基本信息
王光华  男  博导  中国科学院东北地理与农业生态研究所
电子邮件: wanggh@iga.ac.cn
通信地址: 哈尔滨市南岗区哈平路138号
邮政编码: 150081

教授课程

土壤微生物生态学

研究领域

土壤微生物生态

植物病害生物防治

土壤病毒(含噬菌体)多样性

教育背景

1984.09-1988.07     黑龙江八一农垦大学农学系,获学士学位。
1988.09-1991.07     黑龙江八一农垦大学植物病理专业,获硕士学位。
2002.03-2005.09     哈尔滨工业大学在职博士,获博士学位。

工作经历

1991-1999     原中国科学院黑龙江农业现代化研究所,任研究实习员和助理研究员。
1999-2002     原中国科学院黑龙江农业现代化研究所,任副研究员,作物生理生态实验室主任。
2002-2004     中国科学院东北地理与农业生态研究所,任副研究员,作物生理生态实验室副主任。
2004-2006     中国科学院东北地理与农业生态研究所,任研究员,黑土生态实验室副主任。
2006-2007     中国科学院东北地理与农业生态研究所,任研究员,黑土生态重点实验室主任。
2007-2010     日本名古屋大学农学部,日本学术振兴会(JSPS)特别研究员。
2010.04至今 中国科学院东北地理与农业生态研究所研究员,农田分子生态学科组组长,中国科学院黑土区农业生态重点实验室副主任。

专利与奖励

(1)王光华、于镇华、刘俊杰、金剑、刘晓冰。《我国东北旱地黑土及稻田环境中T4型噬菌体g23基因多样性研究》获第十三届黑龙江省自然科学技术学术成果二等奖(2013年)
(2)大豆根系-冠层建成与产量形成机,黑龙江省科学技术奖(自然类,二等奖),2010

(3)东生号大豆品种选育及节本增效关键技术推广,黑龙江省科技进步二等奖,2013

(4)黑土退化危害量化及其调控机制,黑龙江省科学技术奖(自然类,二等奖),2017

 (5)东北黑土农田土壤微生物组生态功能研究,黑龙江省科学技术奖(自然类,二等奖),2020


专利

  1. 一种利用同位素探针研究植物残体腐解的微域装置,发明,ZL201410270245.6。 排名第3

  2. 秸秆生物炭与微生物菌肥组配改良盐碱地的方法,发明,ZL201510482739.5。排名第2

  3. 一种采集植物根际土壤的装置及利用其采集根际土壤的方法,发明,ZL201610648324.5。排名第5

出版著作

1. Kimura M., Wang G., Nakayama N. and Asakawa S. 2011. Ubiquitous bacteriophage host in rice paddy soil. Page 189-213. In Biocommunication in soil microorganisms, Witzany G (Ed.), Soil Biology 23, DOI 10.1007/978-3-642-14512-4_7, Springer Verlag Berlin Heidelberg.
2. 刘晓冰,王光华, 金剑, 张秋英(著). 2010. 作物根际和产量生理研究. 科学出版社.
3. 王光华, 高崇升, 金剑, 潘相文. 2004. 大豆栽培实用技术(农民增收口袋书). 中国农业出版社 (主编).
4. 许艳丽, 韩晓增, 赵奎军, 王光华. 1995. 大豆重迎茬研究. 哈尔滨工程大学出版社 (副主编).
5. 江修业, 王占哲, 杨化一, 李树本, 王建国, 王光华, 等. 1993. 大豆、玉米、小麦、水稻高产栽培技术. 科学技术出版社 (编委).

发表论文

SCI论文(第一及通讯作者*)

  1. Yao Q, Liu JJ, Yu ZH, Li YS, Jin J, Liu XB,Wang GH. Response of acidobacterial communities to three years of biochar addition in a black soil of northeast China.Archives of Agronomy and Soil Science, 2020, doi: 10.1080/03650340.2020.1766679

  2. Sun Y, Liu JJ, Yao Q, Jin J, Liu XB,Wang GH. Assessment of viral assemblages in different types of wetlands water in northeast China using RAPD-PCR.Aquatic Microbial Ecology, 2020, 85:183-196. doi:10.3354/ame01952

  3. Jiaxun Zou, Qin Yao, Junjie Liu, Yansheng Li, Fuqiang Song, Xiaobing Liu,Guanghua Wang. Changes of diazotrophic communities in response to cropping systems in a Mollisol of Northeast China. 2020,PeerJ, 8:e9550 DOI 10.7717/peerj.9550

  4. Hu Xiaojing, Liu Junjie, Wei Dan, Zhu Ping, Cui Xi’an, Zhou Baoku, Chen Xueli, Jin Jian, Liu Xiaobing, Wang Guanghua. Chronic effects of different fertilization regimes on nirS-type denitrifier communities across the black soil region of northeast China. Pedosphere, 2020, 30(1): 73-86

  5. Liu Junjie, Cui Xiao, Liu Zhuxiu, Guo Zhaokui, Yu Zhenhua, Yao Qin, Sui Yueyu, Jin Jian, Liu Xiaobing,Wang Guanghua. The diversity and geographic distribution of cultivableBacillus-like bacteria across black soils of northeast China.Frontier in Microbiology, 2019,Volume 10: Article 1424.DOI: 10.3389/fmicb.2019.01424

  6. Liu Junjie, Yao Qin, Li Yansheng, Zhang Wu, Mi Gang, Chen Xueli, Yu Zhenhua,Wang Guanghua. Continuous cropping of soybean alters bulk and rhizosphere soil fungal communities in a Mollisol of Northeast China.Land Degrade and Degradation, 2019,  30(14): 1725-1738.

  7. Sun yan, Li Xiang, Liu Junjie, Yao Qin., Jin Jian, Liu Xiaobing,Wang Guanghua.Comparative analysis of bacterial community compositions between sediment and water in different types of wetlands of northeast China.Journal of Soils and Sediments. 2019, 19:3083-3097. DOI:10.1007/s11368-019-02301-x

  8. Yao qin, Xu Yanxia, Liu Xuefeng, Liu Junjie, Huang Xinyu, Yang Weiguang, Yang Zhao, Lan Lan, Zhou Jingming, Wang Guanghua. Dynamics of soil properties and fungal community structures under continuous cropping alfalfa fields in northeast China.PeerJ. 2019. Volume 7, Article e7127.

  9. Li Xiang, Sun Yan, Liu Junjie, Yao Qin,Wang Guanghua. Molecular Diversity of Cyanopodoviruses in Two Coastal Wetlands in Northeast China.Current Microbiology, 2019,76(7):863-871.

  10. Hu Xiaojing, Liu Junjie, Wei Dan, Zhou Baoku, Chen Xueli, Jin Jian, Liu Xiaobing,Wang Guanghua. Long-term application of nitrogen, not phosphate or potassium, significantly alters the diazotrophic community compositions and structures in a Mollisol in northeast China.Research in Microbiology, 2019, 170:147-155. DOI:10.1016/j.resmic.2019.02.002

  11. Yu Zhenhua, Hu Xiaojing, Wei Dan, Liu Junjie, Zhou Baoku, Jin Jian, Liu Xiaobing,Wang Guanghua. Long-term inorganic fertilizer use influences bacterial communities in Mollisols of Northeast China based on high-throughput sequencing and network analysis.Archives of Agronomy and Soil Science, 2019, 65(10):1331-1340. DOI:10.1080/03650340.2018.1563685.

  12. Liu Junjie, Yu Zhenhua, Yao Qin, Sui Yueyu, Shi Yu, Chu Haiyan, Tang Caixian, Franks A E., Jin Jian, Liu Xiaobing,Wang Guanghua. Biogeographic distribution patterns of archaea community across the black soil zone of northeast China.Frontier in Microbiology, 2019, 10:23, DOI: 10.3389/fmicb.2019.00023

  13. Li Xiang, Sun Yan, Liu Junjie, Yao Qin,Wang Guanghua. Survey of the bacteriophagephoHgene in wetland sediments in northeast China.Scientific Reports, 2019, 9:911, DOI:10.1038/s41598-018-37508-4

  14. Hu Xiaojing, Liu Junjie, Wei Dan, Zhu Ping, Cui Xi’an, Zhou Baoku, Chen Xueli, Liu Xiaobing,Guanghua Wang. Soil bacterial communities under different long-term fertilization regimes in three locations across the black soil region of northeast China.Pedosphere, 2018, 28(5):751-763.

  15. Hu Xiaojing, Liu Junjie, Zhu Ping, Wei Dan, Jin Jian, Liu Xiaobing,Wang Guanghua.  Long-term manure addition reduces diversity and changes community structure of diazotrophs in a neutral black soil of northeast China.Journal of Soils and Sediments, 2018, 18:2053-2062.

  16. Liu Junjie, Yu Zhenhua, Yao Qin, Sui Yueyu, Shi Yu, Chu Haiyan, Caixian Tang, Ashley E. Franks, Jin Jian, Liu Xiaobing,Wang Guanghua. Ammonia-oxidizing archaea show more distinct biogeographic distribution patterns than ammonia-oxidizing bacteria across the black soil zone of northeast China.Frontier in Microbiology, February 2018, Volume 9, Article 171.

  17. Yu Zhenhua, Liu Junjie, Li Yansheng, Jin Jian, Liu Xiaobing,Wang Guanghua. Impact of land use, fertilization and seasonal variation on the abundance and diversity of nirS-type denitrifying bacterial communities in a Mollisol in Northeast China.European Journal of Soil Biology, 2018, 85:4-11.

  18. Liu Junjie, Yu Hao, Huang Yong , Yu Zhenhua, Fan Guoquan, Jin Jian, Liu Xiaobing,Wang Guanghua. Complete genome sequence of a novel bacteriophage infectingBradyrhizobium diazoefficiensUSDA110.Science China Life Sciences, 2018, 61(1):118-121.

  19. Su Jingfang, Sun Hongwei, Liu Junjie, Guo Zhaokui, Fan Guoquan, Gu Gang,Wang Guanghua*. Complete genome sequence of a novel lytic bacteriophage isolated fromRalstonia solanacearum.Archives of Virology, 2017, 162:3919-3923.

  20. Hu Xiaojing, Liu Junjie, Wei Dan, Zhu Ping, Cui Xi’an, Zhou Baoku, Chen Xueli, Jin Jian, Liu Xiaobing,Wang Guanghua*. Effects of over 30-year of different fertilization regimes on fungal community compositions in the black soils of northeast China.Agriculture, Ecosystem and Environment, 2017, 248:113-122.

  21. Liu J-J, Zou P,Wang G-H*,Fu J-R, Ando H. and Kimura M. Amounts of stubbles left in paddy fields: evaluation from the viewpoints of C sequestration and soil fertility.The Philippine Agricultural Scientist, 2017, 100(1):88-95.

  22. Liu Junjie, Yu Zhenhua, Yao Qin, Hu Xiaojing, Zhang Wu, Mi Gang, Chen Xueli,Wang Guanghua*. Distinct soil bacterial communities in response to the cropping system in a Mollisol of northeast China.Applied Soil Ecology, 2017, 119:407-416.

  23. Yao Qin, Liu Junjie, Yu Zhenhua, Li Yansheng, Jin Jian, Liu Xiaobing,Wang Guanghua. Changes of bacterial community compositions after three years of biochar application in a black soil of northeast China.Applied Soil Ecology, 2017, 113:11-21.

  24. Yao Qin, Liu Junjie, Yu Zhenhua, Li Yansheng, Jin Jian, Liu Xiaobing,Wang Guanghua.Three years of biochar amendment alters soil physiochemical properties and fungal community composition in a black soil of northeast China.Soil Biology & Biochemistry, 2017, 110:56-67.

  25. Xinzhen Wang, Junjie Liu, Zhenhua Yu, Jian Jin, Xiaobing Liu, Guanghua Wang. Novel groups of cyanobacterial podovirus DNA polymerase (pol) genes exist in paddy waters in northeast China.FEMS Microbiology Ecology, 2016, 92,fiw192

  26. Xinzhen Wang, Junjie Liu, Zhenhua Yu, Jian Jin, Xiaobing Liu,Guanghua Wang. Novel groups and unique distribution ofphagephoHgenesin paddy waters in northeast China.Scientific Reports, 2016,DOI: 10.1038/srep38428

  27. Yu Jiang, Guan Xuejiao, Liu Chongxi, Xiang Wensheng, Yu Zhenhua, Liu Xiaobing,Wang Guanghua*. Lysinibacillus endophyticus sp. nov., an indole-3-acetic acid producing endophytic bacterium isolated from corn root (Zea mays cv. Xinken-5).Antonie van Leeuwenhoek, 2016, 109:1337-1344

  28. Yu Z., Yu J., Ikenaga M., Sakai M., Liu X.,Wang G.,*Characterization of plant-associated bacterial community structures in soybean and corn roots using locked nucleic acid (LNA) oligonucleotide-PCR clamping and 454 pyrosequencing.Journal of Integrative Agriculture, 2016, 15(8):1883-1891

  29. Yu ZH, Liu JJ, Liu JD, Jin J, Liu XB,Wang GH* Responses of ammonia-oxidizing bacterial communities to land-use and seasonal changes in Mollisols of Northeast China.European Journal of Soil Biology, 2016, 74:121-127.

  30. Liu J., Yu Z., Wang X., Jin J., Liu X.,Wang G.,*The distribution characteristics of the major capsid gene (g23) of T4-type phages in paddy floodwater in Northeast China.Soil Science and Plant Nutrition, 2016, 62:133-139.

  31. Yu J., Yu Z., Fan G.Wang G*., Liu X., Isolation and characterization of indole acetic acid (IAA) producing endophytic root bacteria and their potential for promoting crop growth.Journal of Agricultural Science and Technology, 2016, 18: 1381-1391

  32. Wang X.,Jing R., Liu J., Yu Z., Jin J., Liu X., Wang X.,Wang G.,*Narrow distribution of cyanophagepsbAgenes observed in two paddy waters of Northeast China by an incubation experiment.Virologica Sinica, 2016,31(2):188-191

  33. Liu J., Sui Y., Yu Z., Yao Q., Shi Y., Chu H., Jin J., Liu X.,Wang G.,*Diversity and distribution patterns of acidobacterial communities in the black soil zone of northeast China.Soil Biology & Biochemistry, 2016, 95:212-222

  34. Liu J., Sui Y., Yu Z., Shi Y., Chu H., Jin J., Liu X.,Wang G.,*Soil carbon content drives the biogeographical distribution of fungal communities in the black soil zone of northeast China.Soil Biology & Biochemistry, 2015, 83:29-39

  35. Wang G., Liu J., Yu Z., Jin J., Liu X. Unique distribution of cyanobacterial podoviruses and their potential hosts in a paddy field of northeast China.FEMS Microbiology Ecology, 2014, 90:331-334

  36. Liu J., Sui Y., Yu Z., Shi Y., Chu H., Jin J., Liu X.,Wang G.,*High throughput sequencing analysis of biogeographical distribution of bacterial communities in the black soils of northeast China.Soil Biology & Biochemistry, 2014, 70: 113-122

  37. Liu J., Zheng C., Song C., Guo S., Liu X.,Wang G.,*The conversion from natural wetlands to paddy field alters the composition of soil bacterial communities in Sanjiang Plain, Northeast China.Annals of Microbiology, 2014, 64:1359-1403. DOI: 10.1007/s13213-013-0784-9.

  38. Jing R., Liu J., Yu Z., Liu X.,Wang G.,*Phylogenetic distribution of the capsid assembly protein gene (g20) of cyanophages in paddy floodwaters in Northeast China.PLoS One, 2014, Vol 9(2): e88634.

  39. Zheng C.,Wang G*, Liu J., Song C., Gao H., Liu X. Characterization of the major capsid gene (g23) of T4-type bacteriophages in the wetlands of Northeast China. Microbial Ecology, 2013, 65:616-625

  40. Miao S., Shi H., Jin J., Liu J., Liu X. andWang G.* Effects of short-term drought and flooding on soybean nodulation and yield at key nodulation stage under pot culture.Journal of Food, Agriculture & Environment, 2012, 10:819-824

  41. Mi L.,Wang G*, Jin J., Sui Y., Liu J., Liu X.Comparison of microbial community structures in four black soils along a climatic gradient in Northeast China.Canadian Journal of Soil Science, 2012, 92: 543-549.

  42. Liu J.,Wang G*., Wang Q., Liu J., Jin J., Liu X. Phylogenetic diversity and assemblage of major capsid genes (g23) of T4-type bacteriophages in paddy field soils during rice growth season in Northeast China.Soil Science and Plant Nutrition, 2012, 58:4:435-444

  43. Yu Z.,Wang G*., Jin J. Liu J. & Liu X. Soil microbial communities are more affected by land use than seasonal variation in restored grassland and cultivated Mollisols in Northeast China.European Journal of Soil Biology, 2011, 47: 357-363.

  44. Liu J.,Wang G*., Zheng C., Yuan X., Jin J. & Liu X. Specific assemblages of major capsid genes (g23) of T4-type bacteriophages isolated from upland black soils in Northeast China.Soil Biology and Biochemistry, 2011, 43:1980-1984.

  45. Wang G*., Asakawa S., Kimura M.Spatial and temporal changes of cyanophage communities in paddy field soils as revealed by capsid assembly protein geneg20.FEMS Microbiology Ecology, 2011, 76: 352-359

  46. Liu J.,Wang G*., Jin J. Liu J. & Liu X. Effects of different concentrations of phosphorus on microbial communities in soybean rhizosphere grown in two types of soils.Annals of Microbiology, 2011, 61:525-534. 

  47. Wang G*., Yu Z., Liu J., Jin J., Liu X., Kimura M.Molecular analysis of the major capsid genes (g23) of T4-type bacteriophages in an upland black soil in Northeast China.Biology and Fertility of Soils, 2011, 47:273-282. 

  48. Wang G*., Murase J., Asakawa S & Kimura M. Unique viral capsid assembly protein gene (g20) of cyanophages in the floodwater of a Japanese paddy field.Biology and Fertility of Soils, 2010, 46:93-102. 

  49. Wang G*., Watanabe T, Jin J., Liu X., Kimura M, Asakawa S. Methanogenic archaeal communities in paddy field soil in north-east China as evaluated by PCR-DGGE, sequencing and real-time PCR analyses.Soil Science and Plant Nutrition, 2010, 56: 831-838. 

  50. Chen X.,Wang G*., Xu M., Jin J., Liu X. Antifungal peptide produced byPaenibacillus polymyxaBRF-1 isolated from soybean rhizosphere.African Journal of Microbiology Research, 2010, 4(24): 2692-2698. 

  51. Wang G*., Murase J., Asakawa S & Kimura M.Novel cyanophage photosynthetic genepsbAin the floodwater of a Japanese rice field.FEMS Microbiology Ecology, 2009, 70:79-86. 

  52. Xu Y.,Wang G.*, Jin J., Liu J., Zhang Q. and Liu X. Bacterial communities in soybean rhizosphere in response to soil type, soybean genotype, and their growth stage.Soil Biology and Biochemistry, 2009, 41:919-925. 

  53. Wang G.*, Jin J., Asakawa S & Kimura M. Survey of major capsid genes (g23) of T4-type bacteriophages in rice fields in Northeast China.Soil Biology and Biochemistry, 2009, 41:423-427.

  54. Wang G.*, Hayashi M, Saito M, Tsuchiya K, Asakawa S & Kimura M. Survey of major capsid genes (g23) of T4-type bacteriophages in Japanese paddy field soils.Soil Biology and Biochemistry, 2009, 41:13-20. 

  55. Wang G.*, Murase J, Taki K, Ohashi Y, Yoshikawa N, Asakawa S, Kimura M. Changes in major capsid genes (g23) of T4-type bacteriophages with soil depth in two Japanese rice fields.Biology and Fertility of Soils, 2009, 45:521-529. 

  56. Wang G.*, Xu Y., Jin J., Liu J., Zhang Q. and Liu X. Effect of soil type and soybean genotype on fungal community in soybean rhizosphere during reproductive growth stages.Plant and Soil, 2009, 317:135-144. 

  57. Wang G.*, Jin J., Liu J., Chen X., Liu J. and Liu X. Bacterial community structure in a Chinese Mollisol under long-term natural restoration, cropping and bare fallow history estimated by PCR-DGGE.Pedosphere, 2009, 19:156-165. 

  58. Wang G.*, Jin J., Xu M., Pan X. and Tang C. Inoculation with phosphate-solubilizing fungi diversities the bacterial community in rhizospheres of maize and soybean,Pedosphere, 2007, 17: 191-199. 

  59. Wang G.*, Jin J., Chen X., Liu J. and Liu X. Biomass and catabolic diversity of microbial communities with long-term restoration, bare fallow and cropping history in Chinese Mollisols.Plant, Soil, and Environment, 2007, 53: 177-185. 

  60. Wang G., Han X., Nakayama N., Watanabe T., Watanabe A., Kimura M. Soil organic matter dynamics in lands continuously cultivated with maize and soybean in Heilongjiang Province, Northeast China: Estimation from natural 13C abundance.Soil Science and Plant Nutrition, 2006, 52(2): 139-144. 

  61. Jin J.,Wang G.*, Liu X., Pan X., S.J. Herbert. Phosphorus application affects the soybean root response to water deficit at the initial flowering and full pod stages.Soil Science and Plant Nutrition, 2005, 51: 953-960. 

  62. Wang G.*, Zhou D., Yang Q., Jin J., Liu X. Solubilization of rock phosphate in liquid culture by fungal isolates from rhizosphere soil.Pedosphere, 2005, 15:532-538. 

  63. Wang G.*, Zhou K., Jin J., Pan X., Liu X. Effect of difference N source on the N nutrient and microbial distribution across soybean rhizosphere,Soil Science and Plant Nutrition, 2003, 49:817-823.

  64. Wang G., Nakajima Y., Shaku I. and Kimura M. Effect of fungicide Thiram on microbial communities of rice seeds surface estimated by culture-dependent and culture-independent (PCR-RFLP) methods,Soil Science and Plant Nutrition, 2001, 47:303-314. 

SCI论文(共同作者)

  1. Li Yansheng, Xie Zhihuang, Yu Zhenhua, Wang Yanhong, Liu Changkai,Wang Guanghua, Wu Junjiang, Jin Jian*, Liu Xiaobing*. Impact of surface soil manuring on particulate carbon fractions in relevant to nutrient stoichiometry in a Mollisol profile.Soil & Tillage Research, 2021, 207, 104859

  2. Zhou Meng, Wang Chunyu, Xie Zhihuang, Li Yansheng*, Zhang Xingyi,Wang Guanghua, Jin Jian, Ding Guangwei, Liu Xiaobing*. Humic substances and distribution in Mollisols affected by six-year organic amendments.Agronomy Journal, 2020, doi:10.1002/agj2.20391

  3. Zhou Meng, Xiao Yang, Li Yansheng*, Zhang Xingyi,Wang Guanghua, Jin Jian, Ding Guangwei, Liu Xiaobing*.Soil quality index evaluation model in responses to six-year fertilization practices in Mollisols.Archives of Agronomy and Soil Science, 2020, doi:10.1080/03650340.2020.1827395

  4. Hu XJ, Liu JJ, Yu ZH, Yao Q, Zhang W, Mi G, Liang AZ, Li LJ, Chen XL, Jin J, Liu XB,Wang GH. Continuous cropping of soybean induced a more fluctuating fungal network and intensive pathogenic fungal interactions in a Mollisol of Northeast China.Soil Science Society of America Journal, 2020, 84:775-783. DOI:10.1002/saj2.20069

  5. Rui Fang, Yansheng Li, Zhenhua Yu, Zhihuang Xie,Guanghua Wang, Xiaobing Liu, Junjie Liu, Stephen J Herbert & Jian Jin. Warming and elevated CO2interactively affect the photosynthetic carbon of maize plant retained in major farming soils,Archives of Agronomy and Soil Science, 2020, DOI: 10.1080/03650340.2020.1735630

  6. Hu XJ, Liu JJ, Wang XZ, Yu ZH, Yao Q, Jin J, Liu XB,Wang GH. Dramatic changes in bacterial co-occurrence patterns and keystone taxa responses to cropping systems in Mollisols of Northeast China,Archives of Agronomy and Soil Science, 2020, DOI: 10.1080/03650340.2020.1726325

  7. Liu ZX., Liu JJ*., Yu ZH., Yao Q., Li YS., Liang AZ., Zhang W., Mi G., Jin J., Liu XB andWang GH. Long-term continuous cropping of soybean is comparable to crop rotation in mediating microbial abundance, diversity and community composition.Soil & Tillage Research. 2020, 197, 104503

  8. Huang YL., Fang R., Li YS., Liu XB.,Wang GH., Yin KD., Jin J., Herbert SJ. Warming and elevated CO2alter the transcriptomic response of maize (Zea maysL.) at the silking stage.Scientific Reports, 2019, 9: 17948. Doi.org/10.1038/s41598-019-54325-5

  9. Wang Yanhong, Yu Zhenhua, Li Yansheng,Wang Guanghua, Tang Caixian, Liu Xiaobing, Liu Junjie, Xie Zhihuang, Jin Jian.13C-DNA-SIP distinguishes the prokaryotic community that metabolizes soybean residues produced under different CO2concentrations.Frontiers in Microbiology, 2019, 466735

  10. Li Yansheng, Yu Zhenhua, Yang Songchao,Wang Guanghua, Liu Xiaobing, Wang Chunyu, Xie Zhihuang, Jin Jian. Impact of elevated CO2on C:N:P ration among soybean cultivars.Science of the Total Environment, 2019, 694:133784

  11. Li Yansheng, Yu Zhenhua, Yang Songchao, Jin Jian,Wang Guanghua, Liu Changkai, Herbert J Stephen, Liu Xiaobing. Soybean intraspecific genetic variation in response to elevated CO2.Archives of Agronomy and Soil Science, 2019, 65:12, 1733-1744

  12. Wang YH, Yu ZH, Li YS,Wang GH, Tang C, Liu XB, Liu JJ, Xie ZH, Jin J. Elevated CO2alters the structure of the bacterial community, assimilating plant-derived carbon in the rhizosphere of soybean.European Journal of Soil Science, 2019, DOI:10.1111/ejss.12817

  13. Ikeya Kosuke, Maie Nagamitsu, Han Xiaozeng,Wang Guanghua, Watanabe Akira. Comparison of carbon skeletal structures in black humic acids from different soil origins.Soil Science and Plant Nutrition, 2019, 65(2):109-113. doi.org/10.1080/00380768.2019.1584016

  14. Lian Tengxiang, Yu Zhenhua, Li Yansheng, Jin Jian,Wang Guanghua, Liu Xiaobing, Tang Caixian, Franks Ashley, Liu Junjie, Liu Judong. The shift of bacterial community composition magnifies over time in response to different sources of soybean residues.Applied Soil Ecology, 2019, 136:163-167.

  15. Yu Zhenhua, Li Yansheng,Wang Guanghua, Tang Caixian, Wang Yanhong, Liu Junjie, Liu Xiaobing, Jin Jian. Elevated CO2alters the abundance but not the structure of diazotrophic community in the rhizosphere of soybean grown in a Mollisol.Biology and Fertility of Soils, 2018, 54(7): 877-881.

  16. Yu Zhenhua, Li Yansheng, Hu Xiaojing, Jin Jian,Wang Guanghua, Tang Caixian, Liu Junjie, Liu Xiaobing, Franks Ashley, Egidi Elenora, Xie Zhihuang. Elevated CO2increases the abundance but simplifies networks of soybean rhizosphere fungal community in Mollisol soils.Agriculture, Ecosystems and Environment, 2018, 264: 94-98.

  17. Lian Tengxiang, Yu Zhenhua, Liu Junjie, Li Yansheng,Wang Guanghua, Liu Xiaobing, rt Stephen J Herbe, Wu Junjiang, Jin Jian. Rhizobacterial community structure in response to nitrogen addition varied between two Mollisols differing in soil organic carbon.Scientific Reports, 2018, 8:12280. DOI:10.1038/s41598-018-30769-z.

  18. Lian Tengxiang, Jin Jian,Wang Guanghua, Tang Caixian, Yu Zhenhua, Li Yansheng, Liu Junjie, Zhang Shaoqing, Xiaobing Liu. The fate of soybean residue-carbon links to changes of bacterial community composition in Mollisols differing in soil organic carbon.Soil Biology & Biochemistry, 2017, 109: 50-58

  19. Yansheng Li, Zhenhua Yu, Xiaobing Liu, Ulrike Mathesius,Guanghua Wang, Caixian Tang, Junjiang Wu, Judong Liu, Shaoqing Zhang, Jian Jin. Elevated CO2 increases nitrogen fixation at the reproductive phase contributing to various yield responses of soybean cultivars.Frontiers in Plant Science, 2017, 8:1546

  20. Lian Tengxiang,Wang Guanghua, Yu Zhenhua Li Yansheng, Liu Xiaobing, Zhang Shaoqing, Stephen James Herbert, Jin Jian. Bacterial communities incorporating plant-derived carbon in the soybean rhizosphere in Mollisols that differ in soil organic carbon content.Applied Soil Ecology, 2017, 119:375-383

  21. Wang Yanhong, Yu Zhenhua, Li Yansheng,Wang Guanghua, LiuJunjie, Liu Judong, Liu Xiaobing, Jin Jian. Microbial association with the dynamics of particulate organic carbon in response to the amendment of elevated CO2-derived wheat residue into a Mollisol.Science of the Total Environment, 2017, 607-608:972-981.   

  22. Yueyu Sui, Jian Jin, Xiaobing Liu, Xingyi Zhang, Yansheng Li, Keqin Zhou,Guanghua Wang, Guoli Di & Stephen James Herbert (2017): Soil carbon sequestration and crop yield in response to application of chemical fertilizer combined with cattle manure to an artificially eroded Phaeozem.Archives of Agronomy and Soil Science, 63(11):1510-1522. DOI: 10.1080/03650340.2017.1292032

  23. Jin J., LI Y- S, Liu X-B,Wang G-H, Tang C-X, Yu Z-H, Wang X-J, Herbert SJ. Elevated CO2alters distribution of nodal leaf area and enhances nitrogen uptake contributing to yield increase of soybean cultivars grown in Mollisols.PLoS ONE, 2017, 12(5): e0176688.doi.org/10.1371/journal.pone.0176688

  24. Yu Zhenhua, Li Yansheng, Jin Jian*, Liu Xiaobing,Wang Guanghua, Carbon flow in the plant-soil-microbe continuum at different growth stages of maize grown in a Mollisol.Archives of Agronomy and Soil Science, 2017, 63(3): 362-374

  25. Lian TX,Wang GH, Yu ZH, Li YS, Liu XB, Jin J. 2016. Carbon input from13C-labelled soybean residues in particulate organic carbon fractions in a Millisol.Biology and Fertility of Soils, 52:331-339. DOI 10.1007/s00374-015-1080-6

  26. Li Y. S., Liu X. B.,Wang G. H., Yu Z. H., Mathesius U., Liu J. D. Herbert S. J., and Jin J. 2016. Shift in origin of plant nitrogen alters carbon and nitrogen assimilation during reproductive stages of soybean grown in a Mollisol.Crop & Pasture Science,

  27. Yu Zhenhua, Li Yansheng,Wang Guanghua, Liu Junjie, Liu Judong, Liu Xiaobing, Herbert S.J, Jin Jian. 2016. Effectiveness of elevated CO2 mediating bacterial communities in the soybean rhizosphere depends on genotypes.Agriculture, Ecosystems and Environment,231:229-232.

  28. Zhou, K., Sui Y., Liu X., Zhang X., Jin J.,Wang G., Herbert S. 2015.Crop rotation with 9-year continuous cattle manure addition restores farmland productivity of artificially eroded Mollisols in Northeast China.Field Crops Research, 171:138-145

  29. Zhang WW,Wang GH, Liu XB, Feng ZZ. 2014.Effects of elevated O3 exposure on seed yield, N concentration and photosynthesis of nine soybean cultivars (Glycine max(L.) Merr.) in Northeast China.Plant Science, 226: 172-181

  30. Yu ZH,Wang GH, Marschner P. 2014. Drying and rewetting-Effect of frequency of cycles and length of moist period on soil respiration and microbial biomass.European Journal of Soil Biology, 62:132-137

  31. Li Y., Du M., Zhang Q.,Wang G., Jin J., Herbert S., Liu X. 2014. Planting date influences fresh pod yield and seed chemical compositions of vegetable soybean.Hort Science,49:1376-1380

  32. Jin J, Liu XB,Wang GH, Chen XL, Yu ZH, Herbert SJ. 2013.Effect of phosphorus application on hierarchical lateral root morphology and phosphorus acquisition in soybean.Journal of Plant Nutrition, 36(10): 1578-1589.

  33. Miao SJ, Shi H,Wang G H, Jin J, Liu J D, Zhou K Q, Sui Y Y, Liu X B. 2013. Seven years of repeated cattle manure addition to eroded Chinese Mollisols increase low-molecular-weight organic acids in soil solution. Plant and Soil, 369(1-2):577-584.

  34. Jin J.,Wang GH., Liu JD., Yu ZH., Liu XB., Herbert SJ. 2013. The fate of soybean photosynthetic carbon varies in Mollisols differing in organic carbon.European Journal of Soil Science, 64: 500-507

  35. Li Yansheng,Ming Du, Qiu-ying Zhang,Guang-hua Wang, Masoud Hashemi, and Xiao-bing Liu. 2012 Greater differences exist in seed protein, oil, total soluble sugar and sucrose content of vegetable soybean genotypes [Glycine max(L.) Merrill] in Northeast China,Australian Journal of Crop Science6(12): 1681-1686

  36. Jin J.,Wang GH., Liu JD., Liu XB., Liu JJ., Yu ZH., Herbert SJ. Seasonal allocation of photosynthetically fixed carbon to the soybean-grown Mollisols in Northeast China.Crop & Pasture Science, 2011, 62, 563-570.

  37. Watanabe T.,Wang G., Lee C G., Murase J., Asakawa S., Kimura M. Assimilation of glucose-derived carbon into methanogenic archaea in soil under unflooded condition.Applied Soil Ecology, 2011, 48:201-209.

  38. JinJ., LiuX.,WangG., Liu J., Mi L., Chen X., Herbert S.Leaf Nitrogen Status as a Main Contributor to Yield Improvement of Soybean Cultivars.Agronomy Journal, 2011, 103(2):441-448. 

  39. Watanabe T.,Wang G., Taki K., Ohashi Y., Kimura M., Asakawa S. Vertical changes in bacterial and archaeal communities with soil depth in Japanese paddy fields.Soil Science and Plant Nutrition, 2010, 56: 705-715.

  40. JinJ.,WangG., LiuX., Mi L., Li Y., Xu Y., Herbert S. Genetic improvement of yield shapes the temporal and spatial root morphology of soybean (Glycine max) grown in north-east China.New Zealand Journal of Crop and Horticultural Science. 2010, 38:177-188.

  41. Jin J., Liu X.,Wang G., Mi L., Shen Z., Chen X., Herbert S. J. Agronomic and physiological contributions to the yield improvement of soybean cultivars released from 1950 to 2006 in Northeast China.Field Crops Research, 2010, 115: 116-123. 

  42. Jin J.,Wang G., Liu X., Liu J., Chen X., Herbert S. J. Temporal and spatial dynamics of bacterial community in the rhizosphere of soybean genotypes grown in a black soil.Pedosphere, 2009, 19: 808-816. 

  43. Liu X., Jin J.,Wang G., Herbert S. J. Soybean yield physiology and development of high-yielding practices in Northeast China.Field Crop Research, 2008, 105:157-17. 

  44. Tang C., Zheng S.J., Qiao, Y,Wang G., Han X. Interaction between high pH and iron supply on nodulation and iron nutrition ofLupinus albusL. genotypes differing in sensitivity to iron deficiency.Plant and Soil, 2006, 279:153-162. 

  45. Jin J.,Wang G., Tang C., Liu X., Pan X., Herbert S. J. Interaction between phosphorus nutrition and drought on grain yield, assimilation of phosphorus and nitrogen in two cultivars ofGlycine max(L.) Merr. differing in protein concentration in grains,Journal of Plant Nutrition, 2006, 29:1433-1449.

  46. Liu X., Jin J., HerbertS. J., Zhang Q.,Wang G. Yield components, dry matter, LAI and LAD of soybeans in Northeast China.Field Crops Research, 2005, 93: 85-93. 

  47. Liu X., Herbert S. J., Jin J., Zhang Q.,Wang G.Responses of photosynthetic rates and yield/quality of main crops to irrigation and manure application in the black soil area of Northeast China.Plant and Soil, 2004, 261:55-60. 

国内论文(第一及通讯作者*)

  1. 王光华,刘俊杰,朱冬,叶茂,朱永官.土壤病毒的研究进展与挑战.土壤学报,2020576):1319-1332

  2. 刘俊杰,刘株秀,于浩,姚钦,于镇华,王光华*。侵染3株模式豆科根瘤菌的噬菌体生物学特性。应用生态学报,2019,30(8):2775-2782.

  3. 荆瑞勇,王丽艳,孙强,刘俊杰,刘居东,金剑,刘晓冰,王光华*.东北旱田土壤中Anabaena 伴生细菌的分离与鉴定.微生物学通报. 2020, 47(1):130-139.

  4. 胡晓婧刘俊杰于镇华,魏周宝库陈雪丽,王光华*长期施用化学肥料对东北黑土nirS型反硝化细菌群落和网络结构的影响植物营养与肥料学报,2020, 261:1-9.

  5. 李森,姚钦,刘俊杰,金剑,刘晓冰,王光华*大豆重迎茬研究进展大豆科学,2020, 39(2):317-324.

  6. 崔晓,徐艳霞,刘俊杰,郭兆奎,王光华。芽孢杆菌在农业生产中的应用。土壤与作物,201981):32-42.

  7. 李想,孙岩,刘俊杰,姚钦,王光华。东北湿地沉积物中T4型噬菌体g23基因多样性研究。微生物学报,DOI: 10.13343/j.cnki.wsxb.20180169

  8. 胡晓婧,刘俊杰,魏丹,朱平,崔喜安,周宝库,陈雪丽,金剑,刘晓冰,王光华.东北黑土区不同纬度农田土壤真菌分子生态网络的比较.应用生态学报,20182911):3802-3810.

  9. 王光华,金剑,刘晓冰。农田分子生态学科组10年来研究进展回顾及展望。土壤与作物,20187(2):212-221.

  10. 苏靖芳,刘俊杰,顾刚,郭兆奎,孙剑萍,孙宏伟,王光华.一株烈性青枯雷尔氏菌噬菌体的分离与生物学特性研究.病毒学报,2017333):441-448.

  11. 李想,孙岩,王新珍,刘俊杰,王光华.一种新的噬菌体基因多样性分子标记基因phoH研究进展.生物技术通报,20173310):40-45.

  12. 王光华.掀开土壤生物“暗物质”-土壤病毒的神秘面纱.中国科学院院刊,2017326):575-584.

  13. 苏靖芳,孙剑萍,顾刚,刘俊杰,孙宏伟,郭兆奎,王光华.烈性青枯雷尔氏菌噬菌体的分离与生物学特性分析.烟草科技,20175010):16-21.

  14. 喻江,于镇华,刘晓冰,王光华.玉米和大豆根内生拮抗细菌筛选鉴定及生防能力评价。土壤与作物,201762):89-95.

  15. 苏靖芳,于浩,刘俊杰,郭兆奎,孙宏伟,顾刚,王光华.青枯雷尔氏菌噬菌体研究进展。土壤与作物,201761):61-66.

  16. 荆瑞勇,曹焜,刘俊杰,刘居东,金剑,刘晓冰,王光华.东北稻田水体噬藻体psbA基因多样性,微生物学报,2017571):131-139

  17. 于浩,刘俊杰,范国权,刘俊杰,王光华.中华苜蓿根瘤菌噬菌体的分离及主要壳蛋白基因g23的系统进化分析.微生物学报,2017572):270-280

  18. 王光华,刘俊杰,于镇华,王新珍,金剑,刘晓冰.土壤酸杆菌门细菌生态学研究进展。生物技术通报,2016322):14-26.

  19. 喻江,于镇华,IKENAGA MakotoSAKAI Masao,刘晓冰,王光华.施用有机肥对侵蚀黑土玉米苗期根内生细菌多样性的影响。应用生态学报,2016278):2663-2669

  20. 曹焜,荆瑞勇,刘俊杰,郭永霞,王光华. PCR-DGGE技术解析东北稻田蓝藻群落结构。生物技术,2015252):155-160.

  21. 曹焜,荆瑞勇,王光华,郭永霞.蓝藻遗传多样性的分子生物学研究进展。土壤与作物,201544):183-189.

  22. 荆瑞勇,曹焜,刘俊杰,于镇花,刘居东,隋跃宇,金剑,刘晓冰,王光华。东北农田黑土土壤酶活性与理化性质的关系研究。水土保持研究,2015224):132-137.

  23. 喻江,于镇华,刘晓冰,王光华。植物组织内生细菌多样性及其促生作用。中国农学通报,20153113):169-175

  24. 张千丰,孟军,刘居东,王光华*.热解温度和时间对三种作物残体生物炭pH及碳氮含量的影响.生态学杂志,2013329):2347-2353.

  25. 于镇华,元野,刘居东,王光华*. Biolog-Eco解析垦殖与自然恢复黑土微生物群落结构代谢功能季节变化。土壤与作物,201323105-107

  26. 张千丰,元野,刘居东,王光华*.室内模拟:生物炭对白浆土和黑土中氮素淋溶的影响.土壤与作物, 2013, 2(2): 88-96.

  27. 荆瑞勇,Kimura M,王光华*.不同自然环境下噬藻体g20基因多样性研究进展。微生物学报,20135311):1142-1148.

  28. 张千丰,王光华*.生物炭理化性质及对土壤改良效果的研究进展.土壤与作物, 2012, 1(4): 219-226

  29. 郑春雨,王光华*.湿地生态系统中主要功能微生物研究进展.湿地科学, 2012, 10(2): 243-249

  30. 王光华*,刘俊杰, Kimura M.自然环境中T4型噬菌体g23基因多样性研究进展.微生物学报, 2011, 51(6): 732-739

  31. 何萍萍,于镇华,王银锁,金剑,刘居东,李树学,王光华*.垦殖与自然恢复黑土土壤微生物量碳和土壤酶活性的季节性变化.农业系统科学与综合研究, 2011, 27(3):361-365

  32. ,王光华*,金剑,刘居东,刘晓冰.黑土微生物呼吸及群落功能多样性对培养温度的响应.应用生态学报, 2010, 21: 1485-1491

  33. 王光华,刘俊杰,齐晓宁,. BiologPCR-DGGE技术解析施肥对德惠黑土细菌群落结构和功能的影响.生态学报, 2008, 28: 220-226

  34. 陈雪丽,王光华*,金剑,王玉峰.两株芽孢杆菌对黄瓜和番茄根际土壤微生物群落结构影响.生态学杂志, 2008, 27: 1895-1900

  35. 陈雪丽,王光华*,金剑,吕宝林.多粘类芽孢杆菌BRF-1和枯草芽孢杆菌BRF-2对黄瓜和番茄枯萎病的防治效果.中国生态农业学报, 2008, 16: 446-450

  36. 刘俊杰,王光华*,金剑,.磷浓度处理对大豆根际土壤微生物群落结构影响.大豆科学, 2008, 27, 801-805

  37. 王光华,齐晓宁,金剑,.施肥对黑土农田土壤全碳、微生物量碳及土壤酶活性的研究.土壤通报, 2007, 38: 661-666

  38. 王光华,金剑,韩晓增,.不同土地管理方式对黑土土壤微生物量碳和酶活性的影响.应用生态学报, 2007, 18: 1275-1280

  39. 王光华,金剑,徐美娜,.生防细菌BRF1BRF2鉴定及生物学特征.中国生物防治, 2007, 23: 49-53

  40. 陈雪丽,郝再斌,王光华*,.多粘类芽孢杆菌BRF-1抗菌蛋白的分离纯化.中国生物防治, 2007, 23: 156-159

  41. 徐艳霞,王光华*,金剑,.大豆根际未培养与可培养细菌群落结构差异比较研究.大豆科学, 2007, 26(6):907-913

  42. 王光华,金剑,徐美娜,刘晓冰.植物、土壤及土壤管理对土壤微生物群落结构的影响.生态学杂志, 2006,25(5):550-556

  43. 徐美娜,王光华*,靳学慧.土传病害生物防治研究进展.吉林农业科学, 2005, 30(2): 39-42

  44. 徐美娜,王光华*,金剑,靳学慧.两株生防菌产生的拮抗物质的初步研究.中国生物防治. 2005, 21(增刊): 96-101   

  45. 王光华,周德瑞,杨谦,等.可溶性磷含量对溶磷真菌培养滤液溶解磷矿粉的影响.农业系统科学与综合研究, 2005, 21(4): 275-279

  46. 王光华,周克琴,金剑,.生防微生物BRF-1对大豆根腐病的拮抗作用.大豆科学, 2004, 23(3): 188-191.

  47. 王光华,Jos M. Raaijmakers.生防细菌产生的拮抗物质及其在生物防治中的作用.应用生态学报, 2004, 15(6): 1100-1104.

  48. 王光华,周德瑞,杨谦,.低分子量有机酸对磷矿粉释磷效应的研究.农村生态环境科学学报, 2004, 23(1): 80~84

  49. 王光华,周克琴,金剑,.不同碳源对3种溶磷真菌溶解磷矿粉效果的影响.生态学杂志, 2004, 23(2): 32~36

  50. 王光华,周克琴,金剑,.黑土区高效溶磷真菌筛选及其溶解磷矿粉效果的研究.中国农业生态学报, 2004, 12(3): 143~145

  51. 王光华,周克琴,金剑,.三种溶磷真菌对不同磷源溶解效果的比较研究.土壤通报, 2004, 35(4): 462~465

  52. 王光华,金剑,潘相文,周克琴,刘晓冰.不同茬口大豆根圈土壤pH值和氮素营养分布的变化,中国油料作物学报, 2004, 26(1): 55-59

  53. 王光华,周克琴,金剑,等,2003,不同氮源对3种溶磷真菌溶解磷矿粉效果的影响,农业系统科学与综合研究,194):260~263

  54. 王光华,金剑,周克琴,等,2003,不同氮肥对大豆根圈土壤酶和氮营养分布的影响。大豆科学,223):213-217

  55. 王光华,周克琴,张秋英,等,2003,拮抗细菌BRF-1对几种作物病原真菌的抗生效果,中国生物防治,19(2)73-77

  56. 王光华,赵英,周德瑞,等,2003,解磷菌的研究现状和展望,生态环境,121):96-101

  57. 王光华,张秋英,2002,日本国覆膜肥料的研究,世界农业,第6期,46-47

  58. 王光华,刘晓冰,杨恕平,金剑,张秋英,2000.大豆灰斑病对大豆产量和品质的影响,生态农业研究,84):27-30

  59. 王光华,刘晓冰,杨恕平,李艳华,金剑,张秋英,1999.生殖生长期源库改变对大豆籽粒产量和品质的影响,大豆科学,183236-241

  60. 王光华,辛惠普,1997.甜叶菊斑枯病药剂防治试验研究,中国糖料.3

  61. 王光华,崔成日,纪绍国,1996.黑龙江省长日型洋葱病虫害调查及防治,北方园艺.6, 8-10.

  62. 王光华,马汇泉,靳学惠,辛惠普,1995.甜叶菊斑枯病原研究,植物病理学报,254

  63. 王光华,辛惠普,1992.甜叶菊斑枯病菌生物学特性研究,黑龙江八一农垦大学学报,252):103-108

国内论文(非第一作者)

  1. 王春雨,谢志煌,李彦生,于镇华,金剑,王光华,范国权,刘晓冰。大气臭氧浓度升高对大豆籽粒CNPK浓度的影响。土壤与作物,2019,83):258-265

  2. 刘株秀,刘俊杰,徐艳霞,张武,米刚,姚钦,王光华.不同大豆连作年限对黑土细菌群落结构的影响.生态学报,2019,3912):4337-4346​

  3. 王艳红;于镇华;李彦生;刘俊杰;王光华;刘晓冰;谢志煌;Stephen J Herbert;金剑.植物-土壤-微生物间碳流对大气CO2浓度升高的响应.土壤与作物,201871):22-30

  4. 谢志煌,李彦生,于镇华,刘俊杰,王光华,刘晓冰,金剑.秸秆还田与作物氮素利用关系研究。土壤与作物,201654):261-268.

  5. Lian Teng-xiang,Wang Guang-hua, Yu Zhen-hua, Liu Xiao-bing, Jin Jian. Critical level of 13C enrichment for the successful isolation of 13C labeled DNA. Agricultural Research & Technology: Open Access J. 2016; 1(2): 555558. DOI: 10.19080/ARTOAJ.2016.01.555558

  6. 曹焜,荆瑞勇,周颖,王光华,郭永霞.吡嘧磺隆对稻田土壤真菌群落结构及土壤酶活性的影响。水土保持研究,2016232):73-77.

  7. 张巍巍,王光华,王美玉,刘晓冰,冯兆忠.东北春大豆品种东生员号对臭氧胁迫的响应.环境科学. 2014, 35, 4: 1473-1478

  8. 周克琴,韩秉进,张秋英,刘文志,宫学凯,李艳华,孟英,王光华. 2012.生防菌BRF-1BRF-2对大豆根腐病和产量的影响。大豆科学,31(5): 801-803

  9. 李彦生,杜明,刘晓冰,刘俊杰,金剑,张秋英,王光华. 2012.氮素用量对菜用大豆生殖生长期根系及鲜荚产量的影响.大豆科学, 31(1): 47-51.

  10. 米亮,隋跃宇,张兴义,金剑,刘晓冰,王光华. 2010.施肥对模拟侵蚀黑土土壤微生物群落代谢活性的影响.农业系统科学与综合研究, 26(2):97-101

  11. 金剑,刘晓冰,邱丽娟,米亮,李艳华,王光华, Herbert SJ. 2009.绥农14系谱产量生理特性演化研究.大豆科学. 28(3):426-433.

  12. 金剑,王光华,刘晓冰,徐艳霞,刘俊杰,米亮,王程, Stephen Herbert.2008. 两个大豆品种在暗棕壤和黑土中的根系形态和根瘤性状.应用生态学报. 19(8): 1747-1753

  13. 金剑,王光华,刘晓冰,张磊,米亮,刘俊杰, Herbert SJ.2008.作物生育期内光合碳在地下部的分配及转化.生态学杂志. 27(8): 1393-1399

  14. 金剑,王光华,刘晓冰,米亮,杜金岭. 2008. 1950-2006年间黑龙江省大豆品种农艺性状的演变.浙江大学学报. 34(3): 296-302.

  15. 金剑,王光华,陈雪丽,刘晓冰, Herbert S J.2007. Biolog-ECO解析不同大豆基因型R1期根际微生物群落功能多样性特征.大豆科学. 26(4): 565-570

  16. 金剑,王光华,刘晓冰,张秋英,徐艳霞. 2007.水磷互作对大豆根系及产量的影响.干旱地区农业研究.增刊:139-144.

  17. 金剑,王光华,刘晓冰,李艳华,陈雪丽, Herbert S J. 2007.东北黑土区高产大豆R5期根系分布特征.中国油料作物学报. 29(3): 266-271.

  18. 金剑,王光华,刘晓冰,徐艳霞,米亮,王程, Herbert SJ. 2007. 50年黑龙江省大豆遗传改良的产量及品质变化.农业现代化研究. 28(6): 757-759.

  19. 金剑,王光华,刘晓冰,王国栋, Herbert S J. 2007.根箱法解析大豆苗期根际养分分布及吸收特征.中国科学院研究生院学报, 24(2): 193-200.

  20. 金剑,王光华,刘晓冰,陈雪丽,李兴国. 2006.不同施磷量对大豆苗期根系形态性状的影响.大豆科学. 25(4): 360-364.

  21. 金剑,王光华,刘晓冰,潘相文,刘杰. 2005.利用根箱法解析大豆苗期氮磷吸收及其在根际分布的特征.大豆科学. 24(4):275-281.

  22. 金剑,刘晓冰,王光华,韩晓增,李艳华. 2005.水肥耦合对春小麦群体叶面积及产量的影响.吉林农业大学学报. 27(3): 241-244.

  23. 金剑,王光华,刘晓冰,李艳华,潘相文,李兴国. 2005.大豆根系形态、生理特性与产量关系研究进展.作物栽培生理研究文集.中国农业出版社,48-53. 

  24. 潘相文,唐才贤,王光华,韩晓增,金剑,李艳华,王国栋。作物耐低磷适应机制研究进展。吉林农业大学学报,2005274):434-441.

  25. JIN Jian, LIU Xiao-bing,WANGGuang-huaand S.J.Herbert. Some Eco-physiological Characteristics at R4-R5Stage in relation to Soybean Yield Differing in Maturities.Agricultural Sci. in China. 2004,3(6): 425-434.

  26. Jin Jian,Wang Guanghuaand Liu Xiaobing. Phosphorus Nutrition Affects Root Morphology Response to Water Deficit at Different Reproductive Stages in an Early Soybean Cultivar.4thInternational Crop Science Congress. 2004230-234.

  27. 刘晓冰,,王光华, S. J. Herbert,A. M. Hashemi.行距对大豆竞争有限资源的影响.大豆科学,2004233: 215-221.

  28. 金剑,刘晓冰,王光华.不同熟期大豆R4-R5期冠层某些生理生态性状与产量的关系.中国农业科学. 2004, 37(9):1293-1300.

  29. 金剑,刘晓冰,王光华, Stephen J Herbert.不同熟期及产量类型的大豆生殖生长期生理特性的比较研究.作物学报. 2004, 30(12):1225-1231.

  30. 金剑,刘晓冰,王光华,李艳华,潘相文,S.J. Herbert,大豆生殖生长期根系形态性状与产量关系研究,大豆科学,2004234):253-257.

  31. 金剑,刘晓冰,王光华,李艳华.大豆生殖生长期冠层结构及其与冠层辐射的关系研究.东北农业大学学报. 2004, 35(4):412-417.

  32. 金剑,刘晓冰,王光华,张秋英,S.J.Herbert.大豆高产群体的生理生态特征,中国油料作物学报,2003253):109-114.

  33. 金剑,刘晓冰,王光华,张秋英,李艳华.不同密度大豆生殖生长期群体冠层结构研究,农业系统科学与综合研究,2003192124-128.

  34. 金剑,刘晓冰,王光华,潘相文,周克勤.美国大豆品种改良过程中生理特性变化的研究进展,大豆科学,2003222):137-141.

  35. 金剑,刘晓冰,王光华,李艳华,潘相文,周克勤,张志学.不同产量类型大豆生殖生长期冠层结构及其与冠层辐射的关系研究,作物栽培与生理学研究进展(王志敏,赵明主编),中国农业大学出版社,2003, 350-357.

  36. 金剑,刘晓冰,王光华,周克勤,潘相文.大豆内源激素对体内生理代谢调控的研究现状,吉林农业科学,2003284):8-11.

  37. 周克琴,王光华,金剑,等,2003.土壤微生物对提高植物磷素营养的作用。农业系统科学与综合研究,193):232-236.

  38. 金剑,刘晓冰,王光华.大豆根系研究进展,大豆科学,200222(3): 223-227.

  39. 金剑王光华,刘晓冰,张秋英,李艳华.黑土区大豆配合施肥对产量的影响,农业系统科学与综合研究,2002182):155-156.

  40. 刘晓冰,王光华,森田茂纪.根系研究的现状和展望,世界农业,2001735-37.

  41. 刘晓冰,金剑,王光华,张秋英.蛋白质含量不同的大豆子粒形成过程中内源激素活性的变化,大豆科学,2000193):238-242.

  42. 张秋英,刘晓冰,王光华,金剑,杨恕平,李艳华.大豆化控种衣剂研究初报,中国农学通报,2000162):66-67.

  43. 张秋英,金剑,刘晓冰,王光华.源库改变对寒区玉米产量和蛋白质含量的影响,华北农学报,20001590-93.

  44. 张秋英,刘晓冰,金剑,王光华. R5期遮荫对大豆植株体内源激素和酶活性的影响,大豆科学,2000194):362-366.

  45. 刘晓冰,张秋英,金剑,杨恕平,王光华.产量和蛋白质含量不同的春小麦生理特征比较,作物科学研究理论与实践(论文集),2000116-120.

  46. 金剑,刘晓冰,杨恕平,王光华,张秋英,李艳华.两种不同蛋白质含量春小麦光合特性的比较,麦类作物,1999195):34-36.

  47. 刘晓冰,王光华,杨恕平,金剑,李艳华.春小麦穗发芽抑制剂研制及效果,农业系统科学与综合研究,1999152):98-100.

  48. 刘晓冰,王光华,杨恕平,张秋英,金剑.春小麦穗发芽的化学控制途径研究,生态农业研究,199972):43-45.

  49. 刘晓冰,张秋英,王光华,杨恕平,金剑.春小麦颖壳中水溶性物质对成熟籽粒发芽的影响,麦类作物,1999191):47-48.

  50. 刘晓冰,王光华,杨恕平,李艳华,金剑.不同施肥水平对春小麦籽粒淀粉、蛋白质积累的影响,农业现代化研究,1998193):187-189.

  51. 杨恕平,刘晓冰,王光华,李艳华,金剑,张秋英.春小麦化控稀植高产技术可行性分析,农业系统科学与综合研究,199814(3)184-187.

  52. 金剑,刘晓冰,王光华.氮素积累、分配与大豆产量的关系,大豆通报,19986:25.

  53. 许艳丽,王光华,韩晓增.连作大豆生物障碍研究,中国油料,1997193):46-49.

  54. 许艳丽,刘爱群,韩晓增,王光华.黑龙江省黑土区不同茬口对大豆生育及产量和品质影响的研究,大豆科学,1996151):48-55.

  55. 许艳丽,王光华,韩晓增.连、轮作大豆土壤微生物生态分布特征与大豆根部病虫害的研究,农业系统科学与综合研究,1995114):311-314.

科研活动

   
科研项目

  1. 中科院先导专项(B类):不同管理模式下农田土壤微生物群落的演替规律(XDB15010103),主持,院级,2014-07--2019-6 

  2. 不同生态环境下T4型细菌病毒g23基因多样性研究,主持,国家自然科学基金,2011-01--2013-12 

  3.  东北黑土农田细菌病毒基因多样性研究,主持,院级,2010-10--2013-10 

  4.  三江平原渍涝农田控水-培肥关键技术集成与示范,主持,国家自然科学基金,2009-01--2011-12 

  5. 东北典型湿地噬菌体遗传基因多样性及分布特征研究,主持,国家自然科学基金,2016-01--2019-12

  6. 噬菌体防治烟草细菌病害技术研发,主持,国家烟草科技重点,2015-01--2017-12

  7. 连作大豆根际微生物群落结构变化规律及调控对策,主持,科技部重点研发子课题,2017-01-2020-12

  8. 有机肥施用对黑土农田土壤抗生素抗性基因影响的分子生物学研究,主持,黑龙江省科技厅重点项目,2018-01--2021-12.

  9. 基于诊断层特征解析均腐土土壤剖面微生物组成及与土壤理化性质关联研究,主持,国家自然科学基金,2020.01-2023.12


国内外学术会议

  1. Effect of biochar on soil properties and microbial community compositions in an arable black soil in northeast China. BIT’s 5th World Congress of Agriculture-2017, Shenyang, 15-17, September 2017.

  2. Biogeographic distribution ammonia oxidizers in the black soil zone of northeast China. 2nd Global Soil Biodiversity Conference, Nanjing, 15-19, October 2017.

  3. 作物根内生细菌多样性及产IAA促生菌初步研究。第九次全国土壤生物与生物化学学术研讨会。上海,2017113-5日。

  4. 生物炭施用对东北黑土土壤理化性质和微生物群落的影响。2017年微生物生态学术年会,北京,20171020-23日。

  5. 长期施加无机肥对东北黑土农田固氮微生物群落组成影响。2017年微生物生态学术年会,北京,20171020-23日。

  6. Bacteriophage diversity and distribution in paddy fields estimated by several biomarker genes. International Microbial Ecology Workshop, Nanjing, 13-14, July 2016
  7. Diversity of Bacteriophages in paddy ecosyetems estimated by several biomarker genes. The 2nd Bacteriophage Meeting, Wuhan, 20-21, October 2016
  8. 东北黑土农田土壤微生物地理分布格局及主要驱动因素研究。黑龙江省微生物学会年会,哈尔滨,20161112
  9. 稻田生态系统蓝藻病毒基因多样性。2015年全国微生物生态学术年会,大庆,2015.7.24-26
  10. 东北黑土农田土壤微生物地理分布特征及主要驱动因素研究。2014年全国微生物生态学术年会,北京,2014.10.25-27
  11. 稻田生态系统细菌病毒基因多样性研究。第十一届全国生物多样性科学与保护研讨会,辽宁 沈阳,2014.8.14-16
  12. Biogeographical distribution of microbial community in black soils of northeast China. Sino-German Workshop on Sustainable Management of Mollisols in China, Harbin, China, 26-30 July, 2014
  13. 东北稻田水体中噬藻体g20基因的分布特征。第十六次全国环境微生物学术研讨会,甘肃,兰州,2013.08.21-23
  14. Seasonal variations of soil microbial biomass C, enzyme activity and microbial community structures in cultivated and natural restored Mollisols. International workshop for Mollisols conservation, Harbin, China, 2012.8.8
  15. Two bacterial strains potential for control soil-borne plant diseases. The 10th international symposium on biocontrol and biotechnology, Harbin, China, 2012.12.27-28
  16. Global distribution of T4-type bacteriophages based on analysis of the major capsid protein gene g23. The First International EMP (Earth Microbiome Project) Conference, Shenzhen, China, 2011.6.13-15.
  17. The diversity of T4-type bacteriophages in black soils in Northeast China. International Conference of Mollisols of Ukraine and China: Genesis, Properties and Fertility Management. 乌克兰基辅, 2011.9.21-25
  18. 陆地生态系统噬菌体基因多样性—主要以稻田生态系统为例。第14次全国环境微生物学术研讨会,厦门,2011.11.25-28
  19. 旱地黑土T4型细菌病毒g23基因多样性研究。第十三届全国环境微生物学术研讨会,南京,2010.11

指导学生

已指导毕业学生
金剑    博士研究生 083001-环境科学,2006
刘俊杰 博士研究生 071012-生态学,2012
于镇华 博士研究生 071012-生态学, 2012

荆瑞勇 博士研究生 071012-生态学,2014 

姚  钦  博士研究生 071012-生态学, 2017
王新珍 博士研究生 071012-生态学,2017

胡晓婧 博士研究生 071012-生态学, 2018

孙岩    博士研究生071012-生态学, 2020

郑春雨 硕士研究生 071012-生态学, 2012
张千丰 硕士研究生 071012-生态学,2013

李想    硕士研究生 071012-生态学,2018


在读研究生

李森   博士研究生 071012-生态学

白鑫   博士研究生            -土壤学

刘株秀  博士研究生 ​         -土壤学