有机铜在动物生产中的研究进展
|
摘要
微量元素是动物机体内必需的营养元素,在维持动物机体正常代谢过程中起着重要的作用。目前饲料中主要添加的是无机微量元素,高剂量、利用率低、粪便排泄高,严重污染环境,因此,探究吸收率高,排放低的有机铜具有重要意义。文章通过分析不同形式的有机铜在动物生产的应用,对有机铜在动物生产中的研究进展进行综述。
Trace elements were essential nutrients in animal body and played an important role in maintaining normal metabolism of animal body. At present, inorganic trace elements were mainly added to feed, which were high dosage, low utilization rate, high excretion of feces, and seriously pollute the environment. Therefore, it was of great significance to explore the organic copper with high absorption rate and low emission. This paper reviewed the research progress of organic copper in animal production by analyzing the application of different forms of organic copper in animal production.
Trace elements were essential nutrients in animal body and played an important role in maintaining normal metabolism of animal body. At present, inorganic trace elements were mainly added to feed, which were high dosage, low utilization rate, high excretion of feces, and seriously pollute the environment. Therefore, it was of great significance to explore the organic copper with high absorption rate and low emission. This paper reviewed the research progress of organic copper in animal production by analyzing the application of different forms of organic copper in animal production.
引文
[1]Ma Y L,Zanton G I,Zhao J,et al.Multitrial analysis of the effects of copper level and sourceon performance in nursery pigs[J].Journal of Animal Science,2015,93(2):606.
[2]Hill G M,Cromwell G L,Crenshaw T D,et al.Growth promotion effects and plasma changes from feeding high dietary concentrations of zinc and copper to weanling pigs(regional study)[J].Journal of Animal Science,2000,78(4):1 010.
[3]李永义,陈代文,张克英,等.饲粮中高铜停用的时间及停用后添加VE对猪生长性能和猪肉品质的影响[J].四川农业大学学报,2002,20(1):40-45.
[4]Guo Y,Liu B,Xiong P,et al.415 Effect of Cu provided as bioplex?Cu or TBCC for weaned pigs:Growth performance,tissue mineral retention,and fecal mineral excretion[J].Journal of Animal Science,2017,95(4):204.
[5]Yue X,Hu L,Fu X,et al.Dietary chitosan-Cu chelate affects growth performance and small intestinal morphology and apoptosis in weaned piglets[J].Czech Journal of Animal Science,2017,62(1):15-21.
[6]Lim H S,Paik I K,Sohn T I,et al.Effects of supplementary copper chelates in the form of methionine,chitosan and yeast on the performance of broilers[J].Asian Australasian Journal of Animal Sciences,2006,19(19):1 322-1 327.
[7]Fomchenko N V,Murav’Ev M I.Obtaining of copper and nickel from metallurgical waste products with the use of acidophilic chemolithotrophic microorganisms[J].Applied Biochemistry&Microbiology,2015,51(4):371-376.
[8]Gordon M E,Edwards M S,Sweeney C R,et al.Effects of added chelated trace minerals,organic selenium,yeast culture,directfed microbials,and Yucca schidigera extract in horses:II.Nutrient excretion and potential environmental impact[J].Journal of Animal Science,2013,91(8):3 909-3 916.
[9]王希春,吴金节.高剂量铜对仔猪的促生长作用及其机理[J].动物医学进展,2004,25(6):62-64.
[10]程忠刚,许梓荣,林映才,等.高剂量铜对仔猪生长性能及血液生化指标的影响[J].动物营养学报,2004,16(4):44-46.
[11]梅绍锋,余冰,鞠翠芳,等.高锌和高铜对断奶仔猪生产性能、消化生理和盲肠微生物数量的影响[J].动物营养学报,2009,21(6):903-909.
[12]陈代文,李永义,张克英,等.饲粮添加高铜和VE对猪生长性能和猪肉品质的影响[J].四川农业大学学报,2002,20(1):23-28.
[13]Cromwell G L,Monegue H J,Stahly T S.Long-term effects of feeding a high copper diet to sows during gestation and lactation[J].Journal of Animal Science,1993,71(11):2 996.
[14]Jondreville C,Revy P S,Dourmad J Y.Dietary means to better control the environmental impact of copper and zinc by pigs from weaning to slaughter[J].Livestock Production Science,2003,84(2):147-156.
[15]Berenguer P,Cela S,Santiveri F,et al.Copper and Zinc Soil Accumulation and Plant Concentration in Irrigated Maize Fertilized with Liquid Swine Manure[J].Agronomy Journal,2008,100(4):1 056-1 061.
[16]于童童,兰淑芬,单存松.山东育肥猪配合饲料中铜含量的调查报告[J].中国畜禽种业,2012,8(8):80.
[17]Liu X,Li H,Ma L.Application status and development progress of trace elements additives in feed[J].Feed Industry,2013(19):28-31.
[18]Halim M,Conte P,Piccolo A.Potential availability of heavy metals to phytoextraction from contaminated soils induced by exogenous humic substances[J].Chemosphere,2003,52(1):265-275.
[19]刘翠艳,左龙.铜对现代生猪养殖双刃剑之优和忧[J].家畜生态学报,2016,37(11):84-86.
[20]高凤仙,杨仁斌,田科雄,等.不同铜浓度的猪粪对玉米光合特性的影响[J].农业环境科学学报,2008,27(3):1 033-1 037.
[21]高凤仙,常嵩华,田科雄,等.不同铜浓度的猪粪对玉米叶片蛋白质和氨基酸含量的影响[J].湖南农业大学学报(自科版),2007,33(6):760-764.
[22]Guo R,Henry P R,Holwerda R A,et al.Chemical characteristics and relative bioavailability of supplemental organic copper sources for poultry[J].Journal of Animal Science,2001,79(5):1 132-1 141.
[23]Manceau A,Matynia A.The nature of Cu bonding to natural organic matter[J].Geochimica Et Cosmochimica Acta,2010,74(9):2 556-2 580.
[24]Dendougui F,Schwedt G.Use of an ion selective electrode to determine the complexing of copper in food extracts dependent upon the pH[J].European Food Research&Technology,2002,215(1):76-82.
[25]Gao S,Yin T,Xu B,et al.Amino acid facilitates absorption of copper in the Caco-2 cell culture model[J].Life Sciences,2014,109(1):50-56.
[26]Liu B,Xiong P,Chen N,et al.Effects of replacing of inorganic trace minerals by organically bound trace minerals on growth performance,tissue mineral status,and fecal mineral excretion in commercial grower-finisher pigs[J].Biological Trace Element Research,2016,173(2):316-324.
[27]Gonzales-Eguia A,Fu C M,Lu F Y,et al.Effects of nanocopper on copper availability and nutrients digestibility,growth performance and serum traits of piglets[J].Livestock Science,2009,126(1-3):122-129.
[28]Liao P,Li M,Li Y,et al.Effects of dietary supplementation with cupreous N-carbamylglutamate(NCG)chelate and copper sulfate on growth performance,serum biochemical profile and immune response,tissue mineral levels and fecal excretion of mineral in weaning piglets[J].Food&Agricultural Immunology,2017(11):1-15.
[29]郝贵增,靳玉芬,田萍,等.蛋氨酸铜对仔猪的生长性能及血清生化指标的影响[J].中国兽医学报,2009,29(3):346-349.
[30]赵驻军,李建涛,李江涛,等.甘氨酸铜对仔猪生产性能及相关理化指标的影响[J].饲料研究,2012(4):11-13.
[31]殷晓风,丁瑞志,顾欣,等.不同铜源对仔猪生长发育和粪便铜含量的影响[J].畜牧与兽医,2016,48(7):47-50.
[32]Saeid A,Chojnacka K,Korczyński M,et al.Effect on supplementation of Spirulina maxima enriched with Cu on production performance,metabolical and physiological parameters in fattening pigs[J].Journal of Applied Phycology,2013,25(5):1 607-1 617.
[33]Coble K F,Derouchey J M,Tokach M D,et al.The effects of copper source and concentration on growth performance,carcass characteristics,and pen cleanliness in finishing pigs[J].Journal of Animal Science,2017,95(9):4 052.
[34]Zhao J,Allee G,Gerlemann G,et al.Effects of a chelated copper as growth promoter on performance and carcass traits in pigs[J].Asian-Australas J Anim Sci,2014,27(7):965-973.
[35]李少华,余思佳,罗振,等.小肽螯合铜、锌对生长肥育猪生产性能、生化指标和粪便铜锌含量的影响[J].黑龙江畜牧兽医,2017(11):10-14.
[36]Li Q,Luo X,Liu B,et al.The effect of dietary copper as copperglycin on blood physiological and biochemical traits and tissue copper contents of weanling pigs[J].Chinese Journal of Animal&Veterinary Sciences,2004,35(1):23-27.
[37]Zhou W,Kornegay E T,Lindemann M D,et al.Stimulation of growth by intravenous injection of copper in weanling pigs[J].Journal of Animal Science,2014,72(9):2 395-2 403.
[38]Jacela J Y,Derouchey J M,Tokach M D,et al.Feed additives for swine:fact sheets-acidifiers and antibiotics[J].Journal of Swine Health&Production,2009,17(5):270-275.
[39]S?rensen M T,Vestergaard E M,Jensen S K,et al.Performance and diarrhoea in piglets following weaning at seven weeks of age:challenge with E.coli O 149 and effect of dietary factors[J].Livestock Science,2009,123(2):314-321.
[40]Du W L,Xu Y L,Xu Z R,et al.Preparation,characterization and antibacterial properties against E.coli K(88)of chitosan nanoparticle loaded copperions[J].Nanotechnology,2008,19(8):3 155-3 156.
[41]朱叶萌,谢正军,李云涛,等.壳聚糖铜对断奶仔猪生产性能、肠道菌群及黏膜形态的影响[J].中国农业科学,2011,44(2):387-394.
[42]王敏奇,叶珊珊,杜勇杰,等.载铜纳米壳聚糖对断奶仔猪生长性能、免疫和抗氧化指标的影响[J].动物营养学报,2011,23(10):1 806-1 811.
[43]Yan J,Zhang C,Tang L,et al.Effect of dietary copper sources and concentrations on serum lysozyme concentration and protegrin-1 gene expression in weaning piglets[J].Italian Journal of Animal Science,2015,14(3):3 709-3 712.
[44]周丽华.蛋白螯合铜、锌对生长肥育猪免疫性能的影响[D].南京:南京农业大学,2009.
[45]高原,刘国文,冯海华,等.高剂量铜对断乳仔猪血液激素和生长因子水平的影响[J].中国兽医科学,2002,32(5):27-30.
[46]王敏奇,叶珊珊,杜勇杰,等.载铜纳米壳聚糖对断奶仔猪生长性能、免疫和抗氧化指标的影响[J].动物营养学报,2011,23(10):1 806-1 811.
[47]Peng C,Yan J,Dong B,et al.Effects of graded levels of cupric citrate on growth performance,antioxidant status,serum lipid metabolites and immunity,and tissue residues of trace elements in weaned pigs[J].Asian-Australas J Anim Sci,2016,30(4):538.
[48]余姮,颜培实.蛋白螯合铜对生长肥育猪抗氧化性能的影响[J].江苏农业科学,2010(5):288-291.
[49]Espinosa C D,Fry R S,Usry J L,et al.Copper hydroxychloride improves growth performance and reduces diarrhea frequency of weanling pigs fed a corn-soybean meal diet but does not change apparent total tract digestibility of energy and acid hydrolyzed ether extract[J].Journal of Animal Science,2017,95(12):5 447.
[50]冯定远.多元螯合与多重螯合微量元素的理论及其在饲料业中的应用[J].动物营养学报,2014,26(10):2 956-2 963.
[51]Fomchenko N V,Murav’Ev M I.Obtaining of copper and nickel from metallurgical waste products with the use of acidophilic chemolithotrophic microorganisms[J].Applied Biochemistry&Microbiology,2015,51(4):371-376.
[52]徐云,鲁旭阳,申旭红.重金属污染对土壤微生物影响的研究进展[J].湖北农业科学,2008,47(12):1 506-1 508.
[53]薛高尚,胡丽娟,田云,等.微生物修复技术在重金属污染治理中的研究进展[J].中国农学通报,2012,28(11):266-271.
[54]Diels L,Lelie N V D,Bastiaens L.New development in treatment of heavy metal contaminated soils[J].Reviews in Environmental Science&Bio/technology,2002,1(1):75-82.
[55]Kalinowski B E,Liermann L J,Brantley S L,et al.X-ray photoelectron evidence for bacteria-enhanced dissolution of hornblende[J].Geochimica Et Cosmochimica Acta,2000,64(8):1 331-1 343.
[56]王海鸥,支蕊,王立曼,等.一株耐铜不动杆菌USTB-F的富集特性[J].环境化学,2011,30(4):832-837.
[57]Fang D,Wang F,Shan H,et al.Bio-precipitation of heavy metals from a synthetic acidic wastewater by sulfate-reducing bacteria in a bench scale continuous-flow stirred tank reactor[J].Ecology&Environmental Sciences,2010,19(3):562-565.
[58]林海,朱亦珺,董颖博,等.一株耐酸耐铜细菌的选育及其吸附铜离子的特性[J].环境化学,2013,32(4):599-604.
[59]罗鹏林,张然然,师莉升,等.黑曲霉菌株TLSF2对水中Cu、Cd的吸附机理探讨[J].湖北农业科学,2017,56(13):2 429-2 433.
[60]Zhan Y W,Jing Z,Ting T S,et al.Screening of iron-and zincenriched yeast strain and optimization of cultivation conditions[J].Preparative Biochemistry&Biotechnology,2011,41(3):278-286.
[61]?illerová,S,LavováB,UrminskáD,et al.Copper enriched yeast Saccharomyces cerevisiae as a potential supplement in nutrition[J].Journal of Microbiology Biotechnology&Food Sciences,2012,1:696-702.
[62]孙会,封伟杰,张永发,等.酵母铜对仔猪生长性能及抗氧化作用的影响[J].中国畜牧杂志,2007,43(15):33-35.
[63]王艳青,陈喜斌,刘英丽,等.酵母铜和硫酸铜对肉仔鸡组织中微量元素沉积的影响[J].中国粮油学报,2005,20(6):117-120.
[2]Hill G M,Cromwell G L,Crenshaw T D,et al.Growth promotion effects and plasma changes from feeding high dietary concentrations of zinc and copper to weanling pigs(regional study)[J].Journal of Animal Science,2000,78(4):1 010.
[3]李永义,陈代文,张克英,等.饲粮中高铜停用的时间及停用后添加VE对猪生长性能和猪肉品质的影响[J].四川农业大学学报,2002,20(1):40-45.
[4]Guo Y,Liu B,Xiong P,et al.415 Effect of Cu provided as bioplex?Cu or TBCC for weaned pigs:Growth performance,tissue mineral retention,and fecal mineral excretion[J].Journal of Animal Science,2017,95(4):204.
[5]Yue X,Hu L,Fu X,et al.Dietary chitosan-Cu chelate affects growth performance and small intestinal morphology and apoptosis in weaned piglets[J].Czech Journal of Animal Science,2017,62(1):15-21.
[6]Lim H S,Paik I K,Sohn T I,et al.Effects of supplementary copper chelates in the form of methionine,chitosan and yeast on the performance of broilers[J].Asian Australasian Journal of Animal Sciences,2006,19(19):1 322-1 327.
[7]Fomchenko N V,Murav’Ev M I.Obtaining of copper and nickel from metallurgical waste products with the use of acidophilic chemolithotrophic microorganisms[J].Applied Biochemistry&Microbiology,2015,51(4):371-376.
[8]Gordon M E,Edwards M S,Sweeney C R,et al.Effects of added chelated trace minerals,organic selenium,yeast culture,directfed microbials,and Yucca schidigera extract in horses:II.Nutrient excretion and potential environmental impact[J].Journal of Animal Science,2013,91(8):3 909-3 916.
[9]王希春,吴金节.高剂量铜对仔猪的促生长作用及其机理[J].动物医学进展,2004,25(6):62-64.
[10]程忠刚,许梓荣,林映才,等.高剂量铜对仔猪生长性能及血液生化指标的影响[J].动物营养学报,2004,16(4):44-46.
[11]梅绍锋,余冰,鞠翠芳,等.高锌和高铜对断奶仔猪生产性能、消化生理和盲肠微生物数量的影响[J].动物营养学报,2009,21(6):903-909.
[12]陈代文,李永义,张克英,等.饲粮添加高铜和VE对猪生长性能和猪肉品质的影响[J].四川农业大学学报,2002,20(1):23-28.
[13]Cromwell G L,Monegue H J,Stahly T S.Long-term effects of feeding a high copper diet to sows during gestation and lactation[J].Journal of Animal Science,1993,71(11):2 996.
[14]Jondreville C,Revy P S,Dourmad J Y.Dietary means to better control the environmental impact of copper and zinc by pigs from weaning to slaughter[J].Livestock Production Science,2003,84(2):147-156.
[15]Berenguer P,Cela S,Santiveri F,et al.Copper and Zinc Soil Accumulation and Plant Concentration in Irrigated Maize Fertilized with Liquid Swine Manure[J].Agronomy Journal,2008,100(4):1 056-1 061.
[16]于童童,兰淑芬,单存松.山东育肥猪配合饲料中铜含量的调查报告[J].中国畜禽种业,2012,8(8):80.
[17]Liu X,Li H,Ma L.Application status and development progress of trace elements additives in feed[J].Feed Industry,2013(19):28-31.
[18]Halim M,Conte P,Piccolo A.Potential availability of heavy metals to phytoextraction from contaminated soils induced by exogenous humic substances[J].Chemosphere,2003,52(1):265-275.
[19]刘翠艳,左龙.铜对现代生猪养殖双刃剑之优和忧[J].家畜生态学报,2016,37(11):84-86.
[20]高凤仙,杨仁斌,田科雄,等.不同铜浓度的猪粪对玉米光合特性的影响[J].农业环境科学学报,2008,27(3):1 033-1 037.
[21]高凤仙,常嵩华,田科雄,等.不同铜浓度的猪粪对玉米叶片蛋白质和氨基酸含量的影响[J].湖南农业大学学报(自科版),2007,33(6):760-764.
[22]Guo R,Henry P R,Holwerda R A,et al.Chemical characteristics and relative bioavailability of supplemental organic copper sources for poultry[J].Journal of Animal Science,2001,79(5):1 132-1 141.
[23]Manceau A,Matynia A.The nature of Cu bonding to natural organic matter[J].Geochimica Et Cosmochimica Acta,2010,74(9):2 556-2 580.
[24]Dendougui F,Schwedt G.Use of an ion selective electrode to determine the complexing of copper in food extracts dependent upon the pH[J].European Food Research&Technology,2002,215(1):76-82.
[25]Gao S,Yin T,Xu B,et al.Amino acid facilitates absorption of copper in the Caco-2 cell culture model[J].Life Sciences,2014,109(1):50-56.
[26]Liu B,Xiong P,Chen N,et al.Effects of replacing of inorganic trace minerals by organically bound trace minerals on growth performance,tissue mineral status,and fecal mineral excretion in commercial grower-finisher pigs[J].Biological Trace Element Research,2016,173(2):316-324.
[27]Gonzales-Eguia A,Fu C M,Lu F Y,et al.Effects of nanocopper on copper availability and nutrients digestibility,growth performance and serum traits of piglets[J].Livestock Science,2009,126(1-3):122-129.
[28]Liao P,Li M,Li Y,et al.Effects of dietary supplementation with cupreous N-carbamylglutamate(NCG)chelate and copper sulfate on growth performance,serum biochemical profile and immune response,tissue mineral levels and fecal excretion of mineral in weaning piglets[J].Food&Agricultural Immunology,2017(11):1-15.
[29]郝贵增,靳玉芬,田萍,等.蛋氨酸铜对仔猪的生长性能及血清生化指标的影响[J].中国兽医学报,2009,29(3):346-349.
[30]赵驻军,李建涛,李江涛,等.甘氨酸铜对仔猪生产性能及相关理化指标的影响[J].饲料研究,2012(4):11-13.
[31]殷晓风,丁瑞志,顾欣,等.不同铜源对仔猪生长发育和粪便铜含量的影响[J].畜牧与兽医,2016,48(7):47-50.
[32]Saeid A,Chojnacka K,Korczyński M,et al.Effect on supplementation of Spirulina maxima enriched with Cu on production performance,metabolical and physiological parameters in fattening pigs[J].Journal of Applied Phycology,2013,25(5):1 607-1 617.
[33]Coble K F,Derouchey J M,Tokach M D,et al.The effects of copper source and concentration on growth performance,carcass characteristics,and pen cleanliness in finishing pigs[J].Journal of Animal Science,2017,95(9):4 052.
[34]Zhao J,Allee G,Gerlemann G,et al.Effects of a chelated copper as growth promoter on performance and carcass traits in pigs[J].Asian-Australas J Anim Sci,2014,27(7):965-973.
[35]李少华,余思佳,罗振,等.小肽螯合铜、锌对生长肥育猪生产性能、生化指标和粪便铜锌含量的影响[J].黑龙江畜牧兽医,2017(11):10-14.
[36]Li Q,Luo X,Liu B,et al.The effect of dietary copper as copperglycin on blood physiological and biochemical traits and tissue copper contents of weanling pigs[J].Chinese Journal of Animal&Veterinary Sciences,2004,35(1):23-27.
[37]Zhou W,Kornegay E T,Lindemann M D,et al.Stimulation of growth by intravenous injection of copper in weanling pigs[J].Journal of Animal Science,2014,72(9):2 395-2 403.
[38]Jacela J Y,Derouchey J M,Tokach M D,et al.Feed additives for swine:fact sheets-acidifiers and antibiotics[J].Journal of Swine Health&Production,2009,17(5):270-275.
[39]S?rensen M T,Vestergaard E M,Jensen S K,et al.Performance and diarrhoea in piglets following weaning at seven weeks of age:challenge with E.coli O 149 and effect of dietary factors[J].Livestock Science,2009,123(2):314-321.
[40]Du W L,Xu Y L,Xu Z R,et al.Preparation,characterization and antibacterial properties against E.coli K(88)of chitosan nanoparticle loaded copperions[J].Nanotechnology,2008,19(8):3 155-3 156.
[41]朱叶萌,谢正军,李云涛,等.壳聚糖铜对断奶仔猪生产性能、肠道菌群及黏膜形态的影响[J].中国农业科学,2011,44(2):387-394.
[42]王敏奇,叶珊珊,杜勇杰,等.载铜纳米壳聚糖对断奶仔猪生长性能、免疫和抗氧化指标的影响[J].动物营养学报,2011,23(10):1 806-1 811.
[43]Yan J,Zhang C,Tang L,et al.Effect of dietary copper sources and concentrations on serum lysozyme concentration and protegrin-1 gene expression in weaning piglets[J].Italian Journal of Animal Science,2015,14(3):3 709-3 712.
[44]周丽华.蛋白螯合铜、锌对生长肥育猪免疫性能的影响[D].南京:南京农业大学,2009.
[45]高原,刘国文,冯海华,等.高剂量铜对断乳仔猪血液激素和生长因子水平的影响[J].中国兽医科学,2002,32(5):27-30.
[46]王敏奇,叶珊珊,杜勇杰,等.载铜纳米壳聚糖对断奶仔猪生长性能、免疫和抗氧化指标的影响[J].动物营养学报,2011,23(10):1 806-1 811.
[47]Peng C,Yan J,Dong B,et al.Effects of graded levels of cupric citrate on growth performance,antioxidant status,serum lipid metabolites and immunity,and tissue residues of trace elements in weaned pigs[J].Asian-Australas J Anim Sci,2016,30(4):538.
[48]余姮,颜培实.蛋白螯合铜对生长肥育猪抗氧化性能的影响[J].江苏农业科学,2010(5):288-291.
[49]Espinosa C D,Fry R S,Usry J L,et al.Copper hydroxychloride improves growth performance and reduces diarrhea frequency of weanling pigs fed a corn-soybean meal diet but does not change apparent total tract digestibility of energy and acid hydrolyzed ether extract[J].Journal of Animal Science,2017,95(12):5 447.
[50]冯定远.多元螯合与多重螯合微量元素的理论及其在饲料业中的应用[J].动物营养学报,2014,26(10):2 956-2 963.
[51]Fomchenko N V,Murav’Ev M I.Obtaining of copper and nickel from metallurgical waste products with the use of acidophilic chemolithotrophic microorganisms[J].Applied Biochemistry&Microbiology,2015,51(4):371-376.
[52]徐云,鲁旭阳,申旭红.重金属污染对土壤微生物影响的研究进展[J].湖北农业科学,2008,47(12):1 506-1 508.
[53]薛高尚,胡丽娟,田云,等.微生物修复技术在重金属污染治理中的研究进展[J].中国农学通报,2012,28(11):266-271.
[54]Diels L,Lelie N V D,Bastiaens L.New development in treatment of heavy metal contaminated soils[J].Reviews in Environmental Science&Bio/technology,2002,1(1):75-82.
[55]Kalinowski B E,Liermann L J,Brantley S L,et al.X-ray photoelectron evidence for bacteria-enhanced dissolution of hornblende[J].Geochimica Et Cosmochimica Acta,2000,64(8):1 331-1 343.
[56]王海鸥,支蕊,王立曼,等.一株耐铜不动杆菌USTB-F的富集特性[J].环境化学,2011,30(4):832-837.
[57]Fang D,Wang F,Shan H,et al.Bio-precipitation of heavy metals from a synthetic acidic wastewater by sulfate-reducing bacteria in a bench scale continuous-flow stirred tank reactor[J].Ecology&Environmental Sciences,2010,19(3):562-565.
[58]林海,朱亦珺,董颖博,等.一株耐酸耐铜细菌的选育及其吸附铜离子的特性[J].环境化学,2013,32(4):599-604.
[59]罗鹏林,张然然,师莉升,等.黑曲霉菌株TLSF2对水中Cu、Cd的吸附机理探讨[J].湖北农业科学,2017,56(13):2 429-2 433.
[60]Zhan Y W,Jing Z,Ting T S,et al.Screening of iron-and zincenriched yeast strain and optimization of cultivation conditions[J].Preparative Biochemistry&Biotechnology,2011,41(3):278-286.
[61]?illerová,S,LavováB,UrminskáD,et al.Copper enriched yeast Saccharomyces cerevisiae as a potential supplement in nutrition[J].Journal of Microbiology Biotechnology&Food Sciences,2012,1:696-702.
[62]孙会,封伟杰,张永发,等.酵母铜对仔猪生长性能及抗氧化作用的影响[J].中国畜牧杂志,2007,43(15):33-35.
[63]王艳青,陈喜斌,刘英丽,等.酵母铜和硫酸铜对肉仔鸡组织中微量元素沉积的影响[J].中国粮油学报,2005,20(6):117-120.