巢湖和太湖微囊藻毒素差异性研究

采用固相萃取高效液相色谱法检测巢湖和太湖水体中5种微囊藻毒素(MCs)——MC-RR、MC-YR、MC-LR、MC-LA、MC-LY的含量。结果表明,巢湖水体中的MCs以MC-RR、MC-LA、MC-LY为主,太湖水体主要以MC-RR、MC-LR、MC-LA为主,其中太湖MC-LR的最高质量浓度为2.558μg/L,超过《地表水环境质量标准》(GB 3838—2002)中对集中式生活饮用水地表水源地的限定值(1μg/L)。分析巢湖和太湖水体中MCs与水质指标之间的相关性,发现同种MCs与两湖环境因子的相关性存在明显差异。逐步回归拟合结果表明,氨氮和DO分别能与巢湖MC-LR、MC-LY进行拟合;Chl-a、TOC能与太湖MC-LR回归拟合,TOC能与太湖MC-YR进行拟合。由于多数MCs不能通过水质指标的拟合结果来预测,因此在未来研究中需结合环境因子和MCs的遗传机制来共同分析MCs在水中的分布规律。     

太湖流域小型水源性湖泊氮、磷时空分布及营养状态评价

2009年11月至2010年10月,对太湖流域小型水源性湖泊20个采样点水体的TN、TP、NO3--N、NH4+-N、NO2--N以及PO43-等水质因子进行测定分析,讨论了氮、磷时空分布特征,并评价其富营养化程度。结果表明,TN、TP年均值分别为1.50、0.05mg/L;TN、TP的季节性变化规律具有一定差异,TN浓度为冬、春季高于夏、秋季,而TP浓度为2009年11月至2010年3月高于其他月份。由于受入湖河流的影响,TN、TP的空间分布格局较为相似,均表现为西南部高于东北部、入湖口分别高于湖中心和出湖口。NO3--N年均值为0.68mg/L,浓度变化趋势呈双峰型(2010年3、9月为峰值),基本同TN的变化趋势一致,空间分布表现为入湖口分别低于湖中心和出湖口(除冬季外),显示水体硝化过程对硝酸盐的贡献。NH4+-N年均值为0.23mg/L,从2010年4月开始浓度逐渐升高,到2010年7月达到全年最高值,其浓度空间分布特征表现为入、出湖口均高于湖中心(除秋季外)。NO2--N和PO43-的年均值都较低,均为0.01mg/L(以P计),时空差异不明显。根据CARLSON提出的营养状态指数法计算分析可知,该湖泊冬、春季处于中营养状态,夏、秋季营养状态略高,且磷是全年初级生产力的限制因子。     

池塘养殖水体pH、营养盐、叶绿素a及3种磺胺类抗生素分布特征及其相关性分析

为了解农村池塘养殖水体的水质情况,分析了湖北宜东平原34个农村分散养殖鱼塘水体中pH、叶绿素a、总氮(TN)、总磷(TP)及3种磺胺类抗生素(SAs,即磺胺二甲嘧啶、磺胺甲噁唑及磺胺异噁唑),并讨论了它们之间的相关性.结果表明,所监测鱼塘水体pH值差异较小,范围为7.26 ～8.96,但鱼塘之间的TN、TP及叶绿素a含量差别大,其含量范围分别为0.074 ～47.185 mg/L、0.007 ～ 1.311 mg/L及4～421 μg/L.其中有85.29％的鱼塘水体TN含量劣于地表水Ⅴ类标准,17.65％ TP劣于Ⅴ类,只有3个鱼塘的叶绿素a含量小于10 μg/L,水体富营养化严重.鱼塘水中3种SAs的浓度范围为23 ～ 828 ng/L,其检出率顺序为磺胺异噁唑(47％)＞磺胺甲噁唑(18％)＞磺胺二甲嘧啶(6％).对所考察因子的相关性研究表明,鱼塘养殖水体的pH、TN及TP无相关,但磺胺二甲嘧啶与TN/TP呈显著正相关(r=0.345,P=0.05).叶绿素a与水体中TN及TP的关系呈较好的幂指数函数关系,而且TP为浮游植物的生长限制因子.     

再生水补水人工湖水域聚类划分及水质指标时空分布特征

以天津临港生态湿地公园人工湖水质和水文的调查数据为依据,运用相关性分析和聚类分析将研究水体划分为3类水域。研究了不同聚类水域水温、DO、p H、氮磷营养元素以及Chla的时空分布特征。结果显示,DO、硝态氮、TN、TP与流速呈显著正相关,水温、SS与流速呈显著负相关。Chla与水深呈显著正相关,TN、硝态氮与水深呈显著负相关。断面宽度与所有理化指标均没有显著相关性。3种水域在监测期间N/P比(TN/TP)显示湖泊正在从氮营养元素限制型(N/P7)向适宜藻类生长的营养类型过渡。富营养化评价显示,再生水为补水的临港人工湖在监测期间水质已处于中度富营养,主要贡献因子为COD和TP。     

临江河回水区营养盐及富营养化特征分析

以2008年3～9月对库区次级河流临江河回水区水质的调查为依据，分析了临江河回水区氮、磷营养盐的污染分布及富营养化特征。结果表明，临江河回水区氨氮(NH₃-N)、总氮(TN)的浓度在7月中旬达到最小值，分别为1.963和5.128 mg/L, 之后在9月初出现峰值，而磷酸盐(PO^3-₄-P)和总磷(TP)的浓度却呈现出先增加后下降的变化规律；氮主要来自点源污染，而磷受面源污染影响较大；溶解性无机氮(DIN)和PO^3-₄-P是TN与TP的主要存在形态，平均分别占TN和TP的85.3%和77.8%,而DIN又以NH₃-N为主。营养盐浓度呈现出回水区中游最高，回水末端次之，河口处最低的空间分布特征。叶绿素a（Chl-a）的浓度在4月和9月出现峰值，其空间分布特征与营养盐的类似。研究表明，临江河回水区在重度污染的情况下，即便是河流型水体也可能发生富营养化；流速对Chl-a浓度的显著影响呈指数关系。     

鸣翠湖间隙水与上覆水中氮、磷的分布特征研究

为探究湖泊沉积物与水体中氮、磷的迁移规律,收集鸣翠湖5个代表性采样点的间隙水和上覆水,测定TP、TN、氨氮等浓度,分析氮、磷的分布特征。通过相关性分析对间隙水和上覆水中氮、磷的关系作初步探讨,最后对鸣翠湖水体富营养化状况进行评价。结果表明:鸣翠湖间隙水和上覆水中氮、磷浓度梯度明显,具有间隙水向上覆水释放的趋势,其湖泊富营养化污染的内源作用已经非常明显。间隙水中TP、TN、氨氮的平均质量浓度分别为0.15、3.83、2.23mg/L;上覆水中TP、TN、氨氮的平均质量浓度分别为0.07、2.17、0.24mg/L。鸣翠湖水体已呈现出富营养化状态。     

台风对太湖微囊藻群体大小的影响

为了解台风对太湖微囊藻群体大小及在水体中分布的影响,于2013年7月12—16日台风苏力经过太湖期间,测定并分析了风速、总氮、总磷、微囊藻群体大小和Chl-a浓度变化。结果表明,台风过程中水体中总氮和总磷浓度分别从1.33 mg·L~(-1)和0.07 mg·L~(-1)提高到2.70 mg·L~(-1)和0.23 mg·L~(-1),48 h内微囊藻群体平均大小从32.80μm增加到69.43μm。此外,水体中Chl-a浓度与风速显著正相关(r=0.472,P0.01),即风速越大,Chl-a浓度越高,14日22:10达到最大值(13.30μg·L~(-1))。研究表明,强风浪扰动(如台风)能够引起水体中氮磷浓度的提高,改变微囊藻在水体中的分布,并且能够促进微囊藻群体的迅速增大。     

南太湖富营养化调查及评价

2009年4月至2010年4月,综合利用TN、可溶性无机氮(DIN)、叶绿素a(Chl-a)、透明度(SD)、TP和浮游植物等指标,通过参数法、综合营养状态指数法及浮游植物优势种法评价了南太湖富营养化水平。结果表明:(1)南太湖夹浦、新塘、小梅口、幻溇4个断面的TN质量浓度为1.80~2.53 mg/L,TP质量浓度为0.08~0.11 mg/L,DIN质量浓度为0.55~1.10 mg/L,Chl-a质量浓度为6.4~19.2μg/L。(2)夹浦、新塘和小梅口3个断面的综合营养状态均为轻度富营养,幻溇断面为中营养。南太湖综合营养状态水平呈现出由西南向东北逐级递减的趋势。(3)南太湖的浮游植物优势种的演替过程为鱼腥藻(Anabeana)→微囊藻(Microcystis)→拟浮丝藻(Planktothricoides),但均属于蓝藻。因此,浮游植物优势种法评价的南太湖富营养化水平为重富营养化,但该方法由于不确定性较大,一般只作为参考。     

温州市鳌江水系叶绿素a和氮、磷的分布特征与富营养化研究

为探究温州市鳌江水系氮、磷污染特征,选取17个采样断面,于2022年1月、2022年6月进行两次水样采集,并据此对水体理化指标、氮磷浓度与叶绿素a(Chl-a)的时空分布特征进行研究,利用灰色关联度分析方法判别理化指标、氮磷营养盐与Chl-a的相关性。同时运用氮磷比判定鳌江水系的营养限制因子,并初步判定鳌江水系的富营养化程度。结果表明：Chl-a、氮磷营养盐浓度存在时空差异;根据灰色关联度判定总氮、溶解性无机氮、氨氮是鳌江水系枯水期Chl-a的主要影响因子,氨氮、溶解性总磷和可溶性磷酸盐是丰水期Chl-a的主要影响因子;鳌江水系在丰水期主要表现为磷限制状态,枯水期主要表现为氮、磷共同限制状态;鳌江水系富营养化评价结果显示丰水期富营养化较严重,下游河段较上游河段严重。     

基于季节性Kendall检验和重标极差分析法的阳澄湖水质变化趋势分析

为掌握《苏州市阳澄湖生态优化行动实施方案》实施以来阳澄湖的水质变化趋势,结合季节性Kendall检验与重标极差分析(R/S)法,对2013—2018年阳澄湖及其6条主要入湖河道的主要水质指标——高锰酸盐指数(IMn)、氨氮(AN)、总磷(TP)、总氮(TN)过去和未来的水质变化趋势进行分析及预测。研究结果表明:(1)阳澄湖除TP无显著升降趋势外,其余指标均有不同程度的下降趋势;(2)主要入湖河道的TN均无显著升降趋势,其余指标的改善效果较明显;(3)未来阳澄湖及主要入湖河道水质总体将会持续改善,但有个别监测点位的TP浓度未来仍有可能会上升。可见,近年来阳澄湖生态优化行动卓有成效,但TP已成为影响水质达标的最大制约因素,还需进一步提出针对性治理措施。     

Variation of Microcystis and microcystins coupling nitrogen and phosphorus nutrients in Lake Erhai,a drinking-water source in Southwest Plateau,China

Lake Erhai is the second largest lake of Southwest China and an important drinking water source. The lake is currently defined as the preliminary stage of eutrophic states, but facing a serious threat with transfer into intensive eutrophication. The present study examined the dynamics of Microcystis blooms and toxic Microcystis in Lake Erhai during 2010, based on quantitative real-time PCR method using 16S rRNA gene specific for Microcystis and microcystin systhesis gene (mcy), and chemical analysis on microcystin (MC) concentrations. Total Microcystis cell abundance at 16 sampling sites were shown as an average of 1.7?×?10⁷ cells l^?1 (1.3?×?10²–3.8?×?10⁹ cells l^?1). Microcystin LR (MC-LR) and microcystin RR (MC-RR) were the main variants. The strong southwesterly winds, anticlockwise circular flows and geographical characteristics of lake and phytoplankton community succession impacted the distribution patterns of Chl a and MC in the lake. The concentration of Chl a and MC and abundances of total Microsytis and MC-producing Microsystis (MCM) were shown to be positively correlated with pH, DO and TP, negatively correlated with SD, NO₃-N, TN/Chl a and TN/TP, and not correlated with NH₄-N, TN, dissolved total nitrogen (DTN) and water temperatures. When TN/TP decrease, Microcystis tended to dominate and MC concentrations tended to increase, suggesting that the “TN/TP rule” can be partially applied to explain the correlation between the cyanobacterial blooms and nutrients N and P only within a certain nutrient level. It is speculated that N and P nutrients and the associated genes (e.g., mcy) may jointly drive MC concentration and toxigenicity of Microcystis in Lake Erhai.     

大莲湖生态修复工程对水质影响的研究

大莲湖是淀山湖水系中富营养化程度较为严重的湖泊,从2008年12月起,为了改善水质,重建大莲湖生态环境,采取了塑造地型、设计护坡、调整水系、配置植物、构建快速渗透系统等措施治理大莲湖,分析了生态工程完工后半年多来大莲湖水质变化状况;结果表明:经过生态修复后,其水质得到明显改善,COD、总氮和总磷分别比生态区外的鱼塘下降了68%、62%和74%;氨氮平均为0.27 mg/L,亚硝态氮平均0.02 mg/L,叶绿素a平均下降了72%。因此,将工程措施与生物净化方法有机结合在一起,并因地制宜地构建快速渗透系统是湖泊治理的一条有效途径,该修复工程的成功实施也为其他生态修复工程提供了技术支持。     

Detection of free microcystins in the liver and muscle of freshwater fish by liquid chromatography-tandem mass spectrometry

MC analysis of biological tissue is considered to be very difficult due to the lack of validated methods. This is the primary limiting factor for monitoring potential risks in both the flesh of aquatic organisms and the aquatic ecosystem. In this study, an effective method to determine free MCs (MC-LR and MC-RR) in the muscle and liver tissues of freshwater cultured fish was developed using solid-phase extraction (SPE) and liquid chromatography-tandem mass spectrometry (LC/MS-MS). The extraction solvent, time of extraction, eluent and purification of the extract were optimized. Various SPE cartridges were also investigated. In this optimized analytical procedure, an 85% methanol/water solution (v/v) was selected as the extraction solvent, after which the extracts were purified by removing fats and proteins; a HLB cartridge was chosen for MCs enrichment; and 90% methanol containing 0.02% formic acid/water solution (v/v) was used as the eluent. Under the optimized pretreatment conditions and instrument parameters, good recoveries of MC-LR and MC-RR were obtained at three concentrations (0.5, 1.0 and 2.0 µg g^?1 dry weight (DW)), with values ranging from 92.5 to 98.3% and 92.1 to 98.6%, respectively. The method detection limit (MDL) for muscle samples was 0.5 µg kg^?1 and 0.4 µg kg^?1 (DW) for MC-LR and MC-RR, respectively. The MDL for the liver samples was 0.8 µg kg^?1 (DW) for both MC-LR and MC-RR. The developed procedure was successfully applied to analyze MCs in the muscle and liver of fish samples collected from a Chinese freshwater aquaculture pond during bloom seasons. The MC-LR concentrations ranged from below the MDL to 4.17 µg kg^?1 and the MC-RR concentrations ranged from below the MDL to 2.64 µg kg^?1.     

巢湖入湖河流沉积物中有机磷的形态分级研究简

为识别巢湖流域污染物的特征、来源及其沉积物有机磷各形态分布与富营养化的关系，测定了7条巢湖入湖河流沉积物中有机磷各形态的含量，分析不同污染类型入湖河流沉积物中有机磷各形态分布的差异及与其他因素间的相关性。研究发现，不同污染类型入湖河流沉积物中水土保持控制型河流沉积物中有机磷各组分的相对含量顺序为残渣态P_o >富里酸-P_o >HCl-P_o >胡敏酸-P_o >NaHCO₃-P_o，平均的相对比例为7.5：3.1：1.9：1.5：1.0，而城市污染控制型和面源污染控制型河流沉积物中有机磷各组分的相对含量顺序恰好相同，面源污染控制型河流沉积物P_o各形态含量低于城市污染控制型和水土保持控制型河流。中活性P_o和OM、TP、P_i、P_o、TN、NaHCO₃-P_i、NaOH-P_i呈正相关，非活性P_o与P_o、NaOH-P_i呈显著正相关关系，反映了中活性P_o很容易转化为生物可利用磷和非活性P_o，且非活性P_o仍然具有潜在的生物活性。     

大型水生植物对骆马湖氮、磷元素的影响

对骆马湖有草区和无草区水体和沉积物中氮、磷元素含量分析,结果表明:无草区水体中总氮、总磷含量高于有草区;有草区表层沉积物总氮含量随时间变化明显,而无草区表层沉积物总氮含量随时间的变化很小;有草区与无草区表层沉积物中总磷含量的时间变化并无明显差异;有草区表层沉积物总氮含量基本上均高于无草区,而有草区表层沉积物总磷含量均要低于无草区。骆马湖有草区与无草区采样点沉积物碱性磷酸酶活性大小在58.41～315.07 mg/(kg.h)范围内变化,有草区的碱性磷酸酶的活性普遍低于无草区的碱性磷酸酶活性。在湖泊中种植大型水生植物确实可以减少水体污染,达到净化水质的目的。     

夏季富营养化滆湖中沉水植物群落重建及水质净化效果

通过滆湖原位围隔试验分析了不同单种及混种沉水植物群落随环境变化的生长状况及对水质的净化效果.结果表明:(1)夏季,沉水植物生物量的平均值与透明度/水位存在显著线性相关性,进一步表明沉水植物的生长在很大程度上依赖于光强和水深.(2)各植物区(除马来眼子菜区外)的高锰酸盐指数、TN高于空白对照区.(3)对比空白对照区,苦草...     

Eutrophication of Lake Tasaul, Romania—proposals for rehabilitation

Lake Tasaul on the Black Sea coast is highly eutrophic, but not strongly contaminated (heavy metals, PAHs, and organochlorine pesticides). Cyanophytes dominate phytoplankton by 67–94% and form frequent algal blooms. High primary production (up to 270 mg C_ass/m².h) and algal biomass (maximum chlorophyll a concentration 417 μg/l) may be controlled by light, as Secchi depth is often below 1 m. The main tributary, Casimcea River, provides high quantities of suspended matter and about 3 tons TP/year and 660 tons TN/year. Based on chemical and biological analysis as well as fishery investigations, we provide recommendations for Lake Tasaul rehabilitation.     

In situ studies on the distribution patterns and dynamics of microcystins in a biomanipulation fish--bighead carp (Aristichthys nobilis)

The distribution and dynamics of microcystins in various organs of the phytoplanktivorous bighead carp were studied monthly in Lake Taihu, which is dominated by toxic cyanobacteria. There was a good agreement between LC-MS and HPLC-UV determinations. Average recoveries of spiked fish samples were 63% for MC-RR and 71% for MC-LR. The highest MC contents in intestine, liver, kidney and spleen were 85.67, 2.83, 1.70 and 1.57 microg g-1 DW, respectively. MCs were much higher in mid-gut walls (1.22 microg g-1 DW) than in hind- and fore-gut walls (0.31 and 0.18 microg g-1 DW, respectively), suggesting the importance of mid-gut wall as major site for MC absorption. A cysteine conjugate of MC-LR was detected frequently in kidney. Among the muscle samples analyzed, 25% were above the provisional tolerable daily intake level by WHO. Bighead is strongly resistant to microcystins and can be used as biomanipulation fish to counteract cyanotoxin contamination in eutrophic waters.     

红枫湖底泥磷负荷释放

为了研究高原湖泊底泥沉积物中磷的释放负荷,对贵州红枫湖区10个地区的沉积物进行了磷形态分析。选取10个采样点中5个典型区域,研究结果表明,底泥中各形态磷占总磷比例Org-P为58.6%,NaOH-P为29.91%,Ca-P为11.48%,底泥中主要的磷形态为有机磷。上覆水溶解性总磷酸盐(TSP)与底泥中各形态磷的相关性研究表明,底泥中的Ca-P与上覆水中的TSP几乎没有相关性,NaOH-P与Org-P与上覆水的TSP有较高的相关性(R2>0.94),而底泥中的总磷(TP)与上覆水中的TSP相关性最高(R2>0.98),底泥中这种形态的结构有利于抑制底泥的释放。研究表明,在10点位样品中,间隙水中TP和SRP(溶解性正磷酸)浓度远大于上覆水体中相应磷形态的浓度,间隙水中TP平均浓度为0.37 mg/L,SRP平均浓度为0.18 mg/L,上覆水体中TP平均浓度为0.10 mg/L,SRP平均浓度为0.02 mg/L,间隙水中TP、SRP与上覆水中TP、SRP存在了一种浓度梯度。     

Effects of basin nutrient discharge variations coupled with climate change on water quality in Lake Erhai,China

In Lake Erhai, water quality was affected by the basin nutrient discharge and climate change. To analyze the relationships between the water quality (total nitrogen [TN], total phosphorus [TP], chemical oxygen demand [CODmn], ammonia [NH₄], and trophic level index [TLI]) and basin nutrient discharge (TNd, TPd, and CODd) combined with climate changes (air temperature [AT], precipitation [pre], wind speed [wind], and sunshine hours [SHs]), the generalized additive model (GAM) was employed to explore the nonlinear relationships with their interactions using data sets ranging from 1999 to 2012. Our findings revealed that the water quality in Lake Erhai deteriorated in the early twentieth century, and the basin discharge and AT appeared significant (p?<?0.05) rising trends in a long time, while the precipitation decreased significantly (p?<?0.05) in the study period. Single-factor GAM results indicated that the basin nutrient discharge was the main explanatory factor for the variations of TN and TP in lake, while precipitation was the main driver for CODmn and NH₄. Besides, the water quality displayed nonlinear responses to the basin discharge, but all of the water quality variables went up as the emission levels increased in the lower range. The results showed that the water quality deteriorated in the lower rainfall, and TN rose as the AT increases, while TP was elevated accompanied by the ascending SHs there. The GAM interaction results suggested that the increase of AT and TPd had a promoting effect on TP in Lake Erhai. Stricter nutrient management measures should be implemented when the impacts of climate change are taken into account.