洪義國

洪義國

博士,研究員,研究生導師。研究方向為微生物海洋學(Microbial Oceanography),探索在全球氣候變化和人類活動影響背景下以微生物引擎作用為核心的“海洋物質循環-微生物代謝-區域生態環境”相互作用的科學問題,主攻海洋微生物氮循環方面的研究,在自然及人類活動條件下的典型熱帶河口及邊緣海的微生物氮循環研究過程中取得了積極進展。主持多項國家及省部級科研項目,其中國家自然科學基金項目3項,中國科學院項目3項,廣東省自然科學基金重點項目1項,國家‘863’項目1項。迄今在國際、國內重要學術期刊上發表論文總計50餘篇,在國際主流期刊上發表SCI學術論文32篇,其中第一作者SCI論文15,論文被總引800餘次,H指數16。曾獲得中國水產科學研究院科技進步一等獎(第四完成人)和青島市技術發明獎二等獎(第五完成人),2007年度中國科學院院長優秀獎,2008年度首屆中國科學院盧嘉錫青年人才獎,2008年度中國科學院優秀博士論文提名獎,在第十次全國環境微生物學術研討會上獲得“簡浩然環境微生物學基金”優秀論文。任PLOS ONE 期刊學術編輯,國際期刊International Biodeterioration & Biodegradation和Regional Studies in Marine Science期刊編委。2011年入選中國科學院青年促進會並獲得青促會人才項目資助。

基本介紹

  • 中文名:洪義國
  • 外文名:Yiguo Hong
  • 國籍:中國
  • 民族:漢族
工作經歷,教育經歷,獲獎情況,期刊編委,發表論文,科研課題,

工作經歷

2013.12-,研究員,中國科學院南海海洋研究所;
2010.10-2011.10,訪問學者,美國普林斯頓大學;
2009.9—2013.11,副研究員,中國科學院南海海洋研究所;
2011.11-2010.4,訪問學者,廈門大學近海海洋環境國家重點實驗室;
2007.7-2009.8,助理研究員,中國科學院南海海洋研究所;
2009.9-2009.3,博士後, 香港大學;
2007.7-2004.3。研究助理, 中國水產科學院黃海水產研究所;

教育經歷

2004年9月-2007年7月,在中國科學院華南植物園攻讀微生物學理學博士學位;
1998年9月—2001年7月,在中國海洋大學海洋生命學院獲得海洋生物學理學碩士學位;
1994年9月—1998年7月,在內蒙古大學生命科學學院獲微生物學理學學士學位。

獲獎情況

  • 獲得2008年度首屆中國科學院盧嘉錫青年人才獎
  • 獲得2008年度中國科學院優秀博士論文提名獎
  • 獲得2007年度中國科學院院長獎;
  • 獲得2007年度中國科學院研究生院三好學生標兵稱號
  • 在2007年中國科學院廣州分院舉辦的研究生學術報告會中,獲得二等獎;
  • 參與的國家863項目“海洋低溫鹼性蛋白酶和溶菌酶的研究與開發”獲2001年度水科院科技進步一等獎,為第四完成者;
  • 與的國家863項目“海洋生物蛋白酶的開發和套用”獲青島市2003年技術發明獎二等獎,為第五完成者;
  • 獲2001年度中國海洋大學研究生創造發明獎
  • 在第十次全國環境微生物學術研討會上獲得“簡浩然環境微生物學基金”優秀論文。

期刊編委

  • 任PLOS ONE 學術編輯
  • 任國際期刊International Biodeterioration & Biodegradation編委
  • Regional Studies in Marine Science期刊編委

發表論文

  1. Hong Yiguo, Xu Xiangrong,Yue Weizhong. (2014) Reconstruction of past nitrogen biogeochemical cycle in the acient oceans with nitrogen isotopic ratios. Chinese Journal of Nature.accepted. (In Chinese)
  2. Liu J., YuS., Cheng H., Hong Y., Feng X., Xu X.-R.(2014)MercurypollutioninfishfromSouthChina Sea:Levels, species-specificaccumulation,andpossiblesources.EnvironmentalResearch.131, 160-164.
  3. Hong Y.*, Xu X., Kan J.,Chen F. (2014)Linking seasonal inorganic nitrogen shift to the dynamics of microbialcommunities in the Chesapeake Bay. Appl.Microbiol. Biotechnol. 98: 3219-3229.
  4. Hong Y., Wang Y., Chen F. (2013) Archaea dominate ammonia-oxidizerin the Permian water ecosystem of Midland Basin. Microbes and Environments. 28: 396-399. Doi:10.1264/jsme2.ME13022.
  5. Hong Y. (2013) Marine Nitrogen CycleRecorded by Nitrogen and Oxygen Isotope Fractionation of Nitrate. Advances in Earth Science. 28( 7) :751-764.(In Chinese)
  6. Li M.,Cao H., Hong Y., Gu J.-D. (2013) Using the variation of anammox bacteria community structures as abio-indicator for anthropogenic/terrestrial nitrogen inputs in the Pearl RiverDelta (PRD). Applied Microbiology and Biotechnology. 97:9875–9883 DOI10.1007/s00253-013-4990-y.
  7. Li M.,Hong Y. Cao H., Gu J.-D. (2013) Community Structures andDistribution of Anaerobic Ammonium Oxidizing and nirS-EncodingNitrite-Reducing Bacteria in Surface Sediments of the South China Sea. MicrobialEcology, 2013, 66:281-296. DOI 10.1007/s00248-012-0175-y.
  8. Li M.Hong Y., Cao H., Klotz M. G. and GuJ.-D. (2013) Diversity, Abundance and Distribution ofNO-forming Nitrite Reductase-encoding Genes in Deep-Sea Subsurface Sediments ofthe South China Sea (SCS). Geobiology, 11:170-179. Doi:10.1111/gbi.12020.
  9. HongY.-G., Wu P., Li W., Gu J.and Duan S. (2012) Humic analog AQDS and AQS as an electronmediator can enhance chromate reduction by Bacillus sp. strain3C3. Appl. Microbiol. Biotechnol. 93:2661-2668.DOI: 10.1007/s0 0253-011-3577-8
  10. Cao H., HongY., LiM. and Gu J.-D. (2012) Community shift of ammonia-oxidizingbacteria along an anthropogenic pollution gradient from the Pearl River Deltato theSouth China Sea. Appl. Microbiol. Biotechnol. 94:247-259. DOI 10.1007/s00253-011-3636-1
  11. CaoH. L., Li M., Hong Y.-G. & GuJ.-D. (2012) Lower Abundance of Ammonia-oxidizing Archaeathan Ammonia-oxidizing Bacteria Detected in the Subsurface Sediments of theNorthern South China Sea.Geomicrobiol. J. 29:4, 332-339.
  12. Cao H., HongY., Li M. and Gu J.-D. (2011) Phylogenetic Diversity andEcological Pattern of Ammonia-oxidizing Archaea in the Surface Sediments of theWestern Pacific. Microbial Ecology. 62:813-823. DOI: 10.1007/s00248-011-9901-0.
  13. LiM., Hong Y.-G., and J.-D. Gu. (2011)Mangrove trees affect the community structure and distribution of anammoxbacteria at an anthropogenic-polluted mangrove in the Pearl River Deltareflected by 16S rRNA and hydrazine oxidoreductase (HZO) encoding gene analyses. Ecotoxicology. 20:1780-1790. DOI: 10.1007/s10646-011-0711-4
  14. Cao H., HongY., Li M. and Gu J.-D. (2011) Diversity and abundance ofammonia-oxidizing prokaryotes in sediments from the coastal Pearl River estuaryto theSouth China Sea. Antonie vanleeuwenhoek. 100:545-556. DOI: 10.1007/s10482-011-9610-1.
  15. CaoH.L., Li M., Hong Y.-G. & GuJ.-D. (2011) Diversity and abundance of ammonia-oxidizing archaea and bacteriain polluted mangrove sediment. Systematic and Applied Microbiology, 34:512-523. doi:10.1016/j.syapm.2010.11.023.
  16. Hong Y.-G.,M. Li, H. Cao & J.-D. Gu. (2011) Residence ofhabitat-specific anammoxbacteria in the deep-sea subsurface sediments ofSouth China Sea: Analyses of marker gene abundance context withphysicochemical parameters. MicrobialEcology. 62: 36-47. DOI: 10.1007/s00248-011-9849-0
  17. Hong Y.-G., Yin B., Zheng T.-L.(2011) Diversity and abundance of anammox bacterial community in the deep-oceansurface sediment from equatorial Pacific. Appl.Microbiol. Biotechnol. 89: 1233-1241.DOI:10.1007/s00253-010-2925-4.
  18. Li M.,Cao H., HongY.-G., GuJ.-D. (2011) Seasonal Dynamics of Anammox Bacteria in Estuarial Sediment of theMai Po NatureReserve Revealed by Analyzing the 16S rRNA and Hydrazine Oxidoreductase (hzo)Genes. Microbes and Environments. 26:15-22. Doi:10.1264/jsme2.ME10131
  19. Li M., HongY.-G.,Cao H., GuJ.-D. (2011) Spatialdistribution and abundances of ammonia-oxidizing archaea (AOA) andammonia-oxidizing bacteria (AOB) in mangrove sediments. Appl. Microbiol. Biotechnol. 89:1243-1254. DOI: 10.1007/s00253-010-2929-0
  20. Hong Y.-G, and GuJ.-D. (2010) Physiology and biochemistry of reduction of azo compounds by Shewanella strains relevant to electrontransport chain. Appl. Microbiol. Biotechnol. 88: 637-643. DOI: 10.1007/s00253-010-2820-z.
  21. Li M., HongY.-G., Martin G. K.., Gu J.-D. (2010) A comparison of primer sets fordetecting 16S rRNA and hydrazine oxidoreductase genes of anaerobicammonium-oxidizing bacteria in marine sediments. Appl. Microbiol.Biotechnol. 86: 781-790.DOI: 10.1007/s00253-009-2361-5
  22. Wu P., HongY.-G., Gu J.-G., Yin B., Duan S.-S (2010) Isolation and characterization ofa humic-reducing bacterium Shewanellastrain W3 from mangrove sediment. Environ. Sci. 31:1041-1046. (In Chinese)
  23. Hong Y.-G., GuJ.-D. (2009) A review on bacterial anaerobic respiration and electron transferrelevant to the biotransformation of pollutants. InternationalBiodeterioration & Biodegradation. 63:973-980. Doi:10.1016/j.ibiod.2009.08.001
  24. Hong Y.-G., Guo J.,Sun G. (2009) Energy generation coupled to the azoreduction by themembranous vesicles from Shewanelladecolorationis S12. J.Microbiol. Biotech. 19:37-41. Doi: 10.4014/jmb.0805.321
  25. Hong Y.-G., Li M., Gu J.-D. (2009) Bacterialanaerobic ammonia oxidation (Anammox) in the marine nitrogen cycke-A review. Acta Microbiological Sinica. 49: 281-286. (In Chinese)
  26. Hong Y.-G., Guo J., Sun G.(2008) Identification of an uptake hydrogenase for hydrogen-dependent dissimilatoryazoreduction by Shewanella decolorationis S12. Appl. Microbiol. Biotechnol. 80:517-524. DOI: 10.1007/s00253-008-1597-9
  27. Wang Y., Yin B., Hong Y.-G., Yan Y., Gu J.-D. (2008) Degradation of dimethylcarboxylic phthalateester by Burkholderia cepacia DA2 isolated frommarine sediment ofSouth China Sea. Ecotoxicology. 17: 845-852.DOI:10.1007/s10646-008-0247-4
  28. Hong Y.-G., Guo J.,Sun G. (2008) Characteristic and phylogenetic analysis of facultativeanaerobic dissimilatory azo-Reducting bacteria from anaerobic actived sludge. International Biodeterioration & Biodegradation. 61: 313-318. doi:10.1016/j.ibiod.2007.10.007
  29. Hong Y.-G., Xu M.,Guo J., Xu Z., Chen X., Sun G. (2007) Respirationand growth of Shewanella decolorationisS12 with an azo compound as sole electron acceptor. Appl. Environ. Microbiol. 73: 64-72 Doi:10.1128/AEM.01415-06
  30. Hong Y.-G., Chen X., Guo J., XuZ., Xu M., Sun G. (2007). Effects ofelectron donors and acceptors on anaerobic azo dyes reduction by Shewanella decolorationis S12. Appl.Microbiol. Biotechnol.74:230-238. DOI: 10.1007/s00253-006-0657-2
  31. Hong Y.-G., Guo J.,Xu Z., Xu M., Sun G. (2007) Humic substances act as electron acceptor and redoxmediator for microbial dissimilatory azoreduction by Shewanella decolorationis S12.J. Microbiol. Biotech. 17:428-437. (SCI) IF=1.463
  32. Hong Y.-G., Guo J.,Xu Z., Mo C., Xu M., Sun G. (2007) Reduction and partialdegradation mechanism of naphthylaminesulfonic azo dye amaranth by Shewanelladecolorationis S12. Appl. Microbiol. Biotechnol. 75: 647-654. DOI: 10.1007/s00253-007-0838-7
  33. Hong Y.-G., Guo J.,Wang M., Cen Y., Sun G. (2007) Characterization and identification of a broad-spectrum azo-reducing Citrobacter bacterium. Environ. Sci., 28: 232- 238.(EI)
  34. Hong Y.-G., Guo J.,Sun G. (2007) Recent Progress in Electricigens and Microbial Fuel Cell. Acta Microbiologica Sinica. 47: 173-177.
  35. Hong Y.-G., Guo J.,Xu Z., Cen Y., Sun G. (2006) Recent Development in Bacterial AnaerobicRespiration Related to the Anaerobic Biotransformation of Priority Pollutants. Chin J. Appl .Environ. Biol., 12:878-883.
  36. Xu Z., Hong Y.-G., Luo W., et al. (2006)The effects of the humic substances on Azoreduction by Shewanella Cinica D14T. Acta Microbiologica Sinica, 46:591-597.
  37. Xu Z., Hong Y., Luo W., et al. (2006) AnaerobicHumus respiration by Shewanella cinica D14T. Acta Microbiologica Sinica, 46:973-978.
  38. Xu Z., Luo W., Hong Y.-G., et al. (2006)Recent Development in Effects of the humic substances on the Biodegradation andBiotransformation of Priority Pollutants in Environment. Chinese Bulletin of Microbiology, 33:122-127.
  39. Hong Y.-G., Guo J.,Xu Z., Cen Y., Sun G. (2005) BacterialFe (III) reduction. ActaMicrobiologica Sinica , 45:653-656.
  40. Hong Y., Xu M.,Guo J., Cen Y., Sun G. (2005) Advance in bacterialazoreduction research. Chin J. Appl. Environ. Biol., 11:642-647.
  41. Hong Y.-G., Sun M., Xiu Z., et al. (2002) Analysis of functional essential groups of marinelow- temperaturealkaline protease from Flavobacteriumyellowsea YS-9412-130. Marine Fisheries Research, 23: 26-29.
  42. HongY.-G., Sun M., Zhang Y., Li B. (2002) The application of 16S rRNA in molecularclassification, identificationand examination in marine microbiological system. Marine Fisheries Research, 23: 58-63.
  43. Sun M., Hong Y.-G.,Li B. (2002) Characteristic of low-temperature enzyme from marinebacteriaandits potential use on the industry. MarineFisheries Research, 23: 44-49.
  44. Hong Y.-G., Sun M., WangY., et al. (2000) Preparation of polyclone antibody of marine low-temperature alkaline proteasefrom Flavobacterium yellowsea YS-9412-130. Marine Fisheries Research, 21: 41-45
  45. Hong Y.-G., Sun M., Zheng J., et al. (2000) Cloning and sequencing of the marine low-temperature alkaline protease gene from Flavobacteriumyellowsea YS-9412-130. MarineFisheries Research, 21: 46-53.
  46. Sun M., Zhang Y., Hong Y.-G., et al. (2000) A new species of the genus Flavobacterium.MarineFisheries Research, 21: 6-13.
  47. Wang Y., Sun M., Hong Y.-G., et al. (2000) The study of preparation technology of low- temperature alkaline protease from Flavobacterium YS-9412-130. Marine Fisheries Research, 22: 11-19.
  48. Zhang Y., Wang Y., Hong Y.-G., et al. (2000) Studies on enzyme production technology ofimmobilized cell from Flavobacterium yellowsea YS-9412-130. Marine Fisheries Research, 21:36-40.
  49. Wang Y., Sun M., Hong Y.-G., et al. (2000) Studieson the screening of highly producing strain s of Flavobacteriumyellowsea of low- temperature alkaline protease. Marine Fisheries Research, 21:14-19.

科研課題

  1. 珠江口硝化-反硝化-厭氧氨氧化耦合過程驅動的脫氮機制及關鍵環境影響因素研究(31270163),國家自然科學基金,2013.1-2016.12。
  2. 氮循環的微生物海洋學研究,中國科學院青年促進會人才專項課題,2011.10-2014.10.
  3. 氨氧化古菌(AOA)在南海北部的群落結構、活性及生態效應(41076095),國家自然科學基金項目,2011.1-2013.12。
  4. 珠江口活性氮轉化過程中的微生物海洋學機制研究.中國科學院知識創新工程重要方向項目(青年人才類)(KZCX2-YW-QN207).PI.
  5. 南中國海細菌厭氧氨氧化作用機制及關鍵驅動因素(30800032),2009.1-2011.12.國家自然科學基金項目
  6. 腐殖質物質在海洋環境淨化中的作用及機制研究(07SC011009),2007.9-2010.8,中科院南海所青年人才領域前沿項目
  7. 細菌厭氧氨氧化在南海海洋生態系統氮物質循環中的作用, 2008.1-2010.12,中國科學院院長獎獲得者科研啟動專項資金。
  8. 南海海洋厭氧氨氧化細菌的分子生態分布及特徵(84510301001692),2008.10-2010.9.廣東省自然科學基金項目
  9. 活性氮超負荷條件下典型河口區氮素循環的“微生物泵”作用機制(LMEB201002),2010.9-2012.8,國家海洋局海洋生態系統與生物地球化學重點實驗室(LEMB)開放研究基金資助項目.
  10. 海洋環境細菌厭氧氨氧化研究(MELRS0911),近海海洋環境科學國家重點實驗室(廈門大學)訪問學者與開放課題基金項目。
  11. 偶氮化合物支持細菌呼吸產能的作用研究(30670020),2007.1-2009.12,國家自然科學基項目
  12. 一種新的細菌厭氧呼吸機制的研究(05100365),2006.01-2007.12,廣東省自然科學基金重點項目。
  13. 海洋低溫鹼性蛋白酶和溶菌酶的研究和開發(863-819-06-01),1998-2001,國家 ‘863’項目。

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