Abstract:Two dominant benthic species in eutrophic lakes—Chironomus flaviplumus and Branchiura sowerbyi—were selected as representative benthos. Microcosm experiment was conducted to investigate the effect of bioturbation on the efficacy of endogenous P control by lanthanum modified bentonite(LMB). Moreover, La dissolution and its ecological risk were also assessed. Chironomus flaviplumus significantly increased the release of endogenous P in the overlying water in the absence of LMB, while this effect was negligible with branchiura sowerbyi; after the application of LMB, Chironomus flaviplumus and Branchiura sowerbyi both showed a negative inhibitory effect on the P control efficiency of LMB; the concentration of phosphate (PO43-) in the overlying water were 2.50 and 2.23 times higher than that in the control groups; during LMB application, bioturbation has significantly reduced the La concentration in the overlying water; however, La was found accumulated in benthic organisms.
姚婧梅, 谭秋君, 史思捷, 韩乐, 智悦. 生物扰动对镧系锁磷剂控磷效能的影响[J]. 中国环境科学, 2023, 43(7): 3696-3703.
YAO Jing-mei, TAN Qiu-jun, SHI Si-jie, HAN Le, ZHI Yue. Study on the effect of bioturbation on the efficacy of lanthanum modified bentonite for phosphorus control. CHINA ENVIRONMENTAL SCIENCECE, 2023, 43(7): 3696-3703.
孙亚敏,董曼玲,汪家权.内源污染对湖泊富营养化的作用及对策 [J]. 合肥工业大学学报(自然科学版), 2000,(2):210-213. Sun Y M, Dong M L, Wang J Q. Effects of internal pollution sources on the eutrophic lake and countermeasures [J]. Journal of Hefei University of Technology, 2000,(2):210-213.
[2]
李慧颖,晏 波,王文祥,等.黑臭水体治理技术研究进展 [J]. 环境保护与循环经济, 2018,38(10):30-35. Li H Y, Yan B, Wang W X, et al. Research progress of black and odorous water treatment technology [J]. Environmental Protection and Circular Economy, 2018,38(10):30-35.
[3]
杨 飞,杜 聪,张毅敏,等.城市黑臭河道的成因及其整治技术研究进展 [C]. 北京:中国环境科学出版社, 2017. Yang F, Du C, Zhang Y M, et al. Research progress on the cause of formation and regulation technology of urban black and odorous river [C]. Beijing:China Environmental Press, 2017.
[4]
孙宁宁,陈 蕾.底泥磷污染的修复方法研究进展 [J]. 应用化工, 2020,49(5):1284-1287. Sun N N, Chen L. Treatment method of phosphorus pollution in bottom sediment [J]. Applied Chemical Industry, 2020,49(5):1284-1287.
[5]
Chen H Y, Wang X, Pan Z X. Effect of operating conditions on the chemical composition, morphology, and nano-structure of particulate emissions in a light hydrocarbon premixed charge compression ignition (PCCI) engine [J]. Science of the Total Environment, 2021, 750:141716.
[6]
Zhi Y, Zhang C H, Hjorth R, et al. Emerging lanthanum (III)-containing materials for phosphate removal from water: A review towards future developments [J]. Environment International, 2020,145: 106115.
[7]
Copetti D, Finsterle K, Marziali, L, et al. Eutrophication management in surface waters using lanthanum modified bentonite: A review [J]. Water Research, 2016,97:162-174.
[8]
Vargas K G K, Qi Z M. P immobilizing materials for lake internal loading control: A review towards future developments [J]. Critical Reviews in Environmental Science and Technology, 2019,49(6): 518-552.
[9]
Wang C H, Jiang H L. Chemicals used for in situ immobilization to reduce the internal phosphorus loading from lake sediments for eutrophication control [J]. Critical Reviews in Environmental Science and Technology, 2016,46(10):947-997.
[10]
甘 磊.镧改性膨润土对富营养化浅水湖泊上覆水磷浓度及沉积物磷形态特征的影响 [D]. 广州:暨南大学, 2018. Gan L. Effects of lanthanum modified bentonite on the overlying water phosphorus and the sediment phosphorus forms concentrations in eutrophic shallow lakes [D]. Guangzhou:Jinan University, 2018.
[11]
李卫东,刘云根,田 昆,等. Phoslock应用于滇池富营养化水体污染净化的研究 [J]. 安徽农业科学, 2010,38(34):72-74. Li W D, Liu Y G, Tian K, et al. Study on the application of phoslock in purifying eutrophic water in Dianchi Lake [J]. Meteorological and Environmental Research, 2010,38(34):72-74.
[12]
陈 冬,李 杨,潘 珉.锁磷剂对滇池水污染物去除实验研究 [J]. 绿色科技, 2022,24(20):116-120. Chen D, Li Y, Pan M. Experimental study on removal effect of water pollutants by phoslock in Dianchi Lake [J]. Journal of Green Science and Technology, 2022,24(20):116-120.
[13]
徐恩兵,路 丁,杜 冰.新型锁磷剂用于贵阳红枫湖富营养化水体的研究 [J]. 环境工程, 2017,35(增刊):57-60. Xu E B, Lu D, Du B. Application of innovative phoslock removal agent in treatment of eutrophic water in the hongfeng lake of Guiyang [J]. Environmental Engineering, 2017,35(supplement):57-60.
[14]
Bishop W M, McNabb T, Cormican I, et al. Operational Evaluation of Phoslock Phosphorus Locking Technology in Laguna Niguel Lake, California [J]. Water, air and soil pollution, 2014,225(7):1-11.
[15]
Waajen G, van Oosterhout F, Douglas G, et al. Management of eutrophication in Lake De Kuil (The Netherlands) using combined flocculant-Lanthanum modified bentonite treatment [J]. Water Research, 2016,97:83-95.
[16]
Yamada-Ferraz T M, Sueitt A P E, Oliveira A F, et al. Assessment of Phoslock ® application in a tropical eutrophic reservoir: An integrated evaluation from laboratory to field experiments [J]. Environmental Technology & Innovation, 2015,4:194-205.
[17]
Neal C, Neal M, Leeks G J L, et al. Suspended sediment and particulate phosphorus in surface waters of the upper Thames Basin, UK [J]. Journal of Hydrology, 2006,330(1):142-154.
[18]
尤本胜,王同成,范成新,等.太湖草型湖区沉积物再悬浮对水体营养盐的影响 [J]. 环境科学, 2008,(1):26-31. You B S, Wang T C, Fan C X, et al. Effects of sediment resuspension on aqueous nutrient loading in grass type zone of Lake Taihu [J]. Environmental Science, 2008,(1):26-31.
[19]
Widdows J, Brinsley M D, Bowley N, et al. A benthic annular flume for in situ measurement of suspension feeding/biodeposition rates and erosion potential of intertidal cohesive sediments [J]. Estuarine, Coastal and Shelf Science, 1998,46(1):27-38.
[20]
Yin H B, Zhu J C, Tang W Y. Management of nitrogen and phosphorus internal loading from polluted river sediment using Phoslock® and modified zeolite with intensive tubificid oligochaetes bioturbation [J]. Chemical Engineering Journal, 2018,353:46-55.
[21]
Waajen G, van Oosterhout F, Lurling M. Bio-accumulation of lanthanum from lanthanum modified bentonite treatments in lake restoration [J]. Environmental Pollution, 2017,230:911-918.
[22]
Herrmann H, Nolde J, Berger S, et al. Aquatic ecotoxicity of lanthanum-A review and an attempt to derive water and sediment quality criteria [J]. Ecotoxicology and Environmental Safety, 2016, 124:213-238.
[23]
Barry M J, Meehan B J. The acute and chronic toxicity of lanthanum to Daphnia carinata [J]. Chemosphere, 2000,41(10):1669-1674.
[24]
Reitzel K, Lotter S,Dubke M, et al. Effects of Phoslock® treatment and chironomids on the exchange of nutrients between sediment and water [J]. Hydrobiologia, 2013,703(1):189-202.
[25]
陆文泽,任 仁,饶 骁,等.太湖流域城市湖泊大型底栖动物群落结构及影响因素研究 [J]. 水生态学杂志, 2022,43(4):8-15. Lu W Z, Ren R, Rao X, et al. Community structure of macroinvertebrates and influencing factors in the urban lakes of the Taihu Lake basin [J]. Journal of Hydroecology, 2022,43(4):8-15.
[26]
孙伟胜,顾钱洪,董 静,等.淮河流域板桥水库大型底栖动物群落结构及水质生物学评价 [J]. 应用生态学报, 2015,26(9):2843-2851. Sun W S, Gu Q H, Dong J, et al. Macrobenthic community structure and bioassessment for water quality of banqiao reservoir in Huaihe River basin [J]. Chinese Journal of Applied Ecologr, 2015,26(9): 2843-2851.
[27]
Zhang Y, Cheng L, Tolonen K E, et al. Substrate degradation and nutrient enrichment structuring macroinvertebrate assemblages in agriculturally dominated Lake Chaohu Basins, China [J]. Science of the Total Environment, 2018,627:57-66.
[28]
孔 明,尹洪斌,吴雨琛,等.热处理对天然富钙粘土矿物除磷能力的影响 [J]. 环境科学学报, 2013,33(12):3211-3218. Kong M, Yin H B, Wu Y C, et al. Influence of thermal treatment on the phosphorus sorption capacity of natural calcium-rich clay minerals [J]. Acta Scientiae Circumstantiae, 2013,33(12):3211-3218.
[29]
Spears B M, Maberly S C, Pan G, et al. Geo-Engineering in Lakes: A Crisis of Confidence? [J]. Environmental science & technology, 2014, 48(17):9977-9979.
[30]
蔡永久,龚志军,秦伯强.太湖大型底栖动物群落结构及多样性 [J]. 生物多样性, 2010,18(1):50-59. Cai Y J, Gong Z J, Qin B Q. Community structure and diversity of macrozoobenthos in Lake Taihu, a large shallow eutrophic lake in China [J]. Biodiversity Science, 2010,18(1):50-59.
[31]
熊春晖,张瑞雷,季高华,等.江苏滆湖大型底栖动物群落结构及其与环境因子的关系 [J]. 应用生态学报, 2016,27(3):927-936. Xiong C H, Zhang R L, Ji G H, et al. Community structure of macrozoobenthos and its relationship with environmental factors in Lake Gehu, Jiangsu, China [J]. Chinese Journal of Applied Ecologr, 2016,27(3):927-936.
[32]
茆传奇.浙江省太湖流域大型底栖动物群落结构与水质评价 [D]. 浙江:杭州师范大学, 2016. Mao C Q. The community structure of benthic animals and the evaluation of water quality in Taihu Lake basin in Zhejiang Province [D]. Zhejiang:Hangzhou Normal University, 2016.
[33]
张 又,蔡永久,张 颖,等.河流大型底栖动物对环境压力的响应:以太湖、巢湖流域为例 [J]. 湖泊科学, 2021,33(1):204-217. Zhang Y, Cai Y J, Zhang Y, et al. The response of benthic macroinvertebrate communities to environmental pressures in streams and rivers: A case study of Taihu and Chaohu Basins [J]. Journal of Lake Science, 2021,33(1):204-217.
[34]
白秀玲,周云凯,张 雷.水丝蚓对太湖沉积物有机磷组成及垂向分布的影响 [J]. 生态学报, 2012,32(17):5581-5588. Bai X L, Zhou Y K, Zhang L. The influence of tubificid worms bioturbation on organic phosphorus components and their vertical distribution in sediment of Lake Taihu [J]. Acta Ecologica Sinica, 2012,32(17):5581-5588.
[35]
高 杰,黄屿玥,韦 冰,等.底栖动物(苏氏尾鳃蚓Branchiura sowerbyi和椭圆萝卜螺Radix swinhoei)对不同氮负荷程度沉积物脱氮的影响 [J]. 环境科学学报, 2022,42(11):202-210. Gao J, Huang Y Y, Wei B, et al. Effect of macroinvertebrates (Branchiura sowerbyi and Radix swinhoei)on nitrogen removal of ediment with varying nitrogen load levels [J]. Acta Scientiae Circumstantiae, 2022,42(11):202-210.
[36]
史晓丹,李大鹏,王 忍,等.物理和摇蚊幼虫组合扰动对内源磷再生和形态转化的协同作用 [J]. 环境科学, 2015,36(3):955-962. Shi X D, Li D P, Wang R, et al. Synergistic effect of physical and chironomus plumosus combined disturbance on regeneration and transformation of internal phosphorus [J]. Environmental Science, 2015,36(3):955-962.
[37]
张 雷,古小治,王兆德,等.水丝蚓(Tubificid worms)扰动对磷在湖泊沉积物-水界面迁移的影响 [J]. 湖泊科学, 2010,22(5):666-674. Zhang L, Gu X Z, Wang Z D, et al. The influence of Tubificid worms bioturbation on the exchange of phosphorus across sediment-water interface in lakes [J]. Journal of Lake Science, 2010,22(5):666-674.
[38]
杨婷婷,刘 凌,陈沐松,等.摇蚊幼虫扰动对富营养化湖泊沉积物—水微界面磷释放的影响 [J]. 水电能源科学, 2016,34(12):69-73. Yang T T, Liu L, Chen M S,et al. Effects of chironomid larvae disturbance on phosphorus release from sediment-water microinterface in eutrophic lakes [J]. Water Resources and Power, 2016,34(12):69-73.
[39]
Zhi Y, Call D F, Grieger K D, et al. Influence of natural organic matter and pH on phosphate removal by and filterable lanthanum release from lanthanum-modified bentonite [J]. Water Research, 2021,202: 117399.
[40]
魏复盛.水和废水监测分析方法(第四版) [M]. 北京:中国环境科学出版社, 2002:243-281. Wei F S. Water and wastewater monitoring and analysis methods (Fourth Edition) [M]. China Environmental Science Press, 2002:243-281.
[41]
邹可可.电感耦合等离子体质谱法在水环境重金属离子检测中的应用 [J]. 中国金属通报, 2021,(8):198-199. Zhou K K. Application of inductively coupled plasma mass spectrometry in the detection of heavy metal ions in water environment [J]. China Metal Bulletin, 2021,(8):198-199.
[42]
任琪琪,唐婉莹,殷 鹏,等.镧改性膨润土对底泥内源磷控制效果 [J]. 中国环境科学, 2021,41(1):199-206. Ren Q Q, Tang W Y, Yin P, et al. The effect of lanthanum modified bentonite on the control of sediment internal phosphorus loading [J]. China Environmental Science, 2021,41(1):199-206.
[43]
杨艳青,刘 凌,陈沐松,等.摇蚊幼虫生物扰动对富营养化湖泊内源磷释放的影响 [J]. 河海大学学报(自然科学版), 2016,44(6):485-490. Yang Y Q, Liu L, Chen M S, et al. Effect of chironomid larvae bioturbation on release of internal phosphorus in eutrophic lake [J]. Journal of Hohai University (Natural Sciences), 2016,44(6):485-490.
[44]
HJ 677-2013 水质金属总量的消解硝酸消解法 [S]. HJ 677-2013 Water quality-Digestion of total metals-Nitric acid digestion method [S].
[45]
Cardinale B J, Palmer M A, Collins S L. Species diversity enhances ecosystem functioning through interspecific facilitation [J]. Nature, 2002,415(6870):426-429.
[46]
Nogaro G, Harris A M, Steinman A D. Alum application, invertebrate bioturbation, and sediment characteristics interact to affect phosphorus exchange in eutrophic ecosystems [J]. Freshwater Science, 2016,35(2): 597-610.
[47]
张 雷.生物扰动下湖泊沉积物-水界面特征变化与磷的迁移转换 [D]. 南京:中国科学院南京地理与湖泊研究所, 2010. Zhang L. Changes of sediment-water interface properties and phosphorus dynamics under bioturbation in lake [D]. Nanjing:Nanjing Institute of Geography and Lakes, Chinese Academy of Sciences, 2010.
[48]
姚思鹏,李 柯,周德勇,等.霍甫水丝蚓对太湖梅梁湾沉积物影响——水界面无机氮、磷交换 [J]. 环境科学与技术, 2011,34(1):100-104. Yao S P, Li K, Zhou D Y, et al. Impact of limnodrilus hoffmeristeri on inorganic nitrogen and phosphorus exchange at the sediment-water interface in meiliang bay, Lake Taihu [J]. Environmental Science & Technology, 2011,34(1):100-104.
[49]
Istvanovics, V. Transformations between organic and inorganic sediment phosphorus in Lake Balaton [J]. Hydrobiologia, 1993,253 (1-3):193-206.
[50]
张巧颖,杜瑛珣,罗春燕,等.镧改性膨润土钝化湖泊中的磷及其生态风险的研究进展 [J]. 湖泊科学, 2019,31(6):1499-1509. Zhang Q Y, Du Y X, Luo C Y, et al. Advances in researches on phosphorus immobilization by lanthanum modified bentonite in lakes and its ecological risk [J]. Journal of Lake Science, 2019,31(6):1499-1509.
[51]
Meis S, Spears B M, Maberly S C, et al. Assessing the mode of action of Phoslock ® in the control of phosphorus release from the bed sediments in a shallow lake (Loch Flemington, UK) [J]. Water Research, 2013,47(13):4460-4473.