浅水富营养化湖泊水体磷吸附及固定研究进展
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摘要
长江中下游地区是淡水湖泊集中的区域,这些湖泊与其所在地区的经济,文化和人民生活关系密切。近年来,随着经济发展,湖泊水体受生产生活用水污染,氯磷等营养元素大量输入,藻类过度繁殖,造成水体的富营养化和湖泊生态退化。本文列举了近年来国内外的一些关于湖泊磷元素吸附及固定的研究,结合影响磷元素吸附和解吸附的各种因素进行分析总结,为今后湖泊富营养化治理提供依据。
Middle-Lower Yangtze Area is the region where shallow freshwater lake concentrated;the lakes are close contact with the regional economic and cultural development.With the development of economy and production activities,massive phosphorus rich industrial and domestic sewage was poured into the lake,brought out the water eutrophication and algal bloom.Research on Phosphorus adsorption and fixation together with its influencing factors were introduced and discussed in this paper,in order to summarize the scientific basis for the eutrophication control of the shallow Lake.
Middle-Lower Yangtze Area is the region where shallow freshwater lake concentrated;the lakes are close contact with the regional economic and cultural development.With the development of economy and production activities,massive phosphorus rich industrial and domestic sewage was poured into the lake,brought out the water eutrophication and algal bloom.Research on Phosphorus adsorption and fixation together with its influencing factors were introduced and discussed in this paper,in order to summarize the scientific basis for the eutrophication control of the shallow Lake.
引文
[1]秦伯强.长江中下游浅水湖泊富营养化发生机制与控制途径初探[J].湖泊科学,2002,14(03):193-194.
[2]陈刚.浅水湖泊底泥与上覆水间磷迁移规律的研究[J].环境研究与监测,2006,19(3):17-19.
[3]黎颖治,夏北成.影响湖泊沉积物-水界面磷交换的重要环境因子分析[J].土壤通报,2007,38(1):162-164.
[4]邵兴华,张建忠,洪森荣,等.土壤中影响磷吸附因素研究进展[J].安徽农业科学,2007,35(12):360-361.
[5]Jugsujinda A,Krairapanona A,Patrick JR W H.Influence of extractable iron,aluminum,and manganese of P sorption in flooded acid sulfate soils[J].Biol.Fertil.Soil.,1995,20:118-124.
[6]王圣瑞,金相灿,赵海超,等.长江中下游浅水湖泊沉积物对磷的吸附特征[J].环境科学,2005,26(3):40-41.
[7]Holford I C R.The high and low energy phosphate adsorbing surface in calcareous soils[J].J Soil Sci,1975,26:407-412.
[8]Appelt H,Coleman N T,Pratt P F.Interactions between organic compounds,minerals,and ions in volcanic-Ash-derived soils:Ⅰ.Adsorption of benzoate:p-OH benzoate,salicylate,and phthalate ions[J].Soil Sci Soc AmProc,1975,39(4):623-627.
[9]赵晓齐,鲁如坤.有机肥对土壤磷素吸附的影响[J].土壤学报,1991,28(1):7-13.
[10]Katarina B R,Erasmus O,Elisabetta B.Phosphorus sorption in relation to soil properties in some cultivated Swedish soils[J].Nutrient Cycling inAgroecosystems,2001,59:39-46.
[11]Submaniam V,Singh B R.Phosphorus supplying capacity of heavily fertilized soils.I.Phosphorus adsorption characteristics and phosphorus fractionation[J].Nutr Cycl Agroecosys,1997,47:115-122.
[12]Borggaard O K,Jorgenaen S S,Moberg J P,et al.Influence of organic matter on phosphate adsorption by aluminium and iron oxides in sandy soils[J].J Soil Sci,1990,41:443-449.
[13]Fox T,Somerford N,Mcfee W.Phosphorus and aluminum release from a spodic horizon mediated by organic acids[J].Soil Sci Soc Am J,1990,54:1763-1767.
[14]Bolan N S,Elliot J,Gregg P E H,et al.Enhanced dissolution of phosphate rocks in the rhizosphere[J].Biology and Fertility of Soils,1997,24:169-174.
[15]Bolan N S,Naidu R,Mahimairaja S,et al.Influence of low-molecular-weight organic acids on the solubilization of phosphates[J].Biology and Fertility of Soils,1994,18:311-319.
[16]陆健健,何文珊,童富春,等.湿地生态学[M].北京:高等教育出版社,2006:127-128.
[17]Bertrand I,Holloway R E,Armstrong R D,et al.Chemical characteristics of phosphorus in alkaline soils from southern Australia[J].AustralianJournal of Soil Research,2003,41:61-76.
[18]Samadi A,Gilkes R R.Phosphorus transformations and their relationships with calcareous soil properties of southern Western Australia[J].Soil Society of America Journal,1998,63:809-815.
[19]袁宪正,潘纲,田秉晖,等.氯化镧改性黏土固化湖泊底泥中磷的研究[J].环境科学,2007,28(02):403-406.
[20]Wasay S A,Haron M D,Tokunage S.Adsorption of fluoride,phosphate and arsenate ions on lanthanum impregnated silica gel[J].Water Environmental Research,1996,68(3):295-300.
[21]Anderson MA,Rubin AJ著,张正斌,刘莲生译.水溶液吸附化学[M].北京:科学出版社,1989.
[22]丁文明,黄霞,张力平.水合氧化镧吸附除磷的试验研究[J].环境科学,2003,24(5):110-113.
[23]吴平霄.黏土矿物材料与环境修复[M].北京:化学工业出版社,2004.
[24]毛成责,余雪芳,廖丹,等氯化镧对西湖底泥磷缓释及磷固定作用研究[J].杭州师范大学学报:自然科学版,2009,8(1):51-55.
[25]杜冬云,柯丁宁,赵小蓉,等.改性累托石对磷的吸附[J].非金属矿,2003,26(5):51-53.
[26]林建伟,朱志良,赵建夫,等.HCl改性沸石和方解石复合覆盖层控制底泥氮磷释放的效果及机理研究[J].环境科学,2007,28(3):553-555.
[27]张喜勤,徐锐贤,许金玉,等.水溞净化富营养化湖水试验研究[J].水资源保护,1998,24(4):32-36.
[28]罗虹.沉水植物、挺水植物、滤食性动物对富营养化淡水生态系统的修复效果研究[D].上海:华东师范大学,2009.
[29]宋玉芝,杨美玖,秦伯强.苦草对富营养化水体中氮磷营养盐的生理响应[J].环境科学,2011,32(9):2567-2575.
[30]任文君,胡晓波,刘霞,等.白洋淀菹草对富营养化水体总磷的净化[J].应用生态学报,2011,22(4):1053-1058.
[31]杨文斌,王国祥.南京玄武湖菹草种群的环境效应[J].湖泊科学,2007,19(5):572-576.
[32]高华梅,谷孝鸿,曾庆飞,等.不同基质下菹草的生长及其对水体营养盐的吸收[J]湖泊科学,2010,22(5):655-659.
[33]卢少勇,陈建军,覃进,等.扰动强度对菹草浸泡过程中氮磷碳释放的影响[J].环境科学,2011,32(7):1940-1944.
[34]王锦旗,郑有飞,王国祥.玄武湖菹草种群的发生原因及人工收割对水环境的影响[J].水生生物学报,2013,37(2):300-305.
[35]吴强亮.沉水植物苦草对水环境中磷的影响[D].武汉:华中农业大学,2013.
[36]王圣瑞,金相灿,赵海超,等.沉水植物黑藻对沉积物磷吸附动力学的影响[J].地球化学,2006,35(6):648-650.
[37]徐敏,程凯,孟博,等.环境因子对衣藻水华消长影响的初步研究[J].华中师范大学学报:自然科学版,2001,35(3):322-325.
[38]周易勇,李建秋,张敏.湿地中碱性磷酸酶的动力学特征与水生植物的关系[J].湖泊科学,2002,14(2):134-138.
[39]崔晨.小型围隔下不同水生植物对水体氮磷及重金属净化能力的研究[D].武汉:华中农业大学,2013.
[40]邓然,卜俊超,蔡雄彬.5种水生植物在低浓度污水中氮、磷固定能力比较研究[J].绿色科技,2012(6):97-101.
[41]胡洪营,门玉洁,李锋民.植物化感作用抑制藻类生长的研究进展[J].生态环境,2006,15(1):153-157.
[42]李江,刘云国,曾光明,等.荸荠对铜绿微囊藻的化感抑制作用研究[J].中国环境科学,2015,35(5):1474-1479.
[43]姚东方.长江口芦苇生态浮床对浮游生物及鱼类群落结构的影响[D].上海:上海海洋大学,2014.
[2]陈刚.浅水湖泊底泥与上覆水间磷迁移规律的研究[J].环境研究与监测,2006,19(3):17-19.
[3]黎颖治,夏北成.影响湖泊沉积物-水界面磷交换的重要环境因子分析[J].土壤通报,2007,38(1):162-164.
[4]邵兴华,张建忠,洪森荣,等.土壤中影响磷吸附因素研究进展[J].安徽农业科学,2007,35(12):360-361.
[5]Jugsujinda A,Krairapanona A,Patrick JR W H.Influence of extractable iron,aluminum,and manganese of P sorption in flooded acid sulfate soils[J].Biol.Fertil.Soil.,1995,20:118-124.
[6]王圣瑞,金相灿,赵海超,等.长江中下游浅水湖泊沉积物对磷的吸附特征[J].环境科学,2005,26(3):40-41.
[7]Holford I C R.The high and low energy phosphate adsorbing surface in calcareous soils[J].J Soil Sci,1975,26:407-412.
[8]Appelt H,Coleman N T,Pratt P F.Interactions between organic compounds,minerals,and ions in volcanic-Ash-derived soils:Ⅰ.Adsorption of benzoate:p-OH benzoate,salicylate,and phthalate ions[J].Soil Sci Soc AmProc,1975,39(4):623-627.
[9]赵晓齐,鲁如坤.有机肥对土壤磷素吸附的影响[J].土壤学报,1991,28(1):7-13.
[10]Katarina B R,Erasmus O,Elisabetta B.Phosphorus sorption in relation to soil properties in some cultivated Swedish soils[J].Nutrient Cycling inAgroecosystems,2001,59:39-46.
[11]Submaniam V,Singh B R.Phosphorus supplying capacity of heavily fertilized soils.I.Phosphorus adsorption characteristics and phosphorus fractionation[J].Nutr Cycl Agroecosys,1997,47:115-122.
[12]Borggaard O K,Jorgenaen S S,Moberg J P,et al.Influence of organic matter on phosphate adsorption by aluminium and iron oxides in sandy soils[J].J Soil Sci,1990,41:443-449.
[13]Fox T,Somerford N,Mcfee W.Phosphorus and aluminum release from a spodic horizon mediated by organic acids[J].Soil Sci Soc Am J,1990,54:1763-1767.
[14]Bolan N S,Elliot J,Gregg P E H,et al.Enhanced dissolution of phosphate rocks in the rhizosphere[J].Biology and Fertility of Soils,1997,24:169-174.
[15]Bolan N S,Naidu R,Mahimairaja S,et al.Influence of low-molecular-weight organic acids on the solubilization of phosphates[J].Biology and Fertility of Soils,1994,18:311-319.
[16]陆健健,何文珊,童富春,等.湿地生态学[M].北京:高等教育出版社,2006:127-128.
[17]Bertrand I,Holloway R E,Armstrong R D,et al.Chemical characteristics of phosphorus in alkaline soils from southern Australia[J].AustralianJournal of Soil Research,2003,41:61-76.
[18]Samadi A,Gilkes R R.Phosphorus transformations and their relationships with calcareous soil properties of southern Western Australia[J].Soil Society of America Journal,1998,63:809-815.
[19]袁宪正,潘纲,田秉晖,等.氯化镧改性黏土固化湖泊底泥中磷的研究[J].环境科学,2007,28(02):403-406.
[20]Wasay S A,Haron M D,Tokunage S.Adsorption of fluoride,phosphate and arsenate ions on lanthanum impregnated silica gel[J].Water Environmental Research,1996,68(3):295-300.
[21]Anderson MA,Rubin AJ著,张正斌,刘莲生译.水溶液吸附化学[M].北京:科学出版社,1989.
[22]丁文明,黄霞,张力平.水合氧化镧吸附除磷的试验研究[J].环境科学,2003,24(5):110-113.
[23]吴平霄.黏土矿物材料与环境修复[M].北京:化学工业出版社,2004.
[24]毛成责,余雪芳,廖丹,等氯化镧对西湖底泥磷缓释及磷固定作用研究[J].杭州师范大学学报:自然科学版,2009,8(1):51-55.
[25]杜冬云,柯丁宁,赵小蓉,等.改性累托石对磷的吸附[J].非金属矿,2003,26(5):51-53.
[26]林建伟,朱志良,赵建夫,等.HCl改性沸石和方解石复合覆盖层控制底泥氮磷释放的效果及机理研究[J].环境科学,2007,28(3):553-555.
[27]张喜勤,徐锐贤,许金玉,等.水溞净化富营养化湖水试验研究[J].水资源保护,1998,24(4):32-36.
[28]罗虹.沉水植物、挺水植物、滤食性动物对富营养化淡水生态系统的修复效果研究[D].上海:华东师范大学,2009.
[29]宋玉芝,杨美玖,秦伯强.苦草对富营养化水体中氮磷营养盐的生理响应[J].环境科学,2011,32(9):2567-2575.
[30]任文君,胡晓波,刘霞,等.白洋淀菹草对富营养化水体总磷的净化[J].应用生态学报,2011,22(4):1053-1058.
[31]杨文斌,王国祥.南京玄武湖菹草种群的环境效应[J].湖泊科学,2007,19(5):572-576.
[32]高华梅,谷孝鸿,曾庆飞,等.不同基质下菹草的生长及其对水体营养盐的吸收[J]湖泊科学,2010,22(5):655-659.
[33]卢少勇,陈建军,覃进,等.扰动强度对菹草浸泡过程中氮磷碳释放的影响[J].环境科学,2011,32(7):1940-1944.
[34]王锦旗,郑有飞,王国祥.玄武湖菹草种群的发生原因及人工收割对水环境的影响[J].水生生物学报,2013,37(2):300-305.
[35]吴强亮.沉水植物苦草对水环境中磷的影响[D].武汉:华中农业大学,2013.
[36]王圣瑞,金相灿,赵海超,等.沉水植物黑藻对沉积物磷吸附动力学的影响[J].地球化学,2006,35(6):648-650.
[37]徐敏,程凯,孟博,等.环境因子对衣藻水华消长影响的初步研究[J].华中师范大学学报:自然科学版,2001,35(3):322-325.
[38]周易勇,李建秋,张敏.湿地中碱性磷酸酶的动力学特征与水生植物的关系[J].湖泊科学,2002,14(2):134-138.
[39]崔晨.小型围隔下不同水生植物对水体氮磷及重金属净化能力的研究[D].武汉:华中农业大学,2013.
[40]邓然,卜俊超,蔡雄彬.5种水生植物在低浓度污水中氮、磷固定能力比较研究[J].绿色科技,2012(6):97-101.
[41]胡洪营,门玉洁,李锋民.植物化感作用抑制藻类生长的研究进展[J].生态环境,2006,15(1):153-157.
[42]李江,刘云国,曾光明,等.荸荠对铜绿微囊藻的化感抑制作用研究[J].中国环境科学,2015,35(5):1474-1479.
[43]姚东方.长江口芦苇生态浮床对浮游生物及鱼类群落结构的影响[D].上海:上海海洋大学,2014.