硬头黄竹地上生物量分配特征及模型构建  被引量：10

作　　者：王路君 蔡春菊 唐晓鹿 范少辉 WANG Lujun;CAI Chunju;TANG Xiaolu;FAN Shaohui(International Center for Bamboo and Rattan,Key Laboratory of National Forestry and Grassland Administration/Beijing for Bamboo&Rattan Science and Technology,Beijing 100102,China;Bamboo Forest Ecosystem Observation and Research Station of Sichuan Changning,Yibin 644000,China;College of Ecological Environment,Chengdu University of Technology,Chengdu 610059,China)

机构地区：[1]国际竹藤中心国家林业和草原局/北京市共建竹藤科学与技术重点开放实验室,北京100102 [2]四川长宁竹林生态系统定位观测研究站,四川宜宾644000 [3]成都理工大学生态环境学院,四川成都610059

出　　处：《南京林业大学学报（自然科学版）》2021年第1期189-196,共8页Journal of Nanjing Forestry University：Natural Sciences Edition

基　　金：国家重点研发计划(2018YFD0600103)。

摘　　要：【目的】探究硬头黄竹不同龄级、径级地上生物量分配特征,建立全竹龄和不同竹龄地上单株及各器官生物量模型,准确估算硬头黄竹的林分生物量。【方法】选取了硬头黄竹全径级(1.0~7.0 cm)分布的1、2、3年生硬头黄竹各50株,测定各器官和总生物量。采用11种常用生物量模型,分别对硬头黄竹全竹龄和不同竹龄地上单株和各器官生物量进行拟合,筛选最优生物量拟合方程,并应用模型估算不同龄级、径级林分总生物量。【结果】硬头黄竹地上竹秆、竹枝、竹叶生物量占比分别为84.82%、10.84%、4.34%;不同龄级单位面积林分总生物量差异显著,竹龄为1、2、3 a竹生物量占比分别为31.92%、47.15%、20.93%;4.6~5.5 cm径级各器官和总生物量显著高于其他径级,占林分生物量的62.60%。11种生物量模型均可以较好地模拟硬头黄竹地上单株及各器官生物量;优选出全竹龄硬头黄竹地上单株和各器官生物量模型6个,不同竹龄的硬头黄竹地上单株和各器官生物量模型19个(1 a的6个、2 a的7个、3 a的6个)。【结论】硬头黄竹不同龄级、径级各器官生物量占比均为竹秆>竹枝>竹叶,林分生物量主要集中在2龄级、4.6~5.5 cm径级的竹株。全竹龄和不同竹龄地上单株与各器官生物量拟合模型中幂函数的拟合效果最优,其次是多项式函数和指数函数;地上单株与竹秆生物量模型拟合效果受胸径、株高的影响较大,竹枝、竹叶生物量模型拟合效果与胸径关系更密切。全竹龄硬头黄竹地上单株和竹秆生物量模型拟合效果均优于不同竹龄的模型,不同竹龄硬头黄竹地上竹枝、竹叶生物量模型拟合效果均优于全竹龄模型的。【Objective】We built biometric models to improve the estimation accuracy of aboveground biomass and its allocation patterns in Bambusa rigida for different ages,diameter classes and organs.【Method】After selecting B.rigida bamboo pure forests with similar topography,elevation,aspect and slope as the study case,the age and DBH of standing bamboo were investigated.A total of 150 B.rigida individuals(1 a,2 a,3 a)with full-diameter classes(1.0-7.0 cm)were selected,and the biomass of different organs and the total biomass were measured.Eleven types of biomass models were applied to model aboveground biomass for individual bamboos and for different organs of different ages of B.rigida.Taking DBH and height of bamboos,and their combined forms(D,D2,DH and D2H)as independent variables,the R software was used to run the biomass models.The coefficient of determination(R2),root mean square error(RMSE)and mean absolute error(MAE)were used to evaluate the models.Finally,the biomass models with the best statistical performances were selected to estimate the total biomass of different ages and diameter classes.【Result】The biomass of the culm,branch and leaves of B.rigida made up 84.82%,10.84%and 4.34%of the total individual bamboo biomass,respectively.Bamboos with a diameter class of 4.6-5.5 cm made up 62.60%of the stand biomass.All 11 types of biomass models can simulate the aboveground biomass of individual bamboo and organs.A total of 176 fitting equations were obtained,with R2 ranging from 0.480 to 0.975,the RMSE ranging from 0.027-0.769 kg,and the MAE ranging from 0.021-0.589 kg.Six models of the aboveground biomass of individual bamboos and organs of all age classes were selected,and 19 models of aboveground biomass of individual bamboos and organs of different age classes were selected(6 of 1 a,7 of 2 a,6 of 3 a).【Conclusion】The proportion of biomass of different organs in different ages and diameter classes of B.rigida was in the order of culm>branch>leaf.With the increase in age,the proportion of bamboo st

关 键 词：硬头黄竹 龄级 径级 分配特征 生物量模型 

分 类 号：S795[农业科学—林木遗传育种]