Nutrient sources and composition of recent algal blooms and eutrophication in the northern Jiulong River,Southeast China

The natural process of eutrophication is accelerated by human activities worldwide that interrupt nutrient biogeochemical cycles. Three algal bloom events have been monitored in the northern tributary of the Jiulong River since 2009. The inflection points in a robust locally-weighted regression analysis (LOESS) of the relationship between TN and TP concentrations in the river water, and a TN:TP comparison with nutrient source loadings, suggested that both external loading and internal nutrient cycling contributed to these algal blooms. Nutrient release from the sediments may have played an important role in regulating the nutrients in the overlying water column. In particular, excessive nutrient inputs from various sources and ubiquitous river damming caused further accumulation of the nutrient loading. In-situ autochthonous primary production was enhanced in this relatively stable “river” to “lake” water body. Thus, attention must be paid to the effects of river damming and the consequent internal nutrient release.     

夏季滇池和入滇河流氮、磷污染特征

为探讨滇池入湖河流水体营养盐空间分布特征及其对滇池水体富营养化的影响,2014年7月采集了入滇4类典型河流(城市纳污型河流、城乡结合型河流、农田型河流、村镇型河流)及滇池水样,分析其氮、磷浓度.结果表明:4条入湖河流总氮(TN)、总磷(TP)、硝态氮和氨氮污染均较严重;河流水体中TN、TP平均浓度大小为:农田型河流(大河)村镇型河流(柴河)城乡结合型河流(宝象河)城市纳污型河流(盘龙江),其中农田型河流(大河)水体TN、TP污染最为严重;在夏季,4条入湖河流水体中TN、TP浓度从上游向下游增加趋势比较明显,表明氮、磷沿河流不断富集;氮磷比分析表明,夏季河流输入氮、磷营养盐有利于藻类的生长,并且滇池浮游植物生长主要受TN浓度限制;夏季滇池南部入湖河流水体的TN、TP浓度高于北部入湖河流,该特征与滇池水体中TN、TP污染分布状况相反,推测滇池北部富营养化的主要影响因素是内源释放.因此,在今后的滇池水体富营养化研究中,应对滇池内源释放进行深入研究.     

淀山湖氮磷营养物20年变化及其藻类增长响应

从淀山湖20年的监测数据和AGP试验结果人手,结合20年的遥感影像资料,分析淀山湖氮磷营养物的长期变化规律及其对藻类演替和增长的影响.从1985年第一次大规模藻类水华暴发,经过15年的营养物积累,在1999-2000年之间,淀山湖由中度富营养化湖泊逐渐转化为重度富营养化湖泊,1999年之后淀山湖水体氮磷营养物大量聚集.叶绿素a水平迅速提高.分别以1999年前的2.25倍、6.67倍和3.40倍的速率上升,其中以磷的上升速率为最快;透明度则以平均每年递减5cm的速度下降.藻类群落转化为以绿藻和蓝藻为主,藻类水华的频率为1999年前的2-3倍.当水体TN浓度超过3.5mg/L时,AGP试验不再有任何显著性反应.2002年的现场试验和藻类水华频次与高浓度TN出现概率的相关分析表明,夏秋季当水体TN浓度在3.5mg/L时,可以引起藻类大量增长;高浓度TN出现概率越高,藻类水华的次数越多.研究证明淀山溯已经具备暴发大规模、大面积蓝藻水华的条件,水体TN浓度超过临界值(>3.5mg/L)的频次越多,淀山湖爆发蓝藻水华的可能性越大.     

崇明岛"闸控型"河网水体富营养化特征及其影响因素

为研究崇明岛"闸控型"河网水体富营养化特征及其与环境因子的相互作用,以2010年各季节崇明岛河网水质数据为基础,探讨了环境因子与藻类的变化规律及其相互作用机制.结果表明:崇明岛河网水环境中营养盐水平较高,氮污染尤为严重.长江引水进入岛内河网水环境后,营养盐(除SiO₃-Si)、Chl.a含量和营养状态都出现了明显的升高.与长江引水相比,河网内藻类群落Chl.a贡献比例的变化主要表现为硅藻比例的下降以及蓝藻和绿藻比例的上升.尽管水温、pH、浊度以及营养盐中的TN、TP、NO₃^--N、DOC的变化均与Chl.a含量显著相关,但藻类群落对环境因子的响应关系存在较大差异.蓝藻的增加主要与水温和TP含量的升高有关;绿藻与TN、NO₃^--N的关系最为密切;硅藻的变化只与浊度存在明显正相关,营养盐并不是硅藻生长的促进因子.     

Analysis of stream water quality and estimation of nutrient load with the aid of Quick Bird remote sensing imagery

Abstract

Human activities have created high nutrient surpluses in agricultural lands due to the increasing rate of chemical fertilizer application and the increase in livestock production. To analyse the nutrient characteristics and estimate the nutrient load in streams, we conducted extensive field survey and water quality experiments from 2007 to 2008 in Koise River, a major river of the Lake Kasumigaura watershed, Japan. Water quality indicators of total nitrogen (TN), total phosphorus (TP) and total organic carbon (TOC) were investigated. The nutrient loads of TN, TP and TOC, as well as dissolved total nitrogen, dissolved inorganic nitrogen, dissolved organic nitrogen, particle organic nitrogen, dissolved total phosphorus, dissolved organic carbon and particle organic carbon were also estimated for the Koise River. Seasonal variation of the nutrient concentration from 2007 to 2008 was analysed considering the river discharge variation and agricultural activities. The results showed that the irrigation water from Lake Kasumigaura has the potential ability to decrease the TN concentration and increase the TOC concentration in the Koise River. Significant correlation coefficients between nutrient load and river discharge were found. The monthly pollution loads from different sources were then evaluated based on land cover classification generated from high-resolution Quick Bird remote sensing imagery. This study presents a useful interpretation of water quality data sets with a view to obtaining better information about water quality for more effective management of water resources in river basins.

Editor Z.W. Kundzewicz

Citation He, B., Oki, K., Wang, Y., Oki, T., Yamashiki, Y., Takara, K., Miura, S., Imai, A., Komatsu, K. and Kawasaki, N., 2012. Analysis of stream water quality and estimation of nutrient load with the aid of Quick Bird remote sensing imagery. Hydrological Sciences Journal, 57 (5), 850–860.     

Effects of lakes and reservoirs on annual river nitrogen,phosphorus, and sediment export in agricultural and forested landscapes

Recently, effects of lakes and reservoirs on river nutrient export have been incorporated into landscape biogeochemical models. Because annual export varies with precipitation, there is a need to examine the biogeochemical role of lakes and reservoirs over time frames that incorporate interannual variability in precipitation. We examined long‐term (~20 years) time series of river export (annual mass yield, Y, and flow‐weighted mean annual concentration, C) for total nitrogen (TN), total phosphorus (TP), and total suspended sediment (TSS) from 54 catchments in Wisconsin, USA. Catchments were classified as small agricultural, large agricultural, and forested by use of a cluster analysis, and these varied in lentic coverage (percentage of catchment lake or reservoir water that was connected to river network). Mean annual export and interannual variability (CV) of export (for both Y and C) were higher in agricultural catchments relative to forested catchments for TP, TN, and TSS. In both agricultural and forested settings, mean and maximum annual TN yields were lower in the presence of lakes and reservoirs, suggesting lentic denitrification or N burial. There was also evidence of long‐term lentic TP and TSS retention, especially when viewed in terms of maximum annual yield, suggesting sedimentation during high loading years. Lentic catchments had lower interannual variability in export. For TP and TSS, interannual variability in mass yield was often >50% higher than interannual variability in water yield, whereas TN variability more closely followed water (discharge) variability. Our results indicate that long‐term mass export through rivers depends on interacting terrestrial, aquatic, and meteorological factors in which the presence of lakes and reservoirs can reduce the magnitude of export, stabilize interannual variability in export, as well as introduce export time lags. Copyright © 2013 John Wiley & Sons, Ltd.     

基于Aquatox模型的洱海营养物投入响应关系模拟

针对洱海富营养化加剧以及蓝藻水华问题,应用Aquatox模型对洱海水环境进行模拟,确立了一套适用于洱海生态系统的特征参数,并将模拟结果与实测数据进行验证.验证结果表明模型较好地模拟了常规水质和藻类演替变化,与实际水环境状况大体吻合.以此为基础选取TN、TP和Chl.a指标对洱海营养物与富营养化状态的投入响应关系进行模拟研究.结果表明,洱海对于外界营养物输入比较敏感,对氮磷输入增减反应明显;外界氮磷的削减都对Chl.a含量有降低作用,TN的作用更加明显;氮磷的增加对于Chl.a含量都略有提升;同时调控氮磷具有协同作用,对Chl.a含量影响效果最明显;当水体TN浓度在0.34 mg/L的阈值以下水平,即洱海外源TN输入量削减比例达到43.3%以上时,藻类优势种由蓝藻变为硅藻,水体Chl.a含量大幅降低,有效抑制富营养化进程.     

亚热带地区典型水库流域氮、磷湿沉降及入湖贡献率估算

为了探究汤浦水库流域氮、磷湿沉降对水库水体营养的贡献率,本研究对2014 2015年的汤浦水库流域4个采样点的雨水及3条溪流进行样品收集,测定其中磷和不同形态氮的质量浓度,分析汤浦水库流域大气湿沉降中氮、磷营养盐的分布特征,并估算氮、磷营养盐湿沉降对汤浦水库入库负荷的贡献率.结果表明:湿沉降中总氮(TN)平均浓度为1.02±0.58 mg/L,氨氮、硝态氮和有机氮浓度占TN浓度的比例分别为60.65%、34.07%和5.28%;总磷(TP)平均浓度为0.033±0.028 mg/L.4个采样点湿沉降中氮、磷浓度均表现为冬春季(少雨季)高、夏秋季(多雨季)低.空间上,王化点位的各形态氮和总磷浓度显著高于其他3个采样点.TN和TP年均湿沉降通量约为18.15和0.62 kg/(hm~2·a),年均沉降总量为834.94和28.39 t;库区TN和TP水面湿沉降量为24.14和0.82 t,直接贡献率占河流输入的1.77%和3.07%.湿沉降来源的氮、磷营养盐随河流输入的间接贡献率为8.3%和4.6%.综上所述,氮、磷湿沉降是水库外源营养的重要输入部分,深入掌握其时空分布特征及入库贡献率是进一步加强流域管理和减轻水库外源营养输入的重要前提.     

巢湖水环境因子的时空变化及对水华发生的影响

为研究巢湖水环境因子与藻类生物量的相互作用,筛选出对藻类生物量相对重要的环境因子,以2008年巢湖水质监测数据为基础,采用多元统计方法对巢湖监测点数值数据进行了聚类分析、判别分析及污染特征识别,研究了水环境因子与藻类生物量的关系.结果表明:巢湖水环境自西向东分为重度污染区、中度污染区和轻度污染区,叶绿素、溶解性总氮可作...     

不同形态氮对微囊藻叶绿素a合成及产毒的影响

利用室内培养实验比较研究了铵氮和硝氮对河北洋河水库微囊藻(Microcystissp.)生长、叶绿素a合成及产毒的影响.结果显示,铵氮培养条件下,在对数生长期,生物量及叶绿素a含量随铵氮浓度的升高而逐渐增多,但高铵氮浓度( 10.0 mg/L)培养条件则下降.藻细胞MCRR含量随铵氮浓度的升高呈波动变化,高铵氮浓度(1...     

官厅水库水体营养状况分析

2001-2002年的调研结果显示,官厅水库为富营养型湖泊.初级生产力为浮游藻类与大型水生高等植物混合型.浮游藻类细胞密度为1126.54×104cells/L,其中蓝藻占53.4%,绿藻占32.1%.优势种为水华微囊藻(Microcystisflos-aquae)和铜绿微囊藻(M.aeruginosa).7-10月库区水体出现大面积的微囊藻水华.TN、TP分别为1.182mg/L和0.045mg/L,水体已达富营养.官厅水库TN和TP的质量浓度比大于7,Chla与TP存在显著的正相关.磷是水体中初级生产力增长的限制性营养盐.官厅水库的污染物主要来自点源,其次是面源和内源.应以点源为主进行综合防治,恢复其饮用水源地功能,以缓解北京市淡水资源的紧缺状态.     

澜沧江梯级筑坝下水体氮磷分布特征及其形成机制

水库建设改变了河流水文情势及物质迁移转化过程,从而影响水环境质量。为探究梯级筑坝影响下河流氮、磷的空间分布特征及其形成机制,以澜沧江为研究对象,于2016年和2021年分别开展了沿程水环境监测,对比分析水体中氮、磷及其形态浓度在水库建成前后的变化及沿程分布特征,探究氮、磷变化及其沿程分布的主控因子和影响机制。结果表明：由于河流建库蓄水淹没的土地释放大量土壤有机氮,新建水库段(2021年)水体总氮(TN)浓度相比于建库前(2016年)显著上升;由于建库后水流流速减缓而促进颗粒态磷沉降,水体总磷(TP)浓度显著下降。此外,河流建库蓄水后原自然河道的水环境特征改变且利于沉积物磷的释放,筑坝后水体磷酸盐(PO₄^3--P)占生物可利用磷(Bio-P)的比例显著上升。受沿程土地利用的影响,从上游到下游水体TN浓度总体上逐渐升高,而水体TP浓度由于水库的截留效应逐渐降低。筑坝增加的水力停留时间为水库氮、磷转化提供了有利条件,主要表现为溶解性无机氮以硝态氮为主转变为以氨氮为主;同时,Bio-P中PO₄^3--P的占比...     

1990—2018年于桥水库流域氮磷浓度变化趋势及影响因素

基于1990—2018年于桥水库流域入库河流与水库的逐月总氮(TN)和总磷(TP)监测数据,整理并分析了1990-2002、2003—2014和2015—2018年3个时段TN、TP浓度和氮磷比(TN/TP)的时空变化特征,探究流域内点面源污染削减、调水、氮磷滞留等对营养盐浓度变化的影响。结果表明,1990—2018年于桥水库TN浓度年均值在1.14～3.74 mg/L之间,水库TP浓度年均值在0.025～0.131 mg/L之间,多年TN/TP平均值为45,远高于淡水磷限氮磷比,是磷限水库。于桥水库流域5个测点中,沙河TN浓度最高,黎河TP浓度最高,入库TN、TP浓度大于库区,水库TP滞留率略大于TN。水库TN、TP浓度在2000s中后期下降,之后出现反弹。原因是2003年水源保护工程实施后,入库营养物浓度降低;2014年底南水北调中线一期工程通水后,于桥水库的引滦水量减少,TN的稀释效应弱化,上游来水TP浓度上升与水库内夏秋两季浮游植物的增殖,导致第三时段水库内TP浓度上升。基于月尺度水质分析,夏季水库TN浓度最低,TP浓度达到峰值,主成分分析表明,历年6—10月的水库Chl.a浓...     

内陆盐沼湿地土壤碳氮磷剖面分布的季节动态特征

本文以向海湿地为例探讨了内陆盐沼湿地土壤剖面中碳氮磷等生源要素的季节动态变化特征及其影响因素.结果表明,内陆盐沼湿地土壤中有机碳、全氮和全磷含量与土壤深度之间存在显著负相关,在剖面中均表现为由表层向下层其含量不断减少的趋势,且具有明显的季节波动特征,除表层土壤碳氮含量随季节变化呈持续增加外,生源要素剖面分布的季节变化基本表现为先减少后增加的趋势.有机碳、全氮和全磷含量之间关系密切,且三者受土壤粒度的影响都非常显著.土壤pH值仅与土壤有机碳之间存在显著的相关关系,而对全氮和全磷含量的影响则不显著.     

鲫(Carassius auratus)对浅水湖泊水体浊度、营养水平和浮游生物生物量的影响——基于中宇宙模拟实验

鲫(Carassius auratus)是我国各类淡水水体的优势鱼类之一.作为底栖杂食性鱼类,一方面,鲫可以通过排泄和扰动沉积物影响湖泊营养和光照水平,通过"上行效应"促进浮游植物生长;另一方面,鲫也可以捕食浮游动物,通过"下行控制"影响藻类生长以及营养盐循环.对于浅水湖泊,两种途径对于生态系统影响的相对重要性仍有待研究.本研究设计了一个两因素户外中宇宙实验,通过在沉积物表面添加隔网的方式,比较两种情况下(能、否接触沉积物),鲫对水体浊度、营养盐和浮游生物生物量的影响.实验在16个大型钢化玻璃桶(400 L)中进行,持续36 d(2019年8月6日—9月11日).研究结果表明:1)在能接触沉积物的条件下,鲫显著促进了沉积物再悬浮,表现为水体的总悬浮物(TSS)和无机悬浮物(ISS)浓度大幅升高;水体的光衰减系数(Kd)增加,总氮(TN)和总磷(TP)浓度明显升高; 2)在不能接触沉积物的条件下,鲫对水体悬浮物(TSS和ISS)浓度和Kd的影响不明显,但是显著降低了水体TN和TP浓度; 3)在两种情况下,鲫对浮游植物叶绿素a浓度以及浮游动物生物量的影响均不显著.本研究表明鲫只有在能够接触沉积物的条件下,才会显著提高水体浊度和营养水平.因此,在缺乏沉水植被的浅水湖泊中,鲫扰动沉积物产生的"上行效应"可能是其对生态系统产生负面影响的主要途径.     

Nutrients removing by arrowheads in different growing periods in the transition zone between lands and rivers

Riparian macrophytes are very effective for nutrients purification in surface water through absorption, precipitation enhancement and the biochemical functions of microbes around plants’ rods and roots. In river networks of Taihu watershed in China, arrowheads distribute widely in the river riparian macrophyte buffers. Experiments were performed following three months of different growing periods including July, October and November, which indicate the blooming period, the fruit bearing period and the withered beginning period. Contents of Total Nitrogen (TN) and Total Phosphorus (TP) in water body were tested. Results show that the concentrations of these nutrients were decreased with arrowheads growing, and the degradation degree are larger while arrowhead thriving in July with the TN and TP average degradation rate of 80.5% and 87.1% after 15 days’ duration. The biomass of arrowheads per square meter show logarithmic relativity to nutrient removing rates in the three periods. In addition, comparative experiments were performed to separate the contribution to the degradation of nutrients between soil absorption and the arrowhead action. Results indicate that the contents of Total Nitrogen decreased larger with plants than that of without, the difference is about 20% or so. However, arrowheads impact little on TP remove, the contents of total phosphorus decreased mainly by soil adsorption and precipitation, as a result, the final degradation rates of TP are about at the same in the two systems with or without plants.     

The use of TN:TP and DIN:TP ratios as indicators for phytoplankton nutrient limitation in oligotrophic lakes affected by N deposition

The stoichiometric composition of lake water chemistry affects nutrient limitation among phytoplankton. I show how TN:TP and DIN:TP ratios vary in oligotrophic lakes of Europe and the USA affected by different amounts of N deposition, and evaluate whether the DIN:TP ratio is a better indicator than the TN:TP ratio for discriminating between N and P limitation of phytoplankton. Data were compiled from boreal and low to high alpine lakes, and comprise epilimnetic lake water chemistry data (106 lakes) and results from short-term nutrient bioassay experiments (28 lakes). A large share (54%) of the oligotrophic lakes in the study had low TN:TP mass ratios (<25). DIN:TP ratios showed higher variability than TN:TP ratios. Variability in DIN:TP ratios was related to N deposition, but also to catchment characteristics. Data from short-term bioassay experiments with separate addition of N and P showed that the DIN:TP ratio was a better indicator than the TN:TP ratio for N and P limitation of phytoplankton. Phytoplankton shift from N to P limitation when DIN:TP mass ratios increase from 1.5 to 3.4. High DIN:TP ratios, indicating P limitation of phytoplankton, were generally found in alpine lakes with low to moderate N deposition and in boreal lakes with high to very high amounts of N deposition.     

Phosphorus and nitrogen limitation of algal biomass across trophic gradients

Regression results based on data from 46 northern temperate lakes show that total phosphorus (TP) is the best predictor for phytoplankton (as chl-a) at lower trophic levels, TP < 200 mg · m^–3. A regression including both TP and TN as regressors is the best predictor for lakes with TP > 200 mg · m^–3. However, the good correlation is probably due to a high correlation between lake average chl-a (all years observed) and lake average TP and TN. Within single hypereutrophic lakes, TN alone is the best predictor. It was not possible to identify a medium trophic domain where TN and TP in combination was the best predictor for chl-a. The ratio TN:TP in the water decreases from about 40 to about 5 with increasing trophic level. Optimum TN:TP ratio for algal species with high abundance during late summer and autumn reflects this decreasing ratio, but within a lesser range, i.e., 20 to 5. In contrast, TN:TP ratios for species abundant during the early vernal period showed no, or an inverse, relation to the TN:TP ratio of the water.     

流域场镇发展下三峡水库典型入库河流水体碳、氮、磷时空特征及富营养化评价

流域场镇式发展是三峡地区城乡统筹发展的重要模式,通常形成河流两岸串珠状的场镇分布格局,这种人类活动的点状聚集特征对入库河流水环境的综合影响并不清楚.选择三峡库区流域场镇发展特征明显的黑水滩河及主要支流为研究对象,于2014年9月至2015年6月期间对流域内分布的主要场镇前后的水体进行碳、氮、磷浓度的监测分析,探讨场镇分布对流域水体生源要素时空格局的影响.研究结果表明,黑水滩河干、支流水体总有机碳(TOC)和溶解性有机碳浓度为4.5~39.2和3.2~31.4 mg/L,总氮(TN)、铵态氮和硝态氮浓度范围为1.12~6.96、0.87~5.00和0.073~0.881 mg/L,总磷(TP)、溶解性总磷和正磷酸盐浓度范围为0.078~0.454、0.049~0.310和0.025~0.222 mg/L,不同形态的碳、氮、磷含量变化幅度较大;黑水滩河干、支流流经不同场镇区前后,水体各形态碳、氮、磷浓度均不同程度增加(其中TOC、TN和TP的增幅范围分别为4.7%~61.3%、26.7%~144.7%和12.8%~50.7%),而在无场镇分布的干流河段,水体碳浓度变化不大,氮、磷浓度明显降低,表明水体生源要素的空间变异特征受到流域场镇分布格局与河流自净能力的双重影响,导致黑水滩河干流自上游向下游碳浓度呈“阶梯式”增长,氮、磷浓度呈“波动式”增长;相关分析显示,流域水体碳、氮、磷浓度均呈极显著的正相关关系,即场镇发展模式下河流水体污染物呈同步变化的趋势,表明山地河流流域内串珠状场镇发展模式导致从上游向下游水体污染物呈明显的累积效应,并进一步超出水体自净能力,造成下游水体恶化.河流碳、氮、磷浓度的季节变化主要受径流稀释作用影响,表现为夏秋季低、春季高的模式;富营养化综合指数表明,黑水滩河各监测断面全年属于富营养状态以上,表层水体氮污染严重,磷污染较轻;初步估算黑水滩河每年向三峡水库输入TOC、TN、TP通量达4057、1001和47 t,对三峡水库水环境安全具有严重威胁.三峡库区沿河串珠状场镇式发展形成了一种“点面”双重特征的污染模式,未来河流水环境污染防控中应予以关注.     

湖泊底泥疏浚对沉积物再悬浮及营养盐负荷影响的模拟

选取太湖梅梁湾污染底泥为研究对象,利用沉积物再悬浮发生装置,通过室内模拟实验研究太湖夏季常规风情下底泥疏浚对沉积物再悬浮及上覆水营养盐动态变化的影响.结果表明,在模拟的风情扰动过程结束时(5 h),扰动过程未疏浚与疏浚处理水柱总悬浮颗粒物(TSS)含量变化差异显著,未疏浚对照水柱TSS含量是初始值的7.7倍,而疏浚水柱TSS在第2 h达到峰值,为初始值的3.8倍;未疏浚水柱TSS含量沉降过程最初1 h迅速降低了84.0%,而疏浚水柱TSS含量在沉降3 h后趋于平衡.伴随着沉积物的再悬浮过程,疏浚与未疏浚对照水柱中TP含量均在第5 h达到最大,分别增加负荷78.6和92.2 mg/m2.就短时效而言,底泥疏浚后沉积物的再悬浮过程显著受到抑制,并能够显著地减小沉积物再悬浮过程中溶解性磷酸盐的释放;但对水柱中总磷、总氮、铵氮、硝酸盐和亚硝酸盐含量变化影响较小.