兴安落叶松天然林单木高生长模型

doi:10.3969/j.issn.1000-2006.2013.02.031

国家林草科技领军期刊
中国精品科技期刊
中国高校百佳科技期刊
江苏省新闻出版政府奖期刊奖
RCCSE林学权威期刊（A+）
CSCD核心期刊
Scopus数据库收录期刊
中文核心期刊
SCD核心期刊

作者加群：102861116

微信公众号：南京林业大学学报

高级检索

南京林业大学学报（自然科学版） ›› 2013, Vol. 37 ›› Issue (02): 169-172.doi: 10.3969/j.issn.1000-2006.2013.02.031

兴安落叶松天然林单木高生长模型

马利强¹,玉宝²,王立明³,张秋良^4*

1.中国林业科学研究院森林生态环境与保护研究所,北京 100091;
2.国家林业局管理干部学院,北京 102600; 3.中国人民武装警察部队警种指挥学院,北京 102202;
4.内蒙古农业大学林学院,内蒙古呼和浩特 010019

出版日期:2013-04-18 发布日期:2013-04-18
基金资助:
收稿日期:2012-08-11 修回日期:2012-11-16
基金项目:国家自然科学基金项目(31070566); “十二五”国家科技支撑计划(2012BAD22B0204)
第一作者:马利强,副教授,博士。*通信作者:张秋良,教授,博士。E-mail: zqlemail@vip.sina.com。
引文格式:马利强,玉宝,王立明,等. 兴安落叶松天然林单木高生长模型[J]. 南京林业大学学报:自然科学版,2013,37(2):169-172.

Single tree height growth models of Larix gmelinii natural forest

MA Liqiang¹,YU Bao²,WANG Liming³,ZHANG Qiuliang^4*

1.The Research Institute of Forest Ecology, Environment and Protection, The Chinese Academy of Forestry, Beijing 100091, China;
2.State Academy of Forestry Administration, Beijing 102600, China;
3.Command College of Armed Police Forces Kinds of China, Beijing 102202, China;
4.College of Forestry, Inner Mongolia Agricultural University, Huhhot 010019, China

Online:2013-04-18 Published:2013-04-18

摘要/Abstract

摘要： 根据31株解析木数据,利用Logistic方程和4参数的Richards方程拟合了兴安落叶松天然林优势木、平均木和被压木高生长模型,经检验,模型均在0.01水平上显著。对林木年龄(A)、胸径(D)、树高(H)、活枝下高(h₁)、死枝下高(h₂)进行相关性分析后,发现D、H、h₁、h₂等在0.01水平上有显著正相关,所拟合的活枝下高和死枝下高的模型在0.01水平上显著。研究表明:Logistic方程较4参数的Richards方程对兴安落叶松高生长的拟合效果好,它们对优势木、平均木和被压木高生长拟合所得模型的R²分别为0.829、0.758、0.807和0.771、0.668、0.824。以Logistic方程对优势木和被压木的拟合效果较对平均木的好。对优势木高生长模型精度检验发现,实测值与理论值无显著差异(p>0.05)。

Abstract: According to the 31 analyzed trees, Logistic and four-parameter Richards equations were used to fit the height growth models of the dominating stems, the average stems and the overtopped stems of natural Larix gmelinii forests. All models were highly significant at 0.01 level. Correlations among the age(A), the DBH(D), the tree height(H), the live height under branches(h₁), the dead height under branches(h₂)were analyzed and verified that there was a significantly positive correlation among D, H, h₁ and h₂ at 0.01 level. Live height under branches and dead height under branches significantly fit the model at 0.01 level. Results indicated that Logistic equation was better than the four-parameter Richards equation when fitting the growth, logistic equation was evidenced by their corresponding model determinant coefficients R² of 0.829, 0.758, 0.807 for the dominating stem, the average stem and the overtopped stem respectively. In contrast, 0.771, 0.668, 0.824 were respectively derived by the four-parameter Richards equation. Obviously, two models were jointly well-performed when fitting the growth of the dominant trees and the overtopped trees compared to the average trees. After test, the measured values and the modeled values in terms of the growth of the dominant trees had statistically no significant difference(p>0.05), which indicated that the established models could be practical.

中图分类号:

S718

马利强,玉宝,王立明,等. 兴安落叶松天然林单木高生长模型[J]. 南京林业大学学报（自然科学版）, 2013, 37(02): 169-172.

MA Liqiang,YU Bao,WANG Liming,ZHANG Qiuliang. Single tree height growth models of Larix gmelinii natural forest[J].Journal of Nanjing Forestry University (Natural Science Edition), 2013, 37(02): 169-172.DOI: 10.3969/j.issn.1000-2006.2013.02.031.

参考文献

[1] Gadow K V, Hui G Y. Modeling Forest Growth and Thinning [M]. Goettin-gen:CuvillierVerlag, 1998.
[2] Sloboda B. Zur darstellung von waehstum sprozessen mit hilfe von differential gleiehungen erster ordnung[J].Mitteilungen der Baden-Wuerttembergisehen Forstliehen Versuehs-und Forsehungsanstalt,1971,32:1-109.
[3] 惠刚盈,盛炜彤.Sloboda树高生长模型及其在杉木人工林中的应用[J].林业科学研究,1996,9(1):37-40. Hui G Y, Sheng W T. Sloboda height growth model and its application on Chinese fir plantation [J]. Forest Research,1996,9(1):37-40.
[4] 王丽梅,潘辉,魏建文.Sloboda树高生长模型在火炬松人工林中的应用研究[J].北华大学学报:自然科学版,2004,5(2):159-161. Wang L M, Pan H, Wei J W.Application of Sloboda height growth model on Pinus taeda plantations[J].Journal of Beihua University:Natural Science,2004,5(2):159-161.
[5] 惠刚盈,张连金,胡艳波,等.Richards多形地位指数模型研建新方法—参数置换法[J].林业科学研究,2010,23(4):481-486. Hui G Y, Zhang L J, Hu Y B, et al. A new method for establishing richards polymorphic site index model:parameter replacement[J]. Forest Research, 2010,23(4):481-486.
[6] 刘平,马履一,贾黎明,等.油松人工林单木树高生长模型研究[J].林业资源管理,2008(5):50-56. Liu P, Ma L Y, Jia L M, et al. Study on individual tree height growth model for Pinus tabulaeformis plantation[J]. Forest Resources Management, 2008(5):50-56.
[7] 刘平,王玉涛,马履一,等.油松人工林林分生长过程动态预测及检验[J].东北林业大学学报,2010,38(1):40-43. Liu P, Wang Y T, Ma L Y, et al. Dynamic prediction and verification of growth process of Pinus tabulaeformis plantation in mountainous region of Beijing[J]. Journal of Northeast Forestry University, 2010,38(1):40-43.
[8] 邓红兵,郝占庆,王庆礼,等.红松单木高生长模型的研究[J].生态学杂志,1999,18(3):19-22. Deng H B, Hao Z Q, Wang Q L, et al. Study on height growth model of Pinus koraiensis[J]. Chinese Journal of Ecology, 1999,18(3):19-22.
[9] 蒋建屏,傅军,彭立平,等.天目山西部杉木多形地位指数表的编制[J].南京林业大学学报,1991,15(2):56-60. Jiang J P, Fu J, Peng L P, et al. Preparation of site-index table for Chinese fir in the west tianmu mountain area[J]. Journal of Nanjing Forestry University,1991,15(2):56-60.
[10] 张俊,孙玉军,许俊利.东北地区兴安落叶松人工林生长过程研究[J].西北林学院学报,2008,23(6):179-181. Zhang J, Sun Y J, Xu J L. Research on growing process of Larix gmelinii plantation in northeast of China[J].Journal of Northwest Forestry University, 2008,23(6):179-181.
[11] 罗辑,程根伟,杨忠,等.贡嘎山暗针叶林不同林型的优势木生长动态[J].植物生态学报,2000,24(1):22-26. Luo J, Cheng G W, Yang Z, et al. Growth dynamics of dominant tree species in dark coniferous forests on Gongga Mountain[J]. Acta Phytoecologica Sinica,,2000,24(1):22-26.
[12] 葛剑平,李景文,郭海燕.天然红松树木生长特征与林分结构的研究[J].东北林业大学学报,1992,20(2):9-16. Ge J P, Li J W, Guo H Y. Growth character of the tree and stand constitution in old growth korean pine forest[J]. Journal of Northeast Forestry University, 1992,20(2):9-16.
[13] 玉宝,乌吉斯古楞,王百田,等.兴安落叶松天然林树冠生长特性分析[J].林业科学,2010,46(5):41-48. Yu B,WU Jisiguleng, Wang B T, et al. Analysis of crown growth characteristics in natural Larix gmelinii forests[J]. Scientia Silvae Sinicae, 2010,46(5):41-48.
[14] 玉宝,乌吉斯古楞,王百田,等.大兴安岭兴安落叶松(Larix gmelinii)天然林分级木转换特征[J].生态学报,2008,28(11):5750-5757. Yu B,WU Jisiguleng, Wang B T, et al. Analysis on classified stem transformation characteristic of Larix gmelinii natural forest at Daxingan Mountains[J]. Acta Ecologica Sinica,2008,28(11):5750-5757.
[15] 代全林,陈存及,肖书平,等.茶秆竹高生长模型的比较及组合选择[J].福建林学院学报,2002,22(2):129-132. Dai Q L, Chen C J, Xiao S P, et al. The comparison and combined selection of height growth model for Pseudosasa amabilis McCl.[J]. Journal of Fujian College of Forestry, 2002,22(2):129-132.
[16] 姜立春,杜书立.基于非线性混合模型的东北兴安落叶松树高和直径生长模拟[J].林业科学研究,2012,25(1):11-16. Jiang L C,Du S L. Height and diameter growth modeling of dahurian larch based on nonlinear mixed model in northeastern China[J]. Forest Research, 2012,25(1):11-16.
[17] Fang Z, Bailey R L. Nonlinear mixed effects modeling for slash pine dominant height growth following intensive silvicultural treatments[J].Forest Science, 2001,14(3):287-300.
[18] Calegario N, Daniels R F, Maestri R, et al. Modeling dominant height growth based on nonlinear mixed-effects model:a clonal Eu-calyptus plantation case study[J]. Forest Ecology and Management, 2005,204:11-20.
[19] Nothdurft A, Kublin E, Lappi J. A non-linear hierarchical mixed model to describe tree height growth[J].European Journal Forest Research, 2006, 125:281-289.
[20] 李永慈,唐守正.用Mixed和Nlmixed过程建立混合生长模型[J].林业科学研究,2004,17(3):279-283. Li Y C, Tang S Z.Establishment of tree height growth model based on Mixed and Nlmixed of SAS[J].Forest Research,2004,17(3):279-283.
[21] 李春明,张会儒.利用非线性混合模型模拟杉木林优势木平均高[J].林业科学,2010,46(3):89-95. Li C M, Zhang H R.Modeling dominant height for chinese fir plantation using a nonlinear mixed-effects modeling approach[J]. Scientia Silvae Sinicae, 2010,46(3):89-95.

相关文章 15

[1]	丛明珠, 刘琪璟, 孙震, 董淳超, 钱尼澎. 长白山北坡植物群落β多样性及其组分驱动因素分析[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 99-106.
[2]	曹荔荔, 阮宏华, 李媛媛, 倪娟平, 王国兵, 曹国华, 沈彩芹, 徐亚明. 不同林龄水杉人工林地表大型土壤动物群落特征比较研究[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 91-98.
[3]	张怡婷, 夏念和, 林树燕, 丁雨龙. 我国寒竹属空间分布特征及影响因素[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 107-114.
[4]	胡衍平, 刘卫东, 张珉, 陈明皋, 程勇, 魏志恒, 庞文胜, 吴际友. 山乌桕家系叶片叶色参数和色素含量及其解剖结构研究[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 123-133.
[5]	王一洁, 王璐冕, 丁真慧, 钱程, 曹加杰. 城市滨水绿地空间夏季微气候效应研究[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 233-241.
[6]	赵国扬, 洪波, 高俊平, 赵鑫, 黄洪峰, 徐彦杰. 菊属新品种‘雀欢’[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 254-255.
[7]	任佳辉, 高捍东, 陈哲楠, 李浩, 刘强, 陈澎军. 杂交新美柳苗对盐涝胁迫的生长和生理响应[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 57-66.
[8]	董亚文, 陈双林, 谢燕燕, 郭子武, 张景润, 汪舍平, 徐勇敢. 林下植被演替过程中毛竹和主要优势树种叶片建成成本变化特征[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 179-186.
[9]	徐薪璐, 孔淑鑫, 吕卓, 江帅君, 赵婉琪, 林树燕. 靓竹叶色表型叶片形态、结构与光合特性相关性研究[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 145-154.
[10]	曹永慧, 陈庆标, 周本智, 葛晓改, 王小明. 不同截雨干旱时间对毛竹叶片氮含量时空分布的影响[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 155-161.
[11]	隋夕然, 李军, 陈娟, 华军, 沈谦, 杨洪胜, 何前程, 李由, 王伟, 彭冶, 葛之葳, 张增信. 徐州市侧柏人工林群落不同演替阶段物种多样性变化[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 171-178.
[12]	尹华康, 张晋东, 黄金燕, 蒲冠桦, 毛泽恩, 周材权, 黄耀华, 付励强. 四川马边大风顶自然保护区大熊猫主食竹空间分布特征[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 187-193.
[13]	孔凡斌, 金晨涛, 徐彩瑶. 罗霄山地区生态系统服务与居民福祉耦合协调关系变化及其影响因素[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 245-254.
[14]	龚霞, 吴银明, 王海峰, 曾攀, 唐亚, 温铿, 焦文献. 花椒新品种‘蜀椒1号’[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 265-266.
[15]	吴桐, 王贤荣, 伊贤贵, 周华近, 陈洁, 李蒙, 陈祥珍, 高书成. 樱花新品种‘胭脂雪’[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 267-268.

兴安落叶松天然林单木高生长模型

Single tree height growth models of Larix gmelinii natural forest

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

作者

读者

审稿