Construction of an Ecological Ditch Based on Periphyton Reactor

[Objective] This study aimed to make the effluent of constructed wetlands in a pond recirculating aquaculture system satisfy aquaculture requirements. [Method] A 150 m long, 0.5 m wide and 0.6 m deep ecological ditch was constructed on the basis of the periphyton reactor theory, to investigate the reoxygenation and deep purification effect of the ecological ditch on the effluent of constructed wetlands. [Result] Experimental results showed that the level of dissolved oxygen （DO） in the effluent of constructed wetlands increased to a range of 4.41-7.91 mg/L and pH val- ue increased significantly by flowing though the ecological ditch （P〈0.05）. DO level in the water of ecological ditch increased linearly with the increasing length of the ecological ditch within the range of 150 m （P〈0.05）. The ecological ditch showed further removal effect on NH4＋-N, IMn and PO4^3 -P in the effluent of the constructed wetlands, with the removal rate of 19.46%, 13.38% and 31.09%, respectively. The total coliform group was also eliminated with the removal rate ranging between 12.5% and 78.13%. [Conclusion] The ecological ditch based on periphyton reactor could improve DO level and further reduce N and P contents in the effluent of the constructed wetlands, which could be used as a matching water-reuse system of constructed wetlands. Key words Water quality; Purification; Dissolved oxygen; Periphyton; Pond aquaculture

Environmental Characterization of Periphyton Community

The present paper deals with the behavior of the Attached Microbial Community (AMC) for water self-purification at different riverbeds in a typical local river. The study quantitatively investigated the problem starting with in-situ sampling. It was found that more biomass of AMC was at riffles with wider distribution than in pools. High current velocity (HCV) plays a negative role at the initial stage of attachment on the riverbed, but HCV aids the community proliferation after stable attachment. External disturbances such as rainfalls and discharges from dams or reservoirs would detach the periphyton depending on the intensity of turbulence in water. However, it was discovered that the flock of periphyton could be restored very quickly because it was not completely removed. Thus, in order to enhance self-purification by periphyton, a suitable configuration of the riverbed must be constructed, and occasional appropriate repair along the channels would improve the decontamination of the river.

Periphyton Biomass Response to Phosphorus Additions in an Aquatic Ecosystem Dominated by Submersed Plants

An experiment was conducted to investigate the response of periphyton biomass to addition of phosphorus (P) in an aquatic ecosystem dominated by submersed plants. Aquatic ecosystems dominated by Hydrilla verticillata (L.f.) Royle and Vallisneria natans (Lour.) Hara were constructed in mesocosm aquaria. Mesocosms were dosed weekly with different P loads (0 μg/L/Week and 100 μg/L/Week) for 17 weeks. Total P (TP), total soluble P (TSP), and soluble reactive P (SRP) concentrations in the waters of mesocosms added with P were significantly higher as opposed to the unenriched control mesocosms. The biomass of the attached periphyton and the cover of floating periphyton remained abundant in P-unenriched control mesocosms throughout the test period with a TP, TSP, and SRP concentration ranging of 0.021 - 0.049 mg/L, 0.004 - 0.024 mg/L, and 0.003 - 0.018 mg/L, respectively. P addition caused the decline of attached periphyton biomass to a low level and loss of floating periphyton. Results indicate that P enrichment in an aquatic ecosystem dominated by submersed plants could reduce attached periphyton biomass and eliminate floating periphyton. The research would be useful to maintain periphyton by reducing excessive P in aquatic ecosystem dominated by submersed plants.

Periphyton response to nitrogen and phosphorus enrichment in a eutrophic shallow aquatic ecosystem

We examined changes in biomass and species dominance of periphyton in response to nitrogen (N) and phosphorus (P) enrichment in 12 mesocosms representing eutrophic aquatic ecosystems. The 100-L mesocosms consisted of lake water and pond sediment, and N and P were applied weekly. Periphyton samples were taken to assess the biomass (as estimated by the concentration of chlorophyll a (chl a)) and to determine which species were dominant. The mean periphyton biomass (chl a) in the P-enriched treatment did not differ from that in the control group, but increased with N enrichment. Compared with that in the control group, the chl a concentration increased with N+P enrichment in the early stages of the experiment, but decreased in the later stages. The decline in periphyton biomass at the later stages of the experiment was due to limited light availability, which resulted from the increased phytoplankton density in the experiment. The nutrient enrichment treatments resulted in changes in the dominant algal species in the periphyton, suggesting that various algal species showed different responses to different nutrients. The results of this study have implications for nutrient management in aquatic ecosystems.

Comparison of two sampling methods when studying periphyton colonization in Lam Tsuen River, Hong Kong, China

We used standard periphyton samplers to examine the colonization pattern of periphytic algae on artificial substrates (glass slides) in Lam Tsuen River, Hong Kong, in dry (winter) and wet (summer) seasons. In each season, six replicated slides were retrieved randomly and replaced by new slides at weekly intervals over a period of 6 weeks. We thus obtained two batches of slides, both with a series of different exposure times (1 to 6 weeks): one batch was set up at the same time (start of the sampling) and the other was harvested at the same time (end of the sampling). Changes in taxonomic composition, species diversity (Shannon-Wiener diversity index), standing crop (in terms of cell density and cell biovolume), and abundance of the abundant algal species were monitored and compared between the two batches of slides. The succession patterns of the periphytic algae were similar between the two batches in each season, while more remarkable differences were observed between the two seasons, suggesting that either batch would be suitable for a colonization study of periphytic algae. The cell density was dominated by diatoms in both seasons, while the cell biovolume was dominated by diatoms in winter and by green algae in summer. The cell density and biovolume attributed to blue green algae was relatively small. Most of the diatom species exhibited similar colonization patterns throughout the experiment, while green algae showed different succession patterns in different seasons or sampling methods, indicating that diatoms are better bio-indicators than green algae for a periphyton colonization study. In general, the diversity indices and the standing crops reached their maximums at around week 4, and they were higher in summer than in winter.

Effi ciency of phosphorus accumulation by plankton,periphyton developed on submerged artifi cial substrata and metaphyton:in-situ observation in two shallow ponds

Phosphorus overenrichment of shallow ponds prevailing in wetlands leads to their eutrophication causing the collapse of those vulnerable habitats.The potential of phosphorus accumulation by periphyton developed on artificial substrata has been investigated in two shallow ponds(Bara?ka and?iroki Rit)in northwest Serbia and compared to the same ability of plankton and metaphyton.The periphyton substrate carrier has been submerged from May to October.Both continuously(CS)and monthly developed(MS)periphyton were sampled.Autotrophic component of all investigated communities has been qualitatively assessed.Maximum accumulation of only 14.7 mg TP/m^(2) was recorded in three-month exposed periphyton CS.MS exposed from July to August reached maximal 12.7 mg TP/m^(2).Plankton community that was characterized by more diverse and abundantly developed algal component was more effective in phosphorus accumulation(0.7 mg/g dry weight)in comparison with dominantly inorganic and diatom-dominated periphyton in Bara?ka.Unstable conditions caused by recent revitalization(dredging organic matter and mud from pond basin—redigging)as well as rapid desiccation of?iroki Rit disabled making an unambiguous conclusion about the efficiency of phosphorus accumulation among different communities,but suggested slight potential of phosphorus harvesting by metaphyton in this pond.Due to the shorter exposure time that brings the reduced risk of unpredictable changes in the ecosystem,as well as the considerable amount of accumulated phosphorus,large-scale application of one-month exposed periphyton developed on artificial substrates would be more advisable for phosphorus harvesting in nutrient affected shallow ponds.

湟水河着生藻类群落结构特征及影响因子分析

为探究高原河流中着生藻类群落结构时空变化特征,该文选择黄河流域上游支流湟水河为对象,于2020年9月(秋季)和2021年6月(春季)对湟水河流域23个点位开展着生藻类调查,探究湟水河着生藻类群落结构时空格局及其对环境因子的响应。结果表明:湟水河共检出着生藻类5门172种,以硅藻门、绿藻门和蓝藻门为主。主要优势种时空差异明显,上游段着生藻类群落主要由小席藻、鞘丝藻和披针形曲壳藻等清洁种构成,中下游段优势种则逐渐出现放射舟形藻和谷皮菱形藻等耐污种。春季湟水河着生藻类平均密度和平均生物量低于秋季,分别为41.55×10^(4)cells/cm^(2)和66.45×10^(4)cells/cm^(2)、0.60mg/cm^(2)和12.50mg/cm^(2)。春秋两季Shannon-Wiener多样性指数均值上游段均高于中下游段。MRPP检验分析发现,着生藻类群落存在显著的时间(春季v.s.秋季)和空间(上游段v.s.中下游段)差异。就β多样性而言,上游段Jaccard指数低于中下游段,春季Jaccard指数高于秋季。RDA分析识别出春季影响湟水河着生藻类群落的环境因子是硝酸盐、总氮、总磷和溶解氧,秋季影响着生藻类群落的是浊度和总氮。研究结果表明湟水河着生藻类群落与水环境因子变化密切相关,应重点关注流域水土流失防治、氮磷营养盐控制减排等管理内容。

周丛生物在土水界面碳氮磷元素迁移转化中的作用

生长在淹水固体表面和土水界面之间的周丛生物由微藻、真菌、细菌等微生物群落和胞外聚合物等物质组成,它们能够相互作用形成更复杂的微生物聚集体,具有生态稳定性,直接影响土-水界面之间的物质循环、能量流动和信息交换。以“periphyton”“periphytic biofilm”“周丛生物”和“周丛藻类”等作为主题检索词,在Web of Science(WOS)数据库和中国知网平台(CNKI)检索2019-2023年相关文献,并通过VOSviewer软件进行共现分析。结果表明,目前关于周丛生物的研究主要集中在其对河流、湖泊、稻田等浅水生态系统中氮磷迁移转化的影响及其调控机制等方面,对碳循环的影响研究相对较少。重点总结了周丛生物对碳氮磷生源要素迁移转化的作用及其机制,并在此基础上提出结合同位素分析等手段研究周丛生物对碳固定和矿化等方面的研究展望。

输水渠系着生藻类多目标水力优化调控研究

输水渠系正面临着生藻类肆虐的危害,亟需通过水力调控方法剥离边壁的着生藻类,然而大范围的着生藻类脱落将进一步造成渠道水质破坏。为了探究同时满足除藻和水质管理双重目标的最优水力调控模式,研究基于着生藻类水力调控模型,以南方某灌区四干渠为仿真实例,运用正交试验和极差分析方法设计不同类型的水力调控方案,对比分析水力调控对边壁着生藻类生物量的剥离效果以及对渠道水质的干扰。研究结果表明,在着生藻类爆发后期用高冲刷流量持续冲刷中等时长的调控模式可极大程度地兼顾藻类调控与水质管理两大需求。实际运用中应结合渠道的着生藻类爆发时段以及流量调度能力,在区间内选择适宜的水力调控组合。

基于着生藻类生物完整性指数的章江健康状态评价

基于河流着生藻类与水质监测数据,采用着生藻类生物完整性指数法(P-IBI)开展章江健康状态评价,为河流生态系统恢复与水生态修复提供科学依据。通过对28个候选生物参数的分布范围、判别能力和Pearson相关性分析,筛选出由蓝藻属总数、蓝藻分类单元相对多度、可运动硅藻百分比3个核心指数组成的章江P-IBI指标体系,并根据其参照点的25%分位数值,确定章江流域河流健康评价标准。结果表明,章江流域P-IBI平均得分为1.91,河流健康状态为一般状态。9个采样点中,2个处于健康状态,2个良好状态,2个一般状态,3个较差状态;相关性分析表明,P-IBI与高锰酸钾指数(COD_(Mn))、五日生化需氧量(BOD_(5))、总磷(TP)、氨氮(NH_(4)^(+))、氧化还原电位(ORP)等水环境指标呈现显著负相关。从空间尺度看,河流健康状态从上游区到下游区呈现逐渐变差的趋势,这与河流沿线城市和产业发展状况密切相关。着生藻类生物完整性指数的河流健康评价结果与实际状况基本吻合,说明采用P-IBI法可以较好地反映河流健康状况。

Effect of periphyton community structure on heavy metal accumulation in mystery snail(Cipangopaludina chinensis):A case study of the Bai River,China

The ratio of metal：P stoichiometry was used to identify the accumulation pathways of heavy metals （V, Cr, Co, Ni, Cu, Cd, and Pb） from periphyton to snails Cipangopaludina chinensis Gray （C. chinensis） in the Bai River watershed. The results showed that periphyton communities were mainly composed of two types of algae, filamentous green algae and unicellular diatoms. The proportion of unicellular diatoms in the periphyton community is a key factor that influences metal accumulation in C. chinensis. The V, Cr, Co, Ni, and Cd content of C. chinensis increased steadily as the corresponding metal content of periphyton increased, but Cu and Pb in the snail did not increase in the periphyton. Mechanisms of V, Cr, and Ni accumulation were found to be related to the proportion of diatoms, while Cd and Pb accumulation were dependent on the physiological characteristics of C. chinensis. The accumulation of Cu in C. chinensis was closely related to their grazing behavior. The metal：P stoichiometry revealed that Cr, Ni, and Cd can reduce the potential ecological risks associated with increased P inputs to the ecosystem. V and Co were considered to be relatively safe, regardless of the periphyton P content. Finally, Pb may not be prone to transfer to higher trophic levels, and may pose the lowest ecological risks of the studied heavy metals, but Cu can cause potential ecological risks when eutrophication has occurred.

不同类型湿地土壤周丛生物细菌群落结构特征及影响因素

为探明不同类型湿地土壤周丛生物细菌群落结构差异及主要影响因素,在上海青西地区的稻田、农用池塘、水上森林和湖泊4种湿地开展了原位培养实验,测定不同湿地土壤理化指标和周丛生物生物量,并通过高通量测序表征了周丛生物细菌群落结构特征.结果表明:周丛生物生物量表现为水上森林>农用池塘>湖泊>稻田,细菌群落多样性则表现为稻田>水上森林和农用池塘>湖泊,且水上森林和湖泊土壤细菌群落组成较为相似.各湿地土壤周丛生物的优势菌为伯克氏菌、假单胞菌、嗜氢菌、黄杆菌等.土壤中较高的碳(C)、氮(N)和磷(P)含量能增加周丛生物细菌群落多样性,而较高的N和P含量则能提高周丛生物细菌群落均匀度.土壤pH值和碱性速效磷(AP)是造成不同湿地土壤周丛生物细菌群落结构差异的主要驱动因素.研究结果可为掌握长三角地区湿地土壤周丛生物细菌群落多样性的空间差异和主要驱动因素提供基础数据.

澧水流域张家界段着生藻类群落结构特征及水质评价

为了掌握澧水流域张家界段着生藻类的群落结构特征,于2023年春季和秋季对流域内15个监测样点开展着生藻类的调查与分析。流域内共监测到着生藻类71种属,隶属于4门44属。春季的平均密度和生物量分别为4.17×10^(6) cells/cm^(2)、2.78 mg/cm^(2),秋季平均密度和生物量分别为1.94×10^(6) cells/cm^(2)、0.30 mg/cm^(2)。着生藻类Shannon-Wiener指数、Simpson多样性指数、Pielou均匀度指数春季的平均值分别为1.778、0.726、0.429,秋季的平均值分别为1.088、0.507、0.288,3个指数值在春季均显著高于秋季,春季和秋季均呈现出支流的多样性和均匀度高于干流。春季各监测样点着生藻类的硅藻营养化指数(TDI)变化范围为43.10~71.86,平均值为60.99,指示水体总体处于富营养化状态。支流的TDI平均值为59.24,处于中营养状态;干流的平均值为63.62,处于富营养状态。秋季各监测样点着生藻类的TDI的变化范围为37.50~68.58,总体平均值为55.38,指示水体总体处于中营养状态。支流的TDI平均值为57.10,干流的平均值为54.48,均处于中营养状态。

拉萨河流域着生藻类群落结构特征及与环境因子的关系

2017年8月对拉萨河着生藻类群落组成、丰度以及多样性指数进行调查,并做了双向聚类分析和典范对应分析(CCA)。结果表明:流域着生藻类种类组成以硅藻门Bacillariophyta(60.5%)为主,其次是绿藻门Chlorophyta(27.9%),蓝藻门Cyanophyta(11.6%);物种平均丰度为20.7万cells/cm^(3),硅藻门占95%,蓝藻门占3.9%,绿藻门占1.1%,种类少、丰度低是拉萨河流域着生藻类群落结构特征的主要特点;着生藻类优势种以菱形藻为主;双向聚类分析表明生境类型的空间异质性是导致相邻区域无法进行聚类的主要原因。CCA排序结果表明。环境指标对拉萨河流域着生藻类丰度的影响较为显著,其中常见物种膨胀桥弯藻受硫化物影响明显,双眉藻和束丝藻受总氮影响明显,而且总氮箭头连线较长,总氮是影响着生藻类群落结构的主要因子;脆杆藻与COD呈正相关关系。

长江江苏段着生藻类群落结构与生物完整性分析

为调查长江江苏段水环境状况,根据区域内13个样点的着生藻类调查结果,采用非参数检验、冗余分析等方法分析藻类群落的时空分布特征,采用随机森林算法对水体理化指标进行降维,应用Qr指数、生物完整性指数及生物多样性指数进行河流健康评价。结果表明:长江江苏段着生藻类以蓝-绿-硅藻为主,群落结构无显著差异性;流域内共检出25种功能群,其演替规律为B+Lo+MP+N+P+W1(夏季)→Lo+MP+N+P(冬季);RDA分析结果表明影响夏季藻类的驱动因子为高锰酸盐指数、氨氮、磷酸根等,冬季的驱动因子为电导率、高锰酸盐指数、浊度、溶解氧等;河流健康评价结果表明长江江苏段水环境较好,其中以研究区中段为最优。

水产养殖水体附着生物对磺胺甲恶唑胁迫响应及其降解效应

研究通过模拟养殖水体,探究附着生物对磺胺甲恶唑(SMX)的胁迫响应及其对SMX的降解途径。结果表明,在5和10 mg/L SMX胁迫下,附着生物胞外聚合物(EPS)分泌较对照组增加31.3%和21.5%,抗氧化能力降低20.6%和31.8%,但生物量的积累没有显著差异。SMX使附着生物抗氧化系统受到损伤,并刺激其分泌更多胞外聚合物以提高耐受性。去除实验结果表明,附着生物会促进SMX的消减,1 g/L附着生物在第14天对SMX的去除率为25.10%。主要降解中间产物有N4-乙酰基-磺胺甲恶唑(TP295)、对苯醌亚胺(TP107)、去砜基磺胺甲恶唑(TP189)和去氨基磺胺甲恶唑(TP238),键的断裂和苯环上氨基反应是SMX降解的两种主要途径。研究结果对评估SMX在养殖水体中的生态风险和利用附着生物去除SMX提供技术支撑。

玄武岩纤维-周丛生物膜-连续流反应器的污水深度净化性能研究

污水处理厂排水中氮、磷等营养盐浓度仍高于地表水,可能导致受纳水体富营养化,需要对其深度净化.周丛生物膜因其在脱氮除磷方面的优异性能而引起越来越多的关注.因此,设计了基于玄武岩纤维-周丛生物膜的连续流反应器(BFP-CFR),研究了不同水力停留时间(HRT)下BFP-CFR对污水深度净化的性能.研究结果显示,BFP-CFR的最佳HRT为48 h.该HRT下氨氮(NH4+-N)、总氮(TN)和总磷(TP)的去除率为79.88%、25.36%和94.83%.经过该反应器处理后,可显著降低污水氮磷污染物浓度.当HRT≥32 h时,氨氮出水浓度可达《地表水环境质量标准》(GB 3838-2002)Ⅳ类标准及以上,总磷浓度符合《地表水环境质量标准》(GB 3838-2002)Ⅱ类标准及以上.反应器出水水质和净化动力学分析表明,由于BFP反硝化能力弱,本反应器水质净化的限制性污染物为总氮,后续需要在促进反硝化功能以强化脱氮方面开展研究.这为今后将BFP运用于污水处理后排水的深度净化提供了数据支撑,指出了需要技术突破的方向.

白洋淀附着藻类的初级生产力及其与水质的关系

附着藻类是湖泊中主要的生产者,尤其是草型湖泊。但与浮游藻类相比,针对附着藻类初级生产的研究还相对较少。采用原位调查与实验模拟相结合的方法测定2014—2015年间白洋淀附植藻类和附泥藻类的现存量和初级生产力,并对附着藻类初级生产与白洋淀水体理化参数的关系进行分析。结果表明,不同采样季节的附植藻类和附泥藻类的叶绿素a分别为34.83—245.22μg/cm^2和26.08—297.40μg/cm^2,无灰干重分别为0.46—5.21g/m^2和0.61—5.81g/m^2。两种附着藻类的生物量都在8月最高,4月和11月最低。空间分布上,南刘庄、府河入口的附着藻类生物量显著高于采蒲台和枣林庄。白洋淀附植藻类和附泥藻类的年均总初级生产分别为494.20mg C m^(-2)d^(-1)和474.45mg C m^(-2)d^(-1),呼吸速率为522.63mg C m^(-2)d^(-1)和508.98mg C m^(-2)d^(-1),净初级生产为-28.44mg C m^(-2)d^(-1)和-34.52mg C m^(-2)d^(-1)。白洋淀附着藻类初级生产力具有明显的时空分布规律,8月最高,6月次之,4月和11月最低,空间分布呈自西向东递减的趋势,在府河入淀口和南刘庄处最高,枣林庄和采蒲台最低。水质较好的区域的净初级生产力为正值,表明这些区域附着藻类以自养型群落为主,水质较差区域的净初级生产力为负值,则该区域以异养型群落为主。运用冗余分析法(RDA)探讨附着藻类与水质因子之间的关系,并采用向前引入法对水质因子进行逐步筛选,Monte Carlo置换检验结果显示,总磷、浮游植物叶绿素a、高锰酸盐指数、氨氮、水温、透明度、溶解氧和氮磷比是影响附着藻类生物量和初级生产的关键水质因子。附着藻类的总初级生产与水体富营养化程度呈正相关关系。

基于固着藻类反应器的生态沟渠构建

为使池塘循环水养殖系统中人工湿地出水更加满足养殖水质要求,在长×宽×深为150m×0.5m×0.6m的养殖池塘排水沟内借助固着藻类反应器原理设计构建了生态沟渠,研究了生态沟渠对人工湿地出水溶氧恢复状况及深度净化效果。研究结果显示,人工湿地出水溶氧经过生态沟渠后显著提高至4.41～7.91mg/L,pH值显著提高(P﹤0.05)。在150m长度范围内,生态沟渠水中溶氧量随着沟渠长度的增加呈线性增加的趋势(P﹤0.05)。生态沟渠对人工湿地出水中NH4+-N、IMn和PO43--P等具有进一步去除效果,去除率分别达19.46%、13.38%和31.09%,对总大肠菌群的去除率范围在12.5%～78.13%。上述结果表明基于固着藻类反应器的生态沟渠能使人工湿地出水溶氧低的状况得到改善,N、P等物质得到进一步去除,可以作为与人工湿地配套的水回用系统。

菹草(Potamogeton crispus)附着物对水体氮、磷负荷的响应

通过实验模拟了10组氮、磷负荷对菹草(Potamogeton crispus)生长期和衰亡期茎叶附着物的影响.结果显示:随着水体氮、磷浓度的升高,菹草附着物的叶绿素a(Chl.a)含量、附着有机物量、附着无机物量和附着物总量均增加,在氮、磷浓度最高的T10组(总氮12.0 mg/L,总磷1.0 mg/L),附着物的总量达到高峰,附着物的Chl.a含量为2.005～4.765mg/g(DW),附着有机物的量为29.027～94.886 mg/g(DW),附着无机物的量为176.881～397.750 mg/g(DW),附着物总量为205.909～492.636 mg/g(DW).在菹草的快速生长期、稳定期和衰亡期,附着物的Chl.a含量、附着有机物量、附着无机物量和附着物总量均存在显著差异,均表现为衰亡期>稳定期>快速生长期,且在各营养盐浓度下均存在这一趋势.菹草衰亡期附着物的Chl.a含量、附着有机物量、附着无机物量和附着物总量分别为稳定期的1.046～1.826、1.046～1.638、1.029～1.858和1.106～1.717倍,为快速生长期的2.324～4.059、2.323～3.640、2.101～3.792和2.280～3.584倍.结果表明水体氮、磷负荷的增加促进了菹草茎叶附着物的生长和积累,加速了沉水植物衰亡.