浙江大學(xué)環(huán)境與資源學(xué)院導(dǎo)師：施積炎 正文

　　姓名：施積炎
　　性別：男
　　所在學(xué)院：環(huán)境與資源學(xué)院
　　職務(wù)：副所長
　　職稱：教授
　　部門：環(huán)境保護研究所

　　招生專業(yè)：
　　環(huán)境工程

　　研究方向：
　　環(huán)境污染控制與修復(fù)，環(huán)境分子科學(xué)，環(huán)境污染同步輻射表征技術(shù)，流域水體污染控制。

　　個人簡介
　　施積炎，男，博士，教授，博士生導(dǎo)師，教育部“新世紀(jì)優(yōu)秀人才”、浙江大學(xué)求是青年學(xué)者。
　　1998年6月畢業(yè)于西南師范大學(xué)（現(xiàn)西南大學(xué)）生命科學(xué)系，2001年6月在貴州大學(xué)獲碩士學(xué)位，2004年6月獲浙江大學(xué)環(huán)境工程專業(yè)博士學(xué)位，2004年7月起在浙江大學(xué)環(huán)境與資源學(xué)院工作，任講師、副教授，2007年至2008年在美國加州大學(xué)戴維斯分校作訪問研究。
　　任浙江大學(xué)環(huán)境保護研究所副所長，中國土壤學(xué)會青年工作委員會委員，美國生態(tài)學(xué)會和環(huán)境毒理化學(xué)學(xué)會會員。
　　主要從事環(huán)境污染控制與生物修復(fù)、環(huán)境分子科學(xué)與生物技術(shù)、環(huán)境污染同步輻射表征技術(shù)、流域水體污染控制等研究。
　　主持國家自然科學(xué)基金（4項）、國家“水體污染控制與治理”重大科技專項課題、國家863子項目、浙江省科技廳項目、浙江省自然科學(xué)基金杰出青年項目和一般項目、浙江省教育廳項目等多項課題研究。
　　在Planta、Environ Sci Technol、Environmental Pollution、Soil Biology and Biochemistry、Bioresource Technology、應(yīng)用生態(tài)學(xué)報、土壤學(xué)報等國內(nèi)外重要刊物上發(fā)表論文50余篇，其中SCI論文40余篇；獲梁?？茖W(xué)技術(shù)二等獎和The 2nd International Conference on Soil Pollution and Remediation國際會議Best Poster Presentation獎；獲國家發(fā)明專利2項；副主編教材1部，參寫著作1部。入選 教育部“新世紀(jì)優(yōu)秀人才支持計劃”、浙江大學(xué)“新星計劃”和浙江省新世紀(jì)“151”人才工程第三層次，獲浙江省基金杰出青年項目資助。

　　主持課題：
　　[1] 氧化銅納米顆粒形態(tài)轉(zhuǎn)化及其植物累積和毒性作用機制（21177109），國家自然科學(xué)基金，施積炎，2012-2015
　　[2] 基于同步輻射技術(shù)研究土壤-水稻系統(tǒng)銅硫協(xié)同轉(zhuǎn)化和遷移機制（11179025），國家自然科學(xué)基金，施積炎，2012-2014
　　[3] 土壤銅分子形態(tài)轉(zhuǎn)化和吸收耦合的根尖微環(huán)境調(diào)控機制（R5110031），浙江省自然科學(xué)基金杰出青年項目，施積炎，2011-2013
　　[4] 農(nóng)業(yè)面源污染控制與管理技術(shù)綜合集成示范（2008ZX07101-006-10），國家科技重大專項課題，施積炎，2008-2010
　　[5] 根尖特異細(xì)菌動態(tài)分布及其對植物累積重金屬的作用機制（20777066），國家自然科學(xué)基金，施積炎，2007-2009
　　[6] 土壤重金屬和硫分子形態(tài)轉(zhuǎn)化的功能微生物作用機制（40601086），國家自然科學(xué)基金，施積炎，2006-2008
　　[7] 環(huán)境中二惡英類物質(zhì)的快速生物篩選和毒性評價技術(shù)，浙江省科技廳重點項目，施積炎，2007-2009
　　[8] 硫影響土壤重金屬形態(tài)和有效性的功能微生物作用機制（Y506063），浙江省自然科學(xué)基金，施積炎，2006-2007
　　[9] 城市生活垃圾綜合處理處置技術(shù)與示范研究（G20050665），國家863子項目，施積炎，2005-2006
　　[10] 基于GFP生物傳感器監(jiān)測重金屬污染土壤生態(tài)毒性（G20619），浙江省教育廳項目，施積炎，2006-2008

　　代表性論文：
　　[1] Yang JJ, Regier T, Dynes JJ, Wang J, Shi JY, Peak D, Zhao YD, Hu TD, Chen, YX, Tse JS. Soft X-ray Induced Photoreduction of Organic Cu(II) Compounds Probed by X-ray Absorption Near-Edge (XANES) Spectroscopy. Analytical Chemistry ,2011, 83 ( 20): 7856-7862
　　[2] Shi JY, Abid AD, Kennedy IM, Hristova KR, Silk WK. To duckweeds (Landoltia punctata), nanoparticulate copper oxide is more inhibitory than the soluble copper in the bulk solution. Environmental Pollution 2011, 159(5) :1277-1282.
　　[3] Shi JY, Yuan XF, Lin HR, Yang YQ, Li ZY. Differences in Soil Properties and Bacterial Communities between the Rhizosphere and Bulk Soil and among Different Production Areas of the Medicinal Plant Fritillaria thunbergii. International Journal of Molecular Sciences 2011, 12(6):3770-3785.
　　[4] Shi JY, Lin HR, Yuan XF, Chen XC, Shen CF, Chen YX. Enhancement of Copper Availability and Microbial Community Changes in Rice Rhizospheres Affected by Sulfur. Molecules 2011, 16(2) :1409-1417.
　　[5] Shi JY, Yuan XF, Chen XC, Wu B, Huang YY, Chen YX. Copper Uptake and Its Effect on Metal Distribution in Root Growth Zones of Commelina communis Revealed by SRXRF. Biological Trace Element Research 2011, 141(1-3) :294-304.
　　[6] Shi JY, Lin HR; Yuan XF; Zhao YD. Isolation and characterization of a novel sulfur-oxidizing chemolithoautotroph Halothiobacillus from Pb polluted paddy soil. African Journal of Biotechnology 2011, 10(20) : 4121-4126.
　　[7] Yuan XF, Xu J, Chai H, Lin HR, Yang YQ, Wo XD, Shi JY*. Differences of rhizo-bacterial diversity and the content of peimine and peiminine of Fritillaria thunbergii among different habits. Journal of Medicinal Plants Research 2010, 4(6) :465-470.
　　[8] Yuan XF, Shi JY*, Yang YQ, Luan J, Gao JJ, Wang YW. Establishment of Element Fingerprint and Multielement Analysis of Fritillaria thunbergii by Inductively Coupled Plasma Optical Emission Spectrometry. Biological Trace Element Research 2010, 135(1-3) :304-313.
　　[9] Lin HR, Shi JY*, Chen XN, Yang JJ, Chen YX, Zhao YD, Hu TD. Effects of lead upon the actions of sulfate-reducing bacteria in the rice rhizosphere. Soil Biology & Biochemistry 2010, 42(7) :1038-1044.
　　[10] Lin HR, Shi JY*, Wu B, Yang JJ, Chen YX, Zhao YD, Hu TD. Speciation and biochemical transformations of sulfur and copper in rice rhizosphere and bulk soil-XANES evidence of sulfur and copper associations. Journal of Soils and Sediments 2010, 10(5) :907-914.
　　[11] Lin HR, Chen XC, Hu SP, Shen CF, Chen GC, Shi JY*, Chen YX. Lead availability and soil microbial community composition in rice rhizosphere affected by thiosulfate addition. Applied Soil Ecology 2010, 45(3) :232-237.
　　[12] Qian YC, Shi JY*, Chen YX, Lou LP, Cui XY, Cao RK, Li PF, Tang J. Characterization of Phosphate Solubilizing Bacteria in Sediments from a Shallow Eutrophic Lake and a Wetland. Isolation, Molecular Identification and Phosphorus Release Ability Determination. Molecules 2010, 15(11) :8518-8533.
　　[13] Yang JJ, Hu SP, Chen XC, Yu MG, Liu J, Li H, Shen CF, Shi JY*, Chen YX. Transformation of Lead Solid Fraction in the Rhizosphere of Elsholtzia splendens. The Importance of Organic Matter. Water Air Soil Pollut 2010, 205(1-4) :333-342.
　　[14] Shi JY, Gras MA, Silk WK. Laser ablation ICP-MS reveals patterns of copper differing from zinc in growth zones of cucumber roots. Planta 2009, 229(4) :945-954.
　　[15] Chen XC, Hu SP, Shen CF, Dou CM, Shi JY*, Chen YX. Interaction of Pseudomonas putida CZ1 with clays and ability of the composite to immobilize copper and zinc from solution. Bioresource Technology 2009, 100(1) :330-337.
　　[16] Xu XH, Shi JY*, Chen XC, Chen YX, Hu TD. Chemical forms of manganese in the leaves of manganese hyperaccumulator Phytolacca acinosa Roxb. (Phytolaccaceae). Plant Soil 2009, 318(1-2) :197-204.
　　[17] Dou CM, Fu XP, Chen XC, Shi JY*, Chen YX. Accumulation and detoxification of manganese in hyperaccumulator Phytolacca americana. Plant Biology 2009, 11(5) :664-670.
　　[18] Shi JY*, Wu B, Yuan XF, Cao YY, Chen XC, Chen YX, Hu TD. An X-ray absorption spectroscopy investigation of speciation and biotransformation of copper in Elsholtzia splendens. Plant Soil 2008, 302(1-2) :163-174.
　　[19] Wang YP, Li QB, Hui W, Shi JY*, Lin Q, Chen XC, Chen YX. Effect of sulphur on soil Cu/Zn availability and microbial community composition. Journal of Hazardous Materials 2008, 159(2-3) :385-389.
　　[20] Chen X, Wu W, Shi JY*, Xu XH, Wang H, Chen YX. Adsorption of copper and zinc on pseudomonas putida CZ1. Particle concentration effect and adsorption reversibility. Colloids and Surfaces B-Biointerfaces 2007, 54(1) :46-52.
　　[21] Xu XH, Shi JY*, Chen YX, Xue SG, Wu B, Huang YY. An investigation of cellular distribution of manganese in hyperaccumlator plant Phytolacca acinosa Roxb. using SRXRF analysis. Journal of Environment Science 2006,4:746-751
　　[22] Chen XC, Wang YP, Lin Q, Shi JY*, Wu WX, Chen YX. Biosorption of copper(II) and zinc(II) from aqueous solution by Pseudomonas putida CZ1, Colloids and Surfaces B: Biointerfaces, 2005, 46 101-107
　　[23] Shi JY, Chen YX, Huang YY, He W. SRXRF as a technique for studying elements distribution in leaf of Elsholtzia splendens. Micron, 2004, 35(7):557-564
　　[24] Fu XP, Dou CM, Chen YX, Chen XC, Shi JY, Yu MG, Xu J. Subcellular distribution and chemical forms of cadmium in Phytolacca americana L. Journal of Hazardous Materials 2011, 186(1) :103-107.
　　[25] Wang YP, Li QB, Lin Q, Shi JY, Chen YX. Differences in the Rhizosphere Microbial Activity and Community Composition of Commelina communis along a Copper Contamination Gradient. Communications in Soil Science and Plant Analysis 2010, 41(17) :2046-2056.
　　[26] Chen YX, Xu J, Yu MG, Chen XC, Shi JY. Lead contamination in different varieties of tea plant (Camellia sinensis L.) and factors affecting lead bioavailability. Journal of the Science of Food and Agriculture 2010, 90(9) :1501-1507.
　　[27] Shen KL, Shen CF, Lu Y, Tang XJ, Zhang CK, Chen XC, Shi JY, Lin Q, Chen YX. Hormesis response of marine and freshwater luminescent bacteria to metal exposure. Biological Research 2009, 42(2) :183-187.
　　[28] Li F, Shi JY, Shen CF, Chen GC, Hu SP, Chen YX. Proteomic characterization of copper stress response in Elsholtzia splendens roots and leaves. Plant Molecular Biology 2009, 71(3) :251-263.
　　[29] Dou CM, Fu XP, Chen XC, Shi JY, Chen YX. Accumulation and interaction of calcium and manganese in Phytolacca americana. Plant Science 2009, 177(6) :601-606.
　　[30] Cui XY, Wang HL, Lou LP, Chen YX, Yu YL, Shi JY, Xu L, Khan MI. Sorption and genotoxicity of sediment-associated pentachlorophenol and pyrene influenced by crop residue ash. Journal of Soils and Sediments 2009, 9(6):604-612.
　　[31] Chen YX, Yu MG, Xu J, Chen XC, Shi JY. Differentiation of eight tea (Camellia sinensis) cultivars in China by elemental fingerprint of their leaves. Journal of the Science of Food and Agriculture 2009, 89(14):2350-2355.
　　[32] Wang YP, Li QB, Shi JY, Lin Q, Chen XC, Wu WX, Chen YX. Assessment of microbial activity and bacterial community composition in the rhizosphere of a copper accumulator and a non-accumulator. Soil Biology & Biochemistry 2008, 40(5):1167-1177.
　　[33] Shen CF, Huang SB, Wang ZJ, Qiao M, Tang XJ, Yu CN, Shi DZ, Zhu YF, Shi JY, Chen XC et al. Identification of Ah receptor agonists in soil of E-waste recycling sites from Taizhou area in China. Environmental Science & Technology 2008, 42(1):49-55.
　　[34] Hu SP, Chen XC, Shi JY, Chen YX, Lin Q. Particle-facilitated lead and arsenic transport in abandoned mine sites soil influenced by simulated acid rain. Chemosphere 2008, 71(11):2091-2097.
　　[35] Chen XC, Chen LT, Shi JY, Wu WX, Chen YX. Immobilization of heavy metals by Pseudomonas putida CZ1/goethite composites from solution. Colloids and Surfaces B-Biointerfaces 2008, 61(2):170-175.
　　[36] Xu XH, Chen XC, Shi JY, Chen YX, Wu WX, Perera A. Effects of manganese on uptake and translocation of nutrients in a hyperaccumulator. Journal of Plant Nutrition 2007, 30(10-12):1737-1751.
　　[37] Wang YP, Shi JY, Wang H, Lin Q, Chen XC, Chen YX. The influence of soil heavy metals pollution on soil microbial biomass, enzyme activity, and community composition near a copper smelter. Ecotox Environ Safe 2007, 67(1):75-81.
　　[38] Wang YP, Shi JY, Lin Q, Chen XC, Chen YX. Heavy metal availability and impact on activity of soil microorganisms along a Cu/Zn contamination gradient. Journal of Environmental Sciences-China 2007, 19(7):848-853.
　　[39] Ding Y, Shi JY, Wu WX, Yin J, Chen YX. Trimethylamine (TMA) biofiltration and transformation in biofilters. Journal of Hazardous Materials 2007, 143(1-2):341-348.
　　[40] Chen XC, Shi JY, Chen YX, Xu XJ, Chen LT, Wang H, Hu TD. Determination of copper binding in Pseudomonas putida CZ1 by chemical modifications and X-ray absorption spectroscopy. Applied Microbiology and Biotechnology 2007, 74(4).881-889.
　　[41] Xu XH, Shi JY, Chen YX, Huang YY, Wang H. Distribution and mobility of Mn in hyperaccumulator Phytolacca acinosa Roxb. Plant and Soil 2006, 285(1-2): 323-331
　　[42] Chen XC, Shi JY, Chen YX, Xu XH, Xu SY, Wang YP. Tolerance and biosorption of copper and zinc by Pseudomonas putida CZ1 isolated from metal-polluted soils. Canadian Journal of Microbiology. 2006 , 52: 308-316 (SCI)
　　[43] Chen YX, Shi JY, Tian GM, Zheng SJ, Lin Q. Fe deficiency induces Cu uptake and accumulation in Commelina communis. Plant Science, 2004, 166 (5):1371-1377
　　[44] Chen YX, Shi JY, Zhang WD, Lin Q, Tian GM. EDTA and industrial wastewater improving the bioavailability of different Cu forms in contaminated soil. Plant and soil , 2004, 261(2): 117-125
　　[45] Ni CY, Shi JY, Luo YM, Chen YX. Co-culture engineering for enhanced phytoremediation of metal contaminated soils. Pedosphere. 2004, 14(4): 475-482
　　[46] 林惠榮，施積炎*，傅曉萍，楊建軍，陳英旭. 硫?qū)︺U污染水稻土微生物活性及群落結(jié)構(gòu)的影響. 應(yīng)用生態(tài)學(xué)報.2010, 21(7): 1-6.
　　[47] 施積炎, 陳英旭, 林琦, 王遠(yuǎn)鵬. 根分泌物與微生物對污染土壤重金屬活性的影響. 中國環(huán)境科學(xué),2004,24(3): 316-319 (EI)
　　[48] 施積炎, 陳英旭, 田光明, 林琦, 王遠(yuǎn)鵬.鐵和ATP酶抑制劑對鴨跖草銅吸收的影響. 土壤學(xué)報,2004,41(4):62-67
　　[49] 施積炎, 陳英旭, 田光明, 林琦.海州香薷和鴨跖草銅吸收機理. 植物營養(yǎng)與肥料學(xué)報, 004,10(6):642-646
　　[50] 施積炎, 陳英旭, 袁小鳳, 武貝, 黃宇營, 何偉. 同步輻射X熒光分析海州香薷根中銅結(jié)合蛋白的微量元素. 核技術(shù)，2004,27(10):736-739

添加浙江大學(xué)學(xué)姐微信，或微信搜索公眾號“考研派小站”，關(guān)注[考研派小站]微信公眾號，在考研派小站微信號輸入[浙江大學(xué)考研分?jǐn)?shù)線、浙江大學(xué)報錄比、浙江大學(xué)考研群、浙江大學(xué)學(xué)姐微信、浙江大學(xué)考研真題、浙江大學(xué)專業(yè)目錄、浙江大學(xué)排名、浙江大學(xué)保研、浙江大學(xué)公眾號、浙江大學(xué)研究生招生）]即可在手機上查看相對應(yīng)浙江大學(xué)考研信息或資源。

浙江大學(xué)