龙竹人工林的含水率分析及地上生物量回归模型构建

Analysis of Moisture Content and Construction of Aboveground Biomass Regression Model for Dendrocalamus giganteus Plantation

  • 摘要: 以沧源县人工丛生龙竹林为研究对象,在前期对151株龙竹地上部分各器官生物量及各项生态指标测定基础上,分析龙竹地上部分各器官的生物量配比及含水率,构建龙竹地上部分各器官生物量幂函数回归模型。结果表明:随着龙竹龄级的增加,Ⅰ到Ⅲ龄级各器官含水率逐渐下降,单株地上部分平均含水率分别为75.01%、49.35%、47.97%,Ⅰ龄级龙竹杆含水率显著最高于Ⅱ和Ⅲ龄级;Ⅰ到Ⅲ龄级龙竹的单株地上生物量平均值依次为16.50、31.36、37.64 kg/株;随着年龄的增长,枝和叶的生物量占比随之增加,杆生物量占比随之下降;各龄级龙竹胸径与杆生物量、枝生物量、叶生物量、地上总生物量有着良好的相关性且达到极显著水平,以胸径为自变量建立的各龄级地上生物量模型决定系数均在0.9以上,其中,Ⅱ和Ⅲ龄级枝和叶生物量模型决定系数相较偏低,均为0.7~0.8,但模型显著性均小于0.01。

     

    Abstract: Taken the artificial planting Dendrocalamus giganteus forest in Cangyuan County as the research object, based on the preliminary measurement of the biomass and various ecological indicators of 151 D. giganteus aboveground organs, the biomass ratio and water content of the aboveground organs of D. giganteus were analyzed. To construct a power function biomass regression model for the aboveground parts of D. giganteus. The results showed that with the increase of the age grade of D. giganteus, the water content of each organ in the Ⅰ to Ⅲ age grades gradually decreased. The average water content of the above-ground part of individual D. giganteus was 75.01%, 49.35%, and 47.97%, respectively. The water content of the stem of the Ⅰ age grade D. giganteus significantly higher than the Ⅱ and Ⅲ age grades; the average above-ground biomass of individual D. giganteus for Ⅰ to Ⅲ age grades was 16.50, 31.36, 37.64 kg/plant; with the increase of age, the proportion of twig and foliage biomass increases, and the proportion of stem biomass decreases; the diameter at breast height of each age grade of D. giganteus had a good correlation with stem biomass, twig biomass, foliage biomass, and total above ground biomass, and it is extremely significant. The determination coefficients of the aboveground biomass models for each age grades established with the diameter at breast height as the independent variable were all above 0.9. Among them, the determination coefficients of the twig and foliage biomass models for the Ⅱ and Ⅲ age grades are relatively lowly, between 0.7 and 0.8. However, the model significance is less than 0.01.

     

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