趙莉藺，女，博士，研究員，中國科學院特聘研究崗位，必威精装版app西汉姆联 入侵生物互作生態學研究組組長。

國家WR青拔，中國科學院“青年創新促進會”優秀會員、國家自然科學基金重點項目主持、國家重點研發計劃項目主持。Frontiers in Plant Science、Agronomy Associate Editor、《昆蟲學報》編委、中國昆蟲學會理事、副秘書長、中國昆蟲學會化學生態專業委員會副主任、國際學術交流工作委員會副主任、中國植保學會生物入侵分會副主任、中國林學會森林和草原昆蟲分會副主任、中國生態學會化學生態委員會委員。獲第十五屆林業青年科技獎，林業青年科技獎、盧嘉錫青年人才獎。獲得梁希科技進步二等獎（排名第二）等省部級獎勵5項。

2007年於必威精装版app西汉姆联 獲得博士學位留所工作，曆任助理研究員、副研究員、創新研究員；2012年6-12月在美國佛羅裏達大學從事訪問學者研究， 2017年至今任必威精装版app西汉姆联 研究員（PI）。

聚焦“外來種如何入侵災變”這一科學問題，開展理論突破和技術創新，以鬆材線蟲為主要研究對象，形成了林業生物入侵的產學研一體化研發範式。發現本地種的協同是外來種入侵災變關鍵。從化學通訊新視角闡明了本地種協同的入侵災變規律，提出“本地種協同入侵”假說，從化學信息和基因水平闡明全球氣候變化下中國媒介昆蟲和伴生菌促進入侵病原繁殖和擴散的共生入侵和適應性進化機製，以第一或者通訊作者在Nature Communication、Current Biology、Global Change Biology、Trends in Parasitology、ISME J等國內外學術期刊發表論文90餘篇；改變了以殺滅入侵病蟲為目標的被動防控思路，提出了“生態免疫誘導”的主動防禦理念，研發破壞協同互作的微生態調控技術。2021年以來提交政策建議報告6項獲得全國政協、中央辦公廳等采納。

林業重大入侵生物災變機理與生態調控。目前研究主要為：1）重要林業入侵種共生入侵的化學通訊介導的免疫和發育互作機理；2）全球氣候變化下的入侵複合災害驅動機理，3）重大入侵種入侵適應性進化分子機理與免疫分子靶向調控技術，4）微生態調控為主的植物廣譜誘抗技術。

科技部國家重點研發計劃項目、國家自然科學基金重點項目、國家重點研發計劃項目、國家林業局揭榜掛帥項目、中國科學院前沿科學重點研究項目、國家自然科學基金聯合項目、麵上項目、中國科學院基礎前沿科學研究計劃從0到1原始創新項目、中國科學院青年創新促進會優秀會員項目等。

1. Zhou,J.^#,Du,J. ^#,Bonifácio,L.^#,Yin,W.^#,Huang,L.,Ning,J.,Han,D.,Hu,J.,Song,W.,Zhao,L.*,2024. Vulnerability of global pine forestry's carbon sink to an invasive pathogen-vector system. Global Change Biology 30(12),e17614
2. Ren,L^#.,Zhang,H. ^#,Zhou,J. ^#,Wu,Y.,Liu,B.,Wang,S.,Liu,X.,Hao,X.,Zhao,L. *,2023. Unique and generic crossed metabolism in response to four sub-lethal environmental stresses in the oriental fruit fly,Bactrocera dorsalis Hendel. Ecotoxicology and Environmental Safety  264,115434.
3. Ning,J. ^#,Gu,X. ^#,Zhou,J.,Zhang,H.,Sun,J.,Zhao,L.*,2023. Palmitoleic acid as a coordinating molecule between the invasive pinewood nematode and its newly associated fungi. ISME Journal 17,1862–1871.
4. Chen,Z.,Wang,X.,Ren,X.,Li,W.,Chen,L.,Zhao,L.*,2023. Fate and occurrence of indoxacarb during radish cultivation for multi-risk assessment. Ecotoxicology and Environmental Safety  259,115065.
5. Zhang,Y. ^#,Gu,X. ^#,Huang,C.,Zhou,J.,Shi,J. *,Zhao,L*.,2023. Temperature-regulated metabolites of Serratia marcescens inhibited reproduction of pinewood nematode Bursaphelenchus xylophilus. iScience 26,107082.
6. Shen,P.^#,Wan,X. ^#,Wu,F.,Shi,K.,Li,J.,Gao,H.,Zhao,L.*,Zhou,C. *,2023. Neural circuit mechanisms linking courtship and reward in Drosophila males Current Biology S0960-9822,00523-00527.
7. Chen,Z.,Liu,Z.,Ren,X.,Kang,S.,Wei,L.,Zhao,L. *,2023. Health risks of dietary ethirimol exposure demand attention in China: A study of nationwide applications. Chemosphere 331,138810.
8. Chen,Z.,Kang,S.,Ren,X.,Cheng,Y.,Li,W.,Zhao,L. *,2023. Large-scale fate profiling of butralin between cultivated and processed garlics for multi-risk estimations. Science of The Total Environment 873,162369.
9. Tang,X. ^#,Zhou,J. ^#,Koski,T.M.,Liu,S., Zhao,L. *,Sun,J. *,2023. Hypoxia-induced tracheal elasticity in vector beetle facilitates the loading of pinewood nematode. Elife 12,e84621.
10. Zhao,H. ^#,Xian,X. ^#,Yang,N.,Guo,J.,Zhao,L.,Shi,J.*,  Liu,W.*，2023. Risk assessment framework for pine wilt disease: Estimating the introduction pathways and multispecies interactions among the pine wood nematode,its insect vectors,and hosts in China. Science of The Total Environment  905,167075.
11. Tian,H^#.,Zhao,L.^#,Koski,T.,Sun,J.*,2022. Microhabitat governs the microbiota of the pinewood nematode and its vector beetle: Implication for the prevalence of pine wilt disease. Microbiology Spectrum 10,e0078322.
12. Ning,J.^#,Zhou,J. ^#,Wang,H.,Liu,Y.,Ahmad,F.,Feng,X.,Fu,Y.,Gu,X.,Zhao,L.*,2022. Parallel evolution of c-type lectin domain gene family sizes in insect-vectored nematodes. Frontiers in Plant Science 13,856826.
13. Ning,J.,Lu,P.,Fan,J.,Ren,L., Zhao,L. *,2022. American fall webworm in China: A new case of global biological invasions. Innovation 3,100201.
14. Tian,H. ^#,Koski,T. M. ^#,Zhao,L.,Sun,J.*，2022. Invasion history of the pinewood nematode Bursaphelenchus xylophilus influences the abundance of Serratia sp. in pupal chambers and tracheae of insect-vector Monochamus alternatus. Frontiers in Plant Science 13,856841.
15. Zhao,M.,Wickham,J. D.,Zhao,L., Sun,J.*,2021. Major ascaroside pheromone component asc-C5 influences reproductive plasticity among isolates of the invasive species pinewood nematode. Integrative Zoology 16(6),893–907.
16. Xiang,Y.,Zou,Q.,Zhao,L.*,2020. VPTMdb: a viral posttranslational modification database. Briefings in Bioinformatics 2021.22(4),bbaa251.
17. Zhang,C.,Wickham,J. D.,Zhao,L.,Sun,J,2021. A new bacteria‐free strategy induced by MaGal2 facilitates pinewood nematode escape immune response from its vector beetle. Insect Science 28(4),1087-1102.
18. Zhang,B.^#,Zhao,L.^#,Ning,J.,Wickham,J.D.,Sun,J.*,2020. Mir-31-5p regulates cold acclimation of the wood-boring beetle Monochamus alternatus via ascaroside signaling. BMC Biology 18(1),184.
19. Zhang,W.,Yu,H.,Lv,Y.,Bushley,K.E.,Wickham,J.D.,Gao,S.,Hu,S.*,Zhao,L.*,Sun,J.*,2020. Gene family expansion of pinewood nematode to detoxify its host defence chemicals,Molecular Ecology 29(5),940-955.
20. Meng,J.,Wickham,J. D.,Ren,W.,Zhao,L.*,Sun,J.*,2020. Species displacement facilitated by ascarosides between two sympatric sibling species: a native and invasive nematode. Journal of pest science 93,1059-1071.
21. Zhang,W.^#,Zhao,L.^#,Zhou,J.,Yu,H.,Zhang,C.,Lv,Y.,Lin,Z.,Hu,S.,Zou,Z.,Sun,J.*,2019. Enhancement of oxidative stress contributes to increased pathogenicity of the invasive pine wood nematode. Philosophical Transactions of The Royal Society B-biological Sciences 374,20180323.
22. Wu,Y.,Wickham,J.D.,Zhao,L.*,Sun,J.*,2019. CO₂ drives the pine wood nematode off its insect vector. Current Biology 29,R603-R622.
23. Zhou,J. ^#,Zhao,L. ^#,Yu,H.,Wang,Y.,Zhang,W.,Hu,S.,Sun,J.,2018. Immune tolerance of vector beetle to its partner plant parasitic nematode modulated by its insect parasitic nematode. The FASEB Journal  32(9),4862-4877.
24. Zhao,L.^#,Ahmad,F. ^#,Lu,M.,Zhang,W.,Wickham,J. D.,Sun,J.,2018. Ascarosides promote the prevalence of ophiostomatoid fungi and an invasive pathogenic nematode,Bursaphelenchus xylophilus. Journal of chemical ecology  44,701-710.
25. Zhou,J.,Yu,H.,Zhang,W.,Ahmad,F.,Hu,S.*,Zhao,L.*, Zou,Z.*,Sun,J.*,2018. Comparative analysis of the Monochamus alternatus immune system. Insect science  25(4),581-603.
26. Zhang,W. ^#,Meng,J. ^#,Ning,J. ^#,Qin,P.,Zhou,J.,Zou,Z.,Wang,Y.,Jiang,H., Ahmad,F.,Zhao,L.*,Sun,J.*,2017. Differential immune responses of Monochamus alternatus against symbiotic and entomopathogenic fungi. Science China Life Sciences  60,902-910.
27. Zhang,B.,Zhang,W.,Lu,M.,Ahmad,F.,Tian,H.,Ning,J.,Liu,X.,Zhao,L.*, Sun,J.*,2017. Chemical signals of vector beetle facilitate the prevalence of a native fungus and the invasive pinewood nematode. Journal of Nematology  49(4),341-347.
28. Zhang,S. ^#,Ning,J. ^#,Zhang,W.,Salcedo,C.,Zhao,L.*,2017. Developmental differences between a Chinese and a North American isolate of the pinewood nematode Bursaphelenchus xylophilus (Tylenchida: Aphelenchoididae) under laboratory conditions. Science China Life Sciences  60,921-923.
29. Zhao,L.,Zhang,X.,Wei,Y.,Zhou,J.,Zhang,W.,Qin,P.,Chinta,S.,Kong,X.,Liu,Y.,Yu,H.,Hu,S.,Zou,Z.,Butcher,R.A. and Sun,J.*,2016. Ascarosides coordinate the dispersal of a plant-parasitic nematode with the metamorphosis of its vector beetle. Nature Communications 7,12341.
30. Chen,D.,Li,Y.,Zhang,Q.,Zhang,S.,Wang,H.,Zhang,Z., Zhao,L. and Kong,X.*,2015. Population divergence of aggregation pheromone responses in Ips subelongatus in northeastern China. Insect Science 23(5),728-738.
31. Zhao,L.,Mota,M.,Vieira,P.,Butcher,R.A. Sun,J.*,2014. Interspecific communication between pinewood nematode,its insect vector,and associated microbes. Trends in Parasitology 30,209-308.
32. Zhao,L.,Zhang,S.,Wei,W.,Hao,H.,Zhang,B.,Butcher,R.A. and Sun,J.*,2013. Chemical signals synchronize the life cycles of a plant-parasitic nematode and its vector beetle. Current Biology. 23,2038-2043.
33. Zhao,L.,Lu,M.,Niu,H.,Fang,G.,Zhang,S.,Sun,J.*,2013. A native fungal symbionts facilitate the prevalence and development of an invasive pathogen-native vector symbiosis. Ecology 94,2817-2826.
34. Niu,H., Zhao,L. and Sun,J.*,2013. Phenotypic plasticity of reproductive traits in response to food availability in invasive and native species of nematode. Biological Invasions 15,1407-1415.
35. Niu,H., Zhao,L.,Lu,M.,Zhang,S.,Sun,J.*,2012. The ratio and concentration of two monoterpenes mediate fecundity of the pinewood nematode and growth of its associated fungi. PLoS ONE 7(2),e31716.
36. Wang,Y.,Wang,H.,Jin,Y. Bu,C.,Cheng,J. Zhao,L.,Shi,G.*,2010. Assessment of the contact toxicity of Methyl Palmitate on Tetranychus viennensis (Acari: Tetranychidae). Journal of Economic Entomology 103(4),1372-1377.
37. Zhao,L.,Jiang,P.,Humble,L.M.,Sun,J.*,2009.  Within-tree distribution and attractant sampling of propagative pinewood nematode, Bursaphelenchus xylophilus: an early diagnosis approach. Forest Ecology and Management 258: 1932-1937.
38. Zhao,L.,Wei,W.,Kang,L.,Sun,J.*,2007. Chemotaxis of the pinewood nematode,Bursaphelenchus xylophilus,to volatiles associated with host pine,Pinus massoniana,and its vector Monochamus alternatus. Journal of Chemical Ecology 33,1207-1216.
39. Zhao,L.,Wei,W.,Liu,X.,Kang,L.,Sun,J.*,2007. A novel rapid sampling method for pinewood nematode,Bursaphelenchus xylophilus (Nematoda: Parasitaphelenchidae). Canadian journal of forest research 37(10),1867-1872.
40. Zhao,L.,Wei,W.,Kulhavy,D. L.,Zhang,X.,Sun,J.,2007. Low temperature induces two growth-arrested stages and change of secondary metabolites in Bursaphelenchus xylophilus. Nematology 9(5),663-670.