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5 1 8                                 广  西  植  物                                         42 卷
   在响应ꎬ因此它们是指示南亚热带常绿阔叶林树                                172(3): 889-902.
                                                                                         13
                                                     GARTEN CTꎬ TAYLOR GEꎬ 1992. Foliar d C within a
   种响应环境的重要且有效的性状ꎮ
                                                        temperate deciduous forest: spatialꎬ temporalꎬ and species
                                                        sources of variation [J]. Oecologiaꎬ 90(1):1-7.
   参考文献:                                             GLEASON HAꎬ 1936. Is thesynusia an association? [ J ].
                                                        Ecologyꎬ 17(3):444-451.
                                                     HERNANDEZ ̄CALDERON     Eꎬ  MENDEZ ̄ALONZO    Rꎬ
   AKIHIRO Nꎬ ROGER Lꎬ KITCHING MCꎬ et al.ꎬ 2017. Forests
                                                        MARTINEZ ̄CRUZ Jꎬ et al.ꎬ 2014. Altitudinal changes in
     and their canopies: achievements and horizons in canopy
                                                        tree leaf and stem functional diversity in a semi ̄tropical
     science [J]. Trend Ecol Evolꎬ 32(6): 438-451.
                                                        mountain [J]. J Veg Sciꎬ 25(4): 955-966.
   ALPERT Pꎬ SIMMS ELꎬ 2002. The relative advantages of
                                                     IBANEZ Tꎬ HEQUET Vꎬ CHAMBREY Cꎬ et al.ꎬ 2017. How
     plasticity and fixity in different environments: when is it
                                                        does forest fragmentation affect tree communities? A critical
     good for a plant to adjust? [ J]. Evol Ecolꎬ 16 ( 3):
                                                        case study in the biodiversity hotspot of New Caledonia
     285-297.
                                                        [J]. Landscape Ecolꎬ 32: 1671-1687.
   AMUNDSON Rꎬ AUSTIN ATꎬ SCHUUR EAGꎬ et al.ꎬ
                                                     ICHIE Tꎬ INOUE Yꎬ TAKAHASHI Nꎬ et al.ꎬ 2016. Ecological
     2003. Global patterns of the isotopic composition of soil and
                                                        distribution of leaf stomata and trichomes among tree species
     plant nitrogen [J]. Glob Biogeochem Cycleꎬ 17(1): 1031.
                                                        in a Malaysian lowland tropical rain forest [J]. J Plant Resꎬ
   ANDERSON JTꎬ GEZON ZJꎬ 2015. Plasticity in functional
                                                        129(4): 625-635.
     traits in the context of climate change: a case study of the
                                                     KAO WYꎬ CHANG KWꎬ 2001. Altitudinal trends in
     subalpine forb Boechera stricta ( Brassicaceae) [ J]. Glob
                                                        photosynthetic rate and leaf characteristics of Miscanthus
     Change Biolꎬ 21(4): 1689-1703.
                                                        populations from central Taiwan [J]. Aust J Botꎬ 49(4):
   ANHUF Dꎬ ROLLENBECK Rꎬ 2001. Canopy structure of the
                                                        509-514.
     Rio Surumoni rain forest (Venezuela) and its influence on
                                                     KENZO Tꎬ INOUE Yꎬ YOSHIMURA Mꎬ et al.ꎬ 2015. Height ̄
     microclimate [J]. Ecotropicaꎬ 7(1-2):21-32.
                                                        related changes in leaf photosynthetic traits in diverse
   BAO Lꎬ 2009. Comparison and analysis of leaf functional traits
                                                        Bornean tropical rain forest trees [J]. Oecologiaꎬ 177(1):
     among main forest communities and dominant species
     [D]. Beijing: Beijing Forestry University. [宝乐ꎬ 2009. 东  191-202.
     灵山地区主要森林群落及其优势种叶功能性状比较与分                        KORNER Cꎬ 2007. The use of ‘altitude’ in ecological research
                                                        [J]. Trend Ecol Evolꎬ 22(11): 569-574.
     析 [D]. 北京: 北京林业大学.]
                                                     KORNER Cꎬ FARQUHAR GDꎬ ROKSANDIC Zꎬ 1988. A
   BAYTHAVONG BSꎬ STANTON MLꎬ 2010. Characterizing
                                                        global survey of carbon isotope discrimination in plants from
     selection on phenotypic plasticity in response to natural
                                                        high ̄altitude [J]. Oecologiaꎬ 74(4): 623-632.
     environmental heterogeneity [ J ]. Evolutionꎬ 64 ( 10 ):
                                                     KRUSKAL WHꎬ WALLIS WWꎬ 1952. Use of ranks in one ̄
     2904-2920.
                                                        criterion variance analysis [J]. J Am Stat Assocꎬ 47(260):
   CHAPIN FSꎬ 2003. Effects of plant traits on ecosystem and
                                                        583-621.
     regional processes: a conceptual framework for predicting the
     consequences of global change [ J]. Ann Botꎬ 91 ( 4):  LEGENDRE Pꎬ MI Xꎬ REN Hꎬ et al.ꎬ 2009. Partitioning beta
                                                        diversity in a subtropical broad ̄leaved forest of China
     455-463.
   CRAINE JMꎬ ELMORE AJꎬ AIDAR MPMꎬ et al.ꎬ 2009.       [J]. Ecologyꎬ 90(3): 663-674.
     Global patterns of foliar nitrogen isotopes and their  LI HWꎬ WANG XAꎬ GUO Hꎬ et al.ꎬ 2012. Leaf functional
     relationships with climateꎬ mycorrhizal fungiꎬ foliar nutrient  traits of different forest communities in Ziwuling Mountains of
                                                        Loess Plateau [J]. Chin J Ecolꎬ 31(3): 544-550. [李宏
     concentrationsꎬ and nitrogen availability [J]. New Phytolꎬ
     183(4): 980-992.                                   伟ꎬ 王孝安ꎬ 郭华ꎬ 等ꎬ 2012. 黄土高原子午岭不同森林
   CHEN HXꎬ LIU XRꎬ SUN TYꎬ et al.ꎬ 2011. Variation in leaf  群落叶功能性状 [J]. 生态学杂志ꎬ 31(3): 544-550.]
     C ∶ N ∶ P stoichiometry of quercus species along the  LIU YPꎬ LIU GFꎬ BAIYILA DFꎬ et al.ꎬ 2017. Effects of
     altitudinal gradient in Taibai mountainꎬ China [ J]. Acta  topographic factors on leaf traits of dominant species in
     Ecol Sinꎬ 2021ꎬ 41(11):1-10. [陈昊轩ꎬ 刘欣蕊ꎬ 孙天         different forest communities in Daqinggou nature reserves
     雨ꎬ 等ꎬ 2011. 太白山栎属树种叶片碳氮磷化学计量特征                     [J]. Sci Silv Sinꎬ 53(3): 154-162. [刘玉平ꎬ 刘贵峰ꎬ 达
     沿海拔梯度的变化规律 [J]. 生态学报ꎬ 41(11):1-10.]                福白乙拉ꎬ 等ꎬ 2017. 地形因子对大青沟自然保护区不同
   ENOKI Tꎬ ABE Aꎬ 2004. Saplings distribution in relation to  森林 群 落 叶 性 状 的 影 响 [ J]. 林 业 科 学ꎬ 53 ( 3):
     topography and canopy openness in an evergreen broad ̄  154-162.]
     leaved forest [J]. Plant Ecolꎬ 173(2): 283-291.  MCEWAN RWꎬ LIN YCꎬ SUN IFꎬet al.ꎬ 2011. Topographic
   FISHER JBꎬ MALHI Yꎬ TORRES ICꎬet al.ꎬ 2013. Nutrient  and biotic regulation of aboveground carbon storage in
     limitation in rainforests and cloud forests along a 3 000 m  subtropical broad ̄leaved forests of Taiwan [ J]. For Ecol
     elevation gradient in the Peruvian Andes [ J]. Oecologiaꎬ  Managꎬ 262(9): 1817-1825.
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