude was the largest, and the chlorophyll value at 12001350 m altitude was the largest. Each altitude gradient was significantly negatively correlated with leaf length and leaf width, and was significantly positively correlated with leaf thickness. The direct effect of altitude on leaf dry weight was the largest, and the leaf functional traits at different altitudes had different degrees of variation. (3) The current-year branches of P. armeniaca were the longest at 11001200 m altitude, and the branch thickness and leaf number were the largest at 12001350 m altitude. There was a significant negative correlation between altitude change and branch length, and a significant negative correlation with leaf number. Altitude had the greatest direct effect on branch length, and the degree of branch variation increased with altitude. The tree structure and branch and leaf functional traits of P. armeniaca's natural population were significantly correlated with altitude changes, and the changes of population's growth functional traits indicated its adaptability to different altitude environments.

     

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