Page 71 - 《广西植物》2023年第8期
P. 71
8 期 余江洪等: 国家重点保护野生植物的保护现状及潜在分布区预测分析 1 4 1 3
Resour Managꎬ (5): 31-35. [彭隆ꎬ 陈圣宾ꎬ 彭培好ꎬ 等ꎬ strategies in the unique karst area of southern China under
2013. 国家重点保护野生植物在县级水平的地理分布及 global climate change [J]. For Ecol Managꎬ 498(119540):
就地保护现状 [J]. 林业资源管理ꎬ (5): 31-35.] 1-16.
PRENDERGAST JRꎬ WOOD SNꎬ LAWTON JHꎬ et al.ꎬ YANG Yꎬ TAN Cꎬ YANG Zꎬ 2021. Conservation of
1993. Correcting for variation in recording effort in analyses gymnosperms in China: Perspectives from the List of
of diversity hotspots [J]. Biodivers Conservꎬ 1(2): 39-53. National Key Protected Wild Plants [ J]. Biodivers Sciꎬ
QUAN Jꎬ OUYANG ZYꎬ XU WHꎬ et al.ꎬ 2009. Management 29(12): 1591-1598. [杨永ꎬ 檀超ꎬ 杨智ꎬ 2021. 从«国家
effectiveness of China nature reserves: status quo assessment 重点保护野生植物名录»看我国裸子植物保护 [J]. 生物
and countermeasures [J]. Chin J Appl Ecolꎬ 20(7): 1739- 多样性ꎬ 29(12): 1591-1598.]
1746. [权佳ꎬ 欧阳志云ꎬ 徐卫华ꎬ 等ꎬ 2009. 中国自然保 YING JSꎬ 2001. Species diversity and distribution pattern of
护区管理有效性的现状评价与对策 [J]. 应用生态学报ꎬ seed plants in China [ J]. Biodivers Sciꎬ 9 ( 4): 393 -
20(7): 1739-1746.] 398. [应俊生ꎬ 2001. 中国种子植物物种多样性及其分布
SCOTT JMꎬ DAVIS Fꎬ CSUTI Bꎬ et al.ꎬ 1993. Gap analysis: A 格局 [J]. 生物多样性ꎬ 9(4): 393-398.]
geographic approach to protection of biological diversity YUAN Hꎬ ZHANG YBꎬ QIN HNꎬ et al.ꎬ 2009. In situ
[J]. Wildl Monogrꎬ 123: 1-41. conservation status of National Key Protected Wild Plants in
SHRESTHA Nꎬ SHEN Xꎬ WANG Zꎬ 2019. Biodiversity China [J]. Biodivers Sciꎬ 17(3): 280-287. [苑虎ꎬ 张殷
hotspots are insufficient in capturing range ̄restricted species 波ꎬ 覃海宁ꎬ 等ꎬ 2009. 中国国家重点保护野生植物的就
[J]. Conserv Sci Practꎬ 1(10): e103. 地保护现状 [J]. 生物多样性ꎬ 17(3): 280-287.]
SOLOMON Sꎬ PLATTNER GKꎬ KNUTTI Rꎬ et al.ꎬ 2009. ZHANG YBꎬ MA KPꎬ 2008. Geographical distribution
Irreversible climate change due to carbon dioxide emissions characteristics of national key protected wild plants in China
[J]. PNASꎬ 106(5): 1704-1709. [J]. Chin J Appl Ecolꎬ 19(8): 1670-1675. [张殷波ꎬ 马
SWETS JAꎬ 1988. Measuring the accuracy of diagnostic systems 克平ꎬ 2008. 中国国家重点保护野生植物的地理分布特
[J]. Scienceꎬ 240(4857): 1285-1293. 征 [J]. 应用生态学报ꎬ 19(8): 1670-1675.]
TANG CQꎬ MATSUI Tꎬ OHASHI Hꎬ et al.ꎬ 2018. Identifying ZHANG Hꎬ ZHAO HXꎬ WANG Hꎬ 2020. Potential
long ̄term stable refugia for relict plant species in East Asia geographical distribution of Populus euphratica in China
[J]. Nat Communꎬ 9(1): 4488. under future climate change scenarios based on Maxent
WANG GZꎬ GEN QFꎬ XIAO MYꎬ et al.ꎬ 2020. Predicting model [J]. Acta Ecol Sinꎬ 40(18): 6552-6563. [张华ꎬ 赵
Pseudolarix amabilis potential habitat based on four Niche 浩翔ꎬ 王浩ꎬ 2020. 基于 Maxent 模型的未来气候变化下
models [J]. Acta Ecol Sinꎬ 40(17): 6096-6104. [王国峥ꎬ 胡杨在中国的潜在地理分布 [J]. 生态学报ꎬ 40(18):
耿其芳ꎬ 肖孟阳ꎬ 等ꎬ 2020. 基于 4 种生态位模型的金钱 6552-6563.]
松潜 在 适 生 区 预 测 [ J ]. 生 态 学 报ꎬ 40 ( 17 ): ZHANG Zꎬ HE JSꎬ LI JSꎬ et al.ꎬ 2015. Distribution and
6096-6104.] conservation of threatened plants in China [ J ]. Biol
WU SHꎬ ZHAO DSꎬ 2020. Progress on the impactꎬ risk and Conservꎬ 192: 454-460.
adaptation of climate change in China [ J]. Chin Popul ZHANG Qꎬ ZHANG DFꎬ WU MLꎬ et al.ꎬ 2017. Prediction the
Resour Environꎬ 30(6): 1-9. [吴绍洪ꎬ 赵东升ꎬ 2020. 中 global areas potential distribution of Gastrodia elata based on
国气候变化影响、风险与适应研究新进展 [J]. 中国人 ecological niche models [J]. J Plant Ecolꎬ 41(7): 770-
口资源与环境ꎬ 30(6): 1-9.] 778. [张琴ꎬ 张东方ꎬ 吴明丽ꎬ 等ꎬ 2017. 基于生态位模型
XIA CYꎬ HUANG YFꎬ QI YDꎬ et al.ꎬ 2022. Developing long ̄ 预测天麻全球潜在适生区 [J]. 植物生态学报ꎬ 41(7):
term conservation priority planning for medicinal plants in 770-778.]
China by combining conservation status with diversity hotspot ZHANG Yꎬ WU JYꎬ AN MTꎬ et al.ꎬ 2021. Geographical
analyses and climate change prediction [ J]. BMC Biolꎬ distribution pattern and prediction of the distribution of
20(1): 89. Paphiopedilum micranthum in China [J]. Acta Bot Boreal ̄
XUE TTꎬ GADAGKAR SRꎬ THOMAS PAꎬ et al.ꎬ 2021. Occident Sinꎬ 41(11): 1932-1939. [张央ꎬ 武建勇ꎬ 安明
Prioritizing conservation of biodiversity in an alpine region: 态ꎬ 等ꎬ 2021. 中国硬叶兜兰地理分布格局及其潜在分布
Distribution pattern and conservation status of seed plants in 区预测 [J]. 西北植物学报ꎬ 41(11): 1932-1939.]
the Qinghai ̄Tibetan Plateau [ J ]. Glob Ecol Conservꎬ ZHAO LNꎬ LI JYꎬ LIU HYꎬ et al.ꎬ 2016. Distributionꎬ
32: e01885. congruenceꎬ and hotspots of higher plants in China [J]. Sci
XU Yꎬ SHEN ZHꎬ YING LXꎬ et al.ꎬ 2017. Hotspot analyses Repꎬ 6: 19080.
indicate significant conservation gaps for evergreen ZHOU ZHꎬ JIN XHꎬ 2021. Analysis and suggestions on policies
broadleaved woody plants in China [ J ]. Sci Repꎬ and regulations on conservation and management of wild
7(1): 1859. plants in China [ J]. Biodivers Sciꎬ 29 ( 12): 1583 -
YANG XQꎬ KUSWAHA SPSꎬ SARAN Sꎬ et al.ꎬ 2013. Maxent 1590. [周志华ꎬ 金效华ꎬ 2021. 中国野生植物保护管理的
modeling for predicting the potential distribution of medicinal 政策、法律制度分析和建议 [J]. 生物多样性ꎬ 29(12):
plantꎬ Justicia adhatoda L. in Lesser Himalayan foothills 1583-1590.
[J]. Ecol Engꎬ 51: 83-87.
YANG XDꎬ LIU Bꎬ BUSSMANN RWꎬ et al.ꎬ 2021. Integrated (责任编辑 邓斯丽)
plant diversity hotspots and long ̄term stable conservation
