Page 192 - 《广西植物》2023年第8期
P. 192
1 5 3 4 广 西 植 物 43 卷
relatedness and origin on competition intensity [J]. Am Natꎬ tree assemblages [J]. J Plant Ecolꎬ 10(1): 242-251.
177(5): 655-667. HUANG YYꎬ CHEN YXꎬ CASTRO ̄IZAGUIRRE Nꎬ et al.ꎬ
DU YJꎬ YANG Bꎬ CHEN SCꎬ et al.ꎬ 2019. Diverging shifts in 2018a. Impacts of species richness on productivity in a large ̄
spring phenology in response to biodiversity loss in a scale subtropical forest experiment [ J ]. Scienceꎬ
subtropical forest [J]. J Veg Sciꎬ 30(6): 1175-1183. 362(6410): 80-83.
EICHENBERG Dꎬ PIETSCH Kꎬ MEISTER Cꎬ et al.ꎬ HUANG YYꎬ MA YLꎬ ZHAO Kꎬ et al.ꎬ 2017. Positive effects
2017. The effect of microclimate on wood decay is indirectly of tree species diversity on litterfall quantity and quality
altered by tree species diversity in a litterbag study [J]. J along a secondary successional chronosequence in a
Plant Ecolꎬ 10(1): 170-178. subtropical forest [J]. J Plant Ecolꎬ 10(1): 28-35.
EICHENBERG Dꎬ TROGISCH Sꎬ HUANG YYꎬ et al.ꎬ HUANG YYꎬ MA KPꎬ NIKLAUS PAꎬ et al.ꎬ 2018b. Leaf ̄litter
2015. Shifts in community leaf functional traits are related to overyielding in a forest biodiversity experiment in subtropical
litter decomposition along a secondary forest succession series China [J]. For Ecosystꎬ 5: 38.
in subtropical China [J]. J Plant Ecolꎬ 8(4): 401-410. JIA Yꎬ LIU Zꎬ ZHOU Lꎬ et al.ꎬ 2022. Soil organic carbon
FICHTNER Aꎬ HARDTLE Wꎬ BRUELHEIDE Hꎬ et al.ꎬ sourcing variance in the rhizosphere vs. non ̄rhizosphere of
2018. Neighbourhood interactions drive overyielding in two mycorrhizal tree species [ J ]. Soil Biol Biochemꎬ
mixed ̄species tree communities [ J ]. Nat Communꎬ 176: 108884.
9: 1144. JIA YFꎬ ZHAI GQꎬ ZHU SSꎬ et al.ꎬ 2021. Plant and microbial
FICHTNER Aꎬ SCHNABEL Fꎬ BRUELHEIDE Hꎬ et al.ꎬ pathways driving plant diversity effects on soil carbon
2020. Neighbourhood diversity mitigates drought impacts on accumulation in subtropical forest [J]. Soil Biol Biochemꎬ
tree growth [J]. J Ecolꎬ 108(3): 865-875. 161: 108375.
FOREST Fꎬ GRENYER Rꎬ ROUGET Mꎬ et al.ꎬ 2007. KRÖBER Wꎬ LI Yꎬ HAERDTLE Wꎬ et al.ꎬ 2015. Early
Preserving the evolutionary potential of floras in biodiversity subtropical forest growth is driven by community mean trait
hotspots [J]. Natureꎬ 445(7129): 757-760. values and functional diversity rather than the abiotic
FORNOFF Fꎬ KLEIN AMꎬ BLUTHGEN Nꎬ et al.ꎬ 2019. Tree environment [J]. Ecol Evolꎬ 5(17): 3541-3556.
diversity increases robustness of multi ̄trophic interactions KUNZ Mꎬ FICHTNER Aꎬ HARDTLE Wꎬ et al.ꎬ 2019. Neighbour
[J]. P Roy Soc B ̄Biol Sciꎬ 286(1898): 20182399. species richness and local structural variability modulate
FORRESTER Dꎬ RODENFELS Pꎬ HAASE Jꎬ et al.ꎬ 2019. aboveground allocation patterns and crown morphology of
Tree ̄species interactions increase light absorption and growth individual trees [J]. Ecol Lettꎬ 22(12): 2130-2140.
in Chinese subtropical mixed ̄species plantations [ J ]. LANG ACꎬ HARDTLE Wꎬ BARUFFOL Mꎬ et al.ꎬ 2012.
Oecologiaꎬ 191(2): 421-432. Mechanisms promoting tree species co ̄existence:
GAN Hꎬ LI Xꎬ WANG Yꎬ et al.ꎬ 2022. Plants play stronger Experimental evidence with saplings of subtropical forest
effects on soil fungal than bacterial communities and co ̄ ecosystems of China [J]. J Veg Sciꎬ 23(5): 837-846.
occurrence network structures in a subtropical tree diversity LANG ACꎬ VON OHEIMB Gꎬ SCHERER ̄LORENZEN Mꎬ et
experiment [J]. Microbiol Spectrumꎬ 10(3): e0013422. al.ꎬ 2014. Mixed afforestation of young subtropical trees
GAO Cꎬ SHI NNꎬ LIU YXꎬ et al.ꎬ 2013. Host plant genus ̄level promotes nitrogen acquisition and retention [ J]. J Appl
diversity is the best predictor of ectomycorrhizal fungal Ecolꎬ 51(1): 224-233.
diversity in a Chinese subtropical forest [ J]. Mol Ecolꎬ LANKAU RAꎬ 2011. Rapid evolutionary change and the
22(12): 3403-3414. coexistence of species [J]. Ann Rev Ecol Evol Systꎬ 42(1):
GAO Cꎬ ZHANG Yꎬ SHI NNꎬ et al.ꎬ 2015. Community 335-354.
assembly of ectomycorrhizal fungi along a subtropical LI SSꎬ TONG YWꎬ WANG ZWꎬ 2017a. Species and genetic
secondary forest succession [ J]. New Phytolꎬ 205 ( 2): diversity affect leaf litter decomposition in subtropical
771-785. broadleaved forest in southern China [ J]. J Plant Ecolꎬ
GEISSLER Cꎬ KÜHN Pꎬ BÖHNKE Mꎬ et al.ꎬ 2012. Splash 10(1): 232-241.
erosion potential under tree canopies in subtropical SE China LI Yꎬ BRUEHEIDE Hꎬ SCHOLTEN Tꎬ et al.ꎬ 2019. Early
[J]. Catenaꎬ 91: 85-93. positive effects of tree species richness on soil organic carbon
GOEBES Pꎬ BRUELHEIDE Hꎬ HARDTLE Wꎬ et al.ꎬ accumulation in a large ̄scale forest biodiversity experiment
2015a. Species ̄specific effects on throughfall kinetic energy [J]. J Plant Ecolꎬ 12(5): 882-893.
in subtropical forest plantations are related to leaf traits and LI Yꎬ HARDTLE Wꎬ BRUELHEIDE Hꎬ et al.ꎬ 2014. Site and
tree architecture [J]. PLoS ONEꎬ 10(6): e128084. neighborhood effects on growth of tree saplings in subtropical
GOEBES Pꎬ SEITZ Sꎬ KUEHN Pꎬ et al.ꎬ 2015b. Throughfall plantations (China) [J]. For Ecol Managꎬ 327: 118-127.
kinetic energy in young subtropical forests: Investigation on LI Yꎬ KRÖBER Wꎬ BRUELHEIDE Hꎬ et al.ꎬ 2017b. Crown
tree species richness effects and spatial variability [J]. Agric and leaf traits as predictors of subtropical tree sapling growth
For Meteorolꎬ 213: 148-159. rates [J]. J Plant Ecolꎬ 10(1): 136-145.
HAHN CZꎬ MICHALSKI SGꎬ FISCHER Mꎬ et al.ꎬ 2017a. LIU Mꎬ XU XLꎬ YANG Bꎬ et al.ꎬ 2022a. Niche partitioning in
Genetic diversity and differentiation follow secondary nitrogen uptake among subtropical tree species enhances
succession in a multi ̄species study on woody plants from biomass production [J]. Sci Total Environꎬ 823: 153716.
subtropical China [J]. J Plant Ecolꎬ 10(1): 213-221. LIU Xꎬ HUANG Yꎬ CHEN Lꎬ et al.ꎬ 2022b. Species richnessꎬ
HAHN CZꎬ NIKLAUS PAꎬ BRUELHEIDE Hꎬ et al.ꎬ functional traits and climate interactively affect tree survival
2017b. Opposing intraspecific vs. interspecific diversity in a large forest biodiversity experiment [ J ]. J Ecolꎬ
effects on herbivory and growth in subtropical experimental 110(10): 2522-2531.
