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[1]夏富才,赵秀海,潘春芳,等.长白山阔叶红松林林分空间结构[J].应用与环境生物学报,2010,16(04):529-534.[doi:10.3724/SP.J.1145.2010.00529]
 XIA Fucai,ZHAO Xiuhai,PAN Chunfang,et al.Stand Structure of Broad-leaved and Korean Pine (Pinus koraiensis) Mixed Forest in the Changbai Mountains, China[J].Chinese Journal of Applied & Environmental Biology,2010,16(04):529-534.[doi:10.3724/SP.J.1145.2010.00529]
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长白山阔叶红松林林分空间结构()
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《应用与环境生物学报》[ISSN:1006-687X/CN:51-1482/Q]

卷:
16卷
期数:
2010年04期
页码:
529-534
栏目:
研究论文
出版日期:
2010-08-25

文章信息/Info

Title:
Stand Structure of Broad-leaved and Korean Pine (Pinus koraiensis) Mixed Forest in the Changbai Mountains, China
作者:
夏富才赵秀海潘春芳贾玉珍汪金松
(1北京林业大学省部共建森林培育与保护教育部重点实验室 北京 100083)
(2北华大学林学院 吉林 132013)
Author(s):
XIA Fucai ZHAO Xiuhai PAN Chunfang JIA Yuzhen WANG Jinsong
(1Key Laboratory for Silviculture and Conservation of Ministry of Education, Beijing Forestry University, Beijing 100083, China)
(2Forestry College of Beihua University, Jilin 132013, Jilin, China)
关键词:
林分结构阔叶红松林混交度大小比数角尺度长白山
Keywords:
stand structure broad-leaved and Korean pine mixed forest mingling neighborhood comparison angel index Changbai Mountains
分类号:
S718.45 (23)
DOI:
10.3724/SP.J.1145.2010.00529
文献标志码:
A
摘要:
在长白山北坡自然保护区内,建立面积为1 hm2的阔叶红松林永久标准样地,对胸径1 cm以上的每株树木进行定位监测,用空间结构参数——混交度、大小比数和角尺度分析该林分的空间结构. 结果表明:该林分树木个体总体上处于中度混交水平,处于乔木上层和中层的树种混交度以强度混交和完全混交为主,明显高于乔木下层树种的混交度;基于胸径计算的大小比数和基于树高计算的大小比数的结果基本一致,都能客观反映该林分在垂直方向上的分化;树木个体整体分布格局与树木大小密切相关,当树木个体起测径阶1 cm≤DBH<6 cm时,林分呈聚集分布的格局,当起测径阶DBH>6 cm时,林分呈随机分布的格局. 图1 表4 参25
Abstract:
A 1 hm2 broad-leaved & Korean pine (Pinus koraiensis) mixed forest plot was established in the Changbai Mountains, China in the period of 2006~2007. All the trees in the plot with DBH≥1 cm were positioned and monitored. The spatial structure parameters, mingling, angel index, and neighborhood comparison, were applied to describe the spatial structure of this stand. The results showed: 1) the mingling intensity of all trees was middling, and the mingling intensities of trees situated on the upper and middle storey were intensive and most intensive, which were more intensive than those mainly situated on the lower storey; 2) neighborhood comparison calculated based on DBH was almost the same as that based on height, both of which could reflect the differentiation of the stand vertically; 3) the overall distribution pattern was closely related to the minimum measured diameter (DBH), if 1 cm≤DBH<6 cm, the distribution pattern of all trees was aggregated, while if DBH≥6 cm, the distribution pattern was random. Tab 1, Fig 4, Ref 25

参考文献/References:

1 Kimmins JP. Forest Ecology. New York, USA: Macmillan Inc., 1996
2 Waltz AT, Fulé PZ, Covington WW, Moore MM. Diversity in ponderosa pine forest structure following ecological restoration treatments. For Sci, 2003, 49 (6): 885~900
3 Youngblood A, Max T, Coe K. Stand structure in eastside old-growth ponderosa pine forests of Oregon and northern California. For Ecol & Manage, 2004, 199 (2): 191~217
4 Nakashizuka T. Species coexistence in temperate, mixed deciduous forests. Trends Ecol Evol, 2001, 16 (4): 205~210
5 Suzanne B. The role of spatial pattern in controlling forest dynamics. Colorado State University, Fort Collins, Colorado, Spring, 2005
6 惠刚盈, 克劳斯, 冯佳多. 森林空间结构量化分析方法. 北京: 中国科学技术出版社, 2003
7 Stone JN, Porter JL. Proceedings of a Workshop on Structure, Process, and Diversity in Successional Forests of Coastal British Columbia, Victoria, British Columbia. Northwest Science, 1998, 72 (S2): 25~26
8 Hui GY (慧刚盈), Li L (李丽), Zhao ZH (赵中华), Dang PX (党普兴). The comparison of methods in analysis of the tree spatial distribution pattern. Acta Ecol Sin (生态学报), 2007, 27 (11): 4717~4729
9 Hu YB (胡艳波), Hui GY (惠刚盈), Qi JZ (戚继忠). Analysis of the spatial structure of natural Korean pine broad leaved forest. For Res, 2003, 16 (5): 523~530
10 Yang X, Xu M. Biodiversity conservation in Changbai Mountain Biosphere Reserve, northeastern China: State, problem, and strategy. Biodiv Conserv, 2003, 12 (5): 883~903
11 Sun ZW (孙中伟), Zhao SD (赵士洞). Community features of Tilia-Korean pine forest on northern slope of Changbai Mountains. Chin J Ecol (生态学杂志), 1995, 14 (5): 26~30
12 Sun ZW (孙中伟), Zhao SD (赵士洞). Interspecific association and correlation of lime-broad leaved Korean pine forest on the northern slope of Changbai Mountain. Chin J Appl Ecol (应用生态学报), 1997, 8 (2): 119~122
13 Zhang CY (张春雨), Zhao XH (赵秀海), Wang XY (王新怡). Spatial pattern and canopy structure of Korean pine broadleaved forests in Changbaishan Mountains. J Beijing For Univ (北京林业大学), 2006, 28 (S2): 45~52
14 Hao ZQ, Zhang J, Song B, Ye J, Li BH. Vertical structure and spatial associations of dominant tree species in an old-growth temperate forest. For Ecol & Manage, 2007, 252 (1): 1~11
15 Cheng BR (程伯容) , Xu GS (许广山) , Ding GF (丁桂芳). Litter fall and its nutrient content of dominant types of forest ecosystem in Changbai Mountain. For Ecosyst Res (森林生态系统研究), 1984, 4: 19~ 24
16 Xu H (徐海), Hui GY (惠刚盈), Hu YB (胡艳波), Li CS (李储山), Lin TX (林天喜), Zhang XL (张显龙), Wu XJ(吴相菊). Analysis of spatial distribution characteristics of trees with different diameter classes in natural Korean pine broad leaved Forest. For Res (林业科学研究), 2006, 19 (6): 687~691
17 Salas C, LeMay V, Núńez P, Pacheco P, Espinosa A. Spatial patterns in an old-growth Nothofagus obliqua forest in south-central Chile. For Ecol & Manage, 2006, 231 (1): 38~46
18 Condit R, Ashton PS, Baker P, Bunyavejchewin S, Gunatilleke S, Gunatilleke N, Hubbell SP,Foster RB, Itoh A, LaFrankie JV, Lee HS, Losos E, Manokaran N, Sukumar R, Yamakura T. Spatial patterns in the distribution of tropical tree species. Science, 2000, 288 (5470): 1414~1418
19 Kenkel NC. Pattern of self-thinning in jack pine: Testing the random mortality hypothesis. Ecology, 1988, 69 (4): 1017~1024
20 He FL, Duncan RP. Density-dependent effects on tree survival in an old-growth Douglas fir forest. J Ecol, 2000, 88 (4): 676~688
21 Boyden S, Binkley D, Shepperd W. Spatial and temporal patterns in structure, regeneration, and mortality of an old-growth ponderosa pine forest in the Colorado Front Range. For Ecol & Manage, 2005, 219 (1): 43~55
22 Chapin FS, McGraw JB, Shaver GR. Competition causes regular spacing of alder in Alaskan shrub tundra. Oecologia, 1989, 79 (3): 412~416
23 Chapin FS, Walker LR, Fastie CL, Sharman LC. Mechanisms of primary succession following deglaciation at Glacier Bay, Alaska. Ecol Monogr, 1994, 64 (2): 149~175
24 Hubbell SP. The Unified Neutral Theory of Biodiversity and Biogeography. Princeton, USA: Princeton University Press, 2001
25 Hui GY (惠刚盈), Hu YB (胡艳波), Zhao ZH (赵中华). Further discussion on “structure-based forest management”. World For Res, 2009, 22 (1): 14~19

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备注/Memo

备注/Memo:
“十一五”国家科技支撑计划项目(No. 2008BADB0B0503)资助 Supported by the National “11th Five-year Plan” Science & Technology Pillar Program of China (No. 2008BADB0B0503)
更新日期/Last Update: 2010-08-25