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浙江大學

研究領域

植物抗逆營養生理及其分子生物學、植物硅素營養生物學、新型肥料研制與推廣應用

教育背景

1979年11月-1983年7月 浙江農業大學土壤農業化學系讀本科
1983年9月-1987年7月 南京農業大學土壤農業化學系讀碩士生
1987年7月-1990年12月 南京農業大學資源與環境學院助教
1991年1月-1996年12月 南京農業大學資源與環境學院講師
1996年1月-1999年7月 南京農業大學資源與環境學院在職博士生
1997年1月-1999年12月 南京農業大學資源與環境學院副教授
2000年1月-2003年12月 南京農業大學資源與環境學院教授
2001年8月-2002年2月 香港浸會大學生物系訪問學者
2002年9月-2003年12月 德國霍恩海姆大學(University Hohenheim) 植物營養研究所洪堡學者
2004年1月- 中國農科院植物營養與肥料一級學科杰出人才,教授,博士生導師
2014年 浙江大學教授、博士生導師

學術兼職

農業部植物營養與養分循環重點開放實驗室(植物營養與肥料研究室)副主任
中國土壤學會第十、第十一國屆理事會“土壤-植物營養專業委員會”副主任
中國植物營養與肥料學會常務理事兼學術委員會主任
中國農業科學院學術委員會委員
中國生態學會理事
本領域SCI 主流刊物“Plant and Soil” 領域編輯(Section Editor)
“Journal of Plant Nutrition” 編委
“Applied and Environmental Soil Science”副主編(Associate Editor)
《植物營養與肥料學報》、《中國生態農業學報》和《干旱區研究》和《石河子大學學報》編委

社會榮譽

1996年 榮獲第二屆江蘇省青年科技標兵稱號。
2000年 獲第七屆中國農學會青年科技獎。
2004年 被評為中國農業科學院植物營養與肥料學科一級崗位杰出人才。
2006年 入選第八批長江學者。
主持973、國家支撐計劃、國家基金等課題20余項。
獲得省部級科技進步1-3等獎5項。

研究成果

先后共主持973項目課題和子課題各1項,國家支撐計劃課題1項和子課題2項,國家自然科學基金8項,國際科學基金2項,北京市自然科學基金1項,國家留學回國基金1項,教育部重大項目培育項目1項,其它省、部級項目5項,橫向課題4項。發表論文100余篇,其中在“Plant Physiology”,“New Phytologist” ,“Soil Biology and Biochemistry”,“Plant and Soil”等SCI源刊物上發表論文53篇。
論文:
[1] Li P, Song AL, Li ZJ, Fan FL, Liang YC. 2011. Silicon ameliorates manganese toxicity by regulating manganese transport and antioxidant reactions in rice (Oryza sativa L.). Plant and Soil. (Accepted)(通訊作者)(影響因子:2.773)
[2] Fan FL, Yang QB, Li ZJ, Wei D, Cui XA, Liang YC. 2011. Impacts of organic and inorganic fertilizers on nitrification in a cold climate soil are linked to the bacterial ammonia oxidizer community. Microbial Ecology. 62:982-990(通訊作者)(影響因子:3.251)
[3] Zhang B, Chu GX, Wei CZ, Ye J, Li ZQ, Liang YC. 2011. The growth and antioxidant defense responses of wheat seedlings to omethoate stress. Pesticide Biochemistry and Physiology. 100: 273-279 (通訊作者)(影響因子:1.719)
[4] Su YH, Liang YC. 2011. Transport via xylem of atrazine, 2,4-dinitrotoluene, and 1,2,3-trichlorobenzene in tomato and wheat seedlings. Pesticide Biochemistry and Physiology. 100: 284-288(影響因子:1.719)
[5] Song AL, Li P, Li ZJ, Fan FL, Nikolic M, Liang YC. 2011. The alleviation of zinc toxicity by silicon is related to zinc transport and antioxidative reactions in rice. Plant and Soil. 344: 319-333. (通訊作者)(影響因子:2.773)
[6] Li ZJ, Xie XY, Zhang SQ, Liang YC. 2011. Wheat growth and photosynthesis as affected by oxytetracycline as a soil contaminant. Pedosphere. 21(2): 244–250(通訊作者)
[7] Sun WC, Zhang J, Fan QH, Xue GF, Li ZJ, Liang YC 2010. Silicon-enhanced resistance to rice blast is attributed to silicon-mediated defence resistance and its role as physical barrier. European Journal of Plant Pathology. 128:39-49 (通訊作者)(影響因子:1.931)
[8] Ge GF, Li ZJ, Fan FL, Chu GX, Hou ZA, Liang YC. 2010. Soil biological activity and their seasonal variations in response to long-term application of organic and inorganic fertilizers. Plant and Soil. 326:31–44(通訊作者)(影響因子:2.773)
[9] Liang YC, Zhu Y-G, Smith FA, Lambers H. 2010. Soil-plant interactions and sustainability of eco-agriculture in arid region: a crucially important topic to address. Plant and Soil. 326:1–2(通訊作者)(影響因子:2.773)
[10] Wakelin SA, Chu GX, Lardner R, Liang YC, McLaughlin MJ. 2009. A single application of Cu to field soil has long-term effects on bacterial community structure, diversity, and soil processes. Pedobiologia 53:149-158 (影響因子:2.414)
[11] Wakelin SA, Chu GX, Broos K, Clarke KR, Liang YC, McLaughlin MJ. 2010. Structural and functional response of soil microbiota across a Cu gradient are moderated by addition of plant substrate. Biology and Fertility of Soils 46:333-342 (影響因子:1.757)
[12] Song AL, Li ZJ, Zhang J, Xue GF, Fan FL, Liang YC. 2009. Silicon-enhanced resistance to cadmium toxicity in Brassica chinensis L. is attributed to Si-suppressed cadmium uptake and transport and Si-enhanced antioxidant defense capacity. Journal of Hazardous Materials. 172:74-83 (通訊作者)(影響因子:4.144)
[13] Zhang J, Sun WC, Li ZJ, Liang YC, Song AL. 2009. Cadmium fate and tolerance in rice cultivars. Agronomy for Sustainable Development. 29: 483-490 (通訊作者)(影響因子:1.65)
[14] Chen WP, Hou ZA, Wu LS, Liang YC, Wei CZ. 2009. Effects of salinity and nitrogen on cotton growth in arid environment. Plant and Soil. 326:61–73(通訊作者)(影響因子:2.773)
[15] Guo B, Liang YC, Li ZJ and Han FX, 2009. Phosphorus adsorption and bio-availability in a paddy soil amended with pig manure compost and decaying rice straw. Communications in Soil Science & Plant Analysis. 40: 2185-2199(通訊作者)(影響因子:0.357)
[16] Ma YB, Li JM, Li XY, Tang X, Liang YC, Huang SM, Wang BR, Liu H, Yang XY. 2009. Phosphorus accumulation and depletion in soils in wheat-maize cropping systems: modeling and validation. Field Crops Research. 110:207-212 (影響因子:2.336)
[17] Guo B, Liang YC, Zhu YG. 2009. Does salicylic acid regulate antioxidant defense system, cell death and cadmium uptake and partitioning to acquire cadmium tolerance in rice subjected to cadmium stress? Journal of Plant Physiology, 166: 20-31 (通訊作者)(影響因子:2.5)
[18] Su YH, Zhu YG and Liang YC. 2009. Interactions of mixed organic contaminants in uptake by rice seedlings, Chemosphere, 74: 890-895(通訊作者)(影響因子:3.253)
[19] Ge GF, Li ZJ, Zhang J, Wang LG, Xu MG, Zhang JB, Xie XL, Wang JK, Liang YC. 2009. Geographical and climatic differences in long-term effect of organic and inorganic amendments on soil enzymatic activities and respiration in field experimental stations of China. Ecological Complexity. 6: 421-431(通訊作者)(影響因子:2.03)
[20] Zhang J, Li ZJ, Ge GF, Liang YC, Wu LS. 2009. Impacts of soil organic matter, pH and exogenous copper on sorption behavior of norfloxacin in three soils. Journal of Environmental Sciences. 21: 632–640(通訊作者)(影響因子:1.414)
[21] Wang LG, Liang YC, Jiang X. 2008. Analysis of eight organophosphorus pesticide residues in fresh vegetables retailed in agricultural product markets of Nanjing, China. Bulletin of Environmental Contamination and Toxicology, 81(4):377-382(影響因子:0.609)
[22] Liang YC, Zhu J, Li ZJ, Chu GX, Ding YF, Zhang J, Sun WC. 2008. Role of silicon in enhancing resistance to freezing stress in two contrasting winter wheat cultivars. Environmental and Experimental Botany,64(3): 286-294 (通訊作者)(影響因子:3.164)
[23] Sun YH, Li ZJ, Guo B, Chu GX, Wei CZ, Liang YC. 2008. Arsenic mitigates cadmium toxicity in rice seedlings. Environmental and Experimental Botany, 64(3): 264-270(通訊作者)(影響因子:3.164)
[24] Liang YC. 2008. Silicon uptake and transport in higher plants. In: Plant membrane and vacuolar transporters. Jaiwal P.K., Singh R.P., and Dhankher O.P. (eds). CAB International, Wallingford, Oxfordshire, OX10 8DE, United Kingdom. pp. 205-212.
[25] Nikolic M, Nikolic N, Liang YC, Kirkby EA, Römheld V. 2007. Germanium-68 as an adequate tracer for silicon transport in plants: Characterization of silicon uptake in different crop species. Plant Physiology, 143 (1): 495-503(前三位作者同等貢獻)(影響因子:6.235)
[26] Liang YC, Sun WC, Zhu YG, and Christie P. 2007. Mechanisms of silicon- mediated alleviation of abiotic stresses in higher plants: A review. Environmental Pollution, 147: 422-428(影響因子:3.135)(通訊作者)
[27] Guo B, Liang YC, Zhu YG and Zhao FJ. 2007. Role of salicylic acid in alleviating oxidative damage in rice roots (Oryza sativa) subjected to cadmium stress. Environmental Pollution, 147(3): 743-749(通訊作者)(影響因子:3.135)
[28] Guo B, Liang YC, Li ZJ, and Guo W. 2007. Role of salicylic acid in alleviating cadmium toxicity in rice roots. Journal of Plant Nutrition, 30(3): 427 - 439(通訊作者)(影響因子:0.593)
[29] Kong WD, Zhu YG, Liang YC, Zhang J, Smith FA and Yang M. 2007. Uptake of oxytetracycline and its phytotoxicity to alfalfa (Medicago sativa L.). Environmental Pollution, 147:187-193 (影響因子:3.135)
[30] Guo W, Zhu YG, Liu WJ, Liang YC, Geng CN, Wang SG. 2007. Is the effect of silicon on rice uptake of arsenate (AsV) related to internal silicon concentrations, iron plaque and phosphate nutrition? Environmental Pollution, 148: 251-257 (影響因子:3.135)
[31] Liang YC, Hua H. Zhu Y-G, Zhang J, Cheng C and Römheld V. 2006. Importance of plant species and external silicon concentration to active silicon uptake and transport. New Phytologist, 172(1):63-72 (影響因子:6.033)
[32] Liang YC, Zhang WH, Chen Q, Liu YL and Ding RX. 2006. Effect of exogenous silicon (Si) on H+-ATPase activity, phospholipids and fluidity of plasma membrane in leaves of salt-stressed barley (Hordeum vulgare L.). Environmental and Experimental Botany, 57(3): 212-219 (影響因子:3.164)
[33] Liang YC, Zhu YG , Xia Y, Li ZJ and Ma YB. 2006, Iron plaque enhances phosphorus uptake by rice (Oryza sativa) growing under varying phosphorus and iron concentrations. Annals of Applied Biology, 149(3):305-312(影響因子:1.868)(通訊作者)
[34] Liang YC, Si J, and Römheld V. 2005. Silicon uptake and transport is an active process in Cucumis sativus L. New Phytologist, 167(3):797-804(影響因子:6.033)
[35] Liang YC, Sun WC, Si J and Römheld V. 2005. Effect of foliar- and root-applied silicon on the enhancement of induced resistance in Cucumis sativus to powdery mildew. Plant Pathology, 54:678-685(影響因子:2.368)
[36] Liang YC, Si J, Nikolic M, Peng Y, Chen W and Jiang Y. 2005. Organic manure stimulates biological activity and barley growth in soil subject to secondary salinization. Soil Biology and Biochemistry, 37: 1185-1195.(影響因子:2.978)
[37] Liang YC, Wong JWC, and Wei L. 2005. Silicon-mediated enhancement of cadmium tolerance in maize (Zea mays L.) grown in cadmium contaminated soil. Chemosphere, 58(4): 475-483. (影響因子:3.253)
[38] Liang YC, Zhang WH, Chen Q and Ding RX. 2005. Effects of silicon on tonoplast H+-ATPase and H+-PPase activity, fatty acid composition and fluidity in roots of salt-stressed barley (Hordeum vulgare L.). Environmental and Experimental Botany, 53(1): 29-37.(影響因子:3.164)
[39] 姚建華,牛德奎,李兆君,梁永超,張樹清,2010. 抗生素土霉素對小麥根際土壤酶活性和微生物生物量的影響, 中國農業科學,43
[40] 薛高峰,梁永超,孫萬春,宋阿琳,李兆君,范分良,2010. 硅對水稻生長、白葉枯病抗性及病程相關蛋白活性的影響, 中國農業科學,43 (通訊作者)
[41] 薛高峰, 宋阿琳, 孫萬春, 李兆君, 范分良, 梁永超, 2010.硅對水稻葉片抗氧化酶活性的影響及其與白葉枯病抗性的關系. 植物營養與肥料學報,16(通訊作者)
[42] 楊佳佳, 李兆君, 梁永超, 張林靜, 李萬峰, 2009. 溫度和水分對不同施肥條件下黑土磷形態轉化的影響及機制 , 植物營養與肥料學報,15 (6): 1295-1302
[43] 范瓊花, 孫萬春, 李兆君, 梁永超, 2009, 硅對短期低溫脅迫小麥葉片光合作用及其主要相關酶的影響,植物營養與肥料學報,15:544-550(通訊作者)
[44] 孫萬春,薛高峰,張杰,范瓊花,葛高飛,李兆君,梁永超,2009,硅對水稻病程相關蛋白活性和酚類物質含量的影響及其與誘導抗性的關系,植物營養與肥料學報,15:756-762(通訊作者)
[45] 孫萬春,薛高峰,張杰,宋阿琳,葛高飛,李兆君,梁永超,2009,硅對水稻防御性關鍵酶活性的影響及其與抗稻瘟病的關系,植物營養與肥料學報,15:1023-1028(通訊作者)
[46] 姚志鵬,李兆君,梁永超,張永清,姚建華,解曉瑜,2009,土壤酶活性對土壤中土霉素的動態響應,植物營養與肥料學報,15:695-700(通訊作者)
[47] 李兆君,徐建明,梁永超,汪海珍,馬國瑞,2008,甲磺隆結合殘留對土壤酶活性的影響,生態毒理學報,3:499-506
[48] 李兆君,姚志鵬,張杰,梁永超,2008,獸用抗生素在土壤環境中的行為及其生態毒理效應研究進展,生態毒理學報,3:15-20(通訊作者)
[49] 紀雄輝,梁永超,魯艷紅,廖育林,聶軍,鄭圣先,李兆君,2007,污染稻田水分管理對水稻吸收積累鎘的影響及其作用機理,生態學報,27(9): 3930-3939(通訊作者)
[50] 萬小羽,梁永超,李忠佩,宋阿琳,婁運生,2007.種植轉Bt基因抗蟲棉對土壤生物學活性的影響, 生態學報,27(12): 5414-5420
[51] 朱佳, 梁永超*,丁燕芳,李兆君,2006,硅對低溫脅迫下冬小麥幼苗光合作用及相關生理特性的影響,中國農業科學,39(9):1780-1788(通訊作者)
[52] 丁燕芳,梁永超*,朱佳,李兆君,2007,硅對干旱脅迫下小麥幼苗生長及光合參數的影響,植物營養與肥料學報,13:471-478(通訊作者)
[53] 李平遠,婁運生,梁永超*,李兆君,2006,CO2體積分數升高對污染土壤中Cu、Cd形態分布及其生物活性的影響,環境科學學報,26(12)2018-2025(通訊作者)
[54] 張杰,梁永超,婁運生,華海霞,2005, 鎘脅迫對兩個水稻品種幼苗光合參數、可溶性糖和植株生長的影響 植物營養與肥料學報 11(6) : 774-780. (通訊作者)
[55] 華海霞,梁永超*, 婁運生, 張杰, 2005, 水稻硅吸收動力學參數固定方法的研究,植物營養與肥料學報,12:358-362
[56] 楊超光,豆虎,梁永超,婁運生,2005,硅對土壤外源鎘活性和玉米吸收鎘的影響,中國農業科學,38(1):122-127.(通訊作者)
[57] 張敏,王校常,嚴蔚東,梁永超,施衛明,2005,鹽脅迫下轉Bt 基因棉的K+ 、Na + 轉運及SOD 活性的變化,土壤學報,42(3): 460-467.
[58] 朱曉軍,梁永超,楊勁松,婁運生,2005, 鈣對鹽脅迫下水稻幼苗抗氧化酶活性和膜脂過氧化作用的影響,土壤學報,42(3): 453-459(通訊作者)
[59] 朱曉軍,楊勁松,梁永超,婁運生,楊曉英,2004, 鹽脅迫下鈣對水稻幼苗光合作用及相關生理特性的影響,中國農業科學,37(10):1497-1503
[60] Lou YS Li ZP Zhang TL and Liang YC. 2004. CO2 emissions from subtropical arable soils of China. Soil Biology and Biochemistry, 36(11): 1835-1842.(影響因子:2.926)
[61] Liang YC, Hu F, Yang MC and Yu JH. 2003. Antioxidative defenses and water deficit-induced oxidative damage in rice (Oryza sativa L.) growing on non-flooded paddy soils with ground mulching. Plant and Soil, 257(2): 407-416. (影響因子:1.998)
[62] Liang YC, Chen Q, Liu Q, Zhang WH and Ding RX. 2003. Exogenous silicon (Si) increases antioxidant enzyme activity and reduces lipid peroxidation in roots of salt-stressed barley (Hordeum vulgare L.). Journal of Plant Physiology, 160: 1157-1164. (影響因子:2.437)
[63] Liang YC, Yang YF, Yang CG, Shen QR, Zhou JM, and Yang LZ. 2003. Soil enzymatic activity and growth of rice and barley as influenced by organic manure in an anthropogenic soil. Geoderma, 115:149-160. (影響因子:2.068)
[64] Lou YS, Liang YC and Yang YA. 2003. Effects of fertilization on plant growth and nutrient uptake in oilseed rape under varying boron supply. Commun. Soil Sci. Plant Anal. 34(7&8): 1059-1075(影響因子:0.357)
[65] 楊艷芳,梁永超,婁運生,2003,硅對小麥過氧化物酶、超氧化物歧化酶和木質素的影響及其與抗白粉病的關系,中國農業科學,36(7):813-817. (通訊作者)
[66] 梁永超,丁瑞興,2002, 硅對大麥根系中離子的微域分布的影響及其與大麥耐鹽性的關系. 中國科學(C緝),32(2): 113-121. (影響因子:0.45)
[67] 梁永超,孫萬春,2002,硅和誘導接種對黃瓜炭疽病的抗性研究,中國農業科學,35(3): 267-271.
[68] 孫萬春,梁永超, 2002,硅和接種炭疽菌對黃瓜過氧化物酶活性的影響及其與抗病性的關系,中國農業科學, 35(6): 1560-1564. (通訊作者)
[69] 夏瑤,婁運生,楊超光,梁永超, 2002, 幾種水稻土對磷的吸附與解吸特性研究, 中國農業科學35(5):1369-1374. (通訊作者)
[70] Liang YC, Yang CG and Shi HH. 2001. Effects of silicon on growth and mineral composition of barley grown under toxic levels of aluminium. Journal of Plant Nutrition, 24(2): 229-243. (影響因子:0.569)
[71] Wu LH, Zhu ZR, Liang YC and Zhang FS. 2001, Plastic film mulching cultivation: a new technology for resource saving water N fertiliser and reduced environmental pollution. In: Host W J et al. (eds.), Plant nutrition—Food security and sustainability of agro-ecosystems. Dordrecht: Kluwer Academic Publishers. pp.1024~1025.
[72] 梁永超,胡鋒,沈其榮,吳良歡,呂世華,張福鎖,2000,水稻覆膜旱作研究現狀與展望,見《植物營養研究---進展與展望》,馮鋒、張福鎖、楊新泉主編,中國農業大學出版社,pp.114-127.
[73] Liang YC, 1999. Effects of silicon on enzyme activity, and sodium, potassium and calcium concentration in barley under salt stress. Plant and Soil, 209(2): 217-224.(影響因子:1.998)
[74] 梁永超,胡鋒,楊茂成,朱遐亮,王廣平,王永樂,1999,水稻覆膜旱作高產節水機理研究,中國農業科學,32(1): 26-32.
[75] 梁永超,丁瑞興,劉謙,1999,硅對大麥耐鹽性的影響及其機制,中國農業科學,32(6): 75-83.
[76] 梁永超,沈其榮,張愛國,沈振國,1999,鈣、硅對酸雨脅迫下小麥生長和養分吸收的影響,應用生態學報,10(5):589-592
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