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方臨川

(中科院水利部水土保持研究所研究員)

鎖定
方臨川,男,博士,西北農林科技大學、中科院水利部水土保持研究所研究員。 [1] 
中文名
方臨川
畢業院校
華中農業大學
學位/學歷
博士
職    業
教師
專業方向
土壤化學
任職院校
西北農林科技大學

目錄

  1. 1 人物經歷
  2. 2 研究方向
  3. 3 獲獎榮譽
  4. 4 科研項目
  5. 5 主要論文

方臨川人物經歷

2003年華中農業大學 獲學士學位
2011年華中農業大學 獲博士學位
2003-2005,武漢生物工程學院,環境工程系,助教
2013-2015,香港理工大學 香江學者
2011-至今,西北農林科技大學、中科院水利部水土保持研究所,助理研究員、副研究員、研究員 [1] 

方臨川研究方向

土壤化學 [1] 

方臨川獲獎榮譽

2012年全國百篇優秀博士學位論文提名獎
2012年 入選香江學者人才計劃
2012年 湖北省優秀博士學位論文
2012年 湖北省自然科學論文三等獎
2011年 華中農業大學首屆“勤讀力耕”獎
2010年 華中農業大學農業微生物國家重點實驗室十佳研究生 [1] 

方臨川科研項目

1.中國科學院黃土與第四紀地質國家重點實驗室主任基金,研究經費:10萬元,2019-2021。
2.中國科學院“西部青年學者A類”, 研究經費:50萬元,2016-2019。
3.黃土高原土壤侵蝕與旱地農業國家重點實驗室專項經費-青年人才培養項目:土壤-植物系統微界面過程及環境效應。研究經費:80萬元,2016-2019。
4.國家自然科學基金重點項目子課題:膠結物質驅動的土壤團聚體形成過程與穩定機制。2014.1-2018.12。
5.國家自然科學基金面上項目:絡合誘導植物修復的根際微生物響應機制和氮轉化過程。研究經費:75萬元,2016-2019。
6.國家自然科學基金青年項目:土壤微生物-礦物微界面結合Pb的分子機制。研究經費:25萬元,2013-2015。
7.中國博士後科學基金第五批特別資助:金屬污染土壤植物修復中可生物降解螯和劑、土壤微生物和植物根系的主要相互作用。研究經費:10萬元,2013-2015。
8.中國博士後科學基金第55批一等資助:螯合誘導植物修復體系中微生物羣落結構的響應機制。研究經費:8萬元,2014-2016。
9.陝西省自然科學基金:鉛鋅礦區土壤侵蝕對微生物特徵及鉛化學形態的影響。研究經費:4.0萬元,2012-2014。
10.中國科學院西部之光人才培養計劃“西部博士資助項目”:陝西典型鉛鋅礦區微生物-礦物界面互作對鉛的環境化學行為影響。研究經費:10萬元,2011-2014。
11.西北農林科技大學博士科研啓動基金:鉛鋅礦區侵蝕土壤的微生物活性及鉛生物吸附研究。研究經費:5.0萬元,2011-2013。
12.西北農林科技大學基本科研業務費專項資金:細菌胞外聚合物與碳酸鹽礦物相互作用的分子機制。研究經費:10萬元,2012-2015。
13.黃土高原土壤侵蝕與旱地農業國家重點實驗室自主項目:陝西典型鉛鋅礦區土壤礦物表面細菌固定的分子機理及其環境效應。研究經費:10萬元,2011-2013。 [1] 

方臨川主要論文

第一/通訊作者發表論文:
  1. Fang LC, Cai P, Chen WL, Liang W, Hong ZN, Huang QY*. Impact of cell wall structure on the behavior of bacterial cells in the binding of copper and cadmium. Colloids & Surfaces A Physicochemical & Engineering Aspects 2009. 347(1), 50-55.
  2. Fang LC, Cai P, Li PX, Wu HY, Liang W, Huang QY*. Microcalorimetric and potentiometric titration studies on the adsorption of copper by P. putida and B. thuringiensis and their composites with minerals. Molecular environmental soil science at the interface in the earth’s critical zone. 2009, 62-65.
  3. Fang LC, Cai P, Li PX, Wu HY, Liang W, Rong XM, Chen WL, Huang QY*. Microcalorimetric and potentiometric titration studies on the adsorption of copper by P. putida and B. thuringiensis and their composites with minerals. Journal of Hazardous Materials 2010. 181(1), 1031-1038.
  4. Fang LC, Huang QY, Xing W, Wei L, Rong XM, Chen WL, Cai P*. Microcalorimetric and potentiometric titration studies on the adsorption of copper by extracellular polymeric substances (EPS), minerals and their composites. Bioresource Technology 2010. 101(15), 5774-5779.
  5. Fang LC, Wei X, Cai P*, Huang QY, Chen H, Liang W, Rong XM. Role of extracellular polymeric substances in Cu(II) adsorption on Bacillus subtilis and Pseudomonas putida. Bioresource Technology 2011. 102(2), 1137-1141.
  6. Fang LC, Zhou C, Cai P, Chen WL, Rong XM, Dai K, Liang W, Gu JD, Huang QY*. Binding characteristics of copper and cadmium by cyanobacterium Spirulina platensis. Journal of Hazardous Materials 2011. 190(1), 810-815.
  7. Wei X, Fang LC, Cai P*, Huang QY, Chen H, Liang W, Rong XM. Influence of extracellular polymeric substances (EPS) on Cd adsorption by bacteria. Environmental Pollution 2011. 159(5), 1369-1374.(共同第一作者).
  8. Fang LC, Cao YY, Huang QY, Sharon L W, Cai P*. Reactions between bacterial exopolymers and goethite: A combined macroscopic and spectroscopic investigation. Water Research 2012. 46(17), 5613-5620.
  9. Fang LC, Yang SS, Huang QY, Xue AF, Cai P*. Biosorption mechanisms of Cu(II) by extracellular polymeric substances from Bacillus subtilis. Chemical Geology 2014. 386, 143-151.
  10. Xu JL, Tan WF, Xiong J, Wang MX, Fang LC*, Koopal LK. Copper binding to soil fulvic and humic acids: NICA-Donnan modeling and conditional affinity spectra. Journal of Colloid & Interface Science 2016. 473(473), 141-151.
  11. Ye LP, Fang LC*, Tan WF, Wang YQ, Yu H. Exploring the effects of landscape structure on aerosol optical depth (AOD) patterns using GIS and HJ-1B images. Environ Sci Process Impacts 2016. 18(2), 265-276.
  12. Ye LP, Fang LC*, Tan WF, Wu CG, Wu H. Modeling spatiotemporal distribution of PM10 using HJ-1 CCD data in Luoyang, China. Atmospheric Pollution Research 2017. 8(3), 555-563.
  13. Fang LC, Liu YQ, Tian HX, Chen HS, Wang YQ, Huang M*. Proper land use for heavy metal-polluted soil based on enzyme activity analysis around a Pb-Zn mine in Feng County, China. Environmental Science and Pollution Research 2017. 24(36), 1-13.
  14. Fang LC, Wang MK, Cai L, Cang L*. Deciphering biodegradable chelant-enhanced phytoremediation through microbes and nitrogen transformation in contaminated soils. Environmental Science and Pollution Research 2017. 24(17), 14627-14636.
  15. Ju WL, Liu L, Fang LC*, Cui YX, Duan CJ, Wu H. Impact of co-inoculation with plant-growth-promoting rhizobacteria and rhizobium on the biochemical responses of alfalfa-soil system in copper contaminated soil. Ecotoxicology and Environmental Safety 2018. 167, 218-226.
  16. Tian HX, Fang LC*, Duan CJ, Wang YQ, Wu H. Dominant factor affecting Pb speciation and the leaching risk among land-use types around Pb-Zn mine. Geoderma 2018. 326, 123-132.
  17. Xu JL, Koopal LK, Fang LC*, Xiong J, Tan WF. Proton and Copper Binding to Humic Acids Analyzed by XAFS Spectroscopy and Isothermal Titration Calorimetry. Environmental Science & Technology 2018. 52(7), 4099-4107.
  18. Chen BW, Fang LC, Yan XT, Zhang AQ, Chen P, Luan TG, Hu LG*, Jiang GB. A unique Pb-binding flagellin as an effective remediation tool for Pb contamination in aquatic environment. Journal of Hazardous Materials 2018. 363, 34-40. (共同第一作者)
  19. Chen J, Liu YQ, Yan XW, Wei GH, Zhang JH, Fang LC*. Rhizobium inoculation enhances copper tolerance by affecting copper uptake and regulating the ascorbate-glutathione cycle and phytochelatin biosynthesis-related gene expression in Medicago sativa seedlings. Ecotoxicology and Environmental Safety 2018. 162, 312-323
  20. Cui TT, Fang LC*, Wang MK, Jiang M, Shen GT. Intercropping of Gramineous Pasture Ryegrass (Lolium perenne L.) and Leguminous Forage Alfalfa (Medicago sativa L.) Increases the Resistance of Plants to Heavy Metals. Journal of Chemistry 2018. 1-11.
  21. Cui YX, Fang LC*, Guo XB, Wang X, Wang YQ, Li PF, Zhang YJ, Zhang XC. Responses of soil microbial communities to nutrient limitation in the desert-grassland ecological transition zone. Science of the Total Environment 2018. 642, 45-55.
  22. Cui YX, Fang LC*, Guo XB, Xia W, Wang YQ, Zhang YJ, Zhang XC. Responses of soil bacterial communities, enzyme activities, and nutrients to agricultural-to-natural ecosystem conversion in the Loess Plateau, China. Journal of Soils & Sediments 2018. (2), 1-14.
  23. Cui YX, Fang LC*, Guo XB, Wang X, Zhang YJ, Li PF, Zhang XC*. Ecoenzymatic stoichiometry and microbial nutrient limitation in rhizosphere soil in the arid area of the northern Loess Plateau, China. Soil Biology and Biochemistry 2018. 116, 11-21.
  24. Duan CJ, Fang LC*, Yang CL, Chen WB, Cui YX, Li SQ. Reveal the response of enzyme activities to heavy metals through in situ zymography. Ecotoxicology & Environmental Safety 2018. 156, 106-115.
  25. Cui YX, Fang LC*, Guo XB, Han F, Ju WL, Ye LP, Wang X, Tan WF, Zhang XC. Natural grassland as the optimal pattern of vegetation restoration in arid and semi-arid regions: Evidence from nutrient limitation of soil microbes. Science of The Total Environment 2019. 648, 388-397.
  26. Cui YX, Bing HJ, Fang LC*, Wu YH, Yu JL, Shen GT, Jiang M, Wang X, Zhang XC. Diversity patterns of the rhizosphere and bulk soil microbial communities along an altitudinal gradient in an alpine ecosystem of the eastern Tibetan Plateau. Geoderma 2019. 338, 118-127.
  27. Cui YX, Fang LC*, Deng L, Guo XB, Han F, Ju WL, Wang X, Chen HS, Tan WF, Zhang XC. Patterns of soil microbial nutrient limitations and their roles in the variation of soil organic carbon across a precipitation gradient in an arid and semi-arid region. Science of The Total Environment 2019. 658, 1440-1451.
  28. Wu H, Li Z, Clarke KC, Shi WZ, Fang LC*, Lin AQ, Zhou J. Examining the sensitivity of spatial scale in cellular automata Markov chain simulation of land use change. International Journal of Geographical Information Science. 2019, 33(5), 1040–1061.
  29. Shen GT, Ju WL, Liu YQ, Guo XB, Zhao W, Fang LC*. Impact of urea addition and rhizobium inoculation on plant resistance in metal contaminated soil. International Journal of Environmental Research and Public Health. 2019, Accepted.
  30. Chen HS, Xu JL, Tan WF, Fang LC*. Lead binding to wild metal-resistant bacteria analyzed by ITC and XAFS spectroscopy. Environmental Pollution. 2019, 250, 118-126.
  31. Zhang C, Wang J, Liu GB, Song ZL, Fang LC*. Impact of soil leachate on microbial biomass and diversity affected by plant diversity. Plant Soil. 2019, https://doi. 10.1007/s11104-019-04032-x.
  32. Cui YX, Bing HJ, Fang LC*, Jiang M, Shen GT, Yu JL, Wang X, Zhu H, Wu YH, Zhang XC. Extracellular enzyme stoichiometry reveals the carbon and phosphorus limitations of microbial metabolisms in the rhizosphere and bulk soils in alpine ecosystems. Plant Soil. 2019, Accepted.
  33. 方臨川, 黃巧雲*, 蔡鵬, 梁巍. XAFS技術在重金屬界面吸附研究中的應用. 應用與環境生物學報 2008. 14(5), 737-744. [1] 
參考資料
  • 1.    教師  .西北農林科技大學[引用日期2019-12-02]