电子邮件: wbsun@mail.kib.ac.cn
通信地址: 昆明市蓝黑路132路
邮政编码: 650201
研究领域
保护生物学、植物进化生物学、资源植物学、园林植物学
招生信息
招生专业:071001-植物学
招生方向:植物保育与驯化生物学
教育背景
学历
学位
教授课程
指导学生
已指导学生
韩春艳 硕士研究生 071001-植物学
傅旭阳 硕士研究生 071001-植物学
赵兴峰 硕士研究生 071001-植物学
吉利 硕士研究生 071001-植物学
唐玲 硕士研究生 071001-植物学
潘睿 硕士研究生 071001-植物学
赵琳琳 硕士研究生 071001-植物学
张乐 博士研究生 071001-植物学
张蕊蕊 硕士研究生 071001-植物学
葛佳 硕士研究生 430139-生物工程
王娜 硕士研究生 430139-生物工程
公维昌 博士研究生 071001-植物学
张鑫 博士研究生 071001-植物学
张宁宁 硕士研究生 071001-植物学
王斌 博士研究生 071001-植物学
廖荣丽 硕士研究生 071001-植物学
陶丽丹 硕士研究生 071001-植物学
陈叶 博士研究生 071001-植物学
李盛辉 博士研究生 071001-植物学
张雪梅 博士研究生 071001-植物学
唐荣 硕士研究生 071001-植物学
葛佳 博士研究生 071001-植物学
廖荣丽 博士研究生 071001-植物学
陈娅玲 硕士研究生 071001-植物学
李聪佳 硕士研究生 071001-植物学
蔡磊 博士研究生 071001-植物学
王慧纯 硕士研究生 071001-植物学
杨丰懋 硕士研究生 071001-植物学
马雨倩 硕士研究生 071001-植物学
张永增 博士研究生 071001-植物学
刘宇航 硕士研究生 071001-植物学
杨雯媛 硕士研究生 071001-植物学
刘德团 博士研究生 071001-植物学
刘阳 硕士研究生 071001-植物学
林烈文 硕士研究生 071001-植物学
现指导学生
李凤荣 博士研究生 071001-植物学
杨佳俊 博士研究生 071001-植物学
郭世伟 博士研究生 071001-植物学
常宇航 博士研究生 071001-植物学
陶丽丹 博士研究生 071001-植物学
肖斯悦 博士研究生 071001-植物学
熊紫竹 硕士研究生 071001-植物学
徐淑妍 硕士研究生 086000-生物与医药
周敏洁 硕士研究生 071001-植物学
参与会议
2011年以来参与的重要会议:
会议名称 | 报告题目 | 时间 | 会议地点 |
World Forum on Global Strategy for Plant Conservation | Progress and Perspectives of Conservation on Plant Species with Extremely Small Populations(PSESP) in China | 2019-10-29(28-29) | Chengdu, Sichuan, CHINA |
7th Southeast Asia Botanic Gardens Network Conference | Integrative Conservation and Population Reinforcement/Reintroduction of Threatened Plants---Case of PSESP(Plant Species with Extremely Small Populations) form China | 2019-08-05(-09) | Queen Sirikit Botanical Garden, Chiang Mai, Thailand |
Neotropical Conservation Consortium and Symposium for Magnolias | Threatened magnolias and conservation in China | 2019-07-11 | Guadalajara University, Mexico |
马拉雅-高加索地区植物多样性与保护国际学术研讨会 | PSESP (Plant Species with Extremely Small Populations) Concept and the Conservation in Yunnan, China |
2019-05-26 | 中国科学院昆明植物研究所 |
玉兰种质资源保护与产业创新高端论坛 | 木兰科观赏植物资源及其保护 | 2019-03-28 | 河南南召 |
第四届西双版纳国际学术会议
| A New Conservation Action Concept of PSESP(Plant Species with Extremely Small Populations) and the Integrative Conservation in China | 2019-01-05
| 中国科学院西双版纳热带植物园 |
第十九届国际植物学大会
| 1.PSESP(Plant Species with Extremely Small Populations) Conservation in China;
2.Survey and Germplasm Conservation of PSESP(Plant Species with Extremely Small Populations) in Southwest China: Role of China's Botanical Gardens of Kunming, Lijiang and Shangri-la | 2017-07-25
2017-07-28 |
中国深圳 |
槭树植物国际学术论坛 | Threatened Chinese Maples and Their Conservation | 2017-10-24 | 法国 |
全国第四届全国种群生态学前沿论坛 | 极小种群野生植物拯救保护的一些思考 | 2016-07-18 | 浙江台州 |
2015年中国植物园学术年会 | 极小种群植物的种群增强与回归:以三种中国特有树种为例 | 2015-11-12 | 中国科学院西双版纳热带植物园 |
第八届国际栎属学会学术研讨会 | 极小种群植物西畴青冈的抢救性保护 | 2015-1020 | 美国 |
第十八届世界植物学大会 | Conservation and re-introduction of the 4 threatened trees in SW China | 2011-07-24 | 澳大利亚 |
社会兼职
国际自然保护联盟物种生存委员会委员、全球树木保护专家组专家,国家植物园体系建设专家委员会委员,国家林业和草原局第一届野生植物标准化技术委员会(NFGA / TC6)副主任委员,木犀属品种国际登录中心委员会副主任,国际竹类栽培品种登录委员会委员,中国植物学会植物园分会常务理事,中国野生植物保护协会理事,中国野生植物保护协会迁地保护委员会副主任,云南省植物学会保护生物学与种质保存专业委员会副主任,云南省第四届省级自然保护区评审委员会委员,云南省野生动植物保护协会常务理事,云南省绿色环境发展基金会理事,云南省极小种群物种保护联盟物种极小种群保护专业委员会主任。
获奖
云南省2022年科技进步三等奖(孙卫邦 冯石 陈智发 梁萌萌 梁晓霞 赵柳平 潘彦丽)
云南省中青年学术与技术带头人
云南省有突出贡献的优秀专业技术人才
在研项目
2008年来主持承担的主要项目:
- 云南省极小种群野生植物拯救保护专项项目"七种极小种群野生植物调查与种质保存" (85万元)(2024SJ11X-10)。执行期:2024.07-2026.07
- 国家林草局委托国家植物园创建标准化项目“国家植物园标识解说规范编制”(20万元)(E4569312)。执行期:2024-2025
- 云南省极小种群野生植物拯救保护专项项目“极小种群野生兰科植物高效扩繁与综合保护”(120万元)(2021SJ14X-09)。执行期:2021.07-2024.07
- 《生物多样性公约》缔约方大会第十五次会议组委会委托项目“CBD COP15生物多样性体验园提升改造”(2366.2万元)。执行期:2020.06-2022.06
- 第二次青藏高原考察研究任务五植物多样性保护与持续利用专题课题三:植物多样性保护与综合评估(2240万元)(2019QZKK0502)。执行期:2019.01- 2024.12
- 云南省科技创新人才计划项目“中国科学院昆明植物研究所极小种群野生植物保护与利用省创新团队”(云南省创新团队-带头人)(100 万元)(2019HC015)。执行期: 2018.08-2021.08
- 云南省科技人才和平台建设项目“云南省极小种群野生植物综合保护重点实验室”(2018DG004)(200万元,其中单位匹配100万元)。执行期: 2017.12-2019.12
- 国家自然科学基金面上项目“青藏-黄土高原地区互叶醉鱼草地理分布格局与生态适应性研究”(31770240)(72万元)。执行期: 2018.01-2021.12
- 国家重点研发计划科技基础资源调查专项项目“中国西南地区极小种群野生植物调查与种质保存” (2017FY100100),经费:2426.00万元,执行期:2017-2022
- 云南省科技厅国际合作重点项目“云南特色观赏植物自然杂交群体园艺利用关键技术研发”(2016IA021),经费:80.00万元,执行期: 2016-2018
- 中国科学院重点部署项目“西南-滇西北地区本土植物全覆盖保护”(KFJ-3W-No.1-112),经费:120.00万元,执行期:2016-2018
- 中国科学院重点部署“中国科学院植物园运行管理”(ZSZY-001-5),经费:330.00万元,执行期:2016-2018
- 国家科技基础性工作专项项目“植物园迁地保育植物数据库构建及专科专属志书编撰”(子课题负责人)(2015FY210100-3),项目总经费:890.00万元,执行期:2015-2020
- NSFC-云南联合基金重点项目“极小种群野生植物高风险灭绝机制及保护有效性研究”(U1302262),经费:210.00万元,执行期:2014-2017
- 中国科学院重点部署项目“西南-川藏地区本土植物清查与保护”(KFJ-1W-No.1-12) ,经费:160.00万元,执行期:2014-2016
- 国家林业局及云南省林业厅物种资源调查项目“云南省文山州第二次国家重点保护野生植物调查”,经费:185.00万元,执行期:2013-2015
- 中国科学院重点部署“植物战略生物资源技术支撑体系创新能力建设”(CZBZX-1),经费:330.00万元,执行期:2013-2015
- 国家科技重大专项子课题“七种中药材种子质量标准研究”,经费:126.00,执行期:2009-2015
- 中国科学院重点部署项目“蒾属种质资源收集评价及挖掘利用”,经费:120.00万元,执行期:2011-2014
- 国家林业局及云南省林业厅物种拯救保护项目“典型极小种群野生植物回归自然试验示范研究”,经费:180.00万元,执行期:2009-2016
- 国际合作项目“滇东南濒危木兰科植物保护及滇西自奔山木本植物研究”,经费:150.00万元,执行期:2008-2014
出版专著
主编和副主编出版的专著:
孙卫邦, 2024. 《中国西南地区极小种群野生植物图鉴》[M]. 昆明:云南科技出版社
孙卫邦,秦梅,2022.《万物有灵:云南省极小种群野生植物(2021版)珍藏邮册》(中英文对照)[M]. 北京:中国邮政集团
孙卫邦, 2021. 云南省极小植物野生植物保护名录(2021版)(图鉴)[M]. 昆明:云南科技出版社
孙卫邦, 刀志灵, 于炜, 韦宵, 2021. 中国迁地栽培植物志.山茶科[M].北京: 中国林业出版社
孙卫邦, 马骏, 2019. 昆明市五采区生态修复植物推荐名录[M].昆明:云南人民出版社
孙卫邦, 杨静, 刀志灵, 2019. 云南省极小种群野生植物研究与保护[M]. 北京:科学出版社
孙卫邦, 蔡六良, 2019. 曲靖园林绿化植物推荐名录[M].北京:科学出版社
孙卫邦 (副主编)(主编:任海 段子渊), 2017. 科学植物园建设的理论与实践(第二版)[M]. 北京:科学出版社,1-246
孙卫邦 (副主编), 2016. 观赏植物百科(1-6册)[M]. 北京:中国建筑工业出版社
孙卫邦, 2013. 云南省极小种群野生植物保护实践与探索[M]. 昆明:云南科技出版社
孙卫邦, 2008. 兰花栽培与赏析[M].北京:中国农业出版社
向其柏, 臧德奎, 孙卫邦, 2006. 国际栽培植物命名法规[M]. 北京:中国林业出版社(译著)
赖尔聪, 孙卫邦, 2005. 观赏攀援及地被植物[M]. 北京:中国建筑工业出版社
赖尔聪, 孙卫邦, 2004. 木本观花植物[M]. 北京:中国建筑工业出版社
赖尔聪, 孙卫邦, 2005. 观赏树木[M]. 北京:中国建筑工业出版社
管开云, 孙卫邦, 2004. 叶观果植物[M]. 北京:中国建筑工业出版社
孙卫邦, 管开云, 2004. 草本观花植物(一) [M]. 北京:中国建筑工业出版社
授权发明专利及国家标准
授权发明专利及注册软著作权
一种用于醉鱼草属植物组培快繁的培养基组合及其应用。发明人: 罗桂芬 孙卫邦 葛佳 杨佳俊;授权时间:2023年09月22日;专利号:ZL 2022 1 1359716.1
一种用于观光木组培快繁的培养基及其应用、观光木组培快繁的方法。发明人: 罗桂芬 孙卫邦 蔡磊 杨佳俊;授权时间:2023年09月19日;专利号:ZL 2022 1 1409315.2
一种墨脱百合组培快繁的培养基组合、组培快繁方法及应用。发明人:罗桂芬 孙卫邦 申建勇;授权时间:2021年11月05日;专利号:ZL 2021 1 0812371.X
一种云南梧桐组培快繁方法。发明人:罗桂芬 孙卫邦 杨静 刀志灵 杨佳俊;授权时间:2021年05月25日;专利号:ZL 2020 1 1163561.5
一种壮丽含笑种子无菌萌发及快速繁殖方法。发明人:罗桂芬 孙卫邦 葛佳 陶丽丹 蔡磊 ;授权时间:2021年05月14日; 专利号:ZL 2020 1 1165325.7
一种华盖木组培快繁方法。发明人:罗桂芬 孙卫邦 陶丽丹 葛佳 蔡磊;授权时间:2021年04月09日(授权公告号CN 112243861 B);专利号:ZL 2020 1 1163595.4
一种滇桐组培快繁方法。发明人:罗桂芬 孙卫邦 杨静 杨佳俊;授权时间:2020年10月16日(授权公告号CN 110663552 B);专利号:ZL 2019 1 1086276.5
一种旱地木槿种子无菌萌发与快速繁殖方法。发明人:罗桂芬 孙卫邦 陈高;授权时间:2020年04月21日(授权公告号CN 107896990 B);专利号:ZL 2017 1 1191986.5
一种旱地木槿紫色花系优良单株组培快繁方法。发明人:罗桂芬 孙卫邦 陈高;授权时间:2020年02月21日(授权公告号CN 107711514 B);专利号:ZL 2017 1 1192038.3
中国西南地区极小种群野生植物信息平台(简称:极小种群平台)。著作权人:李拓径 杨静 张挺 杨湘云 孙卫邦;证书号:软著登字第3739803号;登记证号:2019SR0319046;首次发表日期:2018年07月01日
花叶日本醉鱼草的微型快繁方法。发明人:孙卫邦 曾春霞;授权公告日:2005年3月30日;专利号:ZL 03 1 17810.3
珍稀濒危植物漾濞槭种子育苗和栽培方法。发明人:尹擎 孙卫邦 陈又生 罗桂芬 但国丽;授权公告日:2011年06月01日;专利号:ZL 2009 1 0094703.4
一种秋海棠杂交品种的选育。发明人:张成敏 孙卫邦 张石宝;授权公告日:1999年9月3日;专利号:ZL 99 1 18691.5
三棱栎的组培方法。发明人:孙卫邦 周元 向其柏 罗桂芬;授权公告日:2008年11月19日;专利号:ZL 2006 1 0011068.5
三棱栎的胚状体诱导及培养方法。发明人:孙卫邦 罗桂芬 向其柏;授权公告日:2008年9月17日;专利号:20061001169.X
国家行业标准
植物新品种特异性、一致性、稳定性 测试指南 含笑属。制定人:孙卫邦 韩春艳 罗桂芬 李聪佳 陈娅玲;标准号:LY /T 3288-2021;实施:2022-01-01;发布部门:国家林业和草原局
植物新品种特异性、一致性、稳定性 测试指南 拟单性木兰属。制定人:孙卫邦 韩春燕 罗桂芬 姚刚; 标准号:LY /T 3289-2021;实施:2022年01月01日;发布部门:国家林业和草原局
发表学术论文
发表的主要论文(*为通讯作者) (2006年以来)
Shen TY, Tao LD, Zhang RG, Yao G, Zhou MJ, Sun WB*, Ma YP*, 2024. Genomic insights into endangerment and conservation of the garlic-fruit tree (Malania oleifera), a plant species with extremely small populations.GigaScience, 13:1-14 ( https://doi.org/10.1093/gigascience/giae070)
Lin LW, Huaang H, Liu WW, Sun WB*, 2024. Molecular and ecological data reveals that cyclical drought and herbivore threats are potential causes of the leaf variegation dimorphism in Cypripedium forrestii. Journal of Plant Ecology, (doi.org/10.1093/jpe/rtae081) (online on 31 August 2024)
Sun WB*, Ma YP*, Corlett RT, 2024. Plant species with extremely small populations conservation program: achieving Kunming–Montreal global biodiversity targets. Trends in Plant Science, 29(8): 827-830
Tao LD, Li YH, Dao ZL, Liu DT, Yang J*, Sun WB*, 2024. Guiding Conservation Strategies for China's Corybas Species through Species Distribution Modeling. Global Ecology and Conservation,53: e03008
Tao LD, Guo SW, Xiong ZZ, Zhang RG, Sun WB*, 2024. Chromosome-level genome assembly of the threatened resource plant Cinamomum chago. Scientific Data,11: 447
Liu X, Zhang WX, Zhang YT, Yang J, Zeng P, Tian ZZ, Sun WB*, Cai J*, 2024. Chromosome-scale genomes of Quercus sichourensis and Quercus rex provide insights into the evolution and adaptation of Fagaceae. Journal of Genetics and Genomics, 51(5): 554-565
孙卫邦*, 2024. 关于我国植物迁地保护的思考. 广西植物, 10.11931/guihaia.gxzw202403020 (20240402)
Tang LY, Cai L, Sun WB*, 2024. Manglietia ventii blooms for the first time in Kunming Botanical Garden. Oryx, 58(2):151-152
Li FR, Lu SG*, Sun WB*, 2024. Comparison of Rhizosphere Bacterial Communities of Pinus squamata, a Plant Species with Extremely Small Populations (PSESP) in Different Conservation Sites.Microorganisms,12: 638
Liu Y, Cai L, Sun WB*, 2024. Transcriptome data analysis provides insights into the conservation of Michelia lacei, a plant species with extremely small populations distributed in Yunnan province, China. BMC Plant Biology, 24: 200
Yang J, Cai L, Shi Feng, Dhyan A, Sun WB*, 2024. First international training course on conservation of Plant Species with Extremely Small Populations.Oryx, 58(1):11
Cai L, Zhang JZ, Dao ZL, Sun WB*, 2024. The slipper orchid Paphiopedilum gratrixianum requires priority conservation in Yunnan, China. Oryx, 58(1):11-12
Lin LW, Cai L, Huang H, Ming SP, Sun WB*, 2024. Transcriptome data reveals the conservation genetics of Cypripedium forrestii, a plant species with extremely small populations endemic to Yunnan, China. Frontiers in Plant Science,15:1303625
Cai L, Liu DT, Yang FM, Zhang RG, Yun QZ, Dao ZL, Ma YP*, Sun WB*, 2024. The chromosome-scale genome of Magnolia sinica (Magnoliaceae) provides insights into the conservation of plant species with extremely small populations (PSESP). GigaScience, 13:1-16
Liu YH, Wang HC, Yang J, Dao ZL, Sun WB*, 2024. Conservation genetics and potential geographic distribution modeling of Corybas taliensis, a small ‘sky Island’ orchid species in China. BMC Plant Biology, 24:11
Asatulloev T, Dekhkonov D, Yusupov Z, Tojiboeva U, Cai L, Tojibaev K*, Sun WB*, 2023. Ecoregional and Phytogeographical Insights into the Distribution of Tulipa in the ‘Nature Imperiled’ Area of Central Asia for Effective Conservation. Diversity, 15:1195
Liu DT, Chen JY, Sun WB*, 2023. Distributional responses to climate change of two maple species in southern China. Ecology and Evolution, 13:e10490
Liu DT, Yang JJ, Tao LD, Ma YP*, Sun WB*, 2023. Seed Germination and Seedling Growth Influenced by Genetic Features and Drought Tolerance in a Critically Endangered Maple. Plants, 12: 3140
Li FR, Sun WB*, 2023. Comparative Analysis of Rhizospheric Fungi Using High-Throughput Sequencing between Wild, Ex Situ, and Reintroduced Pinus squamata, a Plant Species with Extremely Small Populations in Yunnan Province, China. Diversity, 15: 868
Chang YH, Zhang RG, Ma YP*, Sun WB*, 2023. A haplotype-resolved genome assembly of Rhododendron vialii based on PacBio HiFi reads and Hi-C data. Scientific Data, 10:451
Yang TQ, Zhang RG, Tian XL, Yao G, Shen YT, Wang SH, Mao JF, Li GY, Liu AZ*, Sun WB*, Ma YP*, 2023. The Chromosome-level genome assembly and genes involved in biosynthesis of nervonic acid of Malania oleifera.Scientific Data, 10: 298
Yang FM, Ge J*, Guo YJ, Olmstead R, Sun WB*, 2023. Deciphering complex reticulate evolution of Asian Buddleja (Scrophulariaceae): insights into the taxonomy and speciation of polyploid taxa in the Sino-Himalayan region. Annals of Botany, XX: 1–14
Yang J, Tao LD, Yang JR, Wu CF, Sun WB*, 2023. Integrated conservation of Acer yangbiense : A case study for conservation methods of plant species with extremely small populations.Plant, People, Planet, 5(4): 574-580 (https:/ doi.org/10.1002/ppp3.10276 )
Tao LD, Sun WB*, 2023. Applying image clustering to phylogenetic analysis: a trail. Plant Diversity,45: 234-237
Sun WB*, Cai L, Hollingsworth PM, 2022. Reintroduction of the Endemic Plant Manglietiastrum sinicum (Magnoliaceae) to Yunnan Province, China. In: Gaywood MJ, Ewen JG, Hollingsworth PM, Moehrenschlager A (eds.), Conservation Translocations [M]. Cambridge: Cambridge University Press, pp. 415-421 ( https://doi.org/10.1017/9781108638142.020 ).
Liu DT, Yang JB, Chen SY, Sun WB*, 2022.Potential distribution of threatened maples in China under climate change: Implications for conservation. Global Ecology and Conservation, 40: e02337
Liu DT, Luo GF, Sun WB*, 2022. In vitro conservation of Paphiopedilum wenshanense at Kunming Botanical Garden, China. Oryx, 56(6):811-812
Lin LW, Sun WB*, 2022. Conserving Cypripedium forrestii, an orchid species endemic to China. Oryx, 56(6):812
Liu DT, Chen SY, Sun WB*, 2022. The complete chloroplast genome of Acer pubipetiolatum var. Pingpienense. Mitochondrial DNA Part B, 7(8): 1448-1450
Ma YQ, Li CJ, Jin J, Liao CF, Yang J*, Sun WB*, 2022. Conservation genetics of Firmiana major, a threatened tree species with potential for afforestation of hot,arid climates. Global Ecology and Conservation, 65: e02136.
Yang J, Niu Y, Sun WB, Cai XH, Chen G, 2022. Intersexual mimicry and imperfect deceit of a threatened aquatic herb Ottelia acuminate. Journal of Systematics and Evolution, 60(2): 377-385 (online on 17 August 2020)
Yang FM, Cai1 L, Dao ZL, SunWB*, 2022. Genomic Data Reveals Population Genetic and Demographic History of Magnolia fistulosa (Magnoliaceae) ,a Plant Species With Extremely Small Populations in Yunnan Province, China. Frontiers in Plant Science, 13: 811312 (doi:10.3389/fpls.2022.811312)
Tao LD, Sun WB*, Chen ZF, 2022. Quercus sichourensis and Pinus squamata frui for the first time in ex situ cultivation. Oryx, 56(1): 12-13
Ma YP*, Liu DT, Wariss HM, Zhang RG, Tao LD, Milne RI, Sun WB*, 2022. Demographic history and identification of threats revealed by population genomic analysis provide insights into conservation for an endangered maple.Molecular Ecology, 31:767-779 (DOI:10.1111 /mec. 16289)
孙卫邦*, 刘德团, 张品, 2021. 极小种群野生植物保护研究进展与未来工作的思考. 广西植物, 41(10): 1605-1617
Ma YP*, Wariss HM, Liao RL, Zhang RG, Yun QZ, Olmstead RG, Chau JH, Milne RI*, Peer YV*, Sun WB*, 2021. Genome-wide analysis of butterfly bush (Buddleja alternifolia) in three uplands provides insights into biogeography, demography and speciation. New Phytologist, 232:1463-1476
Liao RL,Cai L, Yu ZY, Wang YH*, Sun WB*, 2021. Impatiens wutaishanensis (Balsaminaceae), a new species from Southeast Yunnan, China. PhytoKeys, 176: 43–53
Liao RL, Sun WB*, Ma YP*, 2021. Natural hybridization between two butterfly bushes in Tibet: dominance of F1 hybrids promotes strong reproductive isolation. BMC Plant Biology, 21:133
Sun WB*, Li FR, Zhou Y, 2020. Reintroduction of Trigonobalanus doichangensis, a Threatened Plant Species with Extremely Small Populations. In book [Ren H (ed.)]: Conservation and Reintroduction of Rare and Endangered Plants in China. Singapore: Springer Nature, 167-174
Zhang XM, Qin HT, Xie WJ, Ma YP*, Sun WB*, 2020. Comparative population genetic analyses suggest hybrid origin of Rhododendron pubicostatum, an endangered plant species with extremely small populations endemic to Yunnan, China. Plant Diversity, 42:321-318
唐 荣, 黄保国, 孙卫邦*, 陈 高*, 2020. 金沙江干热河谷特有植物白魔芋的传粉生物学研究. 植物科学学报, 38(4):458-466
Yang Y, Chen G, Sun WB*, 2020. Can the concept of "Plant Species with Extremely Small Populations" be applied to animal species?. Global Ecology and Conservation, 23: e01059
Wang HC, Yang J, Sun WB*, 2020. Complete chloroplast genome of the endangered Corybas taliensis (Orchidaceae), a plant species with extremely small populations endemic to China. Mitochondrial DNA Part B, 5(2): 1884-1885
Yang J, Cai L, Liu DT, Chen G*, Gratzfeld J, Sun WB*, 2020. China's conservation program on Plant Species with Extremely Small Populations (PSESP): Progress and perspectives. Biological Conservation, 244:108535
Li CJ, Chen YL, Yang FM, Wang DS, Song K, Yu ZX, Sun WB*, Yang J*, 2020. Population structure and regeneration dynamics of Firmiana major, a dominant but endangered tree species. Forest Ecology and Management, 462(117993) ( published online on 22 February, 2020)
Tao LD, Han CY, Song K, Sun WB*, 2020. A tree species with an extremely small population: recategorizing the Critically Endangered Acer yangbiense. Oryx, 54(4): 474-477 (published online on 28 January, 2020)
Tang R, Li Y, Xu YL, Schinnerl J, Sun WB*, Chen G*, 2020. In situ and ex situ pollination biology of the four threatened plant species and the significance for conservation. Biodiversity and Conservation, 29:381-391 (published online on 26 October, 2019)
Chen YL, Yang J, Sun WB*, 2020. Development of 14 microsatellite markers in the endangered relict plant Craigia yunnanensis (Tilaceae). Russian Journal of Genetics, 56(1): 123-127
Han CY, Tao LD, Sun WB*, 2020. Distribution and Conservation status of Magnolia ovoidea (Magnoliaceae): a critically endangered species in Southeast Yunnan, China. Oryx,54(4): 466-469 (published online on 16 October, 2019)
Zhang X, Zhang L, Schinnerl J, Sun WB*, Chen G*, 2019. Genetic diversity and population structure of Hibiscus aridicola, an endangered ornamental species in dry-hot valleys of Jinsha River. Plant Diversity, 41:300-306
Yang J, Wariss HM, Tao LD, Dao ZL, Luo GF, Hollingsworth P, Guo HJ, Ma YP*, Sun WB*, 2019. De novo genome assembly of the endangered Acer yangbiense, a plant species with extremely small populations endemic to Yunnan of China. Gigascience, 8:1-10
Sun WB*, Ma YP*, Blackmore S, 2019. How a New Conservation Action Concept Has Accelerated Plant Conservation in China. Trends in Plant Science, 24 (1):4-6
Liu DT, Ma YP, Fang ZD, Sun WB*, 2019. Rediscovery and conservation of Rhododendron griersonianum, a critically endangered plant in Yunnan, China. Oryx, 53(1):14
Cai L, Dao ZL, Sun WB*, 2019.Discovery of a wild population of Orchidantha yunnanensis in south-east Yunnan, China. Oryx,53(3):412
Cai L, Liu GL, Xiang JY, Dao ZL, Sun WB*, 2019. Rescuing Christensenia aesculifolia (Marattiaceae), a plant species with extremely small populations in China. 53(3):436-438
Li SH, Sun WB*, Ma YP, 2018. Current conservation status and reproductive biology of the giant tree Rhododendron in China. Nordic Journal of Botany, e01999
Li SH, Sun WB*, Ma YP, 2018. Does the giant tree rhododendron need conservation priority?. Global Ecology and Conservation,15:e00421
Chen G, Sun WB*, 2018. The role of botanical garden in scientific research, conservation ad citizen science. Plant Diversity, 40:181-188
Ge J, Cai L, Bi GQ, Chen G, Sun WB*, 2018. Characterization of the Complete Chloroplast Genomes of Buddleja colvilei and B. sessilifolia: Implications for the Taxonomy of Buddleja L. Molecules, 23:1248
Chen G, Wang ZW, Wen P, Wei W, Chen Y, Ai H, Sun WB*, 2018. Hydrocarbons mediate seed dispersal: a new mechanism of vespicochory. New Phytologist,220:714-725
Yang J, Chen G, Sun WB*, 2018. Conserving Firmiana major, a tree species endemic to China. Oryx,52(2): 211
Du H, Lai L, Wang F, Sun WB, Zhang LH, Xi X, Wang L, Jaing L, Zheng YR, 2018. Characterisation of flower colouration in 30 Rhododendron species via anthocyanin and floronal indentification and quantitative traits. Plant Biology, 20:121-129
Chen G, Gong WC, Ge J, Schinnerl J, Wang B, Sun WB*,2017. Variation in floral characters, particularly floral scent, in sapromyophilous Stemona species. Journal of Integrative Plant Biology,59(11): 825-839
Chen G, Wang ZW, Qin Y, Sun WB*, 2017. Seed dispersal by hornets: An unusual insect-plant mutualism. Journal of Integrative Plant Biology,59(11): 792-796
Yang J, Sun WB*,2017. A new programme for conservation of Plant Species with Extremely Small Populations in southwest China. Oryx, 51(3): 396-397
Chau JH, Oleary N, Sun WB, Olmstead RO, 2017. Phylogenetic relationships in tribe Buddlejeae (Scrophulariaceae) based on multiple nuclear and plastid markers. Botanical Journal of the Linnean Society, 184:137-166
Wang B, Chen G, Li CR, Sun WB*, 2017. Floral characteristics and pollination ecology of Manlietia ventii (Magnoliaceae), a plant species with extremely small populations(PSESP) endemic to South Yunnan of China. Plant Diversity,39:52-59
Cai L, Dao ZL, Sun WB*, 2017. Urgent protection is required for Michelia lacei (Magnoliaceae) in Yunnan, China. Oryx,57(2): 203
Sun WB*, 2016. Words from the Guest Editor-in-Chief. Plant Diversity, 38:2017-208
Chen G, Liu CQ, Sun WB*, 2016. Pollination and seed dispersal of Aquilaria sinensis (Lour.) Gilg(Thymelaeceae): An economic plant species with extremely small populations in China. Plant Diversity, 38: 227-232
Chen Y, Chen G, Yang J, Sun WB*, 2016. Reproductive biology of Magnolia sinica, a threatened species with extremely small populations in Yunnan, China. Plant Diversity, 38:253-258
Yang J, Gao ZR, Sun WB*, Zhang CQ, 2016. High regional genetic differentiation of an endangered relict plant Craigia yunnanensis and implications for its conservation. Plant Diversity, 38: 221-226
Wade EM, Nadarajan J, Yang XY, Ballesteros D, Sun WB, Pritchard HW, 2016. Plant species with extremely small populations (PSESP) in China: Seed and spore biology perspective. Plant Diversity, 38: 209-220
Marczewski T, Ma YP, Zheng XM, Sun WB*, Marczewski AJ, 2016. Why is populations crucial for taxonomy? A case study involving a hybrid swarm and related varieties. AoB PLANTS, 1-17
Marczewski T, Ma YP, Sun WB*, 2016. Evaluation of RFID tags to permanently mark trees in natural populations. Frontiers in Plant Science,7:1342
Wang B, Ma YP, Chen G, Li CR, Dao ZL, Sun WB*, 2016. Rescuing Magnolia sinica (Magnoliaceae), a critically endangered species endemic to South and Southeast Yunnan, China. Oryx,503 (3):446-449
Wang B, Han CY, Li CR, Dao ZL, Sun WB*, 2016. Population status, distribution and conservation of Magnolia ventii, a critically endangered species endemic to Yunnan province in China. Magnolia, J. Mag. Soc. Int., 51(99): 5-14
Sun WB*, Zhou ZK, Chen WY, Zhou Y, Cai L, Westwood M, Turner J, 2016. Rescuing Plant Species with Extremely Small Populations (PSESP) in China: the Case of the Xichou Oak (Quercus sichourensis). International Oaks, 27: 163-170.
葛佳,薛瑞娟,孙卫邦,陈高,2016. 鸡矢藤及鸡粪的挥发性臭味分析及其科普价值解析. 植物科学学报,34(6):934-940
申仕康, 张新军, 吴富勤, 杨冠松, 王跃华, 孙卫邦, 蔺汝涛,2016.极小种群野生植物大树杜鹃的解剖结构研究.植物科学学报,34(1):1-8
Zhang LL, Yang J, Sun WB*, 2016. Chromosome counts and karyotype analysis of Viburnum taxa (Adoxaceae). Caryologia (Published online on 14 Jan 2016). DOI: 10.1080 /00087114. 2015.1109929)
Ma YP, Xie WJ, Sun WB, Marczewski T, 2016. Strong reproductive isolation despite occasional hybridization between a widely distributed and narrow endemic Rhododendron species. Scientific Reports,6:19146
Chen G, Huang SZ, Chen SC, Chen YH, Liu X, Sun WB,2016. Chemical composition of diasporas of the myrmecochorous plant Stemona tuberosa Lour. Biochemical Systematics and Ecology,64:31-37
孙卫邦*,韩春艳,2015. 论极小种群野生植物的研究及科学保护. 生物多样性,23(3): 426-429
马永鹏,孙卫邦*,2015. 极小种群野生植物抢救性保护面临的机遇与挑战. 生物多样性,23(3): 430-432
Shen SK, Wu FQ, Yang GS, Wang YH, Sun WB, 2015. Seed germination and seedling emergence in the extremely endangered species Rhododendron protistum var. giganteum- the world’s largest Rhododendron. Flora, 216: 65-70
Chen G, Luo SH, Mei NS, Shen DF, Sun WB*, 2015. Building conservation coalitions to conserve ecological interactions: a case study. Conservation Biology, 29(6): 1527-1536
Chen G, Ma XK, Jürgens A, Cai XH, Lu J, Sun WB*, 2015. Mimicking Livor Mortis: a Well-Known but Unsubstantiated Color Profile in Sapromyiophily. Journal of Chemical Ecology, 41:808-815
Liao RL, Ma YP, Gong WC, Chen G, Sun WB*, Zhou RC, Marczewski T, 2015. Natural hybridization and asymmetric introgression at the distribution margin of two Buddleja species with a large overlap. BMC Plant Biology,15:146-156
Yang J, Zhao LL, Yang JB, Sun WB, 2015. Genetic diversity and conservation evaluation of a critically endangered endemic maple, Acer yangbiense, analyzed using microsatrllite markers. Biochemical Systematics and Ecology, 60:193-198
Chen G, Jürgens A, Shao LD, Liu Y, Sun WB*, Xia CF, 2015. Semen-like floral scents and pollination biology of a sapromyophilous plant Stemona japonica (Stemonaceae). Journal of Chemical Ecology, 41: 244-252
Chen G, Gong WC, Ge J, Niu Y, Zhang X, Dunn BL, Sun WB*, 2015. Comparison of floral properties and breeding system in dimorphic Buddleja delavayi (Scrophulariaceae). Journal of Systematics and Evolution, 53(2): 196-202 (if 1.596)
Ma YP, Wu ZK, Zhang CQ, Sun WB*, 2015. Flower color polymorphism in Rhododendron cyanocarpum (Ericaceae), an endangered alpine species endemic to NW Yunnan, China. Plant Diversity and Resources, 37(1): 21-28
Zhang X, Chen G, Ma YP, Ge J, Sun WB*, 2015. Genetic diversity and structure of Buddleja crispa Benth. in Himalayas-Henduan Mts. region revealed by AFLP data. Biochemical Systematics and Ecology,58:13-20
Ma YP, Wu ZK, Dong K, Sun WB*, Marczewski T, 2015. Pollination biology of Rhododendron cyanocarpum (Ericaceae): An alpine species endemic to NW Yunnan, China. Journal of Systematics and Evolution, 53(1): 63-71
Gong WC, Chen G, Vereecken NJ, Dunn BL, Ma YP, Sun WB*, 2015. Floral scent composition predicts bee-pollination system in five butterfly bush (Buddleja, Scrophulariaceae) species. Plant Biology, 17: 245-255
Ma YP, Chamberlain DF, Sun WB* & Zhang CQ, 2015. A new species of Rhododendron (Ericaceae) from Baili Rhododendron nature reserve, NW Guizhou, China. Phytotaxa, 195: 197-200
韩春艳 ,张蕊蕊,孙卫邦*, 2014. 三七种子质量标准的研究. 种子, 33(4):116-118,121
Yue GH, Lo LC, Sun F, Gao SY, Yi CX, Hong Y and Sun WB, 2014. No Variation at 29 Microsatellites in the Genome of Jatropha curcas. Journal of Genomics, 2: 59-63
Zhang LL, Yang J, Sun WB*, 2014. Genome size estimation of Viburnum species by using flow cytometry. Plant Diversity and Resources, 36(6): 730-736
Ma YP, Nielsen J, Chambeilain D, Li XY, Sun WB*, 2014. The conservation of Rhododendron is a great urgency than has been previously acknowledged in China. Biodiversity and Conservation, 23:3149-3154
Chen G, Zhang RR, Liu Y, Sun WB*, 2014. Spore dispersal of fetid Lysurus mokusin (Clathraceae) by faeces of mycophagous insects. Journal of Chemical Ecology,40:893-899
Ma YP, Tian XL, Zhang JL, Wu ZK, Sun WB*, 2014. Evidence for natural hybridization between Primula beesiana and P. bulleyana, two heterostylous primroses in NW Yunnan, China. Journal of Systematics and Evolution, 52(4): 500-507
Gong WC, Chen G, Liu CQ, Dunn BL, Ma YP, Sun WB*, 2014. Comparison of floral scent between and within two Aisan Buddleja species: Buddleja fallowiana and B. officinalis (Scrophulariaceae).Biochemical Systematics and Ecology, 55: 322-328
Chen G, Gong WC, Ge J, Sun WB*, 2014. Inflorescence scent, color, and nectar properties of “butterfly bush” (Buddleja davidii) in its native range. Flora, 209 (3): 172-178
Ma YP, Xie WJ, Tian XL, Sun WB*, Wu ZK, Milne R, 2014. Unidirectional hybridization and reproductive barriers between two heterostylous primrose species in north-west Yunnan, China. Annals of Botany, 113: 763-775
Zhang X, Chen G, Gong WC, Sun WB*, 2014. Buddleja caryopteridifolia (Scrophulariaceae), a species to be recognized based on morphology, floral scent, and AFLP data. Phytotaxa, 161(3):181-193
Han CY, Luo GF, Ji L, Sun WB*, Fu XY, Li CR, 2014. ‘Chilongzhua’ and ‘Yanzhizui’: Two Interspecific Hybrid Cultivars of Michelia. HortScience, 49(1): 96-97
Ma YP, Wu ZK, Xue RJ, Tian XL, Gao LM, Sun WB*, 2013. A new species of Rhododendron (Ericaceae) from the Gaoligong mountains, Yunnan, China, supported by morphological and DNA barcoding data. Phytotaxa, 114(1): 42-50
Han CY, Sun WB*, 2013. Seed storage behaviour of Magnolia odoratissima. Seed Science and Technology, 41:1-5
Ma YP, Chen G, Grumbine RE, Dao ZL, Sun WB*, Guo HJ, 2013. Conserving Plant Species with Extremely Small Populations (PSESP) in China. Biodiversity and Conservation, 22:803-809
曹琦,王慷林,孙卫邦*,2012. 灯盏花种子发芽标准化研究.中国现代中药,14 (6): 20-23
张蕊蕊,孙卫邦*,2012. 三七种子质量检验规程研究.种子,31(3):119-126
曹琦,王慷林,孙卫邦*,2012. 灯盏花种子质量分级标准的研究.种子,31 (1): 107-109
Yang J, Tang L, Sun WB*, Guan YL, 2012. Genetic Diversity of an Alien Invasive Plant Mexican Sunflower (Tithonia diversifolia) in China. Weed Science, 60:552-557
Yue LL, Chen G, Sun WB*, Sun H, 2012. Phylogeography of Buddleja crispa ( Buddlejaceae) and its correlation with drainage system evolution in South-West China. American Journal of Botany,99 (10): 1726-1735
Chen G, Gong WC, Ge J, Dunn BL, Sun WB*, 2012. Floral scent of typical Buddleja species with different pollination syndromes. Biochemical Systematics and Ecology, 44: 173-178
Ma YP, Zhao XF, Zhang CQ, Zhao W, Wang TC, Li XY, Sun WB*, 2012. Conservation of the the Giant Tree Rhododendron on Gaoligong Mountain, Yunnan, China. Oryx, 46(3): 325-325
Zhao XF, Ma YM, Sun WB*, et al., 2012. High Genetic Diversity and Low Differentiation of Michelia coriacea (Magnoliaceae), a Critically Endangered Endemic in Southeast Yunnan, China. International Journal of Molecular Sciences , 13 (4), 4396-4411
Ma YP, Nielsen J, Li NW, Sun WB*, 2012. Rhododendron aureodorsale (Ericaceae) com.nov.from southwestern Shaanxi, China. Nordic Journal of Botany, 30 (2): 184-186
Ma YP, Wu ZK, Tian XL, Zhang CQ, Sun WB*, 2012. Growth discrepancy between filament and style facilitates autonomous self-fertilization in Hedychium yunnanense (Zingiberaceae). Plant Ecology and Evolution, 145 (2): 185-189
Zecca G, Abbott JR., Sun WB, et al., 2012. The timing and the mode of evolution of wild grapes (Vitis). Molecular Phylogenetics and Evolution, 62:736-747
陈虹颖,孙卫邦,李唯奇,2011.珍稀濒危植物三棱栎种子储藏特性鉴定. 植物分类与资源学报,33(5):571-579
施宗明,孙卫邦*,祁治林,李云,刘金凤,2011. 中国油橄榄适生区研究. 植物分类与资源学报,33(5):540-546
韩春艳,孙卫邦*,董青松,欧彪,2011.广州相思子种子质量分级标准研究.种子,30(4):120-122
韩春艳,孙卫邦*,董青松,欧彪,2011.广州相思子和毛相思子种子活力TTC测定方法研究.种子,(7):13-16
董青松 孙卫邦* 韩春艳 马小军,2011.广州相思子种子水分测定的研究.中国种业,(4):48-49
陈高,孙卫邦*,2011.动态吸附与气相色谱-质谱(GC-MS)联用分析密蒙花(醉鱼草科)的挥发性花香成分.植物分类与资源学报(原云南植物研究), 33(2):235-238
吉利,孙卫邦*,2011. 紫花含笑(♀)与灰岩含笑(♂)及其杂种F1代花粉萌发试验研究. 植物学学报, 27(1):12-18
Zhao LL, Sun WB*, Yang JB, 2011. Development and characterization of microsatellite markers in the critically endangered species Acer yangbiense. American Journal of Botany, 98(9): e247-249
Zhang L,Sun WB*, Wang ZL, et al, 2011. Isolation and Characterization of 15 Polymorphic Microsatellite Loci for Hibiscus aridicola (Malvaceae), an Endangered Ornamental Shrub Endemic to the Dry-Hot Valleys of Jinsha River in Southwest China. International Journal of Molecular Sciences,12:5698-5704
Chen G, Sun H, Sun WB*, Norman E, 2011. Buddleja davidii and Buddleja yunnanensis: Exploring features associated with commonness and rarity in Buddleja. Flora,206:892-895
Chen G, Sun WB*, Sun H*, 2010. Leaf epidermal characteristics of Asiatic Buddleja L. under scanning electron microscope: insights into chromosomal and taxonomic significance. Flora, 205: 777-785
Chen G, Sun WB*, 2010. Ploidy variation in Trigonobalanus verticillata (Fagaceae). Plant Systematics and Evolution (Plant Syst Evol ), 284:123-127
吉利,赵兴峰,孙卫邦*,2009. 紫花含笑(♀)与灰岩含笑(♂)及其杂种F1代叶表皮微形态和叶结构的比较观察.植物科学学报, 27(1):12-18
潘睿,孙卫邦*,2009. 极度濒危植物大果木莲种子的休眠与萌发. 植物生理学通讯,45(11):1089-1092
Sun WB*, Yin Q, 2009. Ex-Situ Conserving the Yangbi maple Acer yangbiense in China. Oryx,42(4):461-462
Chen G, Sun WB*, Sun H*, 2009. Morphological characters of leaf epidermis and size variation of leaf, flower and fruit at different ploidy level in Buddleja macrostachya. Journal of Systematics and Evolution,47(3):231-236
Zheng YL, Sun WB*, 2009. Seed Germination of Huagaimu, a Critically Endangered Plant Endemic to Southeastern Yunnan, China. HortTechnology, 19(2): 427-431
Zhao XF, Sun WB*, Yang JB, Meng J, 2009. Isolation and characterization of 12 microsatellite loci for Michelia coriacea (Magnoliaceae), a critically endangered endemic to Southeast Yunnan, China. Conservation Genetics,10:1583-1585
Zhao XF, Sun WB*, 2009. Abnormalities in sexual reproductive development and pollinator limitation in Michelia coriacea (Magnoliaceae), a critically endangered endemic to Southeast Yunnan, China. Flora,204:463-470
Zheng YL, Sun WB*, Zhou Y, Coombs D, 2009. Variation in seed and seedling traits in the natural provenances of Trigonobananus doichangensis (A. Camus) Forman (Fagaceae), a rare and endangered plant in south-west China. New Forests,37:285-294
赵兴峰,孙卫邦*,2008. 极度濒危植物西畴含笑(Michelia coriacea)的大小孢子发生及雌雄配子体发育.云南植物研究,30(5):551-58
吉利,陈高,孙卫邦*,2008. 板凳果花的挥发性化学成分分析.中草药,39(增刊):20-22
王四海,孙卫邦*,成晓,杨宇明,2008. 外来植物肿柄菊的繁殖特性与其地理扩散.生态学报,28(3):1307-1313
Zheng YL, Sun WB*, 2008. Variation of morphophysiological characters in seeds of Trigonobalanus doichangensis according to individual trees, populations and years. Euphytica,164:231-238
Nie ZL, Wen J, Azurna H, Qiu YL, Sun H, Meng Y, Sun WB, Zimmer EA, 2008. Phylogenetic and biogeographic complexity of Magnoliaceae in the Northern Hemisphere inferred from three nuclear data sets. Molecular Phylogenetics and Evolution, 49: 561-573
Deng M, Zhou ZK, Chen YQ, Sun WB, 2008. Systematic significance of the development and anatomy of flowers and fruit of Quercus schottkyana (subgenus Cyclobalanopsis: Fagaceae).International Journal of Plant Sciences (Int. J. Plant Sci.), 169(9): 1261-1277
Xia K, Zhou ZK, Chen WY, Sun WB, 2008. Rescuing the Sichou oak Quercus sichourensis in China. Oryx, 42 (1): 3-4
陈高,孙航*, 孙卫邦*,2007. 大叶醉鱼草居群、种子萌发特征及适应性的初步研究.武汉植物学研究,25(5):527-530
陈高,孙航*,孙卫邦*,2007. 改进的植物染色体制片方法. 植物生理学通讯,43(4): 759-760
Sun WB*,Zhou Y, Lu Y,Magin G, 2007.Chinese Magnolias – it’s mostly as bad as we thought. Oryx ,41(4): 427-433
Chen G, Sun WB*, Han CY, Coombes A, 2007. Karyomorphology of the endangered Trigonobalanus doichangensis (A.Camus) Forman (Fagaceae) and its taxonomic and biogeographic implications. Botanical Journal of the Linnean Society, 154:321-330
Chen G, Sun WB*, Sun H*, 2007. Ploidy variation in Buddleja L. (Buddlejaceae) in the Sino-Himalayan region and its biogeographical implications. Botanical Journal of the Linnean Society 154:305-312
Sun WB*, Han CY, Gao LM, Wilson C, 2007. Genetic diversity of the rare Asian plant, Trigonobalanus doichangensis (Fagaceae). Australian Journal of Botany, 55 (1):10-17
陈高,孙卫邦*,2006. 醉鱼草属四种植物的核型分析. 云南植物研究,28(1):37—40
傅旭阳,孙卫邦*,2006. 紫花含笑×钙土含笑杂种F1代的离体繁殖. 植物生理学通讯,42(3):461-464
陈高,孙卫邦*,2006.秋水仙诱导七里香多倍体. 植物生理学通讯,42(2):229-231
Sun WB*, Zhou Y, Han CY, Zeng CX, Shi XD, Xiang QB, Coombes A, 2006. Status and conservation of Trigonobalanus doichangensis (A. Camus) Forman (Fagaceae). Biodiversity and Conservation, 15(4):1303-1318