Characteristics of dominant tree species and their niches in the middle section of the Nanling Mountains with altitudinal gradient

Guo Hao; Zhao Houben; Gao Yibo; Feng Huifang; Zhou Guangyi; Li Zhaojia; BaoYin Manda; Pi Zhihao; Wang Xu

doi:10.11913/PSJ.2095-0837.24106

Plant Science Journal > 2024 > 42(5): 582-594. > DOI: 10.11913/PSJ.2095-0837.24106 CSTR: 32231.14.PSJ.2095-0837.24106

Guo H，Zhao HB，Gao YB，Feng HF，Zhou GY，Li ZJ，BaoYin MD，Pi ZH，Wang X. Characteristics of dominant tree species and their niches in the middle section of the Nanling Mountains with altitudinal gradient[J]. Plant Science Journal，2024，42（5）：582−594. DOI: 10.11913/PSJ.2095-0837.24106

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Characteristics of dominant tree species and their niches in the middle section of the Nanling Mountains with altitudinal gradient

Guo Hao^{1, 3,},
Zhao Houben^{2, 3},
Gao Yibo⁴,
Feng Huifang⁴,
Zhou Guangyi^{2, 3},
Li Zhaojia^{2, 3},
BaoYin Manda^{2, 3},
Pi Zhihao^{1, 3},
Wang Xu^{2, 3, ,}

1.
College of Forestry, Hainan University, Haikou 570228, China
2.
Research Institute of Tropical Forestry, Chinese Academy of Forestry, Guangzhou 510520, China
3.
Beijiangyuan National Forest Ecosystem Research Station, Nanling Mts, Guangzhou 510520, China
4.
Guangdong Forest Resources Conservation Center, Guangzhou 510130, China

More Information

Received Date: April 21, 2024
Accepted Date: August 21, 2024

Graphical Abstract

Abstract

Abstract

This study established 45 ecological monitoring plots in well-preserved natural forests within an altitudinal range of 400–1 800 m in the middle section of the Nanling Mountains. These plots were classified into four forest vegetation types based on elevation range and species composition. This study assessed the differences in dominant tree species and their niche characteristics along various altitudinal gradients by surveying key ecological niche parameters and evaluating the niche resource utilization hypothesis. Results indicated that: (1) Dominant species varied at different altitudes, with more pronounced differences in species composition observed at higher altitudinal differences; (2) In the evergreen broad-leaved dwarf forest at higher altitudes, dominant species exhibited a high degree of uniformity in resource requirements, accompanied by intense interspecific competition; (3) A weak positive correlation was found between the niche width of dominant species and their importance value, while a significant negative correlation was observed with the coefficient of variation of importance value. Although niche width was related to niche overlap and similarity, no clear pattern was established; (4) Species with higher importance values, larger niche widths, and smaller coefficients of variation included Castanopsis eyrei (Champ.) Tutch, Cyclobalanopsis glauca (Thunb.) Oerst, and Schima superba Gardn. et Champ., suggesting that these species are the primary constructive species in the middle section of the Nanling Mountains. These findings provide theoretical support for the sustainable management of forest ecosystems and the conservation of plant diversity in the middle section of the Nanling Mountains and beyond; (5) The division of resource utilization in forest stands at middle and low altitudes aligned more closely with the random niche boundary hypothesis in the resource utilization hypothesis of niche theory; in high-altitude areas, the resource utilization mode of forest stands conformed to the niche priority occupation hypothesis.
- Nanling Mountains,
- Niche characteristics,
- Resource competition,
- Niche hypothesis

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References

[1]	张忠华,梁士楚,胡刚. 桂林岩溶石山阴香群落主要种群生态位研究[J]. 林业科学研究,2009,22(1):63−68. Zhang ZH,Liang SC,Hu G. Niche characteristics of dominant populations in Cinnamomum burmannii community on karst hills of Guilin[J]. Forest Research,2009,22(1):63−68.
[2]	Grinnell J. The niche-relationships of the California thrasher[J]. Auk,1917,34(4):427−433. doi: 10.2307/4072271
[3]	孙红斌,甘先华,赵晴,李一凡,张卫强,等. 深圳田头山自然保护区森林群落优势种生态位特征[J]. 林业与环境科学,2022,38(1):75−86. Sun HB,Gan XH,Zhao Q,Li YF,Zhang WQ,et al. Niche characteristics of dominant species in forest community of Tiantoushan nature reserve in Shenzhen[J]. Forestry and Environmental Science,2022,38(1):75−86.
[4]	白晓航,张金屯. 小五台山森林群落优势种的生态位分析[J]. 应用生态学报,2017,28(12):3815−3826. Bai XH,Zhang JT. Niche analysis of dominant species of forest community in Xiaowutai Mountain,China[J]. Chinese Journal of Applied Ecology,2017,28(12):3815−3826.
[5]	李一凡,刘梦芸,甘先华,黄芳芳,张卫强. 深圳市坝光湿地园银叶树群落优势种生态位特征[J]. 生态环境学报,2020,29(11):2171−2178. Li YF,Liu MY,Gan XH,Huang FF,Zhang WQ. Niche characteristics of the dominant species of the Heritiera littoralis community in Baguang Wetland Park,Shenzhen[J]. Ecology and Environmental Sciences,2020,29(11):2171−2178.
[6]	杨新东,陈流保,曾献兴,谢冲林,黄清华,等. 广东翁源青云山自然保护区森林群落优势树种的生态位特征[J]. 热带亚热带植物学报,2020,28(6):565−573. Yang XD,Chen LB,Zeng XX,Xie CL,Huang QH,et al. Niche characteristics of dominant species of forest community in Qingyunshan Natural Reserve,Wengyuan,Guangdong Province[J]. Journal of Tropical and Subtropical Botany,2020,28(6):565−573.
[7]	杨磊. 生态位理论在森林群落内应用的探讨[J]. 黑龙江生态工程职业学院学报,2008,21(4):27−28.
[8]	卢炜丽,张洪江,陈奇伯,吴霖,栗宏林. 重庆四面山杉木林群落乔木层优势种群生态位特征研究[J]. 西北林学院学报,2016,31(2):60−65. Lu WL,Zhang HJ,Chen QB,Wu L,Li HL. Niche characteristics of the tree-layer dominant populations of Cunninghamia lanceolata forest in Chongqing Simian Mountains[J]. Journal of Northwest Forestry University,2016,31(2):60−65.
[9]	高伟,黄茂根,黄石德,吴兴盛,方栋龙,陈爱平. 濒危树种闽桦天然林优势种群生态位特征[J]. 植物科学学报,2023,41(5):613−625. Gao W,Huang MG,Huang SD,Wu XS,Fang DL,Chen AP. Niche characteristics of dominant populations in Betula fujianensis J. Zeng,Jian H. Li & Z. D. Chen natural forest[J]. Plant Science Journal,2023,41(5):613−625.
[10]	赵阳,曹家豪,李波,齐瑞,刘婷,等. 洮河自然保护区大峪沟林区紫果云杉群落木本植物种群生态位特征[J]. 生态学报,2022,42(5):1865−1875. Zhao Y,Cao JH,Li B,Qi R,Liu T,et al. Niche of woody plant populations of Picea purpurea community in Dayugou forest area,Taohe Nature Reserve,Gansu Province[J]. Acta Ecologica Sinica,2022,42(5):1865−1875.
[11]	张璐,苏志尧,陈北光,李镇魁. 广东石坑崆森林群落优势种群生态位宽度沿海拔梯度的变化[J]. 林业科学研究,2007,20(5):598−603. Zhang L,Su ZY,Chen BG,Li ZK. Variations in niche breadth of dominant plant populations along an altitudinal gradient in Shikengkong of Guangdong Province[J]. Forest Research,2007,20(5):598−603.
[12]	闫东锋,张妍妍,吕康婷,周梦丽,王婷,赵宁. 太行山南麓不同海拔梯度天然林优势树种生态位特征[J]. 生态环境学报,2021,30(8):1571−1580. Yan DF,Zhang YY,Lü KT,Zhou ML,Wang T,Zhao N. Niche characteristics of dominant tree species in natural forests at different altitudes in the south of Taihang Mountains[J]. Ecology and Environmental Sciences,2021,30(8):1571−1580.
[13]	Alarcón D,Cavieres LA. Relationships between ecological niche and expected shifts in elevation and latitude due to climate change in South American temperate forest plants[J]. J Biogeogr,2018,45(10):2272−2287. doi: 10.1111/jbi.13377
[14]	黄伟佳,刘春,刘岳,黄斌,李定强,袁再健. 南岭山地不同海拔土壤生态化学计量特征及影响因素[J]. 生态环境学报,2023,32(1):80−89. Huang WJ,Liu C,Liu Y,Huang B,Li DQ,Yuan ZJ. Soil ecological stoichiometry and its influencing factors at different elevations in Nanling Mountains[J]. Ecology and Environmental Sciences,2023,32(1):80−89.
[15]	黄斌,王泉泉,李定强,肖海兵,聂小东,等. 南岭山地土壤有机碳及组分海拔梯度变化特征[J]. 土壤通报,2022,53(2):374−383. Huang B,Wang QQ,Li DQ,Xiao HB,Nie XD,et al. Variation characteristics of organic carbon and fractions in soils along the altitude gradient in Nanling Mountains[J]. Chinese Journal of Soil Science,2022,53(2):374−383.
[16]	郭英荣,雷平,晏雨鸿,袁荣斌,吴淑玉,李剑萍. 江西武夷山黄岗山西北坡植物物种多样性沿海拔梯度的变化[J]. 生态学杂志,2015,34(11):3002−3008. Guo YR,Lei P,Yan YH,Yuan RB,Wu SY,Li JP. Plant species diversity changes along altitudinal gradient on the northwest slope of Huanggang Mountain of Jiangxi Wuyi Mountain[J]. Chinese Journal of Ecology,2015,34(11):3002−3008.
[17]	宗天韵,周玮莹,周平. 南岭山地1968到2015年降雨的时空变化特征研究[J]. 生态科学,2019,38(2):182−190. Zong TY,Zhou WY,Zhou P. Analysis of temporal and spatial variation of rainfall in 1968-2015 in Nanling[J]. Ecological Science,2019,38(2):182−190.
[18]	刘安世. 广东土壤[M]. 北京:科学出版社,1993:678.
[19]	张中峰,张璐,陈北光,谢正生. 南岭国家级自然保护区广东松群落优势种群生态位研究[J]. 华南农业大学学报,2006,27(2):74−77,103. Zhang ZF,Zhang L,Chen BG,Xie ZS. Niche characteristics of dominant populations in Pinus kwangtungensis forest in Nanling National Nature Reserve,Guangdong,China[J]. Journal of South China Agricultural University,2006,27(2):74−77,103.
[20]	温美丽,杨龙,王钧,付淑清,张玉玲,等. 南岭森林的土壤保持功能[J]. 林业与环境科学,2018,34(2):123−130. Wen ML,Yang L,Wang J,Fu SQ,Zhang YL,et al. Soil retention function of forests in Nanling Mountain[J]. Forestry and Environmental Science,2018,34(2):123−130.
[21]	李俊清. 森林生态学[M]. 北京:高等教育出版社,2006:45−60.
[22]	Hamilton WD. Ordering the phenomena of ecology:evolution in Changing Environments. Some Theoretical Explorations. Richard Levins. Princeton University Press,Princeton,N. J. ,1968. x + 120 pp. ,illus. $6.50. Monographs in Population Biology,No. 2.[J]. Science,1970,167(3924):1478−1480.
[23]	Colwell RK,Futuyma DJ. On the measurement of niche breadth and overlap[J]. Ecology,1971,52(4):567−576. doi: 10.2307/1934144
[24]	Pianka ER. The structure of lizard communities[J]. Annu Rev Ecol Syst,1973,4:53−74. doi: 10.1146/annurev.es.04.110173.000413
[25]	李锦婷,穆君,申开平,郭云,白小节,等. 小黄花茶群落优势木本植物生态位及种间联结性[J]. 生态学报,2024,44(1):283−294. Li JT,Mu J,Shen KP,Guo Y,Bai XJ,et al. Niche and interspecific association of dominant woody plants in Camellia luteoflora community[J]. Acta Ecologica Sinica,2024,44(1):283−294.
[26]	Boulangeat I,Lavergne S,van Es J,Garraud L,Thuiller W. Niche breadth,rarity and ecological characteristics within a regional flora spanning large environmental gradients[J]. J Biogeogr,2012,39(1):204−214. doi: 10.1111/j.1365-2699.2011.02581.x
[27]	陈俊华,刘兴良,何飞,刘世荣. 卧龙巴朗山川滇高山栎灌丛主要木本植物种群生态位特征[J]. 林业科学,2010,46(3):23−28. Chen JH,Liu XL,He F,Liu SR. Niche characteristics of dominant woody populations in Quercus aquifoliodes shrub community in Balangshan Mountain in Wolong Nature Reserve[J]. Scientia Silvae Sinicae,2010,46(3):23−28.
[28]	胡刚,庞庆玲,胡聪,徐超昊,张忠华. 中亚热带喀斯特森林树木功能型的生态位特征[J]. 林业科学,2024,60(1):1−11. Hu G,Pang QL,Hu C,Xu CH,Zhang ZH. Niche characterization of tree functional types in a central subtropical karst forest[J]. Scientia Silvae Sinicae,2024,60(1):1−11.
[29]	汪建华,周先容,尚进,江波,杨利平. 金佛山巴山榧树灌丛群落主要木本植物种群生态位特征[J]. 生态学杂志,2014,33(5):1135−1141. Wang JH,Zhou XR,Shang J,Jiang B,Yang LP. Niche characteristics of dominant woody plant populations in a Torreya fargesii shrub community in the Jinfo Mountains[J]. Chinese Journal of Ecology,2014,33(5):1135−1141.
[30]	丁少华,葛继稳,彭凤姣,李艳元,甘娟,等. 赛武当国家级自然保护区珍稀濒危植物生态位特征[J]. 中南林业科技大学学报,2018,38(12):70−75,82. Ding SH,Ge JW,Peng FJ,Li YY,Gan J,et al. Niche characteristics of rare and endangered plants in Saiwudang national nature reserve[J]. Journal of Central South University of Forestry & Technology,2018,38(12):70−75,82.
[31]	刘尧尧,辜彬,王丽. 北川震后植被恢复工程植物群落物种多样性及优势种生态位[J]. 生态学杂志,2019,38(2):309−320. Liu YY,Gu B,Wang L. Species diversity of plant community and the niche of dominant species in Beichuan after earthquake engineering[J]. Chinese Journal of Ecology,2019,38(2):309−320.
[32]	陈玉凯,杨琦,莫燕妮,杨小波,李东海,洪小江. 海南岛霸王岭国家重点保护植物的生态位研究[J]. 植物生态学报,2014,38(6):576−584. Chen YK,Yang Q,Mo YN,Yang XB,Li DH,Hong XJ. A study on the niches of the state’s key protected plants in Bawangling,Hainan Island[J]. Chinese Journal of Plant Ecology,2014,38(6):576−584.
[33]	杨龙,严令斌,安明态,徐钦,杨熳,袁冬梅. 基于生态位理论的毛竹-桫椤群丛物种竞争共存机制[J]. 应用生态学报,2023,34(8):2065−2072. Yang L,Yan LB,An MT,Xu Q,Yang M,Yuan DM. Competition and synergistic mechanisms of species in Phyllostachys edulis-Alsophila spinulosa association based on niche theory[J]. Chinese Journal of Applied Ecology,2023,34(8):2065−2072.
[34]	王旭,胡文强,李家湘,黄世能. 广东南岭石坑崆山顶矮林群落结构特征[J]. 浙江林业科技,2011,31(6):12−17. Wang X,Hu WQ,Li JX,Huang SN. Preliminary studies on montane elfin forest community characteristics in mountain Shikengkong of Nanling in Guangdong Province[J]. Journal of Zhejiang Forestry Science and Technology,2011,31(6):12−17.
[35]	Ralph CJ. Habitat association patterns of forest and steppe birds of northern Patagonia,Argentina[J]. Condor,1985,87(4):471−483. doi: 10.2307/1367943
[36]	刘开明,郑智,龚大洁. 物种丰富度的垂直分布格局及其形成机制[J]. 生态学杂志,2017,36(2):541−554. Liu KM,Zheng Z,Gong DJ. Elevational patterns of species richness and their underlying mechanism[J]. Chinese Journal of Ecology,2017,36(2):541−554.
[37]	许诺,林开敏,吴培培,许冠军,朱晗,何宗明. 杉木老龄林乔木层主要树种生态位研究[J]. 森林与环境学报,2017,37(3):330−335. Xu N,Lin KM,Wu PP,Xu GJ,Zhu H,He ZM. Niche of main species in the tree layer of old-growth Chinese fir forest[J]. Journal of Forest and Environment,2017,37(3):330−335.
[38]	陈志伟,伊贤贵,王贤荣,谢春平,南程慧,汪小飞. 黄山微毛樱群落主要种群生态位特征[J]. 南京林业大学学报(自然科学版),2014,38(S1):39−46. Chen ZW,Yi XG,Wang XR,Xie CP,Nan CH,Wang XF. Niche characteristics of dominant population of Cerasus clarofolia community in Huangshan Mountain[J]. Journal of Nanjing Forestry University (Natural Sciences Edition),2014,38(S1):39−46.
[39]	王霞,铁军,刘泽宇. 山西陵川南方红豆杉群落优势种生态位特征[J]. 生态科学,2017,36(5):64−72. Wang X,Tie J,Liu ZY. Niche characteristics of dominant plant species in Taxus chinensis var. mairei community of Lingchuan,in Shanxi[J]. Ecological Science,2017,36(5):64−72.
[40]	何江,徐来仙,艾训儒. 湖北七姊妹山亚热带常绿落叶阔叶混交林主要木本植物的生态位与种间联结[J]. 林业科学研究,2023,36(3):138−148. He J,Xu LX,Ai XR. Niche and interspecific association of main woody plants in the subtropical evergreen-deciduous broadleaved mixed forest in Qizimei Mountain,Hubei Province[J]. Forest Research,2023,36(3):138−148.
[41]	刘润红,常斌,荣春艳,姜勇,杨瑞岸,等. 漓江河岸带枫杨群落主要木本植物种群生态位[J]. 应用生态学报,2018,29(12):3917−3926. Liu RH,Chang B,Rong CY,Jiang Y,Yang RA,et al. Niche of main woody plant populations of Pterocarya stenoptera community in riparian zone of Lijiang River,China[J]. Chinese Journal of Applied Ecology,2018,29(12):3917−3926.
[42]	吴倩楠,董建文,郑宇,傅伟聪,李慧,等. 百里杜鹃国家森林公园优势种生态位研究[J]. 南京林业大学学报(自然科学版),2017,41(2):175−180. Wu QN,Dong JW,Zheng Y,Fu WC,Li H,et al. Niches of the main plant species in Baili Rhododendron National Forest Park[J]. Journal of Nanjing Forestry University (Natural Sciences Edition),2017,41(2):175−180.
[43]	徐卫,杨婷,李泽华,周平. 广东南岭植物群落物种多样性沿海拔梯度分布格局[J]. 林业与环境科学,2022,38(1):9−17. Xu W,Yang T,Li ZH,Zhou P. Distribution pattern of plant community species diversity along altitudinal gradients in Nanling Mountains,Guangdong[J]. Forestry and Environmental Science,2022,38(1):9−17.

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Characteristics of dominant tree species and their niches in the middle section of the Nanling Mountains with altitudinal gradient