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Article(id=1234106390848000719, tenantId=1146029695717560320, journalId=1234093305789726721, issueId=1234106384963400440, articleNumber=null, orderNo=null, doi=null, pmid=null, cstr=null, oa=null, hot=null, price=null, onlineType=0, articleFormat=0, articleType=null, articleTypeStr=null, receivedDate=1730563200000, receivedDateStr=2024-11-03, revisedDate=null, revisedDateStr=null, acceptedDate=null, acceptedDateStr=null, onlineDate=1772163492166, onlineDateStr=2026-02-27, pubDate=1750348800000, pubDateStr=2025-06-20, doiRegisterDate=null, doiRegisterDateStr=null, onlineIssueDate=1772163492166, onlineIssueDateStr=2026-02-27, onlineJustAcceptDate=null, onlineJustAcceptDateStr=null, onlineFirstDate=null, onlineFirstDateStr=null, sourceXml=null, magXml=null, createTime=1772163492166, creator=13701087609, updateTime=1772163492166, updator=13701087609, issue=Issue{id=1234106384963400440, tenantId=1146029695717560320, journalId=1234093305789726721, year='2025', volume='45', issue='6', pageStart='2961', pageEnd='3552', issueExtLink='null', onlineDate='null', pubDate='null', beforeIssueId=null, nextIssueId=null, price=null, status=1, issueComplete=1, articleOrder=1, issueType=1, specialIssue=null, createTime=1772163490763, creator=13701087609, updateTime=1772163969484, updator=13701087609, preIssue=null, nextIssue=null, ext={EN=IssueExt(id=1234108392948682946, tenantId=1146029695717560320, journalId=1234093305789726721, issueId=1234106384963400440, language=EN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=), CN=IssueExt(id=1234108392948682947, tenantId=1146029695717560320, journalId=1234093305789726721, issueId=1234106384963400440, language=CN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=)}, issueFiles=null}, startPage=3084, endPage=3091, ext={EN=ArticleExt(id=1234106393842733910, articleId=1234106390848000719, tenantId=1146029695717560320, journalId=1234093305789726721, language=EN, title=Removal of antibiotics from aquaculture wastewater by composite packed filter dams, columnId=1234106386360103680, journalTitle=China Environmental Science, columnName=Water Pollution Control, runingTitle=null, highlight=null, articleAbstract=

In view of the typically unsatisfactory antibiotics removal performances that were observed in the traditional 'three ponds and two dams' combination process, a new composite packing filter dam was developed. Through the synergetic combination of composite packing balls with a specially designed filter dam structure, highly efficient and broad-spectrum removal of antibiotics was achieved. Results showed that the removal rates of antibiotics (in terms of total mass concentrations) in perch, eel, raw fish and shrimp culture pond water were maintained at more than 80% by the composite packing filter dam. Quinolones, sulphonamides, tetracyclines and chloramphenicol were removed to different extents, among which the best removal effects were observed for quinolones and sulphonamides. The composite filler consisting of iron filings, ceramsites and polybutylene succinate (PBS) was found to significantly improve the removal of quinolones and sulfonamides. Ceramsites were demonstrated to play an adsorption role through which quinolone and sulfonamide antibiotics were removed via pore filling and π-π electron donor-acceptor interactions, which was identified as the main antibiotic removal pathway. Iron filings were shown to remove tetracycline and chloramphenicol through adsorption and reduction processes, and were suggested to have accelerated the direct electron transfer process that promoted antibiotic degradation. PBS was involved in the removal of antibiotics through co-metabolic denitrification. Both iron filings and PBS were proven to enhance the metabolic activity of functional microorganisms, thereby accelerating antibiotic removal. The synergistic effect between these components was confirmed to help achieve efficient and broad-spectrum antibiotic removal.

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针对传统“三池两坝”组合工艺对抗生素去除效果不佳的问题,构建了一种复合填料滤坝,通过复合填料球与特殊滤坝结构的有机结合,旨在实现抗生素高效广谱的去除.结果表明:复合填料滤坝对鲈鱼养殖塘水、鳗鱼养殖塘水、生鱼养殖塘水和虾养殖塘水中抗生素总质量浓度的去除率均维持在80%以上,且对喹诺酮类、磺胺类、四环素类、氯霉素类均具有不同程度的去除,其中喹诺酮类和磺胺类抗生素的去除效果最好.由铁屑、陶粒和聚丁二酸丁二醇酯(PBS)组成的复合填料可以显著提高对喹诺酮类和磺胺类抗生素的吸附性能.其中,陶粒起到吸附作用,可以通过孔填充和π-π电子供体-受体相互作用的机制去除喹诺酮类和磺胺类抗生素,是抗生素减量化的主要途径;铁屑通过吸附及还原作用去除四环素和氯霉素,且能加速直接电子传递过程促进抗生素降解;PBS通过反硝化共代谢参与抗生素削减;铁屑与PBS均能在不同程度上提升功能微生物的代谢活性,从而加速抗生素的去除;各组分之间相互协同、共同作用有助于实现抗生素的高效广谱去除.

, correspAuthors=胡勇有, authorNote=null, correspAuthorsNote=
* 责任作者,教授,
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邹耀(1981-),男,广东梅州人,高级工程师,华南理工大学博士研究生,主要从事水产养殖废水处理技术研究.发表论文3篇..

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邹耀(1981-),男,广东梅州人,高级工程师,华南理工大学博士研究生,主要从事水产养殖废水处理技术研究.发表论文3篇..

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邹耀(1981-),男,广东梅州人,高级工程师,华南理工大学博士研究生,主要从事水产养殖废水处理技术研究.发表论文3篇..

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language=CN, orderNo=5, keyword=三池两坝)], refs=[Reference(id=1234106406819910421, tenantId=1146029695717560320, journalId=1234093305789726721, articleId=1234106390848000719, doi=null, pmid=null, pmcid=null, year=2018, volume=145, issue=null, pageStart=498, pageEnd=508, url=null, language=null, rfNumber=[1], rfOrder=0, authorNames=Le T H, Ng C, Tran N H, journalName=Water Research, refType=null, unstructuredReference=Le T HNg CTran N H,et al. 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复合填料滤坝去除水产养殖废水中的抗生素
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邹耀 1, 2 , 许允荣 1 , 邱光磊 1 , 胡勇有 1, *
中国环境科学 | 水污染与控制 2025,45(6): 3084-3091
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中国环境科学 | 水污染与控制 2025, 45(6): 3084-3091
复合填料滤坝去除水产养殖废水中的抗生素
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邹耀1, 2 , 许允荣1, 邱光磊1, 胡勇有1, *
作者信息
  • 1.华南理工大学环境与能源学院,广东 广州 510006
  • 2.广东省环境科学学会,广东 广州 510045

    • 邹耀(1981-),男,广东梅州人,高级工程师,华南理工大学博士研究生,主要从事水产养殖废水处理技术研究.发表论文3篇..

通讯作者:

* 责任作者,教授,
Removal of antibiotics from aquaculture wastewater by composite packed filter dams
Yao ZOU1, 2 , Yun-rong XU1, Guang-lei QIU1, Yong-you HU1, *
Affiliations
  • 1.School of Environment and Energy, South China University of Technology, Guangzhou 510006, China
  • 2.Guangdong Society of Environmental Sciences, Guangzhou 510045, China
出版时间: 2025-06-20
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摘要
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针对传统“三池两坝”组合工艺对抗生素去除效果不佳的问题,构建了一种复合填料滤坝,通过复合填料球与特殊滤坝结构的有机结合,旨在实现抗生素高效广谱的去除.结果表明:复合填料滤坝对鲈鱼养殖塘水、鳗鱼养殖塘水、生鱼养殖塘水和虾养殖塘水中抗生素总质量浓度的去除率均维持在80%以上,且对喹诺酮类、磺胺类、四环素类、氯霉素类均具有不同程度的去除,其中喹诺酮类和磺胺类抗生素的去除效果最好.由铁屑、陶粒和聚丁二酸丁二醇酯(PBS)组成的复合填料可以显著提高对喹诺酮类和磺胺类抗生素的吸附性能.其中,陶粒起到吸附作用,可以通过孔填充和π-π电子供体-受体相互作用的机制去除喹诺酮类和磺胺类抗生素,是抗生素减量化的主要途径;铁屑通过吸附及还原作用去除四环素和氯霉素,且能加速直接电子传递过程促进抗生素降解;PBS通过反硝化共代谢参与抗生素削减;铁屑与PBS均能在不同程度上提升功能微生物的代谢活性,从而加速抗生素的去除;各组分之间相互协同、共同作用有助于实现抗生素的高效广谱去除.

抗生素  /  水产养殖  /  复合填料滤坝  /  降解机制  /  三池两坝

In view of the typically unsatisfactory antibiotics removal performances that were observed in the traditional 'three ponds and two dams' combination process, a new composite packing filter dam was developed. Through the synergetic combination of composite packing balls with a specially designed filter dam structure, highly efficient and broad-spectrum removal of antibiotics was achieved. Results showed that the removal rates of antibiotics (in terms of total mass concentrations) in perch, eel, raw fish and shrimp culture pond water were maintained at more than 80% by the composite packing filter dam. Quinolones, sulphonamides, tetracyclines and chloramphenicol were removed to different extents, among which the best removal effects were observed for quinolones and sulphonamides. The composite filler consisting of iron filings, ceramsites and polybutylene succinate (PBS) was found to significantly improve the removal of quinolones and sulfonamides. Ceramsites were demonstrated to play an adsorption role through which quinolone and sulfonamide antibiotics were removed via pore filling and π-π electron donor-acceptor interactions, which was identified as the main antibiotic removal pathway. Iron filings were shown to remove tetracycline and chloramphenicol through adsorption and reduction processes, and were suggested to have accelerated the direct electron transfer process that promoted antibiotic degradation. PBS was involved in the removal of antibiotics through co-metabolic denitrification. Both iron filings and PBS were proven to enhance the metabolic activity of functional microorganisms, thereby accelerating antibiotic removal. The synergistic effect between these components was confirmed to help achieve efficient and broad-spectrum antibiotic removal.

antibiotics  /  aquaculture  /  composite packing filter dam  /  degradation mechanism  /  three ponds and two dams
邹耀, 许允荣, 邱光磊, 胡勇有. 复合填料滤坝去除水产养殖废水中的抗生素. 中国环境科学, 2025 , 45 (6) : 3084 -3091 .
Yao ZOU, Yun-rong XU, Guang-lei QIU, Yong-you HU. Removal of antibiotics from aquaculture wastewater by composite packed filter dams[J]. China Environmental Science, 2025 , 45 (6) : 3084 -3091 .
正文
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抗生素在水产养殖中广泛应用,主要用于预防和治疗水产品疾病,提高养殖效率[1],但抗生素大量持续且不当的使用会导致其在水中积累[2].在全球范围内,水产养殖水中常检测出的抗生素种类有喹诺酮类、四环素类、磺胺类、大环内酯类和氯霉素[3-4],浓度变化从ng/L到µg/L不等[5],这些残留物在水体中的积累会导致抗生素抗性细菌及抗生素抗性基因的传播[6],还可通过食物链威胁人类健康[7].
自然环境中的光解、水解、生物降解等单一过程对抗生素削减的速度与程度有限,借助物理、化学手段形成的强化技术具有良好的抗生素去除效果[8_10].在物化处理领域,Chen等[11]采用生物曝气过滤(BAF)系统耦合好氧/厌氧培养,证实其对磺胺甲氧嘧啶等9种抗生素去除率达82%以上;类似地,Ostman等[12]验证了臭氧氧化对环丙沙星等抗生素的高效去除(>90%),而高艺芳等[13]开发的新型C3N4光催化剂可在60min内降解99.6%四环素,拓展了物化技术的应用边界.在生物处理方面,Guo等[14]构建的生物电化学系统通过阴极电位调控实现氯霉素降解,He等[15]则发现人工湿地中基质吸附和微生物分解对抗生素去除的协同贡献,两者均强调生物过程的核心作用.Li等[16]针对抗生素衍生的抗性基因污染问题,首次提出工程化希瓦氏菌靶向清除可移动遗传元件(MGEs),该成果与前述抗生素去除技术形成互补,共同指向污染物-抗性基因协同控制的技术联用方向.
“三池两坝”是水产养殖尾水处理的主流工艺:“三池”即沉淀池、曝气池、生态净化池;“两坝”即两个过滤坝.该模式采用“生态沟渠→沉淀池→过滤坝→曝气池→过滤坝→生态净化池”的工艺流程,将物理沉淀、填料过滤、曝气氧化、生物同化等技术集成为一体,在一定程度上实现有机物和营养物质的去除[17].“三池两坝”组合工艺的最初设计仅考虑到COD、TN等常规指标的去除,关于其对抗生素的削减效能尚未见到报道.
本研究设计出一种复合填料滤坝,通过复合填料球与特殊滤坝结构的有机结合,研究其对抗生素的去除,揭示填料各组分对抗生素降解的机制,旨在为水产养殖废水处理提供参考.
1 材料与方法
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1.1 实验材料
选取珠三角某连片池塘养殖区作为研究点,以水产养殖中较常见的品种鲈鱼为研究对象,分别在2023年9月、2023年11月、2024年1月及2024年4月采集鲈鱼养殖塘水面20cm以下水样保存于2L棕色玻璃瓶中,不留顶空,用封口膜(PARAFILM)密封,运送至实验室后置于4℃冰箱中存储备用.2024年4月同步采集“三池两坝”中过滤坝1的前置单元,即沉淀池的末端,采样点距水面20cm,距池边50cm.另采集鳗鱼、生鱼、虾养殖塘尾水用于抗冲击实验,进水常规参数为:COD=25~40mg/L、TN=14~16mg/L、NO3--N=13~15mg/L、NH4+-N=0.6~1.2mg/L、TP=0.9~1.0mg/L、pH=7.0~7.5、DO=5.0~6.5mg/L、SS=35~50mg/L.
实验室运行两个模拟滤坝以形成有效对比(复合填料滤坝R1与传统模拟滤坝R2,且完全相同),其有效容积均为1L,整体呈U形,内部被L形折流板分隔为容积比为1:4的进水腔和填料腔,其中R1填料腔内均匀填充有复合填料球,R2填料腔内均匀填充有陶粒.L形折流板底部开有导流孔,使进水腔和填料腔相通,有利于水流通过导流孔与填料腔内的填料充分接触.复合填料球是由空心球将铁屑、陶粒和聚丁二酸丁二醇酯(PBS)按体积比1:3:5混合后固定而成的球状物.
1.2 实验方法
采集鱼塘水样后48h内分析检测水样抗生素种类与浓度水平.模拟滤坝采用连续流运行模式,水力停留时间5h,运行至系统稳定后取进出水检测抗生素浓度与常规水质指标(TN、NH4+-N、NO3--N).
1.3 分析方法
抗生素检测包括预处理、固相萃取和液相色谱-质谱联用分析,具体操作方法如下.
取1L水样,经玻璃纤维滤膜(直径142mm,孔径0.45μm,Millipore,美国)过滤后,将pH值调至3,加入11.13µg回收率指示物(chloramphenocol-D5,A Chem Tek,美国),利用填有200mg混合吸附剂的固相萃取小柱(500mg/6cc,Waters,美国)进行富集,其中混合吸附剂中亲水亲油平衡吸附剂(HLB):弱阴离子交换吸附剂(WAX):弱阳离子交换吸附剂(WCX)= 2:1:1.依次利用5mL甲醇、5mL 0.5%氨水甲醇和5mL 0.5%乙酸甲醇洗脱固相萃取柱,用氮吹仪(NDK-36W,上海皓庄仪器有限公司,中国)氮吹浓缩定容至0.5mL,经亲水性聚丙烯(GHP)膜针式过滤器过滤(直径13mm,孔径0.2µm,Pall,美国),置于4℃冰箱内避光保存,待液相色谱-质谱联用仪分析.
利用液相色谱(LC30-AD,Shimadzu,日本)-质谱(QTRAP5500MS/MS,AB SCIEX,美国)联用仪进行抗生素的检测与定量.使用Waters ACQUITYUPLC®-HSSC18色谱柱(2.1×100mm,1.8µm)和ACQUITY-UPLC®-HSSC18Van-GuardTMC18预柱(2.1×5mm,1.8µm)分离分析物,柱温为40℃.质谱使用电喷雾离子源,使用氮气作为雾化气体.离子喷雾电压设置为正离子模式5500V,负离子模式4500V.干燥气温度为550℃,离子源气体压力为55psi.化学分析在多反应监测模式(MRM)下进行,进样体积均为2µL,流速均为0.3mL/min.测定抗生素的流动相为含有0.1%甲酸的超纯水(A)和乙腈(B),洗脱程序为0~1min,10%B;6.0min,40%B;11.0min,70%B;12min,7 0%B;12.0~15.0min,10%B.采用外标法定量,根据各抗生素标准品(购自Sigma-Aldrich)的保留时间及特征离子对(母离子/子离子)进行定性,以峰面积积分值建立标准曲线(R2>0.99).每批样品平行添加基质加标(回收率80%~120%)与空白对照,消除基质效应;每10个样品插入标准品校准曲线验证,相对偏差<15%.以“检出率(%)、浓度范围(ng/L)、中位值±标准差”形式呈现抗生素数据特征.
2 结果与讨论
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2.1 池塘养殖片区抗生素暴露情况
鲈鱼养殖塘水在2023年9月、2023年11月、2024年1月及2024年4月的抗生素总浓度分别为4050,146,293.6和279ng/L(图1).在抗生素的组成上,2023年9月的抗生素主要为氯霉素类的氟苯尼考和甲砜霉素(图1(a)),其余类别均在检测限以下,其中氟苯尼考浓度达3720ng/L,占所有检出抗生素总质量浓度的91.1%;2023年11月共检出喹诺酮类、四环素类、磺胺类、大环内酯类等共5类24种抗生素,其中喹诺酮类浓度水平最高为118.50ng/L,占比81.4%,质量浓度最高的5种抗生素依次为诺氟沙星(33.02ng/L)、环丙沙星(25.24ng/L)、达氟沙星(17.28ng/L)、恩诺沙星(13.68ng/L)、西诺沙星(12.42ng/L)(图1(b));2024年1月检出磺胺类(占比37.6%)、喹诺酮类(占比32.5%)、四环素类(占比29.9%)共3类23种抗生素,质量浓度最高的6种抗生素依次为磺胺喹噁啉(106.50ng/L)、地美环素(56.23ng/L)、环丙沙星(37.83ng/L)、诺氟沙星(26.35ng/L)、米诺环素(23.05ng/L)、达诺沙星(17.55ng/L)(图1(c));2024年4月检测出喹诺酮类(占比71.8%)、四环素类(占比19.5%)、大环内酯类、氯霉素类共14种抗生素,质量浓度最高的6种抗生素依次为诺氟沙星(68.75ng/L)、达氟沙星(35.54ng/L)、脱水四环素(23.41ng/L)、沙拉沙星(21.92ng/L)、四环素(21.74ng/L)、红霉素(21.27ng/L)(图1(d)).喹诺酮类药物作为一种合成抗菌剂,因其广谱抗菌、高效低毒的特点而被广泛用于水产养殖中[18],磺胺类药物则因其成本低、广谱抗菌、化学稳定性好、环境流动性高的特点而多被应用于治疗鱼类疾病[19],因此这两类抗生素是水产养殖水体中常被检出的高浓度污染物.
总体而言,珠三角某连片养殖区鲈鱼养殖塘水中抗生素在季节上呈现夏秋季浓度高,但类别丰富度低,以喹诺酮类和氯霉素类为主;冬春季浓度低,但类别丰富度高,以喹诺酮类、磺胺类、四环素类为主的特点.
分析鲈鱼养殖塘水中抗生素浓度季节性变化的原因为:夏秋季水生生物代谢旺盛,水产养殖密度高,高养殖密度导致病原生物种类增多和传播速度加快,使得养殖病害严重,从而增加了抗生素的使用频率和剂量[20].目前,水产病害防治的主要方法之一是使用抗生素[21].氟苯尼考因其高效的杀菌能力,在水产养殖中被广泛使用[22_24].氟苯尼考的给药途径通常为随饵料口服或药浴浸泡,但有相当一部分药物可能以原形或代谢物的形式随粪便和残饵进入环境,导致水体中药物浓度升高,成为夏秋季鲈鱼水抗生素污染物中的主要组成部分[25].此外,春季是水产养殖投放苗种的时期,需要为苗种提供足够的生长空间,此时养殖密度较低.冬季水温较低,水生动物的代谢和生长速度变缓,且市场水产品需求较低,养殖户需进行养殖设施维护和升级,故水产养殖密度降低,饲料投加量少,抗生素浓度相对于夏秋季显著降低[26].养殖水中抗生素含量的季节性分布特点与水温变化、水产养殖模式、饲料投加方式等因素关联密切,这与李贞金[27]的研究结果相一致.
2.2 “三池两坝”系统过滤坝对抗生素的去除效果
传统滤坝进出水抗生素浓度检测结果显示滤坝1的去除效果仅有43.4%,滤坝2的去除效果仅有52.4%.传统滤坝对喹诺酮类抗生素去除效果最好(其中诺氟沙星的平均去除率达到82.3%),对四环素类抗生素的去除效果不佳(图2).
兽用抗生素因特殊的两性分子结构,在活性污泥、土壤、填料等不同介质中具有一定的吸附性[28],因此由陶粒填充的传统滤坝对抗生素可以达到50%左右的去除率,吸附作用是其抗生素减量化的主要途径.喹诺酮类抗生素属于杂芳香族化合物,其环结构可以通过π-π堆积与吸附剂陶粒相互作用,从而被优先去除[29].相比于喹诺酮类抗生素,四环素类抗生素分子结构立体度更高,含有更多如脂肪链等非极性官能团[30],使其在水中溶解度更低,在竞争陶粒吸附位点中处于劣势[31].然而,陶粒的吸附作用依赖于抗生素的分子结构,具有一定局限性,因此实现抗生素高效广谱的去除可能需要借助化学还原作用、生物降解作用等过程[32].
2.3 复合填料滤坝对抗生素的去除效果
传统模拟滤坝进出水抗生素总浓度分别为270,117.5ng/L,去除率为56.5%;复合填料滤坝进出水抗生素总浓度分别为272,5ng/L,去除率为98.2%,远高于传统模拟滤坝(图3).出水除恶喹酸有少量残留外,其余抗生素均未被检出,表明复合填料滤坝对喹诺酮类、四环素类、氯霉素类等抗生素均具有高效的去除能力.出水中有恶喹酸残留的原因可能是恶喹酸是一种小分子有机化合物,溶解度低,化学稳定性高,在水中游离分散程度较高,过滤吸附等常规手段难以将其全部去除,且其对革兰阴性菌和一部分阳性菌具有较广泛的抗菌活性,不易被微生物降解[33].
复合填料滤坝对鲈鱼养殖塘水、鳗鱼养殖塘水、生鱼养殖塘水和虾养殖塘水中抗生素的去除率分别为98.2%、85.1%、82.5%和92%,均维持在80%以上(图3),表明模拟系统的抗冲击负荷能力强,能适应不同类型的养殖水.从抗生素组成的去除情况来看,复合填料滤坝对喹诺酮类、磺胺类、四环素类、氯霉素类均具有不同程度的去除,其中喹诺酮类和磺胺类抗生素的去除优势最明显(图4).此外,实验测定复合填料滤坝出水的pH=(7.7±0.3),在后续生物处理所需的最适pH值范围内,且测定总铁含量低于0.3mg/L,表明铁离子在水体中的缓慢溶出量符合地表水环境质量标准的要求,复合填料滤坝对后续曝气池及生态塘产生不利影响的可能性低.
复合填料滤坝内填充的复合填料球由铁屑、陶粒和聚丁二酸丁二醇酯(PBS)制成,这些填料之间毛细孔众多且相互贯通,具有较大的比表面积,在与水流充分接触过程中可通过吸附与过滤作用拦截部分大分子有机物,且有利于挂膜,促进功能微生物的生长和富集,其中陶粒在抗生素减量化中发挥主要贡献.磺胺类抗生素可以通过孔填充和π-π电子供体-受体(EDA)相互作用等机制粘附在吸附剂的非均质表面[34],因此在复合填料体系中被有效去除.相比于传统滤坝,复合填料滤坝对抗生素的去除能力提升了30%以上,因此有必要关注铁屑和PBS对系统性能改善的机制.研究表明,零价铁因其高反应性、粒径小、高比表面积性而被广泛应用于抗生素的去除,主要去除机制有吸附、还原、氧化等作用[35].四环素类和氯霉素类属于硝基芳香族抗生素,零价铁材料可以作为电子供体将硝基芳香族抗生素还原成芳香胺.Guler等[36]对纳米零价铁改性制成功能性浮石改性纳米零价铁,发现该材料可以去除废水中90%以上的四环素,其中吸附过程符合伪二级模型,还原过程符合伪一级模型;Xia等[37]发现将纳米零价铁粒子(nZVI)负载到腐植酸(HA)上后可以从水溶液中高效去除氯霉素(CAP),去除机制主要是通过nZVI粒子在HA支持下的脱氮和去氯作用,短时间内将CAP连续降解为易于降解的物质,且与一级动力学模型一致.对于喹诺酮类抗生素,传统滤坝对其去除率为53.7%,复合填料滤坝可以实现100%的去除率.目前,处理喹诺酮类抗生素的手段主要是吸附作用和高级氧化降解[38],考虑到系统中产生羟基自由基的可能性较低,因此可以推测复合填料的多孔特性极大的提升了滤坝的吸附性能.同时,考虑到复合填料达到吸附容量后可能存在抗生素脱附的情况,可以通过定期的填料冲洗与更换解决该问题,以避免脱附抗生素对后续处理单元带来不利影响.Qu等[39]发现含氮杂环有机物可以通过反硝化共代谢进行生物降解,PBS作为优质的碳源,在支持微生物生长和代谢的同时,也能通过反硝化共代谢作用参与到抗生素的降解中.此外,TN、NH4+-N、NO3--N含量变化表明复合填料滤坝效果明显优于传统模拟滤坝(图5),进一步说明PBS在作为碳源促进微生物反硝化中发挥了重要作用,为抗生素的反硝化共代谢提供了有力支撑.从微生物作用的角度来看,零价铁反应产生的二价铁作为功能微生物的关键酶和关键基因的重要组成部分,可以增强抗生素降解微生物的代谢活性,且零价铁自身优异的导电性能有助于促进直接电子转移过程(DIET),从而加速种间电子传递,提高抗生素的去除率[40].从整体角度来看并基于现有研究,可以判断,由铁屑、陶粒和PBS组成的复合填料可以显著提高对喹诺酮类和磺胺类抗生素的吸附性能.其中,陶粒起到吸附作用,可以通过孔填充和π-π电子供体-受体相互作用的机制去除喹诺酮类和磺胺类抗生素,是抗生素减量化的主要途径;铁屑通过吸附及还原作用去除四环素和氯霉素,且能加速直接电子传递过程促进抗生素降解;PBS通过反硝化共代谢参与抗生素削减;铁屑与PBS均能在不同程度上提升功能微生物的代谢活性,从而加速抗生素的去除;各组分之间相互协同、共同作用,实现抗生素的高效广谱的去除.
本文关注到在传统滤坝体系及复合填料体系中存在部分抗生素如四环素类和喹诺酮类含量增加的现象,在排除测量误差的因素后,说明在体系中,抗生素除自身的降解途径外,还存在复杂的转化与迁移的可能[41],抗生素-复合填料-微生物之间的响应机制与削减贡献目前尚未清楚,有待进一步研究.
3 结论
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3.1 珠三角某连片池塘养殖区鲈鱼养殖塘水中抗生素季节性浓度差异明显,总体上呈现夏秋季浓度高,但类别丰富度低,以喹诺酮类和氯霉素类为主;冬春季浓度低,但类别丰富度高,以喹诺酮类、磺胺类、四环素类为主的特点.养殖水中抗生素含量的季节性分布特点与水温变化、水产养殖模式、饲料投加方式等因素关联密切.
3.2 由陶粒填充的传统滤坝对抗生素的去除率可达50%左右,吸附作用是主要途径.喹诺酮类抗生素因其环结构的π-π堆积作用可被吸附剂陶粒优先去除,故在传统滤坝中表现出最佳的去除效果.
3.3 复合填料滤坝对鲈鱼、鳗鱼、生鱼和虾养殖塘水中抗生素总质量浓度的去除率均维持在80%以上,且对喹诺酮类、磺胺类、四环素类、氯霉素类均具有不同程度的去除,其中喹诺酮类和磺胺类抗生素的去除效果最好.由铁屑、陶粒和PBS组成的复合填料可以显著提高对喹诺酮类和磺胺类抗生素的吸附性能.其中,陶粒起到吸附作用,可以通过孔填充和π-π电子供体-受体相互作用的机制去除喹诺酮类和磺胺类抗生素,是抗生素减量化的主要途径;铁屑通过吸附及还原作用去除四环素和氯霉素,且能加速直接电子传递过程促进抗生素降解;PBS通过反硝化共代谢参与抗生素削减;铁屑与PBS均能在不同程度上提升功能微生物的代谢活性,从而加速抗生素的去除;各组分之间相互协同、共同作用有助于实现抗生素的高效广谱去除.
基金
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  • 广东省科技计划项目(2023A1111120014)
文献
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  • 接收时间:2024-11-03
  • 首发时间:2026-02-27
  • 出版时间:2025-06-20
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  • 收稿日期:2024-11-03
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    1.华南理工大学环境与能源学院,广东 广州 510006
    2.广东省环境科学学会,广东 广州 510045

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2种不同金属材料的力学参数

Family		 属数
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Percentage of
total species (%)
Genus		 种数
Number of
species		 占总种数比例
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鹅膏菌科Amanitaceae 2 11 5.26 鹅膏菌属 Amanita 10 4.78
小菇科 Mycenaceae 2 12 5.74 丝盖伞属 Inocybe 5 2.39
多孔菌科 Polyporaceae 8 14 6.70 蜡蘑属 Laccaria 5 2.39
红菇科 Russulaceae 3 23 11.00 小皮伞属 Marasmius 6 2.87
小菇属 Mycena 11 5.26
光柄菇属 Pluteus 5 2.39
红菇属 Russula 17 8.13
栓菌属 Trametes 5 2.39
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