鄧敏(雲南省中青年後備人才獲得者)

主要從事植物系統分類學和進化生物學方面的研究。先後承擔完成了國家自然科學基金項目4項、省部級科研項目8項；在國內外核心刊物上發表學術論文60餘篇，其中以第一作者或通訊作者在SCI刊物上發表50餘篇。獲得國際櫟屬協會(International Oak Society)特別貢獻獎（Special Service Award）（2022年）。

在殼斗科系統分類和進化生物學研究方面取得了突出成績，主要包括以下幾個方面：

（1）對東亞殼斗科系統分類學、地理分布和比較形態解剖學、揭示了東亞殼斗科物種多樣性組及成分布，為殼斗科物種多樣性編目提供了科學依據。

（2）整合系統發育、種群遺傳學、系統發育地理學、生理生態和景觀生態學等，在殼斗科植物遺傳變異如何回響景觀和環境變化方向取得一系列原創性研究成果，為全球變化背景下東亞殼斗科的保育和恢復提供了重要指導。

l 1996.09－2000.7: 雲南大學，生命科學與化學學院 生物學系植物學專業學習，獲理學學士學位

l 2001.09－2007.05: 中國科學院昆明植物研究所學習，植物學專業，獲理學博士學位。

近十年主持或承擔的科研項目

l 2023-2027：國家重點研發計畫2023年重點專項：野生動物遷移擴散機制與種群管控技術課題一亞洲象遷移擴散機制與種群管控技術，子課題“食物資源分布及季節性變化對亞洲象擴散遷移影響”,子課題負責人,子課題負責人,經費50萬元

l 2020-2023：國家基金委自然科學基金面上項目:整合形態分析和系統發育對石櫟屬（殼斗科）的分類修訂,項目負責人,經費59萬元

l 2022-2026：雲南省中青年後備人才, 項目負責人,經費12萬元

l 2017-2019：中科院東南亞中心課題：緬甸北部地區殼斗科植物多樣性調查,經費40萬元

l 2013-2016：國家自然科學基金面上項目:自然雜交對瀕危植物越南青岡遺傳多樣性和適應性的影響,項目負責人,經費80萬元

l 2011-2020:中科院植物研究所植物系統與進化重點實驗室開放課題:泛喜馬拉雅地區殼斗科植物分類及分布研究, 項目負責人,經費15萬元

l 2019-2022:上海市綠化和市容管理局重點攻關項目:珍稀樹種赤皮青岡的景觀基因組學及保護策略研究,項目負責人,經費100萬元

l 2017-2020:上海市綠化和市容管理局重點攻關項目:氣候變化對亞洲常綠闊葉林代表樹種青岡櫟類的分布和分化的影響,項目負責人,經費120萬元

l 2014-2016:上海市綠化和市容管理局重點攻關項目:瀕危樹種越南青岡的人工繁育與生態適應性研究,項目負責人,經費80.0萬元

l 2012-2014:國家自然科學基金青年基金:東亞亞熱帶常綠闊葉林廣布樹種青岡的譜系地理學研究,項目負責人,經費23萬元

l 2011-2014:上海市教委創新課題:自然雜交對瀕危櫟類植物的影響,項目負責人,經費10.0萬元

l Inernational Oak Society Taxonomy Committee，分類委員會職務（2013年～）

l 《Plant Diversity》編委。

參加編寫的主要論著：

1) Denk T, Grimm GW, Manos PS, Deng M, Hipp AL (2017) An updated infrageneric classification of the oaks: review of previous taxonomic schemes and synthesis of evolutionary patterns. In: Gil-Pelegrín E, Peguero-Pina JJ, Sancho-Knapik D (eds) Oaks Physiological Ecology. Exploring the Functional Diversity of Genus Quercus L. Springer International Publishing AG, Cham, Switzerland,

2) Carrero C, Jerome D, Beckman E, Byrne A, Coombes A, Deng M, González-Rodríguez A, Hoang VS, Khoo E, Nguyen N, Robiansyah I, Rodríguez-Correa H, Sang J, Song Y-G, Strijk JS, Sugau J, Sun W-B, Valencia-Ávalos S, Westwood M (2020) The Red List of Oaks 2020

1) Deng M, Kvaček J, Heřmanová Z, Manchester SR* (2024) Comparative nut morphology and biogeographic implications of Carya ventricosa from the Miocene of Europe. International Journal of Plant Sciences 185 (2):109-128. doi:10.1086/728185

2) Chen M-L, Yang Y, Lin L, Tan Y-H, Deng M*, Zuo Y-J* (2024) Distribution Dynamics of Diplopanax stachyanthus Hand.-Mazz. (Mastixiaceae) and Its Implications in Relict Mastixioid Flora Conservation. Forests 15 (5):766

3) Liu L, Tu Y, Li Q, Deng M* (2024) Seed germination characteristics of a critically endangered evergreen oak—Quercus marlipoensis (Fagaceae) and their conservation implications. Forests 15 (2):235

4) Luo C-S, Li T-T, Jiang X-L*, Song Y, Fan T-T, Shen X-B, Yi R, Ao X-P, Xu G-B, Deng M* (2024) High-quality haplotype-resolved genome assembly for ring-cup oak (Quercus glauca) provides insight into oaks demographic dynamics. Molecular Ecology Resources n/a (n/a):e13914.

5) Song Y, Xu G-B, Long K-X, Wang C-C, Chen R, Li H, Jiang X-L*, Deng M* (2024) (2024) Ensemble species distribution modeling and multilocus phylogeography provide insight into the spatial genetic patterns and distribution dynamics of a keystone forest species, Quercus glauca. BMC Plant Biology 24 (1):168. doi:10.1186/s12870-024-04830-1

6) Zhang Y, Ma R, Yang J, Jing Y, Yin K, Deng M*, Du FK* First Report of powdery mildew of Quercus guyavifolia (Fagaceae) Caused by Erysiphe quercicola. Plant Disease 0 (ja):null. doi:10.1094/pdis-01-24-0216-pdn

7) Yang Y, Lin L, Tan Y, Deng M* (2023) How climate change impacts the distribution of Lithocarpus hancei (Fagaceae), a dominant tree in East Asian montane cloud forests. Forests 14 (5):1049. doi:10.3390/f14051049

8) Yao K, Deng M*, Lin L, Hu J, Yang X, Li Q, Feng Z* (2023) The fertilization process in Lithocarpus dealbatus (Fagaceae) and its implication on the sexual reproduction evolution of Fagales. Planta 258 (2):23. doi:10.1007/s00425-023-04178-0

9) Lin L, Jiang X-L, Guo K-Q, Byrne A, Deng M* (2023) Climate change impacts the distribution of Quercus section Cyclobalanopsis (Fagaceae), a keystone lineage in East Asian evergreen broadleaved forests. Plant Diversity 45 (2023):552-568. doi:10.1016/j.pld.2023.03.014

10) Deng M, Li Q (2022) Optimization of the NPK Ratio for Vegetative Growth in Aeschynanthus longicaulis. Horticultural Science and Technology 40 (6):663-671. doi:10.7235/HORT.20220060

11) Deng M*, Yao K, Shi C, Shao W, Li Q (2022) Development of Quercus acutissima (Fagaceae) pollen tubes inside pistils during the sexual reproduction process. Planta 256 (1):16. doi:10.1007/s00425-022-03937-9

12) Yang B, Li J-Y, Yang R-J, Ding H-B, Deng M, Xiao C-F, Zuo Y-J, Tan Y-H (2022) Two new species of Polyalthiopsis (Annonaceae) based on morphological characters and phylogenetic evidence, with a supplementary description of P. chinensis from China. Plant Diversity. doi:10.1016/j.pld.2022.05.001

13) Wu CY, Lin L, Yao KP, Yang RJ, Deng M* (2022) The complete chloroplast genome sequence of Lithocarpus longinux (Fagaceae). Mitochondrial DNA B Resources 7 (7):1229-1231. doi:10.1080/23802359.2022.2093664

14) Zheng S-S, Jiang X-L, Huang Q-J, Deng M* (2021) Historical dynamics of semi-humid evergreen forests in the Southeast Himalaya biodiversity hotspot: a case study of the Quercus franchetii complex (Fagaceae). Frontiers in Plant Science 12:2676. doi:10.3389/fpls.2021.774232

15) Jiang XL, Su ZH, Xu GB, Deng M* (2021) Genomic signals reveal past evolutionary dynamics of Quercus schottkyana and its response to future climate change. Journal of Systematics and Evolution 59:985-997. doi:10.1111/jse.12703

16) Zhang QY, Deng M, Bouchenak‐Khelladi Y, Zhou ZK, Hu GW, Xing YW (2021) The diversification of the northern temperate woody flora – A case study of the Elm family (Ulmaceae) based on phylogenomic and paleobotanical evidence. Journal of Systematics and Evolution 60:728-746. doi:10.1111/jse.12720

17) Ji Y-H, Liu C-K, Landis JB, Deng M*, Chen J-H* (2020) Plastome phylogenomics of Cephalotaxus (Cephalotaxaceae) and allied genera. Annals of Botany 127 (5):697-708. doi:10.1093/aob/mcaa201

18) Xu J, Song Y-G, Deng M*, Jiang X-L, Zheng S-S, Li Y (2020) Seed germination schedule and environmental context shaped the population genetic structure of subtropical evergreen oaks on the Yun-Gui Plateau, Southwest China. Heredity 124 (3):499-513. doi:10.1038/s41437-019-0283-2

19) Song YG, Fragniere Y, Meng HH, Li Y, Betrisey S, Corrales A, Manchester S, Deng M, Jasinska AK, Van Sam H, Kozlowski G (2020) Global biogeographic synthesis and priority conservation regions of the relict tree family Juglandaceae. Journal of Biogeography 47 (3):643-657. doi:10.1111/jbi.13766

20) Hipp AL, Manos PS, Hahn M, Avishai M, Bodenes C, Cavender-Bares J, Crowl AA, Deng M, Denk T, Fitz-Gibbon S, Gailing O, Gonzalez-Elizondo MS, Gonzalez-Rodriguez A, Grimm GW, Jiang X-L, Kremer A, Lesur I, McVay JD, Plomion C, Rodriguez-Correa H, Schulze E-D, Simeone MC, Sork VL, Valencia-Avalos S (2020) Genomic landscape of the global oak phylogeny. New Phytologist 226 (4):1198-1212. doi:10.1111/nph.16162

21) Yang B, Deng M, Zhang M-X, Moe AZ, Ding H-B, Maw MB, Win PP, Corlett RT, Tan Y-H (2020) Contributions to the flora of Myanmar from 2000 to 2019. Plant Diversity 42 (4):292-301. doi:10.1016/j.pld.2020.06.005

22) Song Y-G, Petitpierre B, Deng M*, Wu J-P, Kozlowski G (2019) Predicting climate change impacts on the threatened Quercus arbutifolia in montane cloud forests in southern China and Vietnam: Conservation implications. Forest Ecology and Management 444:269-279.

23) Jiang X-L, Gardner EM, Meng H-H, Deng M*, Xu G-B (2019a) Land bridges in the Pleistocene contributed to flora assembly on the continental islands of South China: Insights from the evolutionary history of Quercus championii. Molecular Phylogenetics and Evolution 132:36-45.

24) Jiang X-L, Hipp AL, Deng M*, Su T, Zhou Z-K, Yan M-X (2019b) East Asian origins of European holly oaks (Quercus section Ilex Loudon) via the Tibet-Himalaya. Journal of Biogeography 46 (10):2203-2214. doi:10.1111/jbi.13654

25) Jiang X-L, Xu G, Deng M* (2019c) Spatial genetic patterns and distribution dynamics of the rare oak Quercus chungii: implications for biodiversity conservation in Southeast China. Forests 10:9. doi:10.3390/f10090821

26) Naciri Y, Christe C, Bétrisey S, Song Y-G, Deng M, Garfì G, Kozlowski G (2019) Species delimitation in the East Asian species of the relict tree genus Zelkova (Ulmaceae): A complex history of diversification and admixture among species. Molecular Phylogenetics and Evolution 134:172-185.

27) Cannon CH, Brendel O, Deng M, Hipp AL, Kremer A, Kua C-S, Plomion C, Romero-Severson J, Sork VL (2018) Gaining a global perspective on Fagaceae genomic diversification and adaptation. New Phytologist 218 (3):894-897. doi:10.1111/nph.15101

28) Deng M*, Jiang X-L, Hipp AL, Manos PS, Hahn M (2018) Phylogeny and biogeography of East Asian evergreen oaks (Quercus section Cyclobalanopsis; Fagaceae): Insights into the Cenozoic history of evergreen broad-leaved forests in subtropical Asia. Molecular Phylogenetics and Evolution 119 (2018):170-181.

29) Jiang X-L, An M, Zheng S-S, Deng M*, Su Z-H (2018) Geographical isolation and environmental heterogeneity contribute to the spatial genetic patterns of Quercus kerrii (Fagaceae). Heredity 120 (3):219-233. doi:10.1038/s41437-017-0012-7

30) Deng M*, Jiang X-L, Song Y-G, Coombes A, Yang X-R, Xiong Y-S, Li Q-S (2017a) Leaf epidermal features of Quercus Group Ilex (Fagaceae) and their application to species identification. Review of Palaeobotany and Palynology 237:10-36.

31) An M, Deng M*, Zheng S-S, Jiang X-L, Song Y-G (2017) Introgression threatens the genetic diversity of Quercus austrocochinchinensis (Fagaceae), an endangered oak: a case inferred by molecular markers. Frontiers in Plant Science 8:229. doi:10.3389/fpls.2017.00229

32) Li QS, Deng M*, Coombes A (2017) Evaluation of spent mushroom compost as a container medium for production of seedlings of two oak species. Nature Environment and Pollution Technology 16 (2):529-534

33) An M, Deng M*, Zheng S-S, Song Y-G (2016) De novo transcriptome assembly and development of SSR markers of oaks Quercus austrocochinchinensis and Q. kerrii (Fagaceae). Tree Genetics & Genomes 12 (6):103. doi:10.1007/s11295-016-1060-5

34) Jiang X-L, Deng M*, Li Y (2016) Evolutionary history of subtropical evergreen broad-leaved forest in Yunnan Plateau and adjacent areas: an insight from Quercus schottkyana (Fagaceae). Tree Genetics & Genomes 12 (6):104. doi:10.1007/s11295-016-1063-2

35) Xu J, Jiang X-L, Deng M*, Westwood M, Song Y-G, Zheng S-S (2016b) Conservation genetics of rare trees restricted to subtropical montane cloud forests in southern China: a case study from Quercus arbutifolia (Fagaceae). Tree Genetics & Genomes 12 (5):1-16. doi:10.1007/s11295-016-1048-1

36) Xu H, Su T, Zhang ST, Deng M, Zhou ZK (2016a) The first fossil record of ring-cupped oak (Quercus L. subgenus Cyclobalanopsis (Oersted) Schneider) in Tibet and its paleoenvironmental implications. Palaeogeography Palaeoclimatology Palaeoecology 442:61-71. doi:10.1016/j.palaeo.2015.11.014

37) Deng M, Coombes A, Li QS (2015a) Reinstatement of Quercus tungmaiensis Y.T. Chang (Fagaceae) and supplementation of its anatomic features. Phytotaxa 239 (3):201-212

38) Deng M, Song YG, Li QS, Coombes A, Li QJ (2015b) Clarification of the identity of Quercus patkoiensis and Q. semiserratoides (Fagaceae) using leaf epidermal features. Plant Systematics and Evolution 301 (3):849-860

39) Xu J, Deng M*, Jiang X-L, Westwood M, Song Y-G, Turkington R (2015) Phylogeography of Quercus glauca (Fagaceae), a dominant tree of East Asian subtropical evergreen forests, based on three chloroplast DNA interspace sequences. Tree Genetics & Genomes 11 (1):805. doi:10.1007/s11295-014-0805-2

40) Song Y, Deng M*, Hipp A, Li Q (2015) Leaf morphological evidence of natural hybridization between two oak species (Quercus austrocochinchinensis and Q. kerrii) and its implications for conservation management. European Journal of Forest Research 134:139-151. doi:10.1007/s10342-014-0839-x

41) Deng M*, Hipp A, Song Y-G, Li Q-S, Coombes A, Cotton A (2014) Leaf epidermal features of Quercus subgenus Cyclobalanopsis (Fagaceae) and their systematic significance. Botanical Journal of the Linnean Society 176 (2):224-259. doi:10.1111/boj.12207

42) Li QS, Deng M*, Coombes A (2014) Lectotypification of Quercus brandisiana Kurz and the significance of the leaf epidermal features to its taxonomy. Phytotaxa 156 (4):273-278