微生物发酵产物中溶藻物质的提取方法

微生物溶藻是藻类水华控制的研究热点,但目前仍缺乏去除微生物发酵产物中营养物质的方法学研究,对野外水体采集的微囊藻的溶藻活性研究也较少见。比较了不同极性溶剂对溶藻物质的固液萃取效率,研究了分子筛层析对溶藻物质的纯化效果,并测定了各提纯步骤的中间产物对野外水体采集的铜绿微囊藻的溶藻效果。结果表明,在溶藻活性基本保持稳定的前提下,固液萃取串联分子筛层析技术对TOC、TN和TP的总去除率平均高达97%,其中,固液萃取的分级去除率平均高达90%,而分子筛层析的分级去除率平均为70%,且分子筛层析后的产物对野外水体采集的铜绿微囊藻的去除率稳定在60%左右。结果说明,固液萃取与分子筛层析技术可以作为溶藻物质工业化提取与实验室纯化的重要方法。     

梯级电站作用下北江河流秋季藻类水华特征及关键因子分析

为探究梯级电站作用下北江河流藻类水华的关键因子,采集了北江非水华和水华期间水质监测数据,通过相关性和冗余分析探讨北江藻类水华暴发与影响因子之间的关系。结果表明,北江水华正相关影响因子为水温、pH、溶解氧、高锰酸盐指数和总磷,负相关影响因子为总氮、氨氮和流速及流量。在营养盐满足条件的情况下,秋季水温上升,梯级电站作用下水体流动慢,水体分层明显,导致具备悬浮能力的微囊藻处于有利的理化环境,成为绝对优势种,并大量聚集从而发生蓝藻水华。     

粘土矿物处理水体富营养化藻类的研究进展

水体富营养化是当前水环境污染急待解决的问题，因此就粘土矿物在水体富营养化的藻类处理方面进行调查，分析了水华藻类的分类及蓝藻的成因和危害，阐述了粘土矿物在水华处理方面的研究和应用。     

再生水补水河道中流速对浮游藻类生长影响的模拟实验

以再生水为主要补给水源的城市河道中,避免藻类水华是河道调控的重点之一。实际调控中,在控制藻类数量增长的同时,还应关注藻类群落的多样性,降低由于优势藻种的生长而导致水华的可能。在3种水深下各设置7组流速条件,利用环形水槽模拟研究不同组合条件下河道单元水体中浮游藻类的生长情况,通过计算藻类比生长率和藻类群落的香浓-威纳(Shannon-Wiener)指数描述藻类增长速率和群落生物多样性,从而对浮游藻类生长情况进行综合评价。实验结果显示,相同水深下浮游藻类比生长率在0.05~0.08 m·s~(-1)流速范围内出现最大值,而适当降低水深有利于提高水体浮游藻类的群落多样性。综合分析比生长率和多样性得到,在0~0.05 m·s~(-1)流速附近产生水华的潜势较高。     

三峡库区支流回水区水体分层与藻类生长

三峡水库自2003年蓄水以来,库区支流形成了长短不一的回水河段,缓慢的水流和蓄积的营养盐导致回水河段由库区蓄水之初在短时间内出现水华,逐步发展到一年内水华可维持数月。为了研究回水区水环境与水华发生的关系,从2013年4月—12月,对库区北岸最大支流澎溪河的长年回水区——高阳平湖进行了定点监测。监测结果显示,季节性变化及三峡库区特殊的调度方式,导致高阳平湖水体在春、夏和秋季有明显分层。春季水华期间藻类群落结构单一,只出现4门9属,以蓝藻门的微囊藻(Microcystis)、绿藻门的实球藻(Pandorina)和空球藻(Eudorina)为主,秋季藻类结构组成增至7门52属,优势属逐渐被硅藻门的小环藻(Cyclotella)和针杆藻(Synedra)取代,水体各层藻类细胞密度差异消失。研究结果说明高阳平湖水体分层状况影响藻类生长和分布。     

无机碳对浮游藻类生长和群落结构的影响

采用水族箱生态模拟方法,利用碳酸钠和碳酸氢钠作为碱度调节剂设置不同碱度水平,研究了氮磷营养相对充足的试验水体中藻类各相关指标对无机碳的响应,并对试验过程中所测得的理化指标和生物指标进行统计分析.研究表明:富营养水体无机碳含量与藻类叶绿素水平存在着正相关关系;适当增加水体中的无机碳浓度能够改变蓝、绿藻门种类比例;当碱度水平达到一定程度时,铜绿微囊藻可以逐渐成为优势种,并从体系中上升,演替成为水华.     

水华束丝藻与铜绿微囊藻净化水体氮磷及其脂质积累过程比较

选取水华束丝藻与铜绿微囊藻作为典型水华蓝藻,探索水华蓝藻净化水体及合成生物柴油的潜力.采用氮磷浓度为NH4-N 7.5 mg/L,PO43--P 1.0 mg/L的模拟污水,重点考察了在光照强度与温度不同的条件下2种微藻对氮磷的去除率,并利用尼罗红荧光染色法测定了微藻中的中性脂含量.结果表明,2种藻对PO43--P的去除率均较高,最高达到98％,对NH4+-N的去除率稍低,最高为52％.水华束丝藻及铜绿微囊藻均具有较强积累中性脂的能力,适宜的温度与光照条件有利于微藻对氮磷的去除及细胞中脂类的积累.2种藻均在光照强度为12 000 lx时中性脂含量更高.水华束丝藻在温度为18 ～22℃条件下,生长更优,氮磷净化效果较好,中性脂积累能力更强.而铜绿微囊藻在温度为22～ 26℃时表现更好.     

微气泡气浮清除水体中暴发藻类的试验研究

微气泡气浮(微气浮)是快速高效清除水体暴发藻类的一条新途径。在不投加絮凝剂前提下利用微气浮技术清除藻水中的藻细胞。结果表明,气浮装置在进气量0.2~0.3mL/min、溶气水流量400L/h、压力0.65~0.70MPa时,气浮时间较长,微气泡直径最小。以自来水作为溶气水时,微气浮技术对藻水叶绿素a的去除率为62.0%~73.0%,产生的藻渣含水率为96.5%~98.8%。利用微气浮技术进行实际水体除藻时,宜将气浮装置进水口布设在藻类暴发层以下的清水层。综合考虑处理能耗成本及处理效果,溶气水和藻水体积比宜控制在1.4左右,藻类最佳气浮时间为3~6min,藻渣最佳收集时段为微气浮完成后的14min内。     

海藻提取物EClean生物工程技术处理富营养型地表水

以北京动物园的地表水为例,利用引进的海藻提取物EC lean生物工程技术对富营养化地表水进行处理试验研究。试验结果表明:应用此项技术有效降低了水体的浊度、COD和BOD5,水体脱氮降磷明显,藻类细胞密度下降,水体富营养化得到控制,减轻了“水华”藻类的危害。此技术在北京动物园富营养化水体的治理上表现出明显的应用效果。     

海藻提取物EClean生物工程技术处理富营养型地表水

以北京动物园的地表水为例，利用引进的海藻提取物EClean生物工程技术对富营养化地表水进行处理试验研究。试验结果表明：应用此项技术有效降低了水体的浊度、COD和BOD5，水体脱氮降磷明显，藻类细胞密度下降，水体富营养化得到控制，减轻了“水华”藻类的危害。此技术在北京动物园富营养化水体的治理上表现出明显的应用效果。     

赤泥复合剂絮凝处理太湖水华藻与海洋赤潮藻

研究了一种新型赤泥复合剂对太湖夏季水华原水、实验室培养海洋赤潮藻及模拟海水的絮凝除藻降浊性能。结果表明,赤泥复合剂具有良好的除藻降浊效果,对太湖水华藻去除率为97.3%,原水浊度去除率为95%;对海洋小球藻和三角褐指藻2种赤潮藻去除率分别高达99.1%和98.9%;对2种模拟海水的最高除浊率分别为96.3%和95.3%,其剩余浊度均低于4 NTU,从而为治理淡水水华与海洋赤潮提供一种新技术,同时为赤泥综合利用提供一种新途径。     

Application of canonical correspondence analysis to determine the ecological contribution of phytoplankton to PCBs bioaccumulation in Qinhuai River,Nanjing, China

The distribution and interactions of phytoplankton and 14 polychlorinated biphenyls (PCBs) were investigated using canonical correspondence analysis in autumn in the Qinhuai River, Nanjing, China. Concentrations of PCBs in water and algal samples ranged from 33.78 to 144.84 ng/L and from 0.21 to 19.66 ng/L (0.06 to 3.04 ng/mg biomass), respectively. The predominant residual species of PCBs in water samples were tri- through hexachlorobiphenyls, and the predominant residuals in algae were tri-, tetra-, and heptachlorobiphenyls. The degree of eutrophication affected phytoplankton composition and PCB bioaccumulation, and led to sample site- and algal species specificity of PCB residues in the study area. Chlorophyta, Bacillariophyta, and Euglenophyta had strong capacities to take up PCBs, whereas Cyanophyta was less involved in the transfer of these compounds. Bioaccumulation of PCBs by algae may be affected by water quality, chlorination, phytoplankton composition, and the structure of the PCBs and the algal cell walls.     

Influence of algal bloom degradation on nutrient release at the sediment–water interface in Lake Taihu, China

Algal bloom could drastically influence the nutrient cycling in lakes. To understand how the internal nutrient release responds to algal bloom decay, water and sediment columns were sampled at 22 sites from four distinct regions of China’s eutrophic Lake Taihu and incubated in the laboratory to examine the influence of massive algal bloom decay on nutrient release from sediment. The column experiment involved three treatments: (1) water and sediment (WS); (2) water and algal bloom (WA); and (3) water, sediment, and algal bloom (WSA). Concentrations of dissolved oxygen (DO), total nitrogen (TN), total phosphorus (TP), ammonium (NH ₄ ⁺ -N), and orthophosphate (PO ₄ ^3? -P) were recorded during incubation. The decay of algal material caused a more rapid decrease in DO than in the algae-free controls and led to significant increases in NH ₄ ⁺ -N and PO ₄ ^3? -P in the water. The presence of algae during the incubation had a regionally variable effect on sediment nutrient profiles. In the absence of decaying algae (treatment WS), sediment nutrient concentrations decreased during the incubation. In the presence of blooms (WSA), sediments from the river mouth released P to the overlying water, while sediments from other regions absorbed surplus P from the water. This experiment showed that large-scale algal decay will dramatically affect nutrient cycling at the sediment–water interface and would potentially transfer the function of sediment as “container” or “supplier” in Taihu, although oxygen exchange with atmosphere in lake water was stronger than in columns. The magnitude of the effect depends on the physical–chemical character of the sediments.     

Cyst-based toxicity tests. XI. Influence of the type of food on the intrinsic growth rate of the rotifer Brachionus calyciflorus in short-chronic toxicity tests

As important members of zooplankton communities worldwide, rotifers are used extensively in ecotoxicological research. Chronic rotifer tests are, however, dependent on live algal food which adds to the complexity, the variability and the costs of these bioassays. To bypass the former problem, experiments have been undertaken with the freshwater rotifer Brachionus calyciflorus, to determine their intrinsic growth rate (r) when fed for 48 h on a mixture of green algae (Raphidocelis subcapitata recently renamed Pseudokirchneriella subcapitata) obtained from algal beads stored for different periods of time, and other inert foods. All tests have been performed in disposable multiwells, in 1 ml cups each inoculated with 1 rotifer freshly hatched from dried cysts. The majority of the growth tests was performed in eight replicates. The investigations revealed that microalgae from algal beads stored for up to one year, in darkness, at 4 degrees C, supplemented with dried blue-green algae (Spirulina) gave satisfactory rotifer reproduction. The intrinsic growth rates of the rotifers, were, however, dependent on the storage time of the algal beads; the highests r's (0.7-0.8) were obtained with algae from beads not older than four months. Growth tests with combinations of P. subcapitata and other inert feeds revealed that the enrichment food Selco used in aquaculture, also gave the same reproductive output as the combination microalgae/Spirulina. A rotifer growth experiment with 18 replicates showed that the variation coefficient is below 20% when the tests comprise eight replicates. This study demonstrated that microalgae from beads, supplemented by other inert food, open the door for a practical and cost-effective short-chronic rotifer test, which is totally independent of the culturing of both the test species and its live food.     

植物床-沟壕系统的藻类捕获功能

采用原位实验验证植物床．沟壕系统的藻类捕获功能。结果表明：该系统能够有效拦截和捕获源水藻类。在水力梯度驱动下，约35％源水进入高位小沟流经植物床内部根孔结构而汇至低位小沟。低位小沟内叶绿素a（Chl-a）浓度显著低于高位小沟（P=0．0239），其降低比例为11．1％。以植物床．沟壕系统为结构形式的根孔净化区其出水Chl-a浓度较源水整体下降了27．0％。估算该片根孔净化区捕获藻类鲜生物量约122kg／d。石臼漾湿地共含根孔净化区11片，按供水25万t／d计，估算捕获藻类鲜生物量约1100kg／d。     

Uptake,elimination and biochemical effects of azadirachtin and tebufenozide in algae

Abstract

Effects of azadirachtin (isomer A, AZ‐A) and tebufenozide (TF) on freshwater algae were investigated using indoor aquatic microcosms. AZ‐A and TF were dosed at different concentrations to 10‐L microcosms. Chlorophyll and protein contents of the algae, and the concentrations of the insecticides in water and algae were monitored at intervals of time up to 20 d. Chlorophyll and protein contents in algae were inhibited at treatment levels of 3.0 and 4.5 μg AZ‐A/mL, whereas at 1.5 μg/mL, the chemical stimulated the chlorophyll production. The partition of AZ‐A between water and algae was reversible, and the bioconcentration factor (BCF) was low. In contrast, TF dosed at 0.25 to 0.75 μg/mL stimulated algal growth, probably due to its utilization of carbonaceous and nitrogenous intermediates and other breakdown products of TF as nutrients. The BCF was high and the organism functioned as a sink for the chemical. Extension of the laboratory findings to complex outdoor systems are discussed.     

农药对藻类的生态毒理学研究Ⅱ:毒性机理及其富集和降解

随着对农药污染认识的深入,农药对生态系统的初级生产者———藻类毒性以及毒性机制的研究不断增多。农药对藻类的毒性在于破坏藻类生物膜的结构和功能、影响藻类的光合作用、改变呼吸作用以及固氮作用,影响藻类的生理进程并改变其生化组分。开展农药对藻类毒性机理的研究,揭示农药结构—活性关系,对农药的研制和应用,评价农药的生态风险,减少农药对藻类的毒害是重要的。在自然环境中还发现藻能富集和降解农药。因此,对于这些藻来说,农药对藻类的毒害作用和藻类对农药的富集和降解作用可能同时存在。本文综述了农药对藻类的毒性机理以及藻类对农药的富集和降解作用。     

高气泡表面积通量浮选柱气浮除藻的研究

湖泊、水库等水源的富营养化，使藻类去除成为饮用水生产的重要任务。本研究采用高气泡表面积通量浮选柱气浮除藻，考察了混凝剂、气泡表面积通量和浮选柱高度等因素的影响。试验表明，高气泡表面积通量浮选柱气浮可高效地去除绿藻、硅藻和蓝藻，叶绿素a和藻类去除率达95％以上，比传统浮选柱气浮和沉降作业有较大幅度提高。与普通气浮柱比较，高气泡表面积通量浮选柱增加了气泡与藻的碰撞几率，防止因大表观充气速率造成的紊流和扰动，使气泡／藻结合体有相对静态的浮升环境，避免了气泡／藻结合体在浮升过程中的脱落，实现对藻类的迅速捕集和转移。     

Removal of algal blooms from freshwater by the coagulation–magnetic separation method

This research investigated the feasibility of changing waste into useful materials for water treatment and proposed a coagulation–magnetic separation technique. This technique was rapid and highly effective for clearing up harmful algal blooms in freshwater and mitigating lake eutrophication. A magnetic coagulant was synthesized by compounding acid-modified fly ash with magnetite (Fe₃O₄). Its removal effects on algal cells and dissolved organics in water were studied. After mixing, coagulation, and magnetic separation, the flocs obtained from the magnet surface were examined by SEM. Treated samples were withdrawn for the content determination of chlorophyll-a, turbidity, chemical oxygen demand (COD), total nitrogen, and total phosphorus. More than 99 % of algal cells were removed within 5 min after the addition of magnetic coagulant at optimal loadings (200 mg L^?1). The removal efficiencies of COD, total nitrogen, and phosphorus were 93, 91, and 94 %, respectively. The mechanism of algal removal explored preliminarily showed that the magnetic coagulant played multiple roles in mesoporous adsorption, netting and bridging, as well as high magnetic responsiveness to a magnetic field. The magnetic–coagulation separation method can rapidly and effectively remove algae from water bodies and greatly mitigate eutrophication of freshwater using a new magnetic coagulant. The method has good performance, is low cost, can turn waste into something valuable, and provides reference and directions for future pilot and production scale-ups.     

高气泡表面积通量浮选柱气浮除藻的研究

湖泊、水库等水源的富营养化,使藻类去除成为饮用水生产的重要任务.本研究采用高气泡表面积通量浮选柱气浮除藻,考察了混凝剂、气泡表面积通量和浮选柱高度等因素的影响.试验表明,高气泡表面积通量浮选柱气浮可高效地去除绿藻、硅藻和蓝藻,叶绿素a和藻类去除率达95%以上,比传统浮选柱气浮和沉降作业有较大幅度提高.与普通气浮柱比较,高气泡表面积通量浮选柱增加了气泡与藻的碰撞几率,防止因大表观充气速率造成的紊流和扰动,使气泡/藻结合体有相对静态的浮升环境,避免了气泡/藻结合体在浮升过程中的脱落,实现对藻类的迅速捕集和转移.