基于Web of Science数据库的微生物肥料研究发展趋势分析
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摘要
微生物肥料研究是目前肥料行业的热点领域之一,为了明确该领域在世界范围内的研究现状,通过Web of Science数据库对1900-2018年以来关于微生物肥料的论文进行文献计量分析统计,以探讨该领域的研究现状、研究重点及发展趋势。结果表明:微生物肥料研究从20世纪90年代开始逐渐增长,2003年开始进入全面快速发展时期。以美国、中国、印度、德国和英国等国家的发文量最多;中国科学院、西班牙高等科学研究委员会、法国国家农业研究院、法国国家科学研究院等是主要的发文机构。在研究水平方面表现出欧美等发达国家强于发展中国家的现状,但发展中国家有研究投入不断加大的趋势。在学科分布上主要集中在农学、环境科学及生态学、植物科学及微生物学等学科,在未来表现出以环境科学和农学为主要学科且具有学科交叉的趋势;主要研究主题依然是固氮作用、生物降解与修复和促生长作用等内容,但生物降解与修复、有机质腐熟、改善土壤生态环境和增强作物抗逆性等主题将在未来的研究中成为快速增长的热点领域。上述结果可为微生物肥料学科发展规划和政府管理部门决策的制定提供一定参考。
Microbial fertilizer research is one of the hot fields of fertilizer industry. In order to clarify the current research status of microbial fertilizer field in the world,this paper conducted bibliometric analysis and statistics on the microbial fertilizers papers from 1900 to 2018 through the Web of Science Database to explore the current research status,research focus and development trend of microbial fertilizer field. The results showed that: papers on microbial fertilizer had been increasing gradually since 1990 s,and the research on microbial fertilizer stepped into a period of comprehensive development from 2003. The top five countries researching on microbial fertilizer were the United States,China,India,Germany and the UK. The Chinese Academic of Sciences,CSIC,INRA,CNRS,etc. were the main research organizations. The developed countries such as the United States showed the stronger research level than developing countries like China and India,but there was a trend of more devoting to research in developing country.The main subjects on microbial fertilizer contained agriculture,environmental science & ecology,plant science,microbiology and so on. The environmental science and agriculture would be the main subjects with the trend of interdisciplinary research in the future. The main research topic was still on the nitrogen fixation,biodegradation and bioremediation,promoting growth, etc., but biodegradation and bioremediation, decomposed organic matter,improving the soil ecological environment and enhancing the crops resistance would become rapid growthing hot topics in the future research area. These results provided important insights to the development of microbial fertilizer and some reference for decision-making of government.
Microbial fertilizer research is one of the hot fields of fertilizer industry. In order to clarify the current research status of microbial fertilizer field in the world,this paper conducted bibliometric analysis and statistics on the microbial fertilizers papers from 1900 to 2018 through the Web of Science Database to explore the current research status,research focus and development trend of microbial fertilizer field. The results showed that: papers on microbial fertilizer had been increasing gradually since 1990 s,and the research on microbial fertilizer stepped into a period of comprehensive development from 2003. The top five countries researching on microbial fertilizer were the United States,China,India,Germany and the UK. The Chinese Academic of Sciences,CSIC,INRA,CNRS,etc. were the main research organizations. The developed countries such as the United States showed the stronger research level than developing countries like China and India,but there was a trend of more devoting to research in developing country.The main subjects on microbial fertilizer contained agriculture,environmental science & ecology,plant science,microbiology and so on. The environmental science and agriculture would be the main subjects with the trend of interdisciplinary research in the future. The main research topic was still on the nitrogen fixation,biodegradation and bioremediation,promoting growth, etc., but biodegradation and bioremediation, decomposed organic matter,improving the soil ecological environment and enhancing the crops resistance would become rapid growthing hot topics in the future research area. These results provided important insights to the development of microbial fertilizer and some reference for decision-making of government.
引文
[1]刘鹏,刘训理.中国微生物肥料的研究现状及前景展望[J].农学学报,2013,3(3):26-31.Liu P, Liu X L. Current research status and prospect ofmicrobial fertilizer in China[J]. J. Agric.,2013,3(3):26-31.
[2] Ghorbani R, Wilcockson S, Koocheki A, et al.. Soilmanagement for sustainable crop disease control:A review[J].Environ. Chem. Lett.,2008,6(3):149-162.
[3]张瑞福,颜春荣,张楠,等.微生物肥料研究及其在耕地质量提升中的应用前景[J].中国农业科技导报,2013,15(5):8-16.Zhang R F,Yan C R,Zhang N,et al.. Studies on microbialfertilizer and its application prospects in improving arable landquality[J]. J. Agric. Sci. Technol.,2013,15(5):8-16.
[4] Miransari M. Soil microbes and plant fertilization[J]. Appl.Microbiol. Biotechnol.,2011,92(5):875-885.
[5] Malusa E, Sas-Paszt L, Ciesielska J. Technologies forbeneficial microorganisms inocula used as biofertilizers[J].Sci. World J.,2012,491206.
[6]祝英,王治业,彭轶楠,等.有机肥替代部分化肥对土壤肥力和微生物特征的影响[J].土壤通报,2015,46(5):1161-1167.Zhu Y,Wang Z Y,Peng Y N,et al.. Changes of soil nutrientsand microbial communities under the condition of organicfertilizers replacing part of chemical fertilizers[J]. Chin. J.Soil Sci.,2015,46(5):1161-1167.
[7]何元胜,胡晓峰,岳宁,等.微生物肥料的作用机理及其应用前景[J].湖南农业科学,2012(10):13-16.
[8] Bhardwaj D,Ansari M W,Sahoo R K,et al.. Biofertilizersfunction as key player in sustainable agriculture by improvingsoil fertility,plant tolerance and crop productivity[J]. Microb.Cell Fact.,2014,13:66.
[9] Youssef M M A,Eissa M F M. Biofertilizers and their role inmanagement of plant parasitic nematodes. A review.[J]. E3 J.Biotechnol. Pharm. Res.,2014,5(1):1-6.
[10]陈龙,孙广正,姚拓,等.干旱区微生物肥料替代部分化肥对玉米生长及土壤微生物的影响[J].干旱区资源与环境,2016,30(7):108-113.Chen L,Sun G Z,Yao T,et al.. Effect of chemical fertilizerpartly replaced by microbial fertilizer on maize growth and soilmicroorganism in arid area[J]. J. Arid Land Res. Environ.,2016,30(7):108-113.
[11]季凯文.国外生物农业发展动态及其对我国的启示[J].江西科学,2016,34(2):257-261.Ji K W. Development trends of foreign bio-agriculture and itsenlightenment to China[J]. Jiangxi Sci.,2016,34(2):257-261.
[12]陶磊,褚贵新,刘涛,等.有机肥替代部分化肥对长期连作棉田产量、土壤微生物数量及酶活性的影响[J].生态学报,2014,34(21):6137-6146.Tao L,Zhu G X,Liu T,et al.. Impacts of organic manurepartial substitution for chemical fertilizer on cotton yield,soilmicrobial community and enzyme activities in mono-croppingsystem in drip irrigation condition[J]. Acta Ecol. Sin.,2014,34(21):6137-6146.
[13] Herrmann L,Lesueur D. Challenges of formulation and qualityof biofertilizers for successful inoculation[J]. Appl. Microbiol.Biotechnol.,2013,97(20):8859-8873.
[14] Vessey J K. Plant growth promoting rhizobacteria asbiofertilizers[J]. Plant Soil,2003,255(2):571-586.
[15]农业部. NY/T 1113-2006微生物肥料术语[S].北京:中国标准出版社,2006.
[16]周法永,卢布,顾金刚,等.我国微生物肥料的发展阶段及第三代产品特征探讨[J].中国土壤与肥料,2015(1):12-17.Zhou F Y,Lu B,Gu J G,et al.. Chinese microbial fertilizerfeatures in its developmental stages and a discuss on the third-generation product innovation[J]. Soil Fertil. Sci. China,2015(1):12-17.
[17]杨鹤同,徐超,赵桂华,等.微生物肥料在农林业上的应用[J].安徽农业科学,2014,42(29):10078-10080,10082.Yang H T, Xu C, Zhao G H, et al.. The application ofmicrobial fertilizer in agriculture and forestry[J]. J. AnhuiAgric. Sci.,2014,42(29):10078-10080,10082.
[18] Sahoo R K,Ansari M W,Dangar T K,et al.. Phenotypic andmolecular characterisation of efficient nitrogen-fixing Azotobacterstrains from rice fields for crop improvement[J]. Protoplasma,2014,251(3):511-523.
[19] Dogan K,Celik I,Gok M,et al.. Effect of different soil tillagemethods on rhizobial nodulation,biyomas and nitrogen contentof second crop soybean[J]. African J. Microbiol. Res.,2011,5(20):3186-3194.
[20] Sharma S B,Sayyed R Z,Trivedi M H,et al.. Phosphatesolubilizing microbes:Sustainable approach for managingphosphorus deficiency in agricultural soils[J]. Springerplus,2013,(2):587.
[21] Richardson A E. Prospects for using soil microorganisms toimprove the acquisition of phosphorus by plants[J]. Aust. J.Plant Physiol.,2001,28(9):897-906.
[22] Richardson A E,Simpson R J. Soil microorganisms mediatingphosphorus availability[J]. Plant Physiol.,2011,156(3):989-996.
[23] Zhu F L, Qu L Y, Hong X G, et al.. Isolation andcharacterization of a phosphate-solubilizing halophilic bacteriumKushneria sp. YCWA18 from daqiao saltern on the coast ofYellow Sea of China[J]. Evidence-Based ComplementaryAlternative Med.,2011,doi:10.1155/2011/615032.
[24] Sahoo R K, Bhardwaj D, Tuteja N. Biofertilizers:Asustainable eco-friendly agricultural approach to cropimprovement[A]. In:Tuteja N,Gill S S. Plant Acclimation toEnvironmental Stress[M]. New York:Springer,2013.
[25] Badr M A. Efficiency of K-feldspar combined with organicmaterials and silicate dissolving bacteria on tomato yield[J]. J.Appl. Sci. Res.,2006,2(12):1191-1198.
[26] Sheng X F,He L Y. Solubilization of potassium-bearingminerals by a wildtype strain of Bacillus edaphicus and itsmutants and increased potassium uptake by wheat[J]. Can. J.Microbiol.,2006,52(1):66-72.
[27]党雯.解钾菌的筛选及其对矿区复垦土壤肥力的影响[D].太原:山西大学,硕士学位论文,2015.Dang W. The screening of potassim bacteria and its effects tosoil fertility of mine area reclaimation[D]. Taiyuan:ShanxiUniversity,Master Dissertation,2015.
[28] Prashar P,Kapoor N,Sachdeva S. Rhizosphere:Its structure,bacterial diversity and significance[J]. Rev. Environ. Sci. Bio-Technol.,2014,13(1):63-77.
[29] Bhattacharyya P N, Jha D K. Plant growth-promotingrhizobacteria(PGPR):Emergence in agriculture[J]. WorldJ. Microbiol. Biotechnol.,2012,28(4):1327-1350.
[30]邢芳芳,高明夫,胡兆平,等.木霉菌M2的鉴定及其对小白菜促生效果研究[J].农业资源与环境学报,2017,34(1):80-85.Xing F F, Gao M F, Hu Z P, et al.. Identification ofTrichoderma Strain M2 and related growth promoting effects onBrassica chinensis L.[J]. J. Agric. Resour. Environ.,2017,34(1):80-85.
[31]侯俊杰,康丽华,陆俊锟,等.芽孢杆菌对桉树幼苗的促生效果及其ACC脱氨酶活性的研究[J].微生物学通报,2014,41(10):2029-2034.Hou J J,Kang L H,Lu J K,et al.. Growth-promoting effect ofBacillus strains on Eucalyptus seedling and their ACCdeaminase activity[J]. Microbiol. China,2014,41(10):2029-2034.
[32]王若男,洪坚平.4种生物菌肥对盆栽油菜产量品质及土壤养分含量的影响[J].山西农业大学学报(自然科学版),2016,36(11):774-778,792.Wang R N,Hong J P. The influence of the four types ofbiological bacterial manure on the production quality and soilnutrition of the potted cole[J]. J. Shanxi Agric. Univ.(Nat.Sci.),2016,36(11):774-778,792.
[33]张虎天,尚虎山.菌肥拌种和种植模式对豌豆/玉米根际微生物群落的影响[J].水土保持通报,2015,35(6):168-171.Zhang H T,Shang H S. Effects of microbial fertilizer seeddressing and cropping patterns on rhizospheric microorganismsof pea/maize[J]. Bull. Soil Water Conserv.,2015,35(6):168-171.
[34]权国玲,谢开云,仝宗永,等.复合微生物肥料对羊草草原土壤理化性质及酶活性的影响[J].草业学报,2016,25(2):27-36.Quan G L,Xie K Y,Tong Z Y,et al.. The effect of compoudbio-fertilizer on soil physical and chemical properties and soilenzyme activity in leymus chinensis steppe[J]. Acta Pratacult.Sin.,2016,25(2):27-36.
[35] Schoebitz M,Lopez M D, Roldan A. Bioencapsulation ofmicrobial inoculants for better soil-plant fertilization. A review[J]. Agron. Sustain. Dev.,2013,33(4):751-765.
[36] Malusa E,Vassilev N. A contribution to set a legal frameworkfor biofertilisers[J]. Appl. Microbiol. Biotechnol.,2014,98(15):6599-6607.
[37]串丽敏,郑怀国,赵同科,等.基于Web of Science数据库的土壤污染修复领域发展态势分析[J].农业环境科学学报,2016,35(1):12-20.Chuan L M,Zheng H G,Zhao T K,et al.. Trends in researchon contaminated soil remediation based on web of sciencedatabase[J]. J. Agro-Environ. Sci.,2016,35(1):12-20.
[38]黄正多,李燕.印度农业现代化的现状、特点及其原因分析[J].南亚研究季刊,2006(3):26-30,35,124.Huang Z D, Li Y. Agricultural modernization in India:Development,features,and factors[J]. South Asian Stud.Quarterly,2006,(3):26-30,35,124.
[39]赵和楠.印度农业补贴政策及其启示[J].地方财政研究,2013(4):34-40.
[2] Ghorbani R, Wilcockson S, Koocheki A, et al.. Soilmanagement for sustainable crop disease control:A review[J].Environ. Chem. Lett.,2008,6(3):149-162.
[3]张瑞福,颜春荣,张楠,等.微生物肥料研究及其在耕地质量提升中的应用前景[J].中国农业科技导报,2013,15(5):8-16.Zhang R F,Yan C R,Zhang N,et al.. Studies on microbialfertilizer and its application prospects in improving arable landquality[J]. J. Agric. Sci. Technol.,2013,15(5):8-16.
[4] Miransari M. Soil microbes and plant fertilization[J]. Appl.Microbiol. Biotechnol.,2011,92(5):875-885.
[5] Malusa E, Sas-Paszt L, Ciesielska J. Technologies forbeneficial microorganisms inocula used as biofertilizers[J].Sci. World J.,2012,491206.
[6]祝英,王治业,彭轶楠,等.有机肥替代部分化肥对土壤肥力和微生物特征的影响[J].土壤通报,2015,46(5):1161-1167.Zhu Y,Wang Z Y,Peng Y N,et al.. Changes of soil nutrientsand microbial communities under the condition of organicfertilizers replacing part of chemical fertilizers[J]. Chin. J.Soil Sci.,2015,46(5):1161-1167.
[7]何元胜,胡晓峰,岳宁,等.微生物肥料的作用机理及其应用前景[J].湖南农业科学,2012(10):13-16.
[8] Bhardwaj D,Ansari M W,Sahoo R K,et al.. Biofertilizersfunction as key player in sustainable agriculture by improvingsoil fertility,plant tolerance and crop productivity[J]. Microb.Cell Fact.,2014,13:66.
[9] Youssef M M A,Eissa M F M. Biofertilizers and their role inmanagement of plant parasitic nematodes. A review.[J]. E3 J.Biotechnol. Pharm. Res.,2014,5(1):1-6.
[10]陈龙,孙广正,姚拓,等.干旱区微生物肥料替代部分化肥对玉米生长及土壤微生物的影响[J].干旱区资源与环境,2016,30(7):108-113.Chen L,Sun G Z,Yao T,et al.. Effect of chemical fertilizerpartly replaced by microbial fertilizer on maize growth and soilmicroorganism in arid area[J]. J. Arid Land Res. Environ.,2016,30(7):108-113.
[11]季凯文.国外生物农业发展动态及其对我国的启示[J].江西科学,2016,34(2):257-261.Ji K W. Development trends of foreign bio-agriculture and itsenlightenment to China[J]. Jiangxi Sci.,2016,34(2):257-261.
[12]陶磊,褚贵新,刘涛,等.有机肥替代部分化肥对长期连作棉田产量、土壤微生物数量及酶活性的影响[J].生态学报,2014,34(21):6137-6146.Tao L,Zhu G X,Liu T,et al.. Impacts of organic manurepartial substitution for chemical fertilizer on cotton yield,soilmicrobial community and enzyme activities in mono-croppingsystem in drip irrigation condition[J]. Acta Ecol. Sin.,2014,34(21):6137-6146.
[13] Herrmann L,Lesueur D. Challenges of formulation and qualityof biofertilizers for successful inoculation[J]. Appl. Microbiol.Biotechnol.,2013,97(20):8859-8873.
[14] Vessey J K. Plant growth promoting rhizobacteria asbiofertilizers[J]. Plant Soil,2003,255(2):571-586.
[15]农业部. NY/T 1113-2006微生物肥料术语[S].北京:中国标准出版社,2006.
[16]周法永,卢布,顾金刚,等.我国微生物肥料的发展阶段及第三代产品特征探讨[J].中国土壤与肥料,2015(1):12-17.Zhou F Y,Lu B,Gu J G,et al.. Chinese microbial fertilizerfeatures in its developmental stages and a discuss on the third-generation product innovation[J]. Soil Fertil. Sci. China,2015(1):12-17.
[17]杨鹤同,徐超,赵桂华,等.微生物肥料在农林业上的应用[J].安徽农业科学,2014,42(29):10078-10080,10082.Yang H T, Xu C, Zhao G H, et al.. The application ofmicrobial fertilizer in agriculture and forestry[J]. J. AnhuiAgric. Sci.,2014,42(29):10078-10080,10082.
[18] Sahoo R K,Ansari M W,Dangar T K,et al.. Phenotypic andmolecular characterisation of efficient nitrogen-fixing Azotobacterstrains from rice fields for crop improvement[J]. Protoplasma,2014,251(3):511-523.
[19] Dogan K,Celik I,Gok M,et al.. Effect of different soil tillagemethods on rhizobial nodulation,biyomas and nitrogen contentof second crop soybean[J]. African J. Microbiol. Res.,2011,5(20):3186-3194.
[20] Sharma S B,Sayyed R Z,Trivedi M H,et al.. Phosphatesolubilizing microbes:Sustainable approach for managingphosphorus deficiency in agricultural soils[J]. Springerplus,2013,(2):587.
[21] Richardson A E. Prospects for using soil microorganisms toimprove the acquisition of phosphorus by plants[J]. Aust. J.Plant Physiol.,2001,28(9):897-906.
[22] Richardson A E,Simpson R J. Soil microorganisms mediatingphosphorus availability[J]. Plant Physiol.,2011,156(3):989-996.
[23] Zhu F L, Qu L Y, Hong X G, et al.. Isolation andcharacterization of a phosphate-solubilizing halophilic bacteriumKushneria sp. YCWA18 from daqiao saltern on the coast ofYellow Sea of China[J]. Evidence-Based ComplementaryAlternative Med.,2011,doi:10.1155/2011/615032.
[24] Sahoo R K, Bhardwaj D, Tuteja N. Biofertilizers:Asustainable eco-friendly agricultural approach to cropimprovement[A]. In:Tuteja N,Gill S S. Plant Acclimation toEnvironmental Stress[M]. New York:Springer,2013.
[25] Badr M A. Efficiency of K-feldspar combined with organicmaterials and silicate dissolving bacteria on tomato yield[J]. J.Appl. Sci. Res.,2006,2(12):1191-1198.
[26] Sheng X F,He L Y. Solubilization of potassium-bearingminerals by a wildtype strain of Bacillus edaphicus and itsmutants and increased potassium uptake by wheat[J]. Can. J.Microbiol.,2006,52(1):66-72.
[27]党雯.解钾菌的筛选及其对矿区复垦土壤肥力的影响[D].太原:山西大学,硕士学位论文,2015.Dang W. The screening of potassim bacteria and its effects tosoil fertility of mine area reclaimation[D]. Taiyuan:ShanxiUniversity,Master Dissertation,2015.
[28] Prashar P,Kapoor N,Sachdeva S. Rhizosphere:Its structure,bacterial diversity and significance[J]. Rev. Environ. Sci. Bio-Technol.,2014,13(1):63-77.
[29] Bhattacharyya P N, Jha D K. Plant growth-promotingrhizobacteria(PGPR):Emergence in agriculture[J]. WorldJ. Microbiol. Biotechnol.,2012,28(4):1327-1350.
[30]邢芳芳,高明夫,胡兆平,等.木霉菌M2的鉴定及其对小白菜促生效果研究[J].农业资源与环境学报,2017,34(1):80-85.Xing F F, Gao M F, Hu Z P, et al.. Identification ofTrichoderma Strain M2 and related growth promoting effects onBrassica chinensis L.[J]. J. Agric. Resour. Environ.,2017,34(1):80-85.
[31]侯俊杰,康丽华,陆俊锟,等.芽孢杆菌对桉树幼苗的促生效果及其ACC脱氨酶活性的研究[J].微生物学通报,2014,41(10):2029-2034.Hou J J,Kang L H,Lu J K,et al.. Growth-promoting effect ofBacillus strains on Eucalyptus seedling and their ACCdeaminase activity[J]. Microbiol. China,2014,41(10):2029-2034.
[32]王若男,洪坚平.4种生物菌肥对盆栽油菜产量品质及土壤养分含量的影响[J].山西农业大学学报(自然科学版),2016,36(11):774-778,792.Wang R N,Hong J P. The influence of the four types ofbiological bacterial manure on the production quality and soilnutrition of the potted cole[J]. J. Shanxi Agric. Univ.(Nat.Sci.),2016,36(11):774-778,792.
[33]张虎天,尚虎山.菌肥拌种和种植模式对豌豆/玉米根际微生物群落的影响[J].水土保持通报,2015,35(6):168-171.Zhang H T,Shang H S. Effects of microbial fertilizer seeddressing and cropping patterns on rhizospheric microorganismsof pea/maize[J]. Bull. Soil Water Conserv.,2015,35(6):168-171.
[34]权国玲,谢开云,仝宗永,等.复合微生物肥料对羊草草原土壤理化性质及酶活性的影响[J].草业学报,2016,25(2):27-36.Quan G L,Xie K Y,Tong Z Y,et al.. The effect of compoudbio-fertilizer on soil physical and chemical properties and soilenzyme activity in leymus chinensis steppe[J]. Acta Pratacult.Sin.,2016,25(2):27-36.
[35] Schoebitz M,Lopez M D, Roldan A. Bioencapsulation ofmicrobial inoculants for better soil-plant fertilization. A review[J]. Agron. Sustain. Dev.,2013,33(4):751-765.
[36] Malusa E,Vassilev N. A contribution to set a legal frameworkfor biofertilisers[J]. Appl. Microbiol. Biotechnol.,2014,98(15):6599-6607.
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