一、个人简介
宋圆圆,女,博士,公司研究员、博士生导师。先后入选“福建省高校杰出青年科研人才计划”、“福建省高校新世纪优秀人才支持计划”、“福建省青年拔尖创新人才”、“福建省杰出青年科学基金”等人才计划。2004年获得吉林师范大员工物学学士学位,2009年获华南农业大员工态学博士学位。2010至2013年分别在华南农业大学和美国奥本大学做博士后研究。2011-2012年在加拿大英属哥伦比亚大学林学系进行合作研究;2016-2017在德国马普化员工态学研究所美国科学院院士Ian T. Baldwin教授实验室合作研究。目前共发表SCI论文35篇,其中第一/通讯作者16篇。主持国家自然科学基金3项、省部级课题9项、校级课题3项,总计经费约达500万。兼任2个国际杂志编委、亚洲化感学会理事、中国昆虫学会昆虫化员工态学委员会委员、福建省生态学会理事。本团队与德国马普化员工态学研究所、德国明斯特大学、加拿大英属哥伦比亚大学和美国奥本大学建立了良好的合作关系。
学习工作简介:
l2000.9-2004.7 吉林师范大员工命科学学院学士学位
l2004.9-2009.12 华南农业大学网投十大信誉排名生态学系博士学位
l2010.3-2012.2华南农业大学网投十大信誉排名作物科学系博士后
l2012.3-2013.1美国奥本大学植物病理与昆虫学系博士后
l2013.2-2014.4华南农业大学网投十大信誉排名生态学系副研究员
l2014.5-2015.8公司作物科学学院副研究员
l2011.1-2011.5中国科学院遗传与发育生物学研究所合作研究
l2011.6-2012.3加拿大英属哥伦比亚大学林学系合作研究
l2016.10-2017.10 德国马普化员工态学研究所访问学者
l2015.9-至今公司作物科学学院研究员
二、联系方式
公司作物科学学院
福州市金山仓山区上下店路15号
350002,福州
Email: yyuansong@163.com
三、研究方向
四、研究成果
1.研究论文:
[1] Chen DM#, Chen DQ#, Xue RR#, Long J, Lin XH, Lin YB, Jia LH, Zeng RS, Song YY*. Effects of boron, silicon and their interactions on cadmium accumulation and toxicity in rice plants. Journal of Hazardous Materials. 2019, 367: 447-455.(环境科学一区,IF 6.4)
[2] Chen S#, Esmail Abdalla Elzaki M#, Ding CH, Li ZF, Wang J, Zeng RS*, Song YY*. Plant allelochemicals affect tolerance of polyphagous lepidopteran 3 pest Helicoverpa armigera (Hübner) against insecticides. Pesticide Biochemistry and Physiology, 2019, 154:32-38.
[3]Wu XY, Ding CH, Baerson SR, Lian FZ, Lin XH, Zhang LQ, Wu CF, Hwang SY, Zeng RS*, Song YY*. The roles of jasmonate (JA) signaling in nitrogen uptake and allocation in rice (Oryza sativa L.). Plant, cell &Environment,2019, 42: 659-672.
[4] Sun ZX#, Shi Q#, Li QL, Wang RM, Xu CC, Wang HH, Ran CX, Song YY*, Zeng RS*. Identification of a cytochrome P450 CYP6AB60 gene associated with tolerance to multi-plant allelochemicals from a polyphagous caterpillar tobacco cutworm (Spodoptera litura). Pesticide Biochemistry and Physiology, 2019, 154:60-66.
[5] Li QL#, Sun ZX#, Shi Q, Wang RM, Xu CC, Wang HH, Song YY*, Zeng RS*. RNA-Seq analyses of midgut and fat body tissues reveal the molecular mechanism underlying Spodoptera litura resistance to tomatine. Frontiers in Physiology, 2019, doi: 10.3389/fphys.2019.00008.
[6] Sun ZX#, Xu CC#, Chen S#, Shi Q, Wang HH, Wang RM, Song YY*, Zeng RS*. Exposure to herbicides primes p450-mediated detoxification of Helicoverpa armigera against insecticide and fungal toxin. Insects, 2019, 10(1): 28; doi:10.3390/insects10010028.
[7] Lu K, Wang Y, Chen X, Zhang XY, Li WR, Cheng YB, Li Y, Zhou JM, You KK, Song YY, Zhou Q*, Zeng RS*. Adipokinetic hormone receptor mediates trehalose homeostasis to promote vitellogenin uptake by oocytes in Nilaparvata lugens. Frontiers in Physiology, 2019, 9:1904, doi: 10.3389/fphys.2018.01904.
[8] Gu CZ, Yuan SH, Lv J, Qiao YJ, Song YY, Esmail Abdalla Elzaki M, Yang CR, Zhang YJ*, Zeng RS*. Albocycline-type macrolides with antibacterial activities from Streptomyces sp. 4205. Chemistry & Biodiversity, 2019, 16, e1800344.
[9] Hu L, Xia M, Lin XH, Xu CC, Li W, Wang J, Zeng RS∗, Song YY∗. Earthworm gut bacteria increase silicon bioavailability and acquisition by maize. Soil Biology and Biochemistry, 2018, 125: 215-221.
[10] Sun ZX#, Shi Q #, Xu CC, Wang RM, Wang HH, Song YY* and Zeng RS*. Regulation of NlE74A on vitellogenin might be mediated by angiotensin converting enzyme through a fecundity-related SNP in the brown planthopper, Nilaparvata lugens. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, 2018, 225: 26-32.
[11] Wang M#, Schäfer M#, Li DP, Halitschke R, Dong CF, McGale E, Paetz C, Song YY, Li SH, Dong JF, Heiling S, Groten K, Franken P, Bitterlich M, Harrison M, Paszkowski U, Baldwin IT*. Blumenols as shoot markers for root symbiosis with arbuscular mycorrhizal fungi. 2018, elife, 7:e37093.doi:10.7554elife.37093.
[12] Hu L, Xue RR, Xu CC, Zhang ZY, Zhang G, Zeng RS, Song YY*.Autotoxicity in the cultivated medicinal herb Andrographis paniculata. Allelopathy Journal, 2018, 45 (2): 141-152.
[13] Ye M, Song YY, Baerson SR, Long J, Wang J, Pan ZQ, Lin WX, Zeng RS*. Ratoon rice generated from primed parent plants exhibit enhanced herbivore resistance.Plant, Cell and Environment,
[14] Wu XY,Yu YG,Baerson SR,SongYY,Liang GH, Ding CH, Niu JB,PanZQ, ZengRS*. Interactions between nitrogen and silicon in rice and their effects on resistance toward the Brown Planthopper Nilaparvata lugens.Frontiers in Plant Science, 2017, 8:28.doi: 10.3389/fpls.2017.00028
[15] Zebelo S, Song YY, Kloepper JW, Fadamiro, H. Rhizobacteria activates (+)-δ-cadinene synthase genes and induces systemic resistance in cotton against beet armyworm (Spodoptera exigua).Plant, Cell and Environment, 2016, 39: 935-943.
[16] SongYY, ChenDM, LuK, Sun ZX, ZengRS*.Enhanced Tomato Disease Resistance Primed by Arbuscular Mycorrhizal Fungus. Frontiers in Plant Science, 2015, 6:786.
[17] Song YY, Simard SW*, Carroll A, Mohn WW, Zeng RS. Defoliation of interior Douglas-fir elicits carbon transfer and stress signaling to ponderosa pine neighbors through ectomycorrhizal networks.Scientific Reports, 2015, 5: 8495
[18] Song YY, Ye M, Li CY, He XH, Zhu-Salzman KY, Wang RL, Su YJ, Luo SM, Zeng RS*. Hijacking common mycorrhizal networks for herbivore-induced defence signal transfer between tomato plants. Scientific Reports, 2014, 4:3915.
[19] Song YY, Ye M, Li CY, Wang RL, Wei XC, Luo SM, Zeng RS*.Priming of anti-herbivore defense in tomato by arbuscular mycorrhizal fungus and involvement of the jasmonate pathway. Journal of Chemical Ecology , 2013, 39(7): 1036-1044.
[20] Song YY, ?xml:namespace>
[21] Song YY, Zeng RS, Xu JF, Li J, Shen X, Yihdego WG. Interplant communication of tomato plants through underground common mycorrhizal networks.PLoS ONE, 2010, 5(10): e13324.
[22] Ye M, Song YY, Long J, Wang RL, Baerson SR, Pan ZQ, Zhu-Salzman KY, Xie JF, Cai KZ, Luo SM, Zeng RS*. Priming of jasmonate-mediated antiherbivore defense responses in rice by silicon. Proceedings of the National Academy of Sciences of the United States of America, 2013, 110(38): E3631-3639.
[23] Wang RL, Feng ZL, Liang XT, Xu WB, Su YJ,Song YY*, Zeng RS. Comparative allelopathic and competitive abilities of 3-native forage legumes and the invasive weed Bidens pilosa L. Allelopathy Journal, 2012, 29 (2): 297-306.
[24] Song YY, Wang RL*, Zhao MY, Yan XX, SuYJ, Zeng RS. Differential allelopathic potential of wild rice (Oryzarufipogon W. Griffith) biotypes.Allelopathy Journal, 2012, 30 (2): 189-196.
[25] Mahmood K, Khan MB, Song YY, M Ijaz, Luo SM,Zeng RS*. UV-irradiation enhances rice allelopathic potential in rhizosphere soil. Plant Growth Regulation, 2013, 71: 21-29.
[26] Mahmood K, Khan MB, Ijaz M, Habib U, Mahmood A, Song YY, Luo SM, Zeng RS*. Exogenous Application of Signaling Compounds Enhances Rice Allelopathic Potential in Rhizosphere Soil. International Journal of Agriculture and Biology, 2013, 15: 1319-1324.
[27] Wang RL, Rehman S, Liang XT, Song YY, Su YJ, Baerson SR, Zeng RS*. Effects of simulated acid rain on the allelopathic potential of invasive weed Wedelia trilobata. Allelopathy Journal, 2012, 30 (1): 23-32.
[28] Ye M, Luo SM, Xie JF, Li YF, Xu T, Liu Y, Song YY, Zhu-Salzman KY, Zeng RS*. Silencing COI
[29] Wang RL, Staehelin C, Franck ED, Song YY, Su YJ, Zeng RS*. Simulated acid rain accelerates litter decomposition and enhances the allelopathic potential of the invasive plant Wedelia trilobata (Creeping Daisy). Weed Science, 2012, 60: 462-467.
[30] Wang RL, Yang XY, Song YY, Su YJ, Zeng RS*. Allelopathic potential of Tephrosia vogelii Hook. f.: Laboratory and field evaluation. Allelopathy Journal, 2011, 28 (1): 53-62.
[31] Chen M, Xie LJ, Zhou JR, Song YY, Wang RL, Chen S, Su YJ, Zeng RS*. Collection, purification and structure elucidation of allelochimcals of Streptomyces sp. 6803. Allelopathy Journal, 2010, 25 (1): 93-106.
[32] Xie LJ, Zeng RS*, Bi HH, Song YY, Wang RL, Su YJ, Chen M, Chen S, Liu YH. Allelochemical mediated invasion of exotic plants in China.Allelopathy Journal, 2010, 25 (1): 31-50.
[33] Chen M, Zhou JR, Li CY, Song YY, Xie LJ, Chen S, Zeng RS*. Isolation, identification and bioactivity of allelochemicals of Streptomyces sp. strain6803. Allelopathy Journal, 2009, 23(2): 411-424.
[34] Bi HH, Song YY,Zeng RS*. Biochemical and molecular responses of host plants to mycorrhizal infection and their roles in plant defence. Allelopathy Journal, 2007, 20(1):15-28.
[35] Mahmood K, Khan MB, Song YY*, Ye M, Zeng RS. Differential morphological, cytological and biochemical responses of two rice cultivars to coumarin. Allelopathy Journal, 2013, 31 (2): 281-296.
[36] 王杰,宋圆圆,胡林,杨明玉,曾任森*. 植物抗虫“防御警备”(Defense Priming):概念、机理与应用. 应用生态学报,2018,29(6):2068-2078
[37]林熠斌,刘婷婷,薛蓉蓉,吴磊,曾任森. 宋圆圆*. 丛枝菌根菌丝网络介导的番茄植株根系间抗虫系统性信号的传递. 公司学报,2018,47(5):547-553.
[38]廉法卓,林熠斌,胡林,王杰,曾任森,宋圆圆*. 菌根菌丝网络介导的番茄植株间机械损伤信号的传递...公司学报,2018,48(1):10-15.
[39]林娴慧,庞勇滔,卢凤来,丁朝晖,曾任森,宋圆圆*. 水稻关键化感物质稻壳酮的研究综述. 广西植物,2018,38 - doi:10.11931/guihaia.gxzw201801016
[40]宋圆圆,夏明,林熠斌,林娴慧,丁朝晖,王杰,胡林,曾任森*. 丛枝菌根真菌摩西管柄囊霉侵染增强番茄对机械损伤的响应. 应用生态学报,2018,29(11):3811-3818.
[41], , , , ,*. 青葙的自毒作用及对其他植物的化感作用. 华南农业大学学报,2018,39(5):32-38.
[42] 崔伟康,杨鹏,廉法卓,夏明,徐金,尤华才,宋圆圆*. 茉莉酸信号转导途径介导番茄对棉铃虫的抗性.公司学报,2016,45(4):371-375.
[43]张晖,宋圆圆*,吕顺,郭婧婧,曾任森. 香蕉根际促生菌的抑菌活性及对作物生长的促进作用. 华南农业大学学报,2015,36(3):65-70.
[44] 宋圆圆,黄珂,石木标,陈敏,曾任森*. 链霉菌6803菌株对植物的化感作用. 应用生态学报,2012,23(10):2728-2736.
[45] 谢丽君,宋圆圆*,曾任森,王瑞龙,魏晓晨,叶茂,胡林,张晖. 丛枝菌根菌丝桥介导的番茄植株根系间抗病信号的传递. 应用生态学报,2012,23(5):1145-1152.
[46] 吴国昭,尹能文,胡林,叶茂,宋圆圆,朱克岩,曾任森*. 大豆胰蛋白酶抑制剂和防御信号物质对斜纹夜蛾幼虫保护酶的影响. 生态学杂志,2012,31(3):652-658.
[47] 王瑞龙,孙玉林,梁笑婷,宋圆圆,苏贻娟,朱克岩,曾任森*. 6 种植物次生物质对斜纹夜蛾解毒酶活性的影响. 生态学报,2012,32(16):5191-5198.
[48] 苏贻娟,王瑞龙,叶茂,宋圆圆,曾任森*. 固相微萃取技术收集水稻挥发物的比较. 中国农业科学,2012,45(4):1-6.
[49] 宋圆圆,王瑞龙,魏晓晨,卢永键,唐朝阳,吴国昭,苏贻娟,曾任森*. 地表球囊霉诱发番茄抗早疫病的分子机制. 应用生态学报,2011,22(9):2316-2324.
[50] 王瑞龙,张墨溪,宋圆圆,胡林,苏贻娟,曾任森*. 豆科牧草对4 种农田常见杂草和水稻化感作用的研究. 生态环境学报,2010,19(10):2307-2312.
[51] 宋圆圆,徐建峰,梁笑婷,苏贻娟,曾任森*. 利用气相色谱法同时测定番茄叶片中水杨酸和茉莉酸. 江西农业大学学报,2010,32(5):214-218.
[52] 吴国昭,谢丽君,宋圆圆,陈敏,曾任森*. 外源信号物质诱导广东高州普通野生稻抗稻瘟病的生理生化机理研究.西北农业学报,2009,18(3):1-5.
2.专著:
[1] 曾任森,孙仲享,宋圆圆,卢凯,朱克岩,植食性昆虫适应植物蛋白酶抑制剂的机制,2015年新生物学年鉴,科学出版社,18千字,2016
[2] Simard S, Beiler K, Bingham M, Deslippe J, He XH, Philip L, Song YY, Teste F. Resource transfer between plants through ectomycorrhizal network. 2015, 224: pp133-176. In: Mycorrhizal Networks.Horton TR, ed. Springer, Germany.
3. 主持科研项目情况:
[1] 国家自然科学基金面上项目“虫害诱导番茄招募根际促生菌及其诱发番茄抗虫的机理”(31770474).(2018.1-2021.12),在研,主持
[2] 国家自然科学基金面上项目“丛枝菌根菌丝网络在番茄植株间传递干旱信号的机理”(31470477).(2015.1-2018.12),已结题,主持
[3] 福建省高校新世纪优秀人才支持计划项目(闽教科〔2016〕23号).(2016.5-2019.5),在研,主持
[4] 福建省杰出青年科学基金项目 “根际促生菌提高番茄抗虫性与调控番茄-害虫-天敌三营养关系的机理”(2017J06010). (2017.1-2020.12),在研,主持
[5] 公司校国际合作与交流项目(与德国马普化员工态学研究所合作)“有益微生物诱导植物抗虫机制研究”.(2017.10-2019.10),在研,主持
[6] 公司作物学院高层次拔尖创新人才培育经费.(2017.9-2019.9),在研, 主持
[7] 福建省青年拔尖创新人才项目(福建省“海纳百川”高端人才聚集计划(2016),闽财指[2017]330号). (2015.9-2018.9),在研,主持
[8] 福建省高校杰出青年科研人才计划项目(闽教科〔2015〕54号).(2015.5-2018.5),已结题,主持
[9] 国家自然科学基金青年科学基金项目“水稻克隆植株间防御信号传递的分子机理”(31100286). (2012.1-2014.12),已结题,主持
[10] 国家重点基础研究973计划“作物多样性对病虫害生态调控和土壤地力的影响” (2011CB100400)第六课题:作物多样性控制病虫害的化学机理.(2011.1-2015.12),已结题,主要参加者
[11] 福建省自然科学基金面上项目“根际促生菌提高番茄抗虫性与调控番茄-害虫-天敌三营养关系的机理”(2015J01091). (2015.4-2018.),已结题,主持
[12] 福建省中青年教师教育科研项目“菌根菌丝网络介导不同种植株(玉米和番茄)间防御信号的传递及其机理”. (2015.4-2018.4),已结题,主持
[13] 公司高层次人才引进科研启动经费. (2014.4-2018.4),已结题,主持
[14] 公司作物科学学院高层次人才科研启动经费(2017.5-2018.5),已结题,主持
[15] 广东省科技计划项目“类芽孢杆菌抑制香蕉枯萎病菌活性物质的分离鉴定与应用”(20110205)(2012.1-2013.12),已结题,主持
[16] 广东省自然科学基金博士启动项目“水稻克隆植株间的化学通讯及其信号分子”(S2011040004336).((2011.10-2013.10),已结题,主持
[17] 中国博士后科学基金第四批特别资助项目“水稻克隆植株间抗虫信号的传递及其机理”(201104341)(2011.4-2012.12),已结题,主持
[18] 中国博士后科学基金项目“丛枝菌根菌丝网络传递番茄植株间抗虫信号的机理”(20100480762)(2011.1-2013.12),已结题,主持
4. 参加国际会议--会议论文:
[1] Song Yuanyuan. Herbivore-induced defense signal transfer between tomato plants via common mycorrhizal networks.The Third International Conference of Asian Allelopathy Society. Fuzhou, China. Oct.30-Nov.2. 2015(Invited talk, 特邀报告)
[2] Song Yuanyuan. Underground common mycorrhizal networks mediate interplant defense communication. The Asia-Pacific Association of Chemical Ecologist. California, USA. September 23-26, 2015 (Invited talk, 特邀报告)
[3] Song Yuanyuan. Responses of ovipostion behavior and larval development of Spodoptera exigua to inoculation of cotton with Plant Growth Promoting Rhizobacteria. The International Conference on Insect Molecular Ecology and Pest Management. Fuzhou, Fujian, China. Oct. 28-31.2014(墙报展示).
[4] Song Yuanyuan. Signaling transfer of disease resistance between different tomato plants through common networks of arbuscular mycorrhizas.International Chemical Ecology ConferenceMelbourne, Australia, August 18-23. 2013(澳大利亚墨尔本. 口头报告)
[5] Song Yuanyuan.Induced anti-herbivore defense in tomatoby arbuscular mycorrhizal fungus and its mechanism. The 4th International Conference of Insect Physiology and Molecular Biology.June 15-19. 2013 Nanjing, China.(墙报展示)
[6] Song Yuanyuan.Impact of Plant Growth Promoting Rhizobacteria (PGPR) Treatment of Cotton on Ovipostion behavior and Larval Development of Spodoptera exigua (Lepidoptera: Noctuidae). Entomology 2012, ESA's 60th Annual Meeting, November 11-14, 2012, Knoxville, TN, USA.(美国田纳西.口头报告)
[7] Song Yuanyuan. Interplant Communication of Tomato Plants through Underground Common Mycorrhizal Networks. The 27th Annual Meeting of International Society of Chemical Ecology. Burnaby, British Columbia Canada, July 24-28, 2011.(加拿大温哥华.口头报告)
[8] Song Yuanyuan. Signaling transfer of disease resistance between different tomato plants through common networks of arbuscular mycorrhizas. Allelopathy and plant chemical defense. The Sixth World Congress on Alleopathy, Guangzhou, China. December 15-19, 2011.(口头报告)
[9] Song Yuanyuan. Common mycorrhizal networks mediate aboveground plant communication. First International Conference of the Asian Allelopathy Society, Guangzhou, China. December 18-22, 2009.(口头报告)
[10] 宋圆圆. 丛枝菌根真菌诱导番茄抗虫机理研究. 第十二届全国菌根学术研讨会. 2014年7月11-13日. 中国长沙.
[11] 宋圆圆. 植物根际促生菌诱导棉花抗虫机理.全国第十届化员工态学学术研讨会.2014年10月25-27日. 中国南昌.
[12] 宋圆圆. 地下菌根菌丝网络介导植物间防御信号的网络通讯.第十七届中国农业生态与生态农业研讨会.2015年7月24-27日.中国昆明.
[13] 宋圆圆. 全国第十二届化员工态学学术研讨会, 2018 年6月22-25日,中国福州.
[14] 宋圆圆. 第五届全国入侵生物学大会,2018年8月3-6日,中国新疆乌鲁木齐.
5.专利:
[1] 王瑞龙,曾任森,梁笑婷,辛效威,宋圆圆,苏贻娟,骆世明. 薇甘菊萎蔫病毒基因诊断试剂盒及检测方法, 2013.06.05,中国发明专利,专利号:ZL 201210027972.0.
[2] 王瑞龙,曾任森, 郑子豪, 任勇, 张晖, 宋圆圆, 苏贻娟. 利用薇甘菊萎蔫病毒生物控制薇甘菊的试剂盒和方法, 2014.10.8,中国发明专利,专利号:ZL201310311469.2.