田间施用锌肥对小麦籽粒镉累积的影响及施用风险

锌（Zn）和镉（Cd）的交互作用是近年来小麦Cd污染防治的重要研究方向.以华北地区典型小麦田为研究对象,通过田间试验,探究Zn肥对土壤-小麦系统Cd污染的控制效果和施用风险.结果表明,低用量Zn处理下,济源和开封两地小麦籽粒Cd含量均呈下降趋势,与对照相比下降幅度分别为33.4%和25.3%.高用量Zn处理下,两地小麦籽粒Cd含量不降反升,与低用量Zn处理下小麦籽粒Cd含量相比增幅为22.4%和34.2%.施Zn后两地土壤Zn总量和有效态含量均有显著升高,且造成了土壤Cd的部分活化.典型相关分析（CCA）显示,当土壤ω（Zn）小于200 mg ·kg^-1时,土壤Zn是土壤-小麦系统Cd富集的主要影响因子,而当土壤ω（Zn）大于200 mg ·kg^-1时,土壤Cd的活化是影响小麦籽粒Cd富集的主要原因.回归分析显示土壤Cd/Zn降至0.0089时（低用量Zn）,Zn和Cd表现出拮抗效应,土壤Cd/Zn降至0.0078时（高用量Zn）,Zn和Cd表现出协同效应.针对区域Cd污染特征,调整Zn肥用量可以提高污染防治效率并避免加剧Cd污染危害.     

Drivers of microbial beta-diversity in wastewater treatment plants in China

As one of the most well-documented biogeographic patterns, the distance-decay relationship provides insights into the underlying mechanisms driving biodiversity distribution. Although wastewater treatment plants (WWTPs) are well-controlled engineered ecosystems, this pattern has been seen among microbial communities in activated sludge (AS). However, little is known about the relative importance of environmental heterogeneity and dispersal limitation in shaping AS microbial community across China; especially they are related to spatial scale and organism types. Here, we assessed the distance-decay relationship based on different spatial scales and microbial phylogenetic groups by analyzing 132 activated sludge (AS) samples across China comprising 3,379,200 16S rRNA sequences. Our results indicated that the drivers of distance-decay pattern in China were scale-dependent. Microbial biogeographic patterns in WWTPs were mainly driven by dispersal limitation at both local and national scales. In contrast, conductivity, SRT, and pH played dominant roles in shaping AS microbial community compositions at the regional scale. Turnover rates and the drivers of beta-diversity also varied with microorganism populations. Moreover, a quantitative relationship between dispersal limitation ratio and AS microbial turnover rate was generated. Collectively, these results highlighted the importance of considering multiple spatial scales and micro-organism types for understanding microbial biogeography in WWTPs and provided new insights into predicting variations in AS community structure in response to environmental disturbance.     

低温环境下人工湿地植物组配对养殖废水的处理效果研究

强化低温环境下人工湿地的污水处理能力,对于促进人工湿地的应用推广具有重要的意义。本研究利用绿狐尾藻(Myriophyllum aquaticum)和菖蒲(Acorus calamus L.)两种湿地植物,在室外低温环境下(＜15℃),研究人工湿地植物组配对不同负荷养殖废水的处理效应及关键影响因素。结果表明,在不种、单种和不同顺序混种绿狐尾藻(M.aquaticum)和菖蒲(A.calamus L.)处理下,菖蒲+绿狐尾藻组合湿地(AM)对TN、TP和COD去除率均为最高,在低负荷和高负荷环境下平均去除率分别为74.2%、71.3%、83.0%和67.3%、81.9%、75.3%。相较于空白对照和植物单种的湿地系统,植物混种系统的DO较高,且AM处理在低负荷和高负荷环境下均能保持较高的C∶N。根据Pearson相关性以及PCA分析,DO与TN、NH⁺₄-N去除率显著相关(P<0.05),C∶N与COD去除关联性最好。可见,菖蒲+绿狐尾藻植物组合可能通过改善DO和C∶N等湿地微环境条件来增强湿地对污染物的去除,能够作为低温环境下强化湿地对污染物去除的一种有效措施。     

Assessing the “design paradox” with life cycle assessment: A case study of a municipal solid waste incineration plant

One of the most important processes in an integrated waste management system is incineration, which, among the different waste management disposal options still remains a critical waste treatment system. New dynamics and approaches have to be developed to embrace such a wide and complex topic, and better knowledge and assessment of incineration are strategically significant to define future environmental scenarios.Life cycle assessment (LCA), as a tool to optimise process-operating conditions and to support decision-making process, is often applied to investigate processes under design in various sectors, since choices made in the development phases can affect the future environmental profile. However, even if the greatest opportunity to improve a process from an environmental perspective is during the design phase, at the same time the knowledge is limited, in accordance with the so-called “design paradox”.Thus, in this context, this study used LCA methodology to quantitatively assess the extent to which the environmental impact of an incineration line reflects the environmental burdens perceived during the design phase. A comparative LCA was conducted at the design phase and under operating conditions at an Italian municipal solid waste incineration plant.The outcomes of the study indicated that for almost all of the categories analysed, the impacts associated with the process under design overestimated the impacts associated with the operating process, with the exception of climate change and water depletion. The results suggested that after the conduction of an LCA at the design phase of a process, an LCA of the operative conditions should be carried out to verify how much the over- or under-estimations affected the results.     

施用污泥堆肥品对土壤和植物总汞及甲基汞的影响

采用田间试验,分别施加两种不同的污泥堆肥品(含生物质炭和不含生物质炭),研究污泥堆肥土地利用过程土壤及植物总汞和甲基汞变化情况、迁移转化特征和植物富集能力.结果表明,施加污泥堆肥品会引起土壤总汞和甲基汞含量升高,但总汞含量低于国家土壤环境质量二级标准.生物质炭堆肥品可能促进土壤汞的甲基化,但不同处理土壤甲基汞/总汞(Me Hg/THg)比值较低.植物成熟后不同处理植物总汞含量明显低于幼苗期,而甲基汞含量均高于幼苗期.施加两种堆肥品对植物富集总汞没有明显差异,但对甲基汞富集影响显著.施加生物质炭堆肥品的土壤甲基汞含量明显高于施加无生物质炭堆肥品的土壤,而植物甲基汞含量则相反.生物质炭的加入可能有利于土壤甲基汞形成,但不利于甲基汞的迁移,抑制植物对土壤甲基汞的富集.植物对甲基汞的富集能力较强(富集系数为1.24~14.63),需关注长期施肥带来的土壤环境汞生态风险.     

5种沉水植物的氮、磷吸收和水质净化能力比较

选取轮叶黑藻(Hydrilla verticillata)、苦草(Vallisneria natans)、金鱼藻(Ceratophyllum demersum)、穗状狐尾藻(Myriophyllum spicatum)、微齿眼子菜(Potamogeton maackianus)等5种乡土沉水植物为研究对象,在室内静水条件下对其氮、磷吸收和水质净化能力进行比较研究.结果表明,不同沉水植物试验前后的含水率差异较小,变化范围为89.8%~92.0%,但净增生物量差异较大且均存在显著性差异,变化范围(干重计)为1.52~12.92 g·m-2,其中净增生物量最高的轮叶黑藻是最低的微齿眼子菜的8.5倍.不同沉水植物试验前后植株氮、磷含量变化范围分别为26.54~34.44 g·kg~(-1)和2.54~4.01g·kg~(-1),其中金鱼藻的植株氮、磷含量相对偏高.不同沉水植物处理的水质TN、TP去除率范围分别为63.8%~83.1%和49.2%~70.8%,均显著高于CK处理的39.9%和36.9%,去除率大小顺序均为:轮叶黑藻金鱼藻苦草穗状狐尾藻微齿眼子菜CK.不同沉水植物处理的水质TN、TP去除率与净增生物量存在较高相关性,相关性系数分别为0.994(P0.01)和0.996(P0.01).不同沉水植物氮、磷直接吸收贡献率范围分别为1.5%~13.3%和2.2%~13.2%,扣除水体自身自净能力后沉水植物的增效作用贡献率范围分别为22.5%~29.9%和10.1%~20.6%,表明水质净化氮、磷去除过程中沉水植物的增效作用要大于直接吸收作用.     

2015年中国城镇污水处理厂达标排放评估

基于2015年3364座中国城镇污水处理厂在线监测数据(小时级),借鉴欧盟排放标准达标评估方法,分析了不同维度条件下,城镇污水处理厂污染物排放达标率情况(日均值)。结果表明:按污水厂污染物全年日均值95%保证率,2015年全国城镇污水处理厂化学需氧量(COD)、氨氮(NH_3-N)排放达标率分别为94%、80%。从省份来看,天津、江西、河南、四川和山东COD达标率均为100%,天津、山东、江苏NH_3-N达标率分别为100%、95%和95%;从处理厂排入水体的类型来看,排入Ⅳ类、Ⅴ类水体的排口达标率较高,达到了97%以上。中国在线监测污水处理厂处理工艺主要为氧化沟、A~2/O、SBR,从污水处理工艺的达标率来看,氧化沟、A~2/O等工艺处理COD、NH_3-N效果较好。     

日本污水处理厂的监测探讨

探讨了日本滋贺县湖南中部净化中心化验室水质分析管理、在线仪表管理、监测数据分析利用和相关监测试验.介绍了化验室水质分析项目,常用水质分析仪器的维护管理,工艺在线仪表监测管理,以及常用在线仪表的维护管理等内容.揭示了溶解氧、氧化还原电位、五日生化需氧量污泥负荷、污泥龄、好氧污泥龄和PAC添加量等监测数据的综合分析利用有助于提高脱氮除磷效率和节约运行成本.指出相关监测试验是提升运行管理水平的重要手段.     

不同营养水平下沉水植物的抑藻效应

控制水体的营养盐浓度,尤其是磷浓度,可以控制藻类水华的发生.然而,经济成本很高.相对藻类而言,沉水植物对水体营养盐升高敏感性更低,且沉水植物的存在可以改变藻类的群落结构和生长速率.为探讨沉水植物在营养盐与蓝藻水华控制关系中的作用,本研究探讨了有无水生植物存在下,不同营养盐浓度(磷浓度分别为0.025、0.05、0.1 mg·L~(-1),对应地表水Ⅲ～Ⅴ类)下蓝藻水华暴发(chlorophyll-a10μg·L~(-1))的频率、强度和持续时间.结果表明,初始藻浓度为5μg·L~(-1)和10μg·L~(-1)情况下,3种磷浓度下都会发生水华,磷浓度的升高会导致蓝藻水华暴发的强度和持续时间增加.然而,在加入水生植物金鱼藻后,初始藻浓度为5μg·L~(-1)的条件下,没有形成水华.初始藻浓度为10μg·L~(-1)的条件下,各处理组在实验初始时会形成短暂水华,之后,各处理组的叶绿素a浓度均低于10μg·L~(-1),显示蓝藻生长受到抑制.因此,沉水植物存在情况下,在营养盐较高的水体,蓝藻水华也不会发生.     

植物微生物燃料电池修复Cr(Ⅵ)污染湿地土壤及机理研究

本研究通过引入沼生植物香蒲构建植物微生物燃料电池系统(P-MFC)修复Cr(VI)污染湿地土壤,考察了植物、不同初始Cr(VI)浓度对系统产电及去除效率的影响.结果显示,香蒲种植能显著提高P-MFC运行性能,系统最大功率密度与Cr(VI)去除率分别提高至23.83 mW·m~(-2)、33.01%,随着Cr(VI)暴露浓度的升高,系统运行性能降低.利用P-MFC修复Cr(VI)污染土壤过程中,电化学还原作用是Cr(VI)去除的主要机制,近90%的Cr(VI)通过电化学还原去除,系统中0.3%～1.86%的Cr(VI)被香蒲吸收富集,3.5%～9.5%的Cr(VI)被微生物与还原性有机物直接还原.通过高通量测序技术分析发现,香蒲种植与低浓度Cr(VI)暴露下阳极微生物群落多样性较大,优势门类Proteobacteria相对丰度最高为63.9%,较未种植香蒲与高浓度Cr(VI)暴露条件下提高了3.4%～19.0%,电化学活性微生物Geobacter相对丰度最高为12.4%,较未种植香蒲与高浓度Cr(VI)暴露条件下提高了4.4%～6.8%.系统中对Cr(VI)具有较强耐受性与还原能力的Acinetobacter、Bacillus占有较大比例,且相对丰度随暴露浓度升高而增大,最高分别为19.0%、14.4%,进一步说明微生物群落在Cr(VI)去除上发挥了一定作用.上述结果表明,P-MFC在去除湿地土壤Cr(VI)污染方面具有良好的潜力.