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1、Wang,F*.,Yang,W.,Zheng,F.,Sun,Y*.RemovalofCr(VI)fromsimulatedandleachatewastewatersbybentonite-supportedzero-valentironnanoparticles.InternationalJournalofEnvironmentalResearchandPublicHealth,2018,15(10):2162.被引1次
2、ZhangH,SongY,WangF,Li,Y,WangH,YangL.Identificationofcopper-bindingproteinsingerminatingriceembryosinresponsetocoppertoxicity.ActaPhysiologiaePlantarum,2018,40(8):158
3、Wang,F.*,Adams,C.A.,Shi,Z.,Sun,Y.CombinedeffectsofZnONPsandCdonsweetsorghumasinfluencedbyanarbuscularmycorrhizalfungus.Chemosphere,2018,209:421-429.被引1次
4、WangF*,JingX,AdamsC,ShiZ,SunY.DecreasedZnOnanoparticlesphytotoxicitytomaizebyarbuscularmycorrhizalfungusandorganicphosphorus.EnvironmentalScienceandPollutionResearch,2018,25(24):23736–23747被引5次
5、FayuanWang.Occurrenceofarbuscularmycorrhizalfungiinmining-impactedsitesandtheircontributiontoecologicalrestoration:Mechanismsandapplications.CriticalReviewsinEnvironmentalScienceandTechnology,2017,47(20):1901-1957.被引9次
6、Liu,L.,Li,J.,Yue,F.,Yan,X.,Wang,F.,Bloszies,S.,&Wang,Y.Effectsofarbuscularmycorrhizalinoculationandbiocharamendmentonmaizegrowth,cadmiumuptakeandsoilcadmiumspeciationinCd-contaminatedsoil.Chemosphere,2018,194:495-503被引12次
7、Y.Z.Shi,X.L.Zhang,S.X.Su,Z.J.Lan,K.Li,Y.M.Wang,F.Y.Wang,Y.L.Chen.Mycorrhizalrelationshipinlupines:areview.LegumeResearch,2017,40(6):965-973被引1次
8、ZhangHX,LvSF,XuHW,HouDY,LiYJ*,WangFY*.H2O2isinvolvedinthemetallothionein-mediatedricetolerancetocopperandcadmiumtoxicity.InternationalJournalofMolecularSciences,2017,18(10):2083被引3次
9、李珂,石兆勇,王发园*.丛枝菌根生理生态功能及其在生态恢复中的作用.土壤通报,2017,48(4):996-1002
10、ShiZ,WangY,XuS,LanZ,MichanBS,ZhangX,WangF.Arbuscularmycorrhizalfungienhanceplantdiversity,densityandproductivityofspringephemeralcommunityindesertecosystem.NotulaeBotanicaeHortiAgrobotaniciCluj-Napoca,2017,45(1):301-307.被引1次
11、FayuanWang.ArbuscularMycorrhizasandEcosystemRestoration.In:WuQS(ed).ArbuscularMycorrhizasandStressToleranceofPlants.SpringerNatureSingaporePteLtd.,pp.245-291.2017.04.08被引1次
12、林先贵,胡君利,戴珏,王发园,冯有智.丛枝菌根真菌群落结构与多样性研究方法概述及实例比较.应用与环境生物学报,2017,23(2):343-350
13、WangSH,WangFY*,GaoSC,WangXG.Heavymetalaccumulationindifferentricecultivarsasinfluencedbyfoliarapplicationofnano-silicon.Water,Air,andSoilPollution,2016,227(7):228.被引12次
14、郭会学,王发园*,李帅,苗艳芳.不同种植密度和施氮量对甜高粱生长、生物量和含糖量的影响.江苏农业科学,2016,44(4):152-154.
15、景新新,王发园*.丛枝菌根真菌对改善植物磷素营养机制的研究进展.湖北农业科学,2016,55(8):1908-1912
16、景新新,苏志忠,邢红恩,王发园*,石兆勇,刘雪琴.不同磷水平下丛枝菌根真菌对纳米氧化锌生物效应的影响.环境科学,2016,38(8):3208-3215.被引5次
17、FayuanWang*,XueqinLiu,ZhaoyongShi,RuijianTong,CatharineA.Adams,XiaojunShi.Arbuscularmycorrhizaealleviatenegativeeffectsofzincoxidenanoparticleandzincaccumulationinmaizeplants-Asoilmicrocosmexperiment.Chemosphere,2016,147:88-97.2区Top期刊,被引68次
18、ShiZ,YinX,MickanB,WangF,ZhangY,LiY,ShenH.ResponseofarbuscularmycorrhizalfungitosimulatedclimatechangesbyreciprocaltranslocationinTibetanPlateau.NotulaeBotanicaeHortiAgrobotaniciCluj-Napoca,2015,43(2):488-493.
19、李帅,刘雪琴,王发园*,苗艳芳.纳米氧化锌、硫酸锌和AM真菌对玉米生长的影响.环境科学,2015,37(12):4615-4622被引3次
20、王丽华,王发园*,景新新,李帅,刘雪琴.纳米氧化锌和丛枝菌根真菌对大豆生长及营养吸收的影响.生态学报,2015,35(15):5254-5261被引2次
21、PengS,LiuJ,ZhangJ,WangFY*.Animprovedpreparationofgraphenesupportedultrafineruthenium(0)NPs:veryactiveanddurablecatalystsforH2generationfrommethanolysisofammoniaborane.InternationalJournalofHydrogenEnergy,2015,40(34):10856-108662015IF3.313,2区,被引25次
22、LiuXueqin,WangFayuan*,ShiZhaoyong,TongRuijian,ShiXiaojun.BioavailabilityofZninZnOnanoparticles-spikedsoilandtheimplicationstomaizeplants.JournalofNanoparticleResearch,2015,17(4):175IF2.1842区被引27次
23、WangSH,WangFY*,GaoSC.Foliarapplicationwithnano-siliconalleviatesCdtoxicityinriceseedlings.EnvironmentalScienceandPollutionResearch,2015,22(4):2837-2845IF2.8283区期刊被引63次
24、ZhaoyongShi,FayuanWang,KaiZhang,YinglongChen.DiversityanddistributionofarbuscularmycorrhizalfungialongaltitudinalgradientsinMt.TaibaioftheQinlingMountains.CanadianJournalofMicrobiology,2014,60(12):811-818IF1.221被引21次
25、王卫中,王发园*,李帅,刘学琴.丛枝菌根影响纳米ZnO对玉米的生物效应.环境科学,2014,35(8):3136-3141被引6次
26、NingDL,HuangY,PanRS,WangFY,WangH.Effectofeco-remediationusingplantedfloatingbedsystemonnutrientsandheavymetalsinurbanriverwaterandsediment:AfieldstudyinChina.ScienceoftheTotalEnvironment,2014,485-486:596-603IF4.0992区期刊被引26次
27、王发园,王玲,王旭刚,石兆勇.钝化剂在烟草植物修复铅镉污染土壤中的作用.环境工程学报,2014,8(2):789-794被引20次
28、何永辉,王玲,孙德祥,陈莹,王平喜,吴张云,宋志美,王发园*.AM真菌和牛粪对铅污染土壤的修复效应.中国烟草科学,2013,34(3):65-69被引3次
29、ShugePeng,XinjieFan,JunZhang,FayuanWang*.AhighlyefficientheterogeneouscatalystofRu/MMT:Preparation,characterization,andevaluationofcatalyticeffect.AppliedCatalysisB:Environmental,2013,140-141:115-124.IF6.007被引28次1区期刊
30、WangFY,ShiZY,XuXF,WangXG,LiYJ.ContributionofAMinoculationandcattlemanuretoleadandcadmiumphytoremediationbytobaccoplants.EnvironmentalScience:Processes&Impacts,2013,15(4):794-801.IF2.085被引15次
31、FaYuanWang,LingWang,ZhaoYongShi,YouJunLi,ZhiMeiSong.EffectsofAMinoculationandorganicamendment,aloneorincombination,ongrowth,nutritionandheavymetaluptakeoftobaccoinPb-Cdcontaminatedsoil.JournalofPlantGrowthRegulation,2012,31(4):549-559(IF1.99)被引31次
32、FaYuanWang,ZhaoYongShi,RuiJianTong,XiaoFengXu.Dynamicsofphoximresiduesingreenonionandsoilasinfluencedbyarbuscularmycorrhizalfungi.JournalofHazardousMaterials,2011,185(1):112–116(IF4.173)被引10次1区期刊
33、ShiZY,WangFY,ZhangC,YangZB.Exploitationofphosphoruspatcheswithdifferentphosphorusenrichmentbythreearbuscularmycorrhizalfungi.JournalofPlantNutrition,2011,34(8):1096-1106.(IF0.641)被引12次
34、FaYuanWang,RuiJianTong,ZhaoYongShi,XiaoFengXu,XinHuaHe.Inoculationswitharbuscularmycorrhizalfungiincreasevegetableyieldsanddecreasephoximconcentrationsincarrotandgreenonionandtheirsoil.PLoSONE,2011,6(2):e16949.被引25次(IF4.092)
35、FaYuanWang,ChangShuiZhang,XiaoFengXu.RiskassessmentofheavymetalcontaminationinfreshvegetablesfrommarketsinLuoyangCity,China.AsianJournalofChemistry,2012,24(2):657-662(IF0.253)被引5次
36、WangFY,HuJL,LinXG,ShengQW,WangJH.Arbuscularmycorrhizalfungalcommunitystructureanddiversityinresponsetolong-termfertilization:afieldcasefromChina.WorldJournalofMicrobiologyandBiotechnology,2011,27(1):67-74.(IF1.532)被引39次
37、MaJW,WangH,WangFY,HuangZH.Adsorptionof2,4-dichlorophenolfromaqueoussolutionbyanewlow-costadsorbent–activatedbamboocharcoal.SeparationScienceandTechnology,2010,45(16):2429-2436(IF1.088)被引28次
38、WangH,WangFY,WeiZQ,HuHY.QuinoneprofilesofmicrobialcommunitiesinsedimentsofHaiheRiver-BohaiBayasinfluencedbyheavymetalsandenvironmentalfactors.EnvironmentalMonitoringandAssessment,2011,176:157-167.IF1.592被引10次
39、FaYuanWang,HuiWang,JianWeiMa.Adsorptionofcadmium(II)ionsfromaqueoussolutionbyanewlow-costadsorbent-bamboocharcoal.JournalofHazardousMaterials,2010,177(1-3):300-306(IF4.173)被引304次1区期刊ESI
40、FaYuanWang,XianGuiLin,JunLiHu.GlomuscaledoniumsporescanbeoccupiedbyGlomusmicroaggregatumspores.AnnalsofMicrobiology,2009,59(4):693-697.(IF0.689)被引3次
41、JianWeiMa,FaYuanWang,ZhenghongHuang,HuiWang.Simultaneousremovalof2,4-dichlorophenolandCdfromsoilsbyelectrokineticremediationcombinedwithactivatedbamboocharcoal.JournalofHazardousMaterials,2010,176:715-720.(IF4.173)被引73次1区期刊
42、FayuanWang,XianguiLin,RuiYin.RoleofmicrobialinoculationandchitosaninphytoextractionofCu,Zn,PbandCdbyElsholtziasplendens-afieldcase.EnvironmentalPollution,2007,147(1):248-255.(IF3.426)被引91次2区期刊
43、FaYuanWang,XianGuiLin,RuiYin.Effectofarbuscularmycorrhizalfungalinoculationonheavymetalaccumulationofmaizegrowninanaturallycontaminatedsoil.InternationalJournalofPhytoremediation,2007,9(4):345-353.(IF1.321)被引71次
44、FaYuanWang,XianGuiLin,RuiYin.InoculationwitharbuscularmycorrhizalfungusAcaulosporamelleadecreasesCuphytoextractionbymaizefromCu-contaminatedsoil.Pedobiologia,2007,51(2):99-109.(IF2.414)被引66次
45、WangFayuan,LinXiangui,YinRui,WuLongHua.EffectsofarbuscularmycorrhizalinoculationonthegrowthofElsholtziasplendensandZeamaysandtheactivitiesofphosphataseandureaseinamulti-metal-contaminatedsoilunderunsterilizedconditions.AppliedSoilEcology,2006,31(1-2):110-119.(IF2.122)被引105次2区期刊
46、WangFayuan,LinXiangui,YinRui.HeavymetaluptakebyarbuscularmycorrhizasofElsholtziasplendensandthepotentialforphytoremediationofcontaminatedsoil.PlantandSoil,2005,269(1-2):225-232.(IF2.517)被引114次1区期刊
47、WangFayuan,LiuRunjin,LinXiangui,ZhouJianmin.Arbuscularmycorrhizalstatusofwildplantsinsaline-alkalinesoilsofYellowRiverDelta.Mycorrhiza,2004,14(2):133-137.(IF2.650)被引107次2区期刊
48、LiuRunjin,WangFayuan.Selectionofhostplantsintrapcultureofarbuscularmycorrhizalfungi.Mycorrhiza,2003,13(3):123-127.(IF2.650)被引87次2区期刊
49、ShiZY,LiuYY,WangFY,ChenYY.InfluenceofmycorrhizalstrategyonthefoliartraitsoftheplantsontheTibetanPlateauinresponsetoprecipitationandtemperature.TurkishJournalofBotany,2012,36(4):392-400(IF1.6)被引3次
50、CuiXC,HuJL,LinXG,WangFY,ChenRR,WangJH,ZhuJG.Arbuscularmycorrhizalfungialleviateozonestressonnitrogennutritionoffieldwheat.J.Agr.Sci.Tech.,2013,15:1043-1052.(IF0.685)被引12次
51、ShiZY,WangFY,LiuYY.Responseofsoilrespirationunderdifferentmycorrhizalstrategiestoprecipitationandtemperature.JournalofSoilScienceandPlantNutrition,2012,12(3):411-420(IF0.779)
52、ShiZY,HouXG,ChenYL,WangFY,MiaoYF.Foliarstoichiometryunderdifferentmycorrhizaltypesinrelationtotemperatureandprecipitationingrassland.JournalofPlantEcology,2013,6(4):270-276.(IF1.355)被引7次
53、ShiZY,LiuDH,WangFY.SpatialvariationofarbuscularmycorrhizalfungiintwovegetationtypesinGurbantonggutDesert.ContemporaryProblemsofEcology,2013,6(4):455-464.(IF0.137)
54、ShiZ,ChenY,HouX,GAOS,WangF.ArbuscularmycorrhizalfungiassociatedwithtreepeonyinthreegeographiclocationsofChina.TurkishJournalofAgricultureandForestry,2013,37(6):726-733
55、王发园,林先贵,尹睿.丛枝菌根真菌对海州香薷生长及其铜吸收的影响.环境科学,2005,26(5):174-180.EI:2005419406068被引43次
56、FaYuanWang,XianGuiLin.RoleofmicrobialinoculationinphytoremediationofheavymetalsbyElsholtziasplendens.2011InternationalConferenceonRemoteSensing,EnvironmentandTransportationEngineering,2011,vol3:2456-2459
57、FaYuanWang,LingWang,ShiZhaoYong.Effectsofarbuscularmycorrhizalinoculationandcattlematureoncadmiumuptakebytobacco.2012InternationalConferenceonBiomedicalEngineeringandBiotechnology(iCBEB),213-216
58、FaYuanWang,ZhaoYongShi.BiodiversityofarbuscularmycorrhizalfungiinChina:areview.AdvancesinEnvironmentalBiology,2008,2(1):31-39.被引30次
59、FayuanWang,YanfangMiao.Effectsofdifferentarbuscularmycorrhizalfungionthegrowthandyieldofsoybeanincoalminespoil.WorldJournalofAgriculturalSciences,2006,2(4):383-389.
60、ZhaoYongShi,FaYuanWang,YanLiWei,YingLongChen.ObservationsofarbuscularmycorrhizasonDipterocarpaceaegrownintropicalrainforestinChina.American-EurasianJournalofAgricultural&EnvironmentalSciences,2007,2(3):247-254.
61、ZhaoYongShi,FaYuanWang,YanLiWei.NaturalforestandforestplantationaffectdiversityofarbuscularmycorrhizalfungiintherhizosphereofDipterocarpaceae.American-EurasianJournalofAgricultural&EnvironmentalSciences,2007,2(4):411-416.
62、XiaoFengXu,ChangShuiZhang,HuiQingChang,FaYuanWang.AreviewofwaterqualityandpollutioncontrolinChina.American-EurasianJ.Agric.&Environ.Sci.,2010,8(6):741-751.被引2次
63、王发园,林先贵.丛枝菌根真菌对污染土壤中农产品质量安全的影响.土壤学报,2008,45(6):1142-1147.被引25次
64、王发园,刘润进,林先贵,周健民.几种生态环境中AM真菌多样性比较研究.生态学报,2003,23(12):2666-2671.被引85次
65、王发园,刘润进.生物因子对AM真菌多样性的影响.生态学报,2002,22(3):403-408.被引50次
66、王发园,林先贵.丛枝菌根在植物修复重金属污染土壤中的作用.生态学报,2007,27(2):793-801.被引99次
67、石兆勇,王发园,陈应龙.五指山常见热带树种的丛枝菌根真菌多样性.生态学报,2007,28(7):2896-2903被引15次
68、王发园,刘润进.AM真菌分类学最新研究进展.菌物系统,2001,20(4):588-593.被引22次
69、王发园,刘润进.丛枝菌根真菌一新种:枣庄球囊霉.菌物系统,2002,21(4):522-524.被引13次
70、王发园,刘润进.黄河三角洲盐碱地中的丛枝菌根真菌.菌物系统,2002,21(2):196-202.被引55次
71、刘润进,王发园,孟祥霞.渤海湾岛屿的丛枝菌根真菌.菌物系统,2002,21(4):525-532.被引38次
72、王发园,林先贵,尹睿.不同施Cu水平下接种AM真菌对海州香薷根际pH的影响.植物营养与肥料学报,2006,12(6):922-925.被引6次
73、王发园,刘润进.黄河三角洲盐碱土壤中AM真菌的初步调查.生物多样性,2001,9(4):389-392.被引63次
74、王发园,刘润进.环境因子对AM真菌多样性的影响.生物多样性,2001,9(3):301-305.被引106次
75、王发园,林先贵.丛枝菌根-植物修复重金属污染土壤研究中的热点.生态环境,2006,15(5):1084-1090.被引29次
76、王发园,林先贵,周健民.丛枝菌根与土壤修复.土壤,2004,36(3):251-257.被引62次
77、王发园,林先贵,周健民.丛枝菌根真菌分类最新进展.微生物学杂志,2005,25(3):41-45.被引39次
78、王发园,林先贵,周健民.中国AM真菌的生物多样性.生态学杂志,2004,23(4):149-154.被引56次
79、王发园,孟祥霞,张显伦,刘润进.分子标记技术在丛枝菌根研究中的应用现状.莱阳农学院学报,2002,19(2):119-123.被引7次
80、林先贵,王发园.土壤污染对微生物多样性的影响.见:段昌群主编,生态科学进展.北京:高等教育出版社,2004,1:215-242.
81、林先贵,王发园.丛枝菌根真菌研究进展.面向农业与环境的土壤科学(综述篇),中国土壤学会第十届全国代表大会暨第五届海峡两岸土壤肥料学术交流研讨会文集.北京:科学出版社,2004年7月.301-310.
82、刘润进,李敏,王发园.大棚蔬菜根围AM真菌多样性研究初报.莱阳农学院学报,2001,18(4):280-283.被引24次
83、石兆勇,高双成,王发园.荒漠生态系统中丛枝菌根真菌多样性.干旱区研究,2008,25(6):783-789被引20次
84、毛军需,王发园,王秀利,王连喜.大气污染生物指示物研究进展.气候与环境研究,2008,13(5):688-696被引5次
85、石兆勇,魏艳丽,王发园.地球上最广泛的共生体—丛枝菌根.生物学通报,2007,42(8):21-22被引10次
86、石兆勇,张晓锋,王发园.菌根真菌对土壤呼吸的影响.生态环境学报,2010,19(1):233-238被引18次
87、石兆勇,刘德鸿,王发园,丁效东.菌根类型对森林树木净初级生产力的影响.生态环境学报,2012,21(3):404-408被引5次
88、王发园,陈欣,孙鲜明,石兆勇.接种AM真菌对胡萝卜生长和辛硫磷残留的影响.环境科学,2010,31(12):3075-3080.被引12次
89、仝瑞建,刘雪琴,王发园,薛华清,杨晓红.沙田柚根围AM真菌的生境适宜性和季节变化性.应用与环境生物学报,2011,17(5):684-687.被引8次
90、王发园.在土壤肥料学教学中培养大学生的公民素质之探讨.安徽农学通报,2011,17(21):173-175
91、刘德鸿,王发园*,周文利,杨玉建.洛阳市不同功能区道路灰尘重金属污染及潜在生态风险.环境科学,2012,33(1):253-259被引60次
92、刘德鸿,柳开楼,王发园,靳方圆.保护地土壤水溶性盐分与土壤酶活性的关系研究.河南农业科学,2010,(10):53-56被引13次
93、刘德鸿,王发园*,寇太记.洛阳市不同功能区地表灰尘重金属的粒径分布特征.生态环境学报,2012,21(4):700-705被引6次
94、陶霞,管运涛,王慧,蒋建国,刘翔,李春萍,吴文俊,王发园.典型老城区管网沿河排放状况调查与分析.中国给水排水,2010,26(16):78-82被引2次
95、王发园.人工纳米颗粒的植物毒性及其在植物中的吸收和累积.生态毒理学报,2012,7(2):140-147被引17次
96、王玲,王发园*.丛枝菌根对镉污染土壤的修复研究进展.广东农业科学,2012,39(2):51-53被引12次
97、石兆勇,王发园,苗艳芳.不同菌根类型的森林净初级生产力对气温变化的响应.植物生态学报,2012,36(11):1165-1171被引3次
98、刘德鸿,寇太记,王发园,徐晓峰.洛阳城市河流底质重金属污染及潜在生态风险.河南科技大学学报,2012,33(6):87-91
99、翁平,王发园,宁大亮,周立万,王慧.城市河道水体生态修复实践现状及进展.中小企业管理与科技(下旬刊),2012,(5):98-102被引2次
100、翁平,宁大亮,王慧,王发园,蒋丹妮.平原地区城市内河调水增氧与曝气增氧的比较.常州大学学报(自然科学版),2012,24(2):40-44被引3次