[1]罗栋,王艳楠.我国金矿资源现状与找矿方向[J].资源与产业,2013,15(4):51-57.
[2]许勇.去年黄金产业主要数据发布[N].中国黄金珠宝,2024-07-30.
[3]苑兴伟,刘文锋,张义森,等.黄金尾矿生态修复技术研究[J].农业科技与装备,2020(1):8-9.
[4]王淑民,崔文瑞,王吉坤,等.新形势下绿色矿山建设问题及建议研究[J].煤炭加工与综合利用,2024(1):95-98.
[5]陈芳芳,张亦飞,薛光.黄金冶炼生产工艺现状及发展[J].中国有色冶金,2011,40(1):11-18.
[6]贺立旭,杨卫春,杨志辉,等.金矿堆场含氰污染物及其处理技术综述[C]∥中国环境科学学会.中国环境科学学会2021年科学技术年会——环境工程技术创新与应用分会场论文集(四).北京:中国环境科学学会,2021.
[7]张海亮,王建文,马利凤,等.黄金堆浸工艺的工程应用研究进展与实践[J].有色金属(冶炼部分),2023(7):48-56.
[8]王艺竹,王佳怡,向泽慧,等.山东某金矿工艺矿物学及选矿影响因素研究[J].黄金,2024,45(2):33-36.
[9]朱忠泗.硫脲类非氰化浸金药剂的制备及应用研究[D].长沙:中南大学,2014.
[10]PARKJM,TREVORSEWELLB,BENEDIKMJ.Cyanidebiore-mediation:Thepotentialofengineerednitrilases[J].AppliedMicrobiologyandBiotechnology,2017,101(8):3029-3042.
[11]王博.黄金氰化尾矿库细菌群落特征及氰化物降解菌株筛选与机理研究[D].兰州:兰州交通大学,2023.
[12]LIAOQ,TUGY,YANGZH,etal.SimultaneousadsorptionofAs(Ⅲ),Cd(Ⅱ)andPb(Ⅱ)byhybridbio-nanocompositesofnanohydroxyferricphosphateandhydroxyferricsulfateparticlescoatingonAspergillusniger[J].Chemosphere,2019,223:551-559.
[13]GUADALIMAMPG,MONTEROSDAN.Evaluationoftherotationalspeedandcarbonsourceonthebiologicalremovaloffreecyanidepresentongoldminewastewater,usingarotatingbiologicalcontactor[J].JournalofWaterProcessEngineering,2018,23:84-90.
[14]MEEUSSENJC,KEIZERMG,VANRIEMSDIJKWH,etal.Solu-bilityofcyanideincontaminatedsoils[R].Hoboken:WileyOnlineLibrary,1994.
[15]陈善沐.紫金山大型铜金矿动态开采水土保持措施补充整合探讨[J].水土保持学报,2004,18(4):186-189,199.
[16]安俊珍,蔡崇法,罗进选,等.蛇屋山金矿生态环境损害与尾矿植被恢复模式[J].中国水土保持科学,2013,11(2):77-83.
[17]LIUJ,ZHANGSW,LIEW,etal.Effectsofcubicecologicalrestorationofminingwastelandandthepreferredrestorationscheme[J].ScienceoftheTotalEnvironment,2022,851(P1):158155.
[18]李贤,王福德,张江华,等.青南高原砂金矿地质环境恢复治理模式探讨[J].中国矿业,2013,22(10):73-75,79.
[19]李鹏,曾金.秦岭金矿开采区矿山泥石流发育特征及其防治对策研究——以龙湾沟为例[J].世界有色金属,2018(12):187-189.
[20]房彬,张建,李玉庆,等.土壤氰化物污染生物修复技术研究进展[J].化工环保,2016,36(4):375-380.
[21]李云鹏,陈建业,陈学平,等.五种护坡草本植物根系固土效果研究[J].中国水土保持,2021(1):41-45,45.
[22]张博文,李富平,许永利.10种草本植物对石矿迹地土壤的改良效果[J].江苏农业科学,2018,46(21):286-290.
[23]MORTENL,STEFANT.Uptakeofironcyanidecomplexesintowillowtrees[J].EnvironmentalScience&Technology,2006,40(6):1956-1961.
[24]龙新宪,杨肖娥,倪吾钟.重金属污染土壤修复技术研究的现状与展望[J].应用生态学报,2002,13(6):757-762.
[25]黄白飞,辛俊亮.植物积累重金属的机理研究进展[J].草业学报,2013,22(1):300-307.
[26]KANGDH,HONGLY,SCHWABPA,etal.Removalofprussianbluefromcontaminatedsoilintherhizosphereofcyanogenicplants[J].Chemosphere,2007,69(9):1492-1498.
[27]DECARVALHOCFM,VIANADG,PIRESFR,etal.Phytoremediationofbarium-affectedfloodedsoilsusingsingleandintercroppingcultivationofaquaticmacrophytes[J].Chemosphere,2019,214:10-16.
[28]BIANFY,ZHONGZK,LICZ,etal.Intercroppingimprovesheavymetalphytoremediationefficiencythroughchangingpropertiesofrhizospheresoilinbambooplantation[J].JournalofHazardousMaterials,2021,416:125898.
[29]HUANGR,XINGC,YANGYR,etal.PhytoremediationandenvironmentaleffectsofthreeAmaranthaceaeplantsincontaminatedsoilunderintercroppingsystems[J].ScienceoftheTotalEnvironment,2024,914:169900.
[30]周井刚,蔡信德,毛媛媛,等.两种光源对污染土壤中氰化物的处理研究[J].广州环境科学,2014,29(4):30-34.
[31]张涛,仇浩,邹泽李,等.氰化物污染土壤的化学氧化修复方法初步研究[J].环境科学学报,2009,29(7):1465-1469.
[32]孙浩然.螯合剂淋洗修复土壤中As、Sb污染物实验研究[D].贵州:贵阳大学,2016.
[33]ZHANGLX,WANGJW,ZOUR,etal.Remediationofcompositecontaminatedsoilbylead,arsenic,uraniumandthoriumofradioactiveandheavymetalusingchemicaldrenchingcombinedwithpassivation[J].Water,Air,&SoilPollution,2024,235(9):599.
[34]LIYH,SUNJR,QIANJ,etal.Studyontheremediationofcadmium/mercurycontaminatedsoilbyleaching:effectiveness,conditions,andecologicalrisks[J].Water,Air,&SoilPollution,2023,234(1):45.
[35]ADJEIMD,OHTAY.FactorsaffectingthebiodegradationofcyanidebyBurkholderiacepaciastrainC-3[J].JournalofBioscienceandBioengineering,2000,89(3):274-277.
[36]AKCILA,MUDDERT.Microbialdestructionofcyanidewastesingoldmining:processreview[J].BiotechnologyLetters,2003,25(6):445-450.
[37]LUQUE-ALMAGROVM,CABELLOP,SáEZLP,etal.Exploringanaerobicenvironmentsforcyanideandcyano-derivativesmicrobialdegradation[J].AppliedMicrobiologyandBiotechnology,2018,102(3):1067-1074.
[38]SHIND,PARKJ,PARKH,etal.Keymicrobesandmetabolicpotentialscontributingtocyanidebiodegradationinstirred-tankbioreactorstreatinggoldminingeffluent[J].MineralProcessingandExtractiveMetallurgyReview,2020,41(2):85-95.
[39]FINNEGANI,TOERIENS,ABBOTL,etal.Identificationandcharacterisationofanacinetobactersp.capableofassimilationofarangeofcyano-metalcomplexes,freecyanideionsandsimpleorganicnitriles[J].AppliedMicrobiologyandBiotechnology,2004,36(1):142-144.
[40]ZHAOFP,ZHANGQY,HELX,etal.MolecularlevelinsightofthiocyanatedegradationbyPseudomonasputidaTDB-1underahigharsenicandalkalinecondition[J].ScienceoftheTotalEnvironment,2023,874:162578.
[41]邓政斌,童雄.浅述尾矿干堆技术的前景[J].矿冶,2011,20(2):10-14,19.
[42]王陈颐.氰化尾矿干堆技术应用实践[J].价值工程,2014,33(8):322-323.
[43]陈宇,吴为荣,华芳,等.氰化尾矿低温焙烧破氰试验研究[J].黄金,2024,45(3):91-93.
[44]LIHY,YINSH,LISW,etal.Investigationontherecoveryofgoldfrompretreatedcyanidetailingsusingchlorinationleachingprocess[J].SeparationScienceandTechnology,2021,56(1):45-53.
[45]CASTILHOSZC,DOMINGOSLMB.Apictureofartisanalandsmall-scalegoldmining(ASGM)inBrazilanditsmercuryemissionsandreleases[J].EnvironmentalGeochemistryandHealth,2024,46(3):101.
[46]HUM,GUON,HUZ,etal.Thereusegoldtailingsasfillingmaterialsfordepletedmines[J].MineWaterandtheEnvironment,2024,43:266-277.
[47]MASHIFANAT,SITHOLET.Cleanproductionofsustainablebackfillmaterialfromwastegoldtailingsandslag[J].JournalofCleanerProduction,2021,308:127357.
[48]ZHANGL,JIANGT,GUOXY.etal.Sustainableprocessingofgoldcyanidetailings:Reductionroasting,mechanicalactivation,non-cyanideleaching,andmagneticseparation[J].Hydrometallurgy,2023,217:106028
[49]BAKATULAEN,STRAKERCJ,CUKROWSKAEM,etal.AzeoponicsystemmodifiedwithPenicilliumsimplicissimumfortheremovaloftraceelementsfromaqueoussolutionsandgoldmineleachates[J].JournalofGeochemicalExploration,2015,156:34-43.
[50]SEH-BARDANBJ,OTHMANR,OTHMANR,etal.Biosorptionofheavymetalsinleachatederivedfromgoldminetailingsusingaspergillusfumigatus[J].Clean-SoilAirWater,2013,41(4):356-364.
[51]SOTO-URIBEJC,VALENZUELA-GARCIAJL,SALAZAR-CAMPOYMM,etal.Electrocoagulationprocessforrecoveryofpreciousmetalsfromcyanideleachatesusingalowvoltage[J].ACSEngineeringAu,2023,4(1):139-144.
[52]JIANGS,CHENY,CHENS,etal.Removalandreclamationoftracemetalsfromcopperandgoldminetailingleachatesusinganalkalisuspensionmethod[J].Water,2023,15(10):1902.
[53]ALVAREZR,ORDEZA,LOREDOJ,etal.Wetland-basedpassivetreatmentsystemsforgoldoreprocessingeffluentscontainingresidualcyanide,metalsandnitrogenspecies[J].EnvironmentalScienceProcesses&Impacts,2013,15(11):2115-2124.
[54]钱玲.金矿尾砂重金属淋溶释放特征及基质改良——生物联合修复研究[D].北京:北京科技大学,2023.
[55]朱秋华,谢桂芳,蓝晓聪,等.福建紫金山高硫型铜金矿采矿境界面生态修复技术研究[J].矿产勘查,2024,15(1):141-149.
[56]敖子强,张杰,桂双林,等.赣西北土龙山金矿废弃地土壤污染及生态修复[J].矿业研究与开发,2015,35(12):93-96.
[57]徐建宏.关于“绿色矿山规划”有关问题的探讨——兼谈浙江遂昌金矿转型绿色发展的规划实践[J].世界有色金属,2021(7):137-138.
[58]魏恋欢,封秋月,毛亚纯,等.基于多轨道SBAS方法的露天矿高陡边坡形变监测[J].东北大学学报(自然科学版),2020,41(10):1445-1451.
[59]马民,李明明.红外成像技术在煤矿中的应用[J].陕西煤炭,2009,28(5):103-105.
[60]冯小刚,沈立华,李喜龙,等.无人机巡检技术在某地浸铀矿山的研究与应用[J].铀矿冶,2024,43(3):113-119.
