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3 期 刘颖等: 基于青冈和滇青冈生态位模拟的湿润和半湿润常绿阔叶林替代分布及气候解释 4 6 9
SONG YCꎬ 2016. Vegetation ecology [ M]. 2nd ed. Beijing: 理替代 分 布 种 解 剖 结 构 特 征 和 种 子 萌 发 特 性 研 究
Higher Education Press: 353-360. [宋永昌ꎬ 2016. 植被生 [D]. 兰州: 兰州大学.]
态学 [M]. 2 版. 北京: 高等教育出版社: 353-360.] ZENG JMꎬ 2018. The classification system of natural forests and
SONG YCꎬ CHEN XYꎬ WANG XHꎬ 2005. Study on evergreen its geographic distribution in Yunnan [ J]. J SW For Univ
broad ̄leaved forests of China: A retrospect and prospect (Nat Sci Ed)ꎬ 38(6): 1-18. [曾觉民ꎬ 2018. 云南自然森
[J]. J East Chin Norm Univ(Nat Sci Ed)ꎬ (1): 1-8. [宋 林分类系统及地理分布研究 [J]. 西南林业大学学报(自
永昌ꎬ 陈小勇ꎬ 王希华ꎬ 2005. 中国常绿阔叶林研究的回 然科学)ꎬ 38(6): 1-18.]
顾与展望 [J]. 华东师范大学学报(自然科学版)ꎬ (1): ZHENG WYꎬ CAO KFꎬ 2020. Impact of future climate change
1-8.] on potential geographical distribution of four Litsea species in
WANG TJꎬ 2004. Studies on kinshipsꎬ geographical replacement China [J]. Guihaiaꎬ 40(11): 1584-1594. [郑维艳ꎬ 曹坤
law and reasons of the six sand plants of Artemisia in northern 芳ꎬ 2020. 未来气候变化对四种木姜子地理分布的影响
China [D]. Huhhot: Inner Mongolia University. [王铁娟ꎬ [J]. 广西植物ꎬ 40(11): 1584-1594.]
2004. 中国北方六种沙蒿亲缘关系、替代分布规律与成因 ZHOU ZKꎬ 1992. Origin phylogeny and dispersal of Quercus
的研究 [D]. 呼和浩特: 内蒙古大学.] from China [J]. Acta Bot Yunnanꎬ 14(3): 227-236. [周浙
WANG XHꎬ KENT Mꎬ FANG XFꎬ 2007. Evergreen broad ̄ 昆ꎬ 1992. 中国栎属的起源演化及其扩散 [J]. 云南植物
leaved forest in Eastern China: Its ecology and conservation 研究ꎬ 14(3): 227-236.]
and the importance of resprouting in forest restoration ZHU Hꎬ 2019. Studies on the evergreen broad ̄leaved forests of
[J]. For Ecol Managꎬ 245(1-3): 76-87. Yunnanꎬ Southwestern China [J]. Bot Revꎬ 85(1): 1-20.
WEI SZꎬ TIE LHꎬ LIAO Jꎬ et al.ꎬ 2020. Nitrogen and ZHUANG HFꎬ ZHANG YBꎬ WANG Wꎬ et al.ꎬ 2018.
phosphorus co ̄addition stimulates soil respiration in a Optimized hot spot analysis for probability of species
subtropical evergreen broad ̄leaved forest [ J]. Plant Soilꎬ distribution under different spatial scales based on MaxEnt
450(10): 171-182. model: Manglietia insignis case [J]. Biodivers Sciꎬ 26(9):
WU ZYꎬ 1980. China vegetation [M]. Beijing: Science Press: 931-940. [庄鸿飞ꎬ 张殷波ꎬ 王伟ꎬ 等ꎬ 2018. 基于最大熵
306-355. [吴征镒ꎬ 1980. 中国植被 [M]. 北京: 科学出 模型的不同尺度物种分布概率优化热点分析: 以红色木
版社: 306-355.] 莲为例 [J]. 生物多样性ꎬ 26(9): 931-940.]
WU ZYꎬ ZHU YCꎬ 1987. Yunnan vegetation [ M]. Beijing: ZOU Sꎬ ZHANG QMꎬ ZHOU GYꎬ et al.ꎬ 2020. Functional
Science Press: 193-230. [吴征镒ꎬ 朱彦丞ꎬ 1987. 云南植 composition changes of a subtropical monsoon evergreen
被 [M]. 北京: 科学出版社: 193-230.] broad ̄leaved forest under environmental change [ J ].
YU MQꎬ 2015. The xylem anatomy and germination of Forestsꎬ 11(2): 191.
geographical substitute Garagana species [ D]. Lanzhou:
Lanzhou University. [于明茜ꎬ 2015. 锦鸡儿属植物典型地 (责任编辑 周翠鸣)