教育经历：

1989. 9 - 1993. 7 华中师范大学生物系读本科，获学士学位

1993. 9 - 1998. 7 武汉大学生命科学学院读研究生，获博士学位

工作经历：

1998. 7 - 2001. 1 武汉大学生命科学学院工作，评聘为讲师、副教授（2000年）

2001. 2 - 2003. 1 日本学术振兴会研究员（STA Fellow）

2008. 3 - 2008. 5 日本学术振兴会邀请短期访问（JSPS Invitation Fellowship Program for Research in Japan (Short Term)）

2003. 2 - 2013. 9  武汉大学生命科学学院工作，评聘为教授（2003/11）、博士生导师（2004/06）、珞珈学者特聘教授（2010.1-2012.12）、二级教授（2012/12）

2013.10 - 至今  华中师范大学 生命科学学院

主要研究领域：

传粉生态学、动植物相互关系、进化生物学、生物多样性保护

正在承担的主要科研项目：

1. 主持国家自然科学基金重点项目“探究蜂类传粉植物保护花粉的适应策略”（2021/01-2025/12），项目批准号32030071。

代表性论文：

已在国际进化与生态学领域的主流刊物（中科院SCI分区一区）上发表通讯作者文章50余篇，如Current Biology、eLife、National Science Review（2篇）、Science China: Life Sciences、American Naturalist（4篇）、Ecology（2篇）、Evolution（2篇）、Proceedings of the Royal Society B（2篇）、New Phytologist（12篇，其中5篇为cover story）等。已有10项工作被《Science》在线报道、BBC科学新闻报道、《美国生态学会通讯》封面推介、F1000 Prime与《Current Biology》（2次）、Annals of Botany（2次）、JIPB专文介绍和评论, Research Highlight in National Science Review。

2019年：

1. Wang X-Y, Tang J, Wu T, Wu D, Huang S-Q*. 2019. Bumblebee rejection of toxic pollen facilitates pollen transfer. Current Biology, 29(8): 1401-1406, https://doi.org/10.1016/j.cub.2019.03.023 (Le K: F1000Prime Recommendation of [Wang XY et al., Curr Biol 2019 29(8):1401-1406.e4]. In F1000Prime, 15 May 2019; https://facultyopinions.com/article/735559935)。《中国科学报》“华中师范大学揭露花朵传粉‘小心机’”报道，中国基金进展报道；得到F1000 Prime 专家撰文推介。

2. Song YP, Huang ZH, Huang S-Q*. 2019. Pollen aggregation by viscin threads in Rhododendron varies with pollinator. New Phytologist, 221(2): 1150–1159. doi: 10.1111/nph.15391 (Cover story)

3. Xiong Y-Z, Jia L-B, Zhang C, Huang S-Q*. 2019. Color-matching between pollen and corolla: hiding pollen via visual crypsis? New Phytologist, 224(3): 1142–1150. doi.org/10.1111/nph.16012

4. Tong Z-Y, Wang X-P, Wu L-Y, Huang S-Q*. 2019. Nectar supplementation changes pollinator behaviour and pollination mode in Pedicularis dichotoma: implications for evolutionary transitions. Annals of Botany, 123(2): 373–380. https://doi.org/10.1093/aob/mcy102

5. Yang M, Deng G-C, Gong Y-B*, Huang S-Q*. 2019. Nectar yeasts enhance the interaction between Clematis akebioides and its bumblebee pollinator. Plant Biology, 21: 732–737. doi:10.1111/plb.12957

6. 童泽宇, 黄双全*. 2019. 协同演化概念的发展、使用误区与研究证据. 中国科学《生命科学》. 49(4): 421-435. （中国演化生物学进展与展望专辑）

7. 王晓月, 汤晓辛, 童泽宇, 黄双全*. 2019. 植物与传粉者地理镶嵌下的协同演化: 过程、证据与展望. 科学通报 64(16): 1702-1710.

8. Fang Q, Gao Jie, Armbruster WS, Huang S-Q*. 2019. Multi-year stigmatic pollen-load sampling reveals temporal stability in interspecific pollination of flowers in a subalpine meadow. Oikos, 128(12): 1739–1747. doi: 10.1111/oik.06447

9. Tang J, Quan Q-M, Chen J-Z, Wu T, Huang S-Q*. 2019. Pollinator effectiveness and importance between female and male mining bee (Andrena). Biology Letters, 15(10): 20190479. http://dx.doi.org/10.1098/rsbl.2019.0479 

2020年：

10. Hao K, Tian Z-X, Wang Z-C, Huang S-Q*. 2020. Pollen grain size associated with pollinator feeding strategy. Proceedings of Royal Society Biology (Proc. R. Soc. B) 287: 20201191，http://dx.doi.org/10.1098/rspb.2020.1191

11. Fan X-L#, Chomicki G#, Hao K, Liu Q, Xiong Y-Z, Renner SS*, Gao J-Y*, Huang S-Q*. 2020. Transitions between the terrestrial and epiphytic habit drove the evolution of seed-aerodynamic traits in orchids. The American Naturalist, 195(2): 275–283.

12. Xiong Y-Z, Jia L-B, Liu C-Q, Huang S-Q*. 2020. Effective pollinia transfer by settling moths' legs in an orchid Habenaria aitchisonii. Journal of Systematics and Evolution 58(2): 174-181.  DOI: 10.1111/jse.12485.

13. Yang X-C, Hu M-H, Huang S-Q*. 2020. Airborne conifer pollen grains are rarely deposited on stigmas of co-flowering insect-pollinated angiosperms. Journal of Systematics and Evolution, 58(2): 331–338.

14. Corbet SA, Chen F-F, Chang F-F, Huang S-Q*. 2020. Transient dehydration of pollen carried by hot bees impedes fertilization. Arthropod-Plant Interactions, 14: 207–214. DOI 10.1007/s11829-019-09726-8.

15. Wu T, Tang J, Huang S-Q*. 2020. Foraging behavior and pollination efficiency of generalist insects in an understory dioecious shrub Helwingia japonica. American Journal of Botany 107(9): 1274–1282. doi:10.1002/ajb2.1524.

16. Shwe E, Wu B, Huang S-Q*. 2020. Both small and large plants are likely to produce staminate (male) flowers in a hermaphrodite lily. Plant Diversity 42(3): 142-147. https://doi.org/10.1016/j.pld.2020.01.004.

2021年：

17. Tong Z-Y#, Wu L-Y#, Huang S-Q*. 2021. Reproductive strategies of animal- pollinated plants on high mountains: a review of studies from the “Third Pole”. Journal of Systematics and Evolution 59(6): 1159–1169. DOI: 10.1111/jse.12680

18. Pi H-Q, Quan Q-M, Wu B, Lv X-W, Shen LM, Huang S-Q*. 2021. An altitude-related shift of relative abundance from insect to sunbird pollination in Elaeagnus umbellata (Elaeagnaceae). Journal of Systematics and Evolution 59(6): 1266–1275. DOI: 10.1111/jse.12685

19. Huang S-Q. 2021. On sustainable pollinator diversity and pollination service. Trends in Ecology and Evolution 36(5): 380-381.

2022年：

20. Li D-F, Han WL, Renner SS, Huang S-Q*. 2022. Touch-sensitive stamens enhance pollen dispersal by scaring away visitors. eLife, 11:e81449, 1-18. DOI: https://doi.org/10.7554/eLife.81449; see a Dispatch in Current Biology 33(1): R36-R39, 9 January 2023,  https://doi.org/10.1016/j.cub.2022.11.021中文《科学网》10月15日以“花蕊忽然弹动赶走昆虫，竟是为了快速高效传粉？——中国学者揭开雄蕊触敏运动之谜”为题进行了报道，https://news.sciencenet.cn/；2022年10月17日《中国科学报》以花蕊为何突然“弹走”昆虫为题进行了报道。

21. Jia L-B, Huang S-Q*. 2022. An examination of nectar production in 34 species of Dendrobium indicates that deceptive pollination in the orchids is not popular. Journal of Systematics and Evolution 60(6): 1371–1377. https://doi.org/10.1111/jse.12799

22. Tong Z-Y, Wu L-Y, Feng H-H, Zhang M, Armbruster WS, Renner SS*, Huang S-Q*. 2023. New calculations indicate that 90% of flowering plant species are animal-pollinated. National Science Review, 10(10): nwad219. https://doi.org/10.1093/nsr/nwad219, Online published: 11 August 2023.

https://www.eurekalert.org/news-releases/1000062

https://www.earth.com/news/study-reveals-that-90-of-flowering-plant-species-rely-on-animal-pollinators/

https://www.thedailyscience.org/new-study-confirms-that-90-of-flowering-plants-are-pollinated-by-animals.html

https://phys.org/news/2021-09-pollinators-contribute-diversity.html

中文科学网、中国科学报等报道

23. Hao K, Xu Q, Huang S-Q*. 2023. Pollen-feeding behavior of diverse insects on Geranium delavayi (Geraniaceae), a flower with large, accessible pollen grains. American Journal of Botany, 110(1): e16113: 1-9. https://doi.org/10.1002/ajb2.16113

24. Hao K, Fang Q, Huang S-Q*. 2023. Do Silene species with exposed stigmas tolerate interference by heterospecific pollen? American Journal of Botany, 110(6): e16147.  

25. Tang J, Sun S-G, Huang S-Q*. 2023. Experimental sympatry suggests geographic isolation as an essential reproductive barrier between two sister species of Pedicularis. Journal of Systematics and Evolution, 61(2): 428–439.

26. Hu Y-B, Wang X-P, Xu Y-C, Yang H, Tong Z-Y, Tian R, Xu S-H, Yu L*, Guo Y-L*, Shi P*, Huang S-Q*, Yang G*, Shi S*, Wei FW*. 2023. Molecular mechanisms of adaptive evolution in wild animals and plants. Science China: Life Sciences, 66(3): 453–495. https://doi.org/10.1007/s11427-022-2233-x 高被引论文

27. Feng H-H, Wang X-Y, Luo Y-B, Huang S-Q*. 2023. Floral scent emission is the highest at the second night of anthesis in Lonicera japonica (Caprifoliaceae). Journal of Systematics and Evolution, 61(3): 530–537.

28. Wang B, Tong Z-Y, Xiong Y-Z, Wang X-F, Armbruster WS, Huang S-Q*. 2023. Degree of style coiling is associated with corolla-tube length in the nectarless flowers of Roscoea schneideriana. Plant Diversity, 45: 748-751. https://doi.org/10.1016/j.pld.2022.12.004

29. 童泽宇, 黄双全. 2023. 传粉昆虫与植物的关系. 见王琛柱, 娄永根主编《植物与昆虫的相互作用》一书第三章, 页码130-168. 北京: 科学出版社.

30. 童泽宇, 黄双全. 2023. 引起花冠管长度演化的可能因子与例证. 植物科学学报, 41(6): 719-728.

31. Wang B#, Tong Z-Y#, Xiong Y-Z, Wang X-F, Armbruster WS, Huang S-Q*. 2023. The evolution of flower-pollinator trait matching, and why do some alpine gingers appear to be mismatched? Annals of Botany, 132(6): 1073–1087. mcad141, https://doi.org/10.1093/aob/mcad141; 专文评论见A functional view of flower–pollinator trait matching. A commentary on ‘Mismatching explained: constricted corolla tubes in Roscoea elevate the nectar’, Annals of Botany, 132(6), Pages v–vii, https://doi.org/10.1093/aob/mcad162 

32. Huang S-Q. 2023. Understanding complex mirror-image flowers. A commentary on: "The enantiostylous floral polymorphism of Barberetta aurea (Haemodoraceae) facilitates wing pollination by syrphid flies". Annals of Botany 132(6): viii–x, mcad157, https://doi.org/10.1093/aob/mcad157 (受邀撰写的评论文章).

2024年：

33. Zhang M, Jia L-B, Renner SS, Tian Z-X, Wang X-A, Gao J-Y, Luo Y-B, Aguiar AJC, Xu H-L, Huang S-Q*. 2024. Multipartite oil-flower/oil-bee mutualisms involving male-bee-pollinated orchids in tropical Asia. National Science Review, 11(5): nwae072, May 2024, https://doi.org/10.1093/nsr/nwae072

https://phys.org/news/2024-03-oil-floweroil-bee-pollination-mutualism.html, https://www.eurekalert.org/news-releases/1036894, https://bnnbreaking.com/world/asia/revolutionary-discovery-male-bees-pollinate-asian-orchids-via-oil-exchange

Research Highlight: “A study redefines the concept of a well-known orchid pollinator attraction strategy”, National Science Review 11(5): nwae129, https://doi.org/10.1093/nsr/nwae129

34. Zhang M, Qin Y, Renner SS, Schaefer H, Huang S-Q*. 2024. Thladiantha subglobosa (Cucurbitaceae), a new floral-oil-offering species from southern China. Phytotaxa, 637(2): 199-205. https://doi.org/10.11646/phytotaxa.637.2.7.

35. Feng H-H, Lv X-W, Yang X-C, Huang S-Q*. 2024. High toxin concentration in pollen may deter collection by bees in butterfly-pollinated Rhododendron molle. Annals of Botany 134(4): 551-119. https://doi.org/10.1093/aob/mcae047, Published: 20 March 2024. See a commentary on this study, “Strategies of flowering plants to avoid pollen collection by undesirable flower visitors”. Annals of Botany 134(4): Pages i–ii, https://doi.org/10.1093/aob/mcae088 

36. Wu L-Y, Huang S-Q*, Tong Z-Y*. Elevational and temporal patterns of pollination success in distylous and homostylous buckwheats (Fagopyrum) in the Hengduan Mountains. Plant Diversity 46(5): 661-670. https://doi.org/10.1016/j.pld.2023.10.001, Available online 19 October 2023

37. Zhang C, Feng H-H, Liu Y-L, Huang S-Q*. 2024. Lethal effects of tea-oil Camellia on honeybee larvae due to pollen toxicity. Journal of Integrative Plant Biology, Article DOI: 10.1111/jipb.13731. See a commentary, “Why is pollen in Camellia oleifera inedible to honeybees?”, https://doi.org/10.1111/jipb.13787.

38. Qin Y, Huang S-Q, Wang B-M, Liu Y*. 2024. Gastrodia daweishanensis (Orchidaceae), a new species from Yunnan, China. Taiwania 69(3): 317‒320. DOI: 10.6165/tai.2024.69.317

39. Renner SS, Zhang M*, Aguiar AJC, Huang S-Q*. 2024. A filmed copulation of Ctenoplectra (Ctenoplectrini, Apidae) bees suggests that males may chemically mark females. Apidologie, 55: 63. DOI: 10.1007/s13592-024-01102-7.

40.胡纯略, 童泽宇, 焦恒武, 黄双全*. 蝙蝠传粉系统的多样性及其演化研究进展[J]. 兽类学报, DOI: 10.16829/j.slxb.150960.

 2008年获得国家杰出青年基金之后2009-2018年英文文章40篇： 

1. Mao Y-Y, Huang S-Q*. 2009. Pollen resistance to water in 80 angiosperm species: flower structures protect rain susceptible pollen. New Phytologist 183: 892-899.（英国BBC科学新闻报道）http://news.bbc.co.uk/earth/hi/earth_news/newsid_8186000/8186098.stm

2. Gong Y-B, Huang S-Q*. 2009. Floral symmetry: pollinator-mediated stabilizing selection on flower size in bilateral species. Proceedings of the Royal Society B 276: 4013-4020.

3. Li J-K, Huang S-Q*. 2009. Flower thermoregulation facilitates fertilization in Asian sacred lotus. Annals of Botany 103: 1159-1163.

4. Li J-K, Huang S-Q*. 2009. Effective pollinators of Asian sacred lotus (Nelumbo nucifera): contemporary pollinators may not reflect the historical pollination syndrome. Annals of Botany 104: 845-851. Featured article in Annals of Botany

5. Huang S-Q*, Lu Y, Chen Y-Z, Luo Y-B, Delph LF. 2009. Parthenogenesis maintains male sterility in a gynodioecious orchid. American Naturalist 174: 578-584. Highlighted article in American Naturalist, 专文评论见 Current Biology 19(21): R983-R985.

6. Zhao Z-G, Du G-Z, Huang S-Q*. 2010. The effect of flower position on variation and covariation in floral traits in a wild hermaphrodite plant. BMC Plant Biology 10: 91.

7. Lu Y, Luo Y-B, Huang S-Q*. 2010. Reduced recombination in gynodioecious populations of a facultatively apomictic orchid. Plant Biology 12: 814–819.

8. Tang X-X, Huang S-Q*. 2010. Fluctuating selection by water level on gynoecium colour polymorphism in an aquatic plant. Annals of Botany 106: 843-848.

9. Gong Y-B, Huang S-Q*. 2011. Temporal stability of pollinator preference in an alpine plant community and its implications for the evolution of floral traits. Oecologia 166: 671-680.

10. Armbruster WS, Gong Y-B, Huang S-Q*. 2011. Are pollination "syndromes" predictive? --Asian Dalechampia fit neotropical models. American Naturalist 178(1): 135-143.

11. Mayer C, Adler L, Armbruster WS, Dafni A, Eardley C, Huang S-Q, Kevan PG, Ollerton J, Packer L, Ssymank A, Stout JC, Potts SG. 2011. Pollination ecology in the 21st century: key questions for future research. Journal of Pollination Ecology 3(2): 8-23.

12. Wang X-F, Armbruster WS, Huang S-Q*. 2012. Extra-gynoecial pollen-tube growth in apocarpous angiosperms is phylogenetically widespread and probably adaptive. New Phytologist 193(1): 253-260. (Cover)

13. Fang Q, Chen Y-Z, Huang S-Q*. 2012. Generalist passerine pollination of a winter-flowering fruit tree in central China. Annals of Botany 109(2): 379–384.

14. Eaton DAR, Fenster CB, Hereford J, Huang S-Q, Ree RH. 2012. Floral diversity and community structure in Pedicularis (Orobanchaceae). Ecology 93: S182–S194.

15. Fang Q, Huang S-Q*. 2013. A directed network analysis of heterospecific pollen transfer in a biodiverse community. Ecology 94(5): 1176-1185.

16. Chen Y-Z, Huang S-Q*. 2013. Red young leaves have less mechanical defence than green young leaves. Oikos 122(7): 1035–1041.

17. Liu C-Q, Huang S-Q*. 2013. Floral divergence, pollinator partitioning and the spatiotemporal pattern of plant-pollinator interactions in three sympatric Adenophora species. Oecologia 173(4): 1411–1423.

18. Huang S-Q*, Shi X-Q. 2013. Floral isolation in Pedicularis: how do congeners with shared pollinators minimize reproductive interference? New Phytologist 199(3): 858-865. (Cover)

19. Zhao Z-G, Huang S-Q*. 2013. Differentiation of floral traits associated with pollinator preference in a generalist-pollinated herb, Trollius ranunculoides (Ranunculaceae). International Journal of Plant Sciences 174(4): 637-646.

20. Huang S-Q*, Xiong Y-Z, Barrett SCH. 2013. Experimental evidence of insect pollination in Juncaceae, a primarily wind-pollinated family. International Journal of Plant Sciences 174(9): 1219–1228.

21. Mamut J, Xiong Y-Z, Tan D-Y, Huang S-Q*. 2014. Pistillate flowers experience more pollen limitation and less geitonogamy than perfect flowers in a gynomonoecious herb. New Phytologist 201(2): 670–677.

22. Armbruster WS, Corbet SA, Vey AJM, Liu S-J, Huang S-Q*. 2014. In the right place at the right time: Parnassia resolves the herkogamy dilemma by accurate repositioning of stamens and stigmas. Annals of Botany 113(1): 97-103.

23. Gong Y-B, Huang S-Q*. 2014. Interspecific variation in pollen-ovule ratio negatively correlated with pollen-transfer efficiency in a natural community. Plant Biology 16(4): 843–847.

24. Corbet SA, Huang S-Q*. 2014. Buzz pollination in eight bumblebee-pollinated Pedicularis species: does it involve vibration-induced triboelectric charging of pollen grains? Annals of Botany 114(8): 1665-1674.

25. Huang ZH, Liu HL, Huang S-Q*. 2015. Interspecific pollen transfer between two co-flowering species was minimized by bumblebee fidelity and differential pollen placement on the bumblebee body. Journal of Plant Ecology 8(2): 109-115.

26. Huang S-Q*, Wang XP, Sun S-G. 2016. Are long corolla tubes in Pedicularis driven by pollinator selection? Journal of Integrative Plant Biology 58(8): 698-700. (Cover)

27. Fang Q, Huang S-Q*. 2016. Plant-pollinator interactions in a biodiverse meadow are rather stable and tight for three consecutive years. Integrative Zoology 11(3): 199-206.

28. Corbet SA, Huang S-Q*. 2016. Small bees overheat in sunlit flowers: do they make cooling flights?. Ecological Entomology 41: 344–350.

29. Fang Q, Huang S-Q*. 2016. A paradoxical mismatch between interspecific pollinator moves and heterospecific pollen receipt in a natural community. Ecology 97(8): 1970-1978. 该项工作被《美国生态学会通讯》87(4): 414-416. 封面介绍

30. Wang X-P, Yu W-B, Sun S-G, Huang S-Q*. 2016. Pollen size strongly correlates with stigma depth among Pedicularis species. Journal of Integrative Plant Biology 58(10): 818-821.

31. Sun S-G, Armbruster WS, Huang S-Q*. 2016. Geographic consistency and variation in conflicting selection generated by pollinators and seed predators. Annals of Botany 118(2): 227-237.

32. Tong Z-Y, Huang S-Q*. 2016. Pre- and post-pollination interaction between six co-flowering Pedicularis species via heterospecific pollen transfer. New Phytologist 211(4): 1452–1461.

33. Zhang J-J, Montgomery BR, Huang S-Q*. 2016. Evidence for asymmetrical hybridization despite pre- and post-pollination reproductive barriers between two Silene species. AoB PLANTS 8: plw032; doi:10.1093/aobpla/plw032

34. Mamut J, Xiong Y-Z, Tan D-Y, Huang S-Q*. 2017. Flexibility of resource allocation in a hermaphrodite-gynomonoecious herb through deployment of female and male resources in perfect flowers. American Journal of Botany 104(3): 461-467.

35. Sun S-G, Huang Z-H, Chen Z-B, Huang S-Q*. 2017. Nectar properties and the role of sunbirds as pollinators of the golden-flowered tea (Camellia petelotii). American Journal of Botany 104(3): 468-476.

36. Wu L-Y, Wang B, Schoen DJ, Huang S-Q*. 2017. Transitions from distyly to homostyly are associated with floral evolution in the buckwheat genus (Fagopyrum). American Journal of Botany 104(8): 1232-1240. Highlighted article in AJB

37. Huang ZH, Song YP, Huang S-Q*. 2017. Evidence for passerine bird pollination in Rhododendron species. AoB PLANTS, 9: plx062 https://doi.org/10.1093/aobpla/plx062

38. Tong Z-Y, Huang S-Q*. 2018. Safe sites of pollen placement: a conflict of interest between plants and bees? Oecologia, 186(1): 163–171. 10.1007/s00442-017-3999-9

39. Wu L-Y, Chang F-F, Liu S-J, SW Armbruster, Huang S-Q*. 2018. Heterostyly promotes compatible pollination in buckwheats: Comparisons of intra-flower, intra-plant, and inter-plant pollen flow in distylous and homostylous Fagopyrum (Polygonaceae). American Journal of Botany, 105(1): 108–116.

40. Wang X-Y, Quan Q-M, Wang B, Li Y-X, Huang S-Q*. 2018. Pollen competition between morphs in a pollen-color dimorphic herb and the loss of phenotypic polymorphism within populations. Evolution, 72(4): 785–797.

 学术兼职：

曾任《Journal of Integrative Plant Biology》（2007-2012）责任编委、《科学通报》（Chinese Science Bulletin）（2011-2014）编委；湖北省林学会副理事长（2017-2022）。

现任《Journal of Systematics and Evolution》、《Journal of Plant Research》、《生物多样性》编委、《Journal of Pollination Ecology》Editor。

现任中国植物学会 理事、系统与进化专业委员会委员；兰花分会理事；湖北省植物学会副理事长。