人物經歷
1994年畢業於華中農業大學水產學院,獲學士學位;1999年畢業於南京師範大學生命科學學院,獲動物學碩士學位;2006年畢業於中科院南京地理與湖泊研究所,獲自然地理學博士學位。2005年1月至3月赴奧地利科學院湖沼研究所進行國際合作研究;2009年1月至2010年1月獲國家留學基金委資助赴英國利物浦大學生命科學學院進行學術訪問與合作研究。
研究方向
水域生態學
藻類與浮遊動物的相互關係
浮游生物的誘導型反捕食防禦
魚類生理生態學
主要貢獻
主持了以上研究方向的973項目子課題1項、國家自然科學基金3項、國際合作與交流項目1項、江蘇省自然科學基金2項等多項研究項目。先後獲得了
中國科學院院長優秀獎、江蘇省“青藍工程”優秀青年骨幹教師、
江蘇省優秀博士學位論文。在二十多種國外SCI刊物上發表論文40多篇,其中第一作者或通訊作者論文30多篇。承擔生科院本科生的
專業基礎課“基礎生態學”、專業選修課“水產養殖生態學專題”以及水生
生物學專業和水產專業研究生基礎課程“魚類遺傳與育種學”的教學工作。同時兼任FEMS Microbiology Ecology、Marine Ecology Progress Series、Bioresource Technology、Water Research、Hydrobiologia、Aquaculture、Journal of the World Aquaculture Society、Journal of Applied Ichthyology、Annales de Limnologie - International Journal of Limnology、Fresenius Environmental Bulletin、Journal of Freshwater Ecology、生態學報、湖泊科學等多種國內外刊物的審稿人;同時任國家
自然科學基金、
教育部博士學科點專項基金以及多個省科技廳、市科技局項目評審專家。
承擔的主要科研項目
1. 國家自然科學基金重點項目:枝角類多樣化反捕食防禦策略的調節機制及其對氣候變化與水體富營養化雙重作用的回響 (2018-2022),261萬元,項目主持人。
1. 國家自然科學基金:柵藻誘導型防禦的權衡策略與代價分析(31470508,2015-2018),88萬元,項目主持人。
2. 國家自然科學基金:藻類的誘發性反牧食防禦對二氧化碳水平和溫度上升的回響及其生態意義(31270504,2013-2016),81萬,項目主持人。
3. 國家自然科學基金:微囊藻表型轉化的野外原位研究(30970500,2010-2012),32萬,項目主持人。
4. 國家自然科學基金:非生物因素與原生動物牧食壓力對微囊藻表型可塑性的耦合效應及其機制(30670404,2007-2009),28萬,項目主持人。
5. 國家自然科學基金:浮遊動物對微囊藻群體形成的誘發及其效應(30400062,2005-2007),22萬,項目主持人。
6. 國家973項目:藍藻水華衍生污染物的毒理效應與健康風險(2008CB418102,2008-2012),負責50.9萬,子專題主持人。
7. 國家973項目,西北乾旱區湖泊水文-生態系統演變過程與機制(2012CB956102,2012-2016),負責50萬元,子專題主持人。
8. 江蘇省自然科學基金:原生動物對微囊藻種群和毒素的影響研究(BK2011073,2012-2014),27萬,項目主持人。
代表性研究論文
1. Yang Z*, Zhang L, Zhu XX, Wang J, Montagnes DJS*. 2016. An evidence-based framework for predicting the impact of differing autotroph-heterotroph thermal sensitivities on consumer–prey dynamics.ISME Journal 10: 1767–1778.(2015 IF=9.328,5-year IF=10.728)
2. Yang Z*, Lowe CD, Crowther W, Fenton A, Watts PC, Montagnes DJS*. 2013. Strain-specific functional and numerical responses are required to evaluate impacts on predator–prey dynamics.ISME Journal 7: 405-416.(2015 IF=9.328,5-year IF=10.728)
3. Zhang L, Lyu K, Wang N, Gu L, Sun YF, Zhu XX, Wang J, Huang Y,Yang Z*. 2018. Transcriptomic analysis reveals the pathways associated with resisting and degrading microcystin inOchromonas.Environmental Science & Technology52:11102–11113.
4. Lyu K, Meng QG, Zhu XX, Dai DX, Zhang L, Huang Y,Yang Z*. 2016. Changes in iTRAQ-based proteomic profiling of the cladoceranDaphnia magnaexposed to microcystin-producing (MP) and microcystin-free (MF)Microcystisaeruginosa.Environmental Science & Technology50:4798–4807.
5. Lyu K, Zhu XX, Wang QQ, ChenYF,Yang Z*. 2013.Copper/zinc-superoxide dismutase from the CladoceranDaphnia magna: Molecular cloning and expression in response to different acute environmental stressors.Environmental Science & Technology47: 8887-8893.
6. Lyu K, Gu L, Wang H, Zhu XX, Zhang L, Sun YF, Huang Y,Yang Z*. 2019. Transcriptomic analysis dissects the mechanistic insight into theDaphniaclonal variation in tolerance to toxicMicrocystis.Limnology and Oceanography64:DOI:10.1002/lno.11038
7.Huang Y, Cui GL, Li BP, Zhu XX,Yang Z*. 2018. Elevated atmospheric CO2enhances grazer-induced morphological defense in the freshwater green algaScenedesmusobliquus.Limnology and Oceanography63:1004-1014.
8. Huang Y, Nan HH, Zhu XX, Li BP, Zhang Z,Yang Z*. 2016. Waterborne copper impairs grazer-induced colony formation and photosynthetic efficiency inScenedesmusobliquus.Limnology and Oceanography61: 625-634.
9. Wang J, Tang HX, Zhang XX, Xue XF, Zhu XX, Chen YF*,Yang Z*. 2018. Mitigation of nitrite toxicity by increased salinity is associated with multiple physiological responses: A case study using an economically important modelspecies, the juvenile obscure puffer (Takifuguobscurus).Environmental Pollution232: 137-145.
10. Lyu K, Zhang L, GuL, Zhu XX, Wilson AE,Yang Z*. 2017. Cladoceran offspring tolerance to toxicMicrocystisis promoted by maternal warming.Environmental Pollution227: 451–459.
11. Zhang L, Gu L, HouXY, Kong QD, Chen K, Zhu XX, Huang Y, Chen YF,Yang Z*. 2018. Chlorophytes prolong mixotrophicOchromonaseliminatingMicrocystis: temperature-dependent effect.Science of the Total Environment639C: 705-713.
12. Sun YF, Wang YY, Lei J, Qian CC, Zhu XX, Akbar S,Huang Y,Yang Z*. 2018. Temperature-dependent elimination efficiency onPhaeocystisglobosaby different initial population sizes of rotiferBrachionusplicatilis.Chemosphere203: 474-481.
13. Zhu XX, Sun YF, Zhang XX, Heng HL, Nan HH, Zhang L, Huang Y*,Yang Z*. 2016. Herbicides interfere with antigrazer defenses inScenedesmusobliquus.Chemosphere162: 243-251.
14. Lyu K, Zhang L, Zhu XX, Cui GL, Wilson AE,Yang Z*. 2015. Arginine kinase in the cladoceranDaphnia magna: cDNA sequencing and expression is associated with resistance to toxicMicrocystis.Aquatic Toxicology160: 13-21.
15. Lyu K, Zhu XX, Chen R, ChenYF,Yang Z*. 2014.Molecular cloning of manganese superoxide dismutase gene in thecladoceranDaphnia magna: Effects of microcystin, nitrite, andcadmium on gene expression profile.Aquatic Toxicology148: 55– 64.
16. Lyu K, Guan HY, Wu CC, Wang XY, Wilson AE,Yang Z*. 2016. Maternal consumption of non-toxicMicrocystisbyDaphniamagnainduces tolerance to toxicMicrocystisin offspring.Freshwater Biology61: 219–228.
17. Lyu K, Wang QQ,Yang Z*, Montagnes DJS*. 2016. Cumulative effects matter: multi-brood responses ofDaphniato hypoxia.Freshwater Biology61:1685–1693.
18. Sun HJ, LüK, Minter EJA, Chen YF,Yang Z*, Montagnes DJS. 2012. Combined effects of ammonia and microcystin on survival, growth, antioxidant responses, and lipid peroxidation of bighead carpHypophthalmythysnobilislarvae.Journal of Hazardous Materials221/222: 213-219.
19.Yang Z*, Xiang FH,Minter EJA, LüK, Chen YF, Montagnes DJS. 2011.The interactive effects of microcystin and nitrite on life-history parameters of the cladoceranDaphnia obtusa.Journal of Hazardous Materials190:113–118.
20.Yang Z*, Liu Y, Ge J, Wang W, Chen YF, Montagnes DJS. 2010. Aggregate formation and polysaccharide content ofChlorella pyrenoidosaChick (Chlorophyta) in response to simulated nutrient stress.Bioresource Technology101: 8336–8341.