Page 136 - 《广西植物》2025年第3期
P. 136

5 1 6                                  广  西  植  物                                         45 卷
               等ꎬ 2021. 气候变化下花榈木在我国的潜在分布区预测                      dominant dryland plant species to climate change in the
               [J]. 西北林学院学报ꎬ 36(6): 108-115.]                    Junggar Basinꎬ northwest China [J]. Ecology and Evolutionꎬ
            TAHERI Sꎬ NAIMI    Bꎬ RAHBEK   Cꎬ et  al.ꎬ 2021.     9(23): 13596-13607.
               Improvements in reports of species redistribution under  XIAO JHꎬ DING Xꎬ CAI CNꎬ et al.ꎬ 2021. Simulation of the
               climate change are required [J]. Science Advancesꎬ 7(15):  potential distribution of Phoebe bournei with climate changes
               eabe1110.                                         using the maximum ̄entropy ( MaxEnt) model [ J]. Acta
            THUILLER Wꎬ ALBERT Cꎬ ARAÚJO MBꎬ et al.ꎬ 2008.       Ecologica Sinicaꎬ 41(14): 5703-5712. [肖建华ꎬ 丁鑫ꎬ 蔡
               Predicting global  change  impacts  on  plant  species  超男ꎬ 等ꎬ 2021. 闽楠(Phoebe bourneiꎬ Lauraceae)地理分
               distributions: Future challenges [J]. Perspectives in Plant  布及 随 气 候 变 化 的 分 布 格 局 模 拟 [ J]. 生 态 学 报ꎬ
               Ecologyꎬ Evolution and Systematicsꎬ 9(3/ 4): 137-152.  41(14): 5703-5712.]
            TIAN Pꎬ LIU Yꎬ OU Jꎬ 2023. Meta ̄analysis of the impact of  XIE Dꎬ DU Hꎬ XU WHꎬ et al.ꎬ 2022. Effects of climate change
               future climate change on the area of woody plant habitats in  on richness distribution patterns of threatened conifers
               China [J]. Frontiers in Plant Scienceꎬ 14: 1139739.  endemic  to  China  [ J ].  Ecological  Indicatorsꎬ
            WOODWARD FIꎬ 1987. Climate and plant distribution    136(8): 108594.
               [M]. New York : Cambridge University Press.     XIE Dꎬ LIU XQꎬ CHEN YXꎬ et al.ꎬ 2021. Distribution and
            WU JGꎬ 2010a. Potential effects of climate change on the  conservation of threatened gymnosperms in China [ J ].
               distribution of seven protected plants in China [J]. Journal  Global Ecology and Conservationꎬ 32: e01915.
               of Wuhan Botanical Researchꎬ 28(4): 437-452. [吴建国ꎬ  XU YLꎬ PAN Jꎬ FENG Qꎬ 2016. Projection on future climate
               2010a. 气候变化对 7 种保护植物分布的潜在影响 [J]. 武                change in China: Constructing high resolution SRES climate
               汉植物学研究ꎬ 28(4): 437-452.]                          scenarios using PRECIS [M]. Beijing: Science Press. [许
            WU JGꎬ 2010b. Potential effects of climate change on the  吟隆ꎬ 潘婕ꎬ 冯强ꎬ 2016. 中国未来的气候变化预估: 应
               distributions of 5 plants in China [J]. Journal of Tropical  用 PRECIS 构建 SRES 高分辨率气候情景 [M]. 北京: 科
               and Subtropical Botanyꎬ 18 ( 5): 511 - 522. [ 吴 建 国ꎬ  学出版社.]
               2010b. 气候变化对 5 种植物分布的潜在影响 [J]. 热带               YU FYꎬ WANG TJꎬ GROEN TAꎬ et al.ꎬ 2019. Climate and
               亚热带植物学报ꎬ 18(5): 511-522.]                         land use  changes  will  degrade  the  distribution  of
            WU JGꎬ 2011a. The potential effects of climate change on the  Rhododendrons in China [ J ]. Science of the Total
               distributions of 7 plants in China [ J]. Guihaiaꎬ 31(5):  Environmentꎬ 659: 515-528.
               595-607. [吴建国ꎬ 2011a. 气候变化对我国 7 种植物潜在           ZHANG Hꎬ ZHAO HXꎬ XU CGꎬ 2021. The potential
               分布的影响 [J]. 广西植物ꎬ 31(5): 595-607.]                 geographical distribution of Alsophila spinulosain under
            WU JGꎬ 2011b. The potential effects of climate change on the  climate change in China [J]. Chinese Journal of Ecologyꎬ 40
               distributions of seven arbors plants in China [ J]. Plant  (4): 968-979. [张华ꎬ 赵浩翔ꎬ 徐存刚ꎬ 2021. 气候变化
               Diversity and Resourcesꎬ 33 ( 3): 335 - 349. [ 吴 建 国ꎬ  背景下孑遗植物桫椤在中国的潜在地理分布 [J]. 生态
               2011b. 气 候 变 化 对 7 种 乔 木 植 物 分 布 的 潜 在 影 响        学杂志ꎬ 40(4): 968-979.]
               [J]. 植物分类与资源学报ꎬ 33(3): 335-349.]                ZHANG YBꎬ MENG QXꎬ WANG YZꎬ et al.ꎬ 2020. Climate
            WU JGꎬ 2020. Risk and uncertainty of losing suitable habitat  change ̄induced migration patterns and extinction risks of
               areas under climate change scenarios: A case study for 109  Theaceae species in China [ J]. Ecology and Evolutionꎬ
               gymnosperm  species  in  China  [ J ].  Environmental  10(10): 4352-4361.
               Managementꎬ 65: 517-533.                        ZHOU Rꎬ CI XQꎬ XIAO JHꎬ et al.ꎬ 2021. Effects and
            WU JGꎬ 2022. The danger and indeterminacy of forfeiting  conservation assessment of climate change on the dominant
               perching space of bryophytes from climate shift: A case study  group — The genus Cinnamomum of subtropical evergreen
               for 115 species in China [J]. Environmental Monitoring and  broad ̄leaved forests [ J ]. Biodiversity Scienceꎬ 29(6):
               Assessmentꎬ 194: 233.                             697-711. [周润ꎬ 慈秀芹ꎬ 肖建华ꎬ 等ꎬ 2021. 气候变化对
            WU JGꎬ 2023. Uncertainty and risk of pruned distributional  亚热带常绿阔叶林优势类群樟属植物的影响及保护评估
               ranges induced by climate shifts for alpine species: A case  [J]. 生物多样性ꎬ 29(6): 697-711.]
               study for 79 Kobresia species in China [J]. Theoretical and
               Applied Climatologyꎬ 151: 1651-1672.                                         (责任编辑  周翠鸣)
            XIAO Jꎬ EZIZ Aꎬ ZHANG Hꎬ et al.ꎬ 2019. Responses of four




                               附录请到本刊网站(http:/ / www.guihaia-journal.com/ gxzw/ ch/ reader/
                                      view_abstract.aspx? file_no = 20250311&flag = 1)下载ꎮ
   131   132   133   134   135   136   137   138   139   140   141