[1]郭董菊,钱小鸿,杨胜英.基于WoS和CiteSpace的绿色生态农业研究可视化分析[J].浙江科技学院学报,2023,(06):484-494.[doi:10.3969/j.issn.1671-8798.2023.06.004 ]
 GUO Dongju,QIAN Xiaohong,YANG Shengying.Visual analysis of green ecological agriculture research based on WoS and CiteSpace[J].,2023,(06):484-494.[doi:10.3969/j.issn.1671-8798.2023.06.004 ]
点击复制

基于WoS和CiteSpace的绿色生态农业研究可视化分析(/HTML)
分享到:

《浙江科技学院学报》[ISSN:1001-3733/CN:61-1062/R]

卷:
期数:
2023年06期
页码:
484-494
栏目:
出版日期:
2024-01-05

文章信息/Info

Title:
Visual analysis of green ecological agriculture research based on WoS and CiteSpace
文章编号:
1671-8798(2023)06-0484-11
作者:
郭董菊钱小鸿杨胜英
(浙江科技学院 信息与电子工程学院, 杭州 310023)
Author(s):
GUO Dongju QIAN Xiaohong YANG Shengying
(School of Information and Electronic Engineering, Zhejiang University of Science and Technology, Hangzhou 310023, Zhejiang, China)
关键词:
文献计量学 CiteSpace 绿色农业 生态农业 可视化分析
分类号:
S181
DOI:
10.3969/j.issn.1671-8798.2023.06.004
文献标志码:
A
摘要:
【目的】更加清晰地了解绿色生态农业发展的研究现状和热点趋势。【方法】以Web of Sciecne核心合集数据库中2 582篇文献为数据源,运用CiteSpace6.1.R2软件对2003—2022年绿色生态农业研究领域的文献进行计量分析和可视化研究,从每年发表的文章数量、发表的期刊、发文机构、作者情况及关键词等方面绘制知识图谱。【结果】2003—2022年年发文量呈持续增长趋势,论文共刊登在201种杂志上,其中SUSTAINABILITY(《可持续发展》)刊文数量(153篇)位列第一。共有500个发文机构,其中Chinese Academy of Sciences(中国科学院)发文量为539篇,位列第一。共有498位研究者,其中Wang Y和Li Y两位研究者发文量均为120篇,对绿色生态农业研究领域的贡献最大。共有534个关键词出现,关键词中心性最高的是soil(土壤)(111次),根据关键词聚类进一步显示,近年来研究人员对“生态系统服务”和“土地利用变化”更感兴趣。【结论】目前国内研究者加强了对绿色生态农业的研究,农业与环境之间的关系是研究热点。在以后的研究中,研究人员应重点研究这些主题。本研究从文献计量学的角度分析中国近20年来绿色生态农业领域的发展现状,可为今后该领域的发展提供借鉴和参考。

参考文献/References:

[1] 于法稳.习近平绿色发展新思想与农业的绿色转型发展[J].中国农村观察,2016(5):2.
[2] 曾德鹏,马瑛,李婷,等.中国农业绿色发展研究的特征与趋势分析:基于CiteSpace的数据分析[J].湖北农业科学,2022,61(8):13.
[3] 邵立民,方天堃.21世纪中国绿色农业的战略选择及对策[J].生态经济,2001(11):34.
[4] 侯剑华,胡志刚.CiteSpace软件应用研究的回顾与展望[J].现代情报,2013,33(4):99.
[5] 陆林,刘烊铭.中国农民专业合作社研究脉络与演进:基于1999—2019年CNKI核心期刊、CSSCI数据的可视化研究[J].西南民族大学学报(人文社科版),2020,41(3):233.
[6] 谢作渺,丁可,弋生辉.我国民族生态环境研究的发展脉络与趋势:基于近20年CSSCI文献的Citespace可视化分析[J].中央民族大学学报(哲学社会科学版),2018,45(5):58.
[7] 郑烨,姬晴晴.政府支持企业创新的国内外研究述评[J].经济体制改革,2018(1):175.
[8] 张蒙蒙,刘天平,杨建辉.精准扶贫研究的现状、热点与趋势:基于CNKI和CiteSpace可视化视角[J].中国农业资源与区划,2019,40(8):11.
[9] GENG Q L, REN Q F, YAN H M, et al. Target areas for harmonizing the grain for green programme in China's Loess Plateau[J].Land Degradation & Development,2020,31(3):325.
[10] LI R Q, YU A F, BAI B, et al. Potential health and ecological risks of accumulation of cadmium, lead and mercury in soil-edible lily systems[J].Food Ence,2016(5):196.
[11] PAN F X, LU J W, LI X K, et al. Effect of fertilizer amount on yield and nutrient accumulation of green manures[J].Chinese Journal of Eco-Agriculture,2012,20(2):158.
[12] ZHU L J, RALPH D C, BUHRMAN R A. Spin-orbit torques in heavy-metal-ferromagnet bilayers with varying strengths of interfacial spin-orbit coupling[J].Physical Review Letters,2019,122(7):077201.
[13] YU S B, ALI J H, ZHOU S C, et al. From green super rice to green agriculture:reaping the promise of functional genomics research[J].Molecular Plant,2022,15(1):18.
[14] SIAW A, JIANG Y S, TWUMASI M A, et al. The ripple effect of credit accessibility on the technical efficiency of maize farmers in Ghana[J].Agricultural Finance Review,2020,81(2):189.
[15] CONTE G, BOLOGNESI A, BRAGALLI C, et al. Innovative urban water management as a climate change adaptation strategy:results from the implementation of the project “Water Against Climate Change(WATACLIC)”[J].Water,2012(4):1025.
[16] BRUIX J, SHERMAN M. Management of hepatocellular carcinoma:an update[J].Hepatology,2011,53(3):1020.
[17] SCHUUR E A G, BOCKHEIM J, CANADELL J G, et al. Vulnerability of permafrost carbon to climate change:implications for the global carbon cycle[J].Bioscience,2008,58(8):701.
[18] ZHANG B Q, WU P T, ZHAO X N, et al. Changes in vegetation condition in areas with different gradients(1980-2010)on the Loess Plateau, China[J].Environmental Earth Sciences,2012,68(8):2427.
[19] YANG S S, SONG C Y, XIE J L. Game analysis on subject of eco-compensation in green agriculture products industry[J].Ecological Economy,2012(6):75.
[20] NOSS R F. Indicators for monitoring biodiversity:a hierarchical approach[J].Conservation Biology,2010,4(4):1523.
[21] ZHANG C P, WU P, TANG C Y, et al. Assessment of arsenic distribution in paddy soil and rice plants of a typical karst basin affected by acid mine drainage in Southwest China[J].Environment and Pollution,2013,2(2):9.
[22] LIU Z F. Development course, current situation and forecast of green agriculture in China[J].Reformation & Strategy,2016,12:102.
[23] LIU Z, LI B. Spatial and temporal changes in grain production before and after implementation of Grain for Green project in Loess Plateau region[J].Transactions of the Chinese Society of Agricultural Engineering,2012,28(11):1.
[24] LI G Z, LAI Q L, DU Y P, et al. Aestuariivita atlantica sp. nov. isolated from deep-sea sediment[J].International Journal of Systematic and Evolutionary Microbiology,2015,106(5):3281.
[25] CHEN Z, YUN S T, ZHANG M J, et al. Oceaniglobus trochenteri sp.nov.isolated from the gut microflora of top shell(trochus maculatus linnaeus)[J].Archives of Microbiology,2021,203(9):5613.
[26] WEI D, YANG Q, ZHANG J Z, et al. Bacterial community structure and diversity in a black soil as affected by long-term fertilization[J].Pedosphere,2008,18(5):582.
[27] WENG B Q, LEI J G, HU X B, et al. Develop low-carbon agriculture by relying on scientific and technological progress[J].Ecology and Environmental Sciences,2010,19(6):1495.
[28] TANG L, ZHU Y, LIU X J, et al. Simulation model for photosynthetic production in oilseed rape[J].Pedosphere,2009(6):11.
[29] DUAN Z Y, LI Y E, WAN Y F, et al. Emission of green house gases for spring maize on different fertilizer treatments[J].Transactions of the Chinese Society of Agricultural Engineering,2014,30(24):216.
[30] XIE H J. Using remote sensing and GIS technology for an improved decision support:a case study of residential water use in El Paso, Texas[J].Civil Engineering Systems,2009,26(1):53.
[31] SHU R, CAO X, WU M. Clarifying regional water scarcity in agriculture based on the theory of blue, green and grey water footprints[J].Water Resources Management,2021,35(14):1101.
[32] LING L, ZHOU D Y, MA C X. Green food industry in China:development, problems and policies[J].Renewable Agriculture & Food Systems,2010,25(1):69.
[33] YU S B, ALI J H, ZHOU S C, et al. From green super rice to green agriculture:reaping the promise of functional genomics research[J].Molecular Plant,2022,15(1):18.
[34] JI B Y, ZHENG W, GATES R S, et al. Design and performance evaluation of the upgraded portable monitoring unit for air quality in animal housing[J].Computers and Electronics in Agriculture,2016(124):132.
[35] LI Z, JIN M, CHENG J. Economic growth of green agriculture and its influencing factors in China:based on emergy theory and spatial econometric model[J].Environment Development and Sustainability,2021,23(10):1.
[36] YANG B J, HUANG G Q, WANG C, et al. Effects of winter green manure cultivation on rice yield and soil fertility in paddy field[J].Chinese Journal of Eco-agriculture,2013,21(10):1209.
[37] 陈悦,陈超美,刘则渊,等.CiteSpace知识图谱的方法论功能[J].科学学研究,2015,33(2):242.
[38] JIA X Q, FU B J, FENG X M, et al. The tradeoff and synergy between ecosystem services in the Grain-for-Green areas in Northern Shaanxi, China[J].Ecological Indicators,2014,43(2):103.
[39] DENG X Z, LIU J M. Influence of different land use on urban microenvironment in Beijing city, China[J].Journal of Food Agriculture & Environment,2011,9(3):1005.
[40] MORTEZA F, MOHSEN J. Removal of heavy metals from aqueous solutions using sunflower, potato, canola and walnut shell residues[J].Journal of the Taiwan Institute of Chemical Engineers,2015,54:125.
[41] LI Q, YANG Q. Analysis on green agriculture policy during the development of eco-city in European countries and the United States and policy recommendations[J].Asian Agricultural Research,2014(8):3.
[42] LIN C, MA R H, ZHU Q, et al. Using hyper-spectral indices to detect soil phosphorus concentration for various land use patterns[J].Environmental Monitoring and Assessment,2015,187(1):4130.
[43] WANG H L, HE P, SHEN C Y, et al. Effect of irrigation amount and fertilization on agriculture non-point source pollution in the paddy field[J].Environmental Science and Pollution Research,2019,26:10363.
[44] WANG C X. Strategy simulation analysis for the scale operation of ecological agriculture using system dynamics[J].Systems Engineering-Theory & Practice,2015,35(12):3172.
[45] 马文利.国内外贫困研究热点及前沿动态分析:基于CiteSpace的文献计量[J].新疆财经大学学报,2020(2):5.
[46] CHEN X D, LUPI F, HE G M, et al. Factors affecting land reconversion plans following a payment for ecosystem service program[J].Biological Conservation,2009,142(8):1740.
[47] LIU J, HONG Y. Spatially explicit assessment of global consumptive water uses in cropland:green and blue water[J].Journal of Hydrology,2010,384(3/4):187.
[48] WANG S Y, DUAN L, SONG Y H, et al. Analysis of landscape patterns in Liaohe conservation area[J].Journal of Environmental Engineering Technology,2013,3(6):482.
[49] ZHANG J D, PENG M J. Trend of third industrial revolution and its enlightenment on “Three Rural Issues”[J].Research of Agricultural Modernization,2014,35(3):274.
[50] ZHANG X X, LIU J G, ZHAO X, et al. Linking physical water consumption with virtual water consumption:methodology, application and implications[J].Journal of Cleaner Production,2019,228(10):1206.
[51] DENG J C, LU X, HU W P, et al. Nutrients and organic matter in the surface sediment of a submerged macrophyte zone in a eutrophic lake:implications for lake management[J].International Journal of Sediment Research,2022,37(3):10.
[52] ADAMU T M, HAQ I U, SHAFIQ M. Analyzing the impact of energy, export variety, and FDI on environmental degradation in the context of environmental kuznets curve hypothesis:a case study of India[J].Energies,2019,12(6):1076.
[53] ZHOU Y, MIAO Z Z, FRAUKE U. China's leadership in the hydropower sector:identifying green windows of opportunity for technological catch-up[J].Industrial and Corporate Change,2020,29(5):1319.
[54] HOU P F, XUE L X, WANG J, et al. Continuous milk vetch amendment in rice-fallow rotation improves soil fertility and maintains rice yield without increasing CH4 emissions:evidence from a long-term experiment[J].Agriculture, Ecosystems & Environment,2022,325:107774.
[55] LI R, ZHANG L. Effects of radiation with diverse spectral wavelengths on photodegradation during green waste composting[J].Science of The Total Environment,2022,826:154166.

备注/Memo

备注/Memo:
收稿日期:2022-09-21
基金项目:新疆维吾尔自治区自然科学基金项目(2022D01C349)
通信作者:钱小鸿(1968— ),男,浙江省绍兴人,教授,硕士,主要从事人工智能、智慧农业研究。E-mail:120094@zust.edu.cn。
更新日期/Last Update: 2023-12-31