Spatial distribution pattern and correlation of dominant species in the arbor layer at a 25 hm2 forest plot in Lushan Mountain, China

doi:10.13287/j.1001-9332.202306.001

Abstract

Abstract: To explore the spatial pattern of zonal tree species in the subtropical subalpine mountain area on Lushan Mountain, a 25 hm² forest plot was established in Yangtianping area of Lushan Mountain following the technical specification of CTFS in 2021. We classified these species into evergreen conifer species, deciduous broad-leaved species and evergreen broad-leaved species based on their leaf shape and deciduous or not to analyze the spatial pattern of dominant species of different types by spatial point pattern method. The results showed that Pinus taiwanensis, Cornus kousa subsp. chinensis, Platycarya strobilacea, Castanea henryi, Quercus serrata, Cornus controversa, Eurya muricata, Litsea elongata, and Eurya hebeclados were dominant species. Among these species, P. taiwanensis was the constructive one. The spatial pattern of dominant species was clustered at a certain scale, and gradually became to randomly distribution with the increases of scales. Evergreen conifer species was independent with deci-duous broad-leaved species and evergreen broad-leaved species at small scales, but was negatively correlated with them at large scales. Deciduous broad-leaved species and evergreen broad-leaved species were obviously negatively correlated with each other. Deciduous broad-leaved species were positively correlated or independent with each other at small scales, but were negatively correlated with each other at large scales. Evergreen broad-leaved species were positively correlated at small scales, independent at medium scales, and negatively correlated with each other at large scales.

Key words: spatial point pattern, dominant species, heterogenous distribution, spatial correlation

WANG Jingxuan, ZHANG Jiaxin, XIANG Zeyu, ZHANG Zhaochen, XI Dan, WAN Huilin, PENG Yansong, ZHOU Saixia. Spatial distribution pattern and correlation of dominant species in the arbor layer at a 25 hm² forest plot in Lushan Mountain, China[J]. Chinese Journal of Applied Ecology, 2023, 34(6): 1491-1499.

References

[1] 朱教君, 刘世荣. 次生林概念与生态干扰度. 生态学杂志, 2007, 26(7): 1085-1093
[2] 朱教君. 次生林经营基础研究进展. 应用生态学报, 2002, 13(12): 1689-1694
[3] 李立, 陈建华, 任海保, 等. 古田山常绿阔叶林优势树种甜槠和木荷的空间格局分析. 植物生态学报, 2010, 34(3): 241-252
[4] 李林, 魏识广, 黄忠良, 等. 猫儿山优势种空间点格局和种间关系分析. 北京林业大学学报, 2012, 34(3): 15-19
[5] Ben-Said M. Spatial point-pattern analysis as a powerful tool in identifying pattern-process relationships in plant ecology: An updated review. Ecological Processes, 2021, 10: 56
[6] 张金屯. 植物种群空间分布的点格局分析. 植物生态学报, 1998, 22(4): 344-349
[7] 彭焱松, 张晓波, 桂忠明, 等. 庐山香果树毛竹混交林空间格局研究. 广西植物, 2013, 33(4): 502-507
[8] 梁艳艳, 周年兴, 谢慧玮, 等. 庐山森林景观格局变化的长期动态模拟. 生态学报, 2013, 33(24): 7807-7818
[9] 张金泉. 庐山植被的垂直分带. 华南师院学报: 自然科学版, 1982(1): 1-14
[10] 杨永川, 达良俊, 陈波. 天童米槠-木荷群落主要树种的结构及空间格局. 生态学报, 2006, 26(9): 2927-2938
[11] 霍萌萌, 郭东罡, 张婕, 等. 灵空山油松-辽东栎林乔木树种群落学特征及空间分布格局. 生态学报, 2014, 34(20): 5925-5935
[12] 舒兰, 刘兆刚, 董灵波. 帽儿山天然次生林内主要木本植物空间格局及更新特点. 应用生态学报, 2019, 30(6): 1945-1955
[13] 屹立, 王斌, 向悟生, 等. 广西弄岗北热带喀斯特季节性雨林监测样地种群空间点格局分析. 生物多样性, 2015, 23(2): 183-191
[14] Baddeley AJ, Rubak E, Turner TR. Analysing Spatial Point Patterns with R. Boca Raton, FL, USA: CRC Press, 2015
[15] Baddeley A, Turner R. Spatstat: An R package for analyzing spatial point patterns. Journal of Statistical Software, 2005, 12: 1-42
[16] Gabriel E. Spatial Point Patterns: Methodology and applications with R. Mathematical Geosciences, 2017, 49: 815-817
[17] Guan Y. Statistical analysis and modelling of spatial point patterns. Journal of the American Statistical Association, 2010, 105: 1281
[18] Wiegand T, Moloney KA. Rings, circles, and null-models for point pattern analysis in ecology. Oikos, 2004, 104: 209-229
[19] 周秋静, 赵常明, 王杨, 等. 神农架天然针阔混交林乔木更新的空间格局. 植物科学学报, 2019, 37(4): 454-463
[20] 池森, 王从军, 黎庆菊, 等. 喀斯特次生林幼树更新空间分布格局及种间关联性. 应用生态学报, 2020, 31(12): 3989-3996
[21] 姚杰, 宋子龙, 张春雨, 等. 距离和密度制约对吉林蛟河阔叶红松林幼苗生长的影响. 北京林业大学学报, 2019, 41(5): 108-117
[22] 顾荣, 张彩彩, 和正华, 等. 香格里拉普达措国家公园长苞冷杉种群空间分布格局及关联性. 生态学杂志, 2021, 40(12): 3860-3869
[23] 李聪, 高润梅, 石晓东, 等. 云杉华北落叶松幼苗幼树空间格局及其异质性. 森林与环境学报, 2022, 42(3): 279-288
[24] 张健, 郝占庆, 宋波, 等. 长白山阔叶红松林中红松与紫椴的空间分布格局及其关联性. 应用生态学报, 2007, 18(8): 1681-1687
[25] 兰国玉, 胡跃华, 曹敏, 等. 西双版纳热带森林动态监测样地——树种组成与空间分布格局. 植物生态学报, 2008, 32(2): 287-298
[26] 黄建辉. 物种多样性的空间格局及其形成机制初探. 生物多样性, 1994, 2(2): 103-107
[27] 邱婧, 韩安霞, 何春梅, 等. 秦岭优势乔木锐齿槲栎的空间分布格局及种内关联. 应用生态学报, 2022, 33(8): 2035-2042
[28] Schiffers K, Schurr FM. Dealing with virtual aggregation a new index for analyzing heterogeneous point patterns. Ecography, 2008, 31: 545-555
[29] 王鑫厅, 王殿杰, 李海兵, 等. 点格局研究过程中K-函数的累积效应. 应用生态学报, 2022, 33(5): 1275-1282
[30] 李丽, 惠淑荣, 惠刚盈, 等. 不同起测径对判定林木空间分布格局影响的研究. 林业科学研究, 2007, 20(3): 334-337
[31] 胡美娟, 侯国林, 周年兴, 等. 庐山森林景观空间分布格局及多尺度特征. 生态学报, 2015, 35(16): 5294-5305
[32] 刘旻霞, 连依明, 李文. 微地形对优势种群点格局和关联性的影响. 应用生态学报, 2018, 29(5): 1569-1575
[33] 徐钧杰, 陈旭, 刘宗悦, 等. 天目山常绿阔叶林土壤养分的空间异质性与植物组成之间的关系. 浙江林业科技, 2022, 42(3): 33-41
[34] 梁宇, 贺红士, 胡远满, 等. 空间异质性对样地数据空间外推的影响. 应用生态学报, 2012, 23(1): 185-192

Spatial distribution pattern and correlation of dominant species in the arbor layer at a 25 hm² forest plot in Lushan Mountain, China

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