滇池沉积物的功能: 磷源还是磷库?

Dianchi Lake is a highly eutrophic lake in southwestern China where phosphorus (P) is the limiting element for eutrophication and where lake sediments play an important role in the P cycle. One hundred and eighteen sites were sampled throughout Dianchi Lake in 2002 to investigate the P loading of the lake sediments, while fresh surface sediments were studied in the laboratory to clarify its role for phosphorus. The results showed that concentrations of total phosphorus (TP) in sediments were very high, with a maximum value of 6.66 g kg^-1, and decreased with sediment depth. P adsorption on surface sediments was rapid with adsorption amounts higher in acidic than in alkaline conditions. The release experiments showed that P release increased as pH rose from 7.0 to 10.5. Additionally, compared with aerobic conditions, P release was much higher under anaerobic: conditions, especially with low P content in the lake water. At present, the sediments in Dianchi Lake still function as a sink for phosphorus at high P levels in lake water. However, if the external P load was reduced and P content in lake water became low, the sediment would have a large potential for P release under anaerobic conditions.     

Heavy metal accumultations in a semi-enclosed hypereutrophic system: Lake Tefanuma,Japan

The abundance and distribution of Cd, Cu, Fe, Mn, and Zn in the water of Lake Teganuma, one of most hypereutrophic lakes in Japan, and from its two main inflow rivers were investigated. The heavy metal concentrations in Teganuma water were in the range of the world's ‘unpolluted’ lakes, although the Zn concentrations of inflow rivers were found to be clearly higher than those in the lake. Greater proportion of particulate heavy metals to dissolved in water of the lake than the two rivers shows the metal deposition process in the lake.     

Dynamics of dissolved oxygen in a hypereutrophic lake: Lake Kasumigaura,Japan

The dynamics of dissolved oxygen (DO) were studied during a typical wind condition for each season in Lake Kasumigaura, a hypereutrophic lake. Vertical and diel fluctuation of DO was extremely dynamic during the summer algal bloom in August. As the vertical transport of DO for the typical local-wind (1 to 2 m s^?1) was only one order of magnitude greater than for at the windless condition, the stability of oxygen conditions in the dysphotic zone could not be disturbed greatly by the wind stress.     

刚毛藻分解对荣成天鹅湖沉积物磷释放的影响

在荣成天鹅湖刚毛藻暴发和非暴发区域分别采集沉积物进行室内加藻模拟试验,定期监测上覆水的溶解氧（DO）、pH、化学需氧量（COD）和可溶性磷（SRP）等指标的变化,并分析了刚毛藻分解对沉积物磷释放的影响。结果表明,避光培养过程中,刚毛藻分解使上覆水体的DO含量大幅降低,形成厌氧环境（0~0.14 mg.L-1）;COD含量则明显增加,各处理最大值变化在0.59~6.93 mg.L-1之间。刚毛藻分解可明显促进沉积物中磷的释放,培养期间上覆水SRP的含量大幅上升,变幅为0.01~1.51 mg.L-1;暴发区沉积物＋10 g藻和沉积物＋30 g藻处理的最大释磷量分别为沉积物处理的2.06倍和1.91倍。不同湖区沉积物磷的释放能力存在较大差异,暴发区沉积物的释磷量明显高于非暴发区,沉积物释放是前者上覆水磷含量增加的主要来源,而在非暴发区藻类分解释放的磷高于沉积物中释放的磷。     

达里诺尔湖磷赋存特征及底泥释放影响因素

[目的]揭示封闭性内陆湖磷组成特点及底泥释放影响因素,为控制达里湖磷元素污染提供理论支持。[方法]对达里诺尔湖水体总磷(TP)、溶解性总磷(DTP)、溶解性无机磷(DIP),沉积物形态磷进行监测,并利用因子分析的方法对影响沉积物底泥释放的因素分类讨论。[结果]达里湖上覆水总磷(TP)均值2.00±0.02mg/L,间隙水TP均值2.50±0.02mg/L,沉积物TP在206.09~940.49mg/kg之间。沉积物中无机磷(IP)占TP的47.9%,是沉积物主要的磷形态之一。钙磷(Ca-P)是IP中含量最多的形态磷(217.76±47.01mg/kg),其次为铁铝结合态磷(Fe/Al-P,62.73±28.34mg/kg)和交换态磷(Ex-P,36.50±19.13mg/kg),有机磷(OP,200.28±135.13mg/kg)含量占TP的41.8%;通过因子分析法将影响底泥释放的因素分为三类:沉积物TP,Ca-P,Fe/Al-P和生物有效性磷含量归为沉积物磷因子;水体pH,DO,Eh值以及间隙水磷含量归为界面影响因子;湖水水深归为湖泊自身特征因子。[结论]达里湖存在沉积物磷底泥释放的风险,根据因子分析的结果可知,影响沉积物底泥释放的因素分为沉积物磷、水—沉积物界面理化指标和湖水水深3大类。     

Phosphorus Fractionation and Short-term Mobility in the Surface Sediment of a Polymictic Shallow Lake Treated with a Low Dose of Alum (Courtille Lake,France)

Lake Courtille was a polymictic eutrophic lake prone to large pH variations and sediment resuspension. Short term P release (96 hr) under laboratory resuspension conditions for two sedimentsample types, surface sediments which represent sediment accumulated over several years and trap sediments which representcurrent year sediment, was studied. The experiments were carriedout in oxic conditions at different pH values. According to phosphorus fractionation, Fe-bound-P, Al-bound-P and Organic-bound-P comprised the largest phosphorus pool (80% of Total Phosphorus). Phosphorus release was from the Fe-P, Al-P and organic fractions. These represent 35% of the total phosphorus content at pH 10. At circumneutral pH, in oxic conditions, a lower quantity of P was released (roughly 4% of total P sediment content) than at pH 10. The organic matter mineralization occurring at the end of summer can also influenceP release as illustrated by the difference in total phosphoruscontent between sediment samples of 2000 and of the last five years. This type of P release was observed in Lake Courtille. High soluble reactive phosphorus content was measured in the water column at the end of summer. Aluminium treatment was thus not efficient in preventing P release. Moreover, a higher alum dose was needed to reduce P content in the water column in order to decrease primary productivity and subsequent organic matter sedimentation.     

乌梁素海湿地对营养盐的削减效率及其分区研究

基于乌梁素湖区20个监测点近2 a的监测数据,分析不同介质（水体、植物和底泥）对总氮和总磷的净化过程,构建削减效率指数,核算不同湖区对营养盐的削减效率,通过聚类分析划分削减区。结果显示:水体和植被中N和P营养盐浓度（含量）随着水体流动逐渐扩散降低,而底泥中营养盐分布没有明显规律,浓度最高点出现在距离入水口较远的东南部湖区。N和P营养盐在水体和植物间的分布呈正相关（N,R²=0.665,p < 0.05;P,R²=0.767,P < 0.01）,而营养盐在底泥—水体,底泥—植物间的分布未发现明显的相关性。湖区依照营养盐削减效率可划分为2～4个削减区,不同削减区应采用不同控制手段。本研究可为乌梁素海湖泊水体富营养化控制和管理提供科学依据。     

滇池水和沉积物中氮磷空间变化

Dianchi Lake is one of the most eutrophic lakes in China. In order to understand this eutrophication and to help control the pollution, this research investigated the spatial distribution of Kjeldahl nitrogen (K-N) and total phosphorus (TP) through analysis of bottom water and sediment (3 depths) samples collected at 118 sites around Dianchi Lake. The concentrations of K-N and TP for the lake bottom water in the Caohai part of the lake were much higher than those in the Waihai part, generally decreasing from north to south. In the sediments, the K-N concentration was higher in the Caohai part and the middle of the Waihai part. On the other hand, TP in the sediments was greater in the southern and western parts. Both K-N and TP had similar spatial distributions for the sediment samples of three different depths.Vertically, the KoN and TP concentration in the sediments decreased with an increase in depth. This was evidence that eutrophication and pollution of Dianchi Lake was becoming gradually more severe. Exterior factors including uncontrolled input of domestic and industrial effluents as well as non-point pollution around the lake were the main reasons for serious eutrophication; therefore, controlling these was the first step in reducing eutrophication of Dianchi Lake.     

Lake Sediments from Dianchi Lake： A Phosphorus Sink or Source？

Dianchi Lake is a highly eutrophic lake in southwestern China where phosphorus (P) is the limiting element for eutrophication and where lake sediments play an important role in the P cycle. One hundred and eighteen sites were sampled throughout Dianchi Lake in 2002 to investigate the P loading of the lake sediments, while fresh surface sediments were studied in the laboratory to clarify its role for phosphorus. The results showed that concentrations of total phosphorus(TP) in sediments were very high, with a maximum value of 6.66 g kg^-1, and decreased with sediment depth. P adsorption on surface sediments was rapid with adsorption amounts higher in acidic than in alkaline conditions. The release experiments showed that P release increased as pH rose from 7.0 to 10.5. Additionally, compared with aerobic conditions, P release was much higher under anaerobic conditions, especially with low P content in the lake water. At present, the sediments in Dianchi Lake still function as a sink for phosphorus at high P levels in lake water. However, if the external P load was reduced and P content in lake water became low, the sediment would have a large potential for P release under anaerobic conditions.     

小型浅水湖泊表层沉积物对磷的吸附特征及其影响因素

[目的]分析城市小型浅水湖泊表层沉积物对磷的吸附特征及影响因素,为城市小型浅水湖泊富营养化控制和生态环境修复提供参考依据。[方法]在室内模拟条件下,从表层沉积物对磷的吸附动力学与等温吸附两个角度分析了孔目湖表层沉积物对磷的吸附特征,同时运用磷吸附量计算公式探讨不同pH值下孔目湖表层沉积物对磷吸附行为的影响。[结果]表层沉积物对磷的吸附动力学过程分为快吸附和慢吸附2个阶段,快吸附阶段主要发生在0～1h内,而慢吸附阶段主要发生在1～3h;表层沉积物对磷的吸附等温线在高浓度下同时符合Langmuir模型、Freundlich模型和D-R模型,而在低浓度下符合Linear模型;在酸性或中性环境条件下,表层沉积物对磷的吸附效果更好。[结论]富营养化严重的小型浅水湖泊,表层沉积物有向上覆水释放磷的趋势,且上覆水和沉积物中磷酸盐含量的多少均会影响表层沉积物对磷的吸附特征和动态平衡状态的变化。     

太湖人工恢复湿地区植物群落建植对沉积物中氮、磷空间分布的影响

采用地统计学与GIS相结合的方法,以太湖百渎港湿地植被恢复区为研究区,研究了人工湿地植物群落沉积物中全氮、全磷和有效磷的空间分布特征,阐明了不同植物群落建植对氮、磷的拦截、沉积作用效果,以期为太湖水污染控制和湿地环境保护与修复提供科学依据。结果表明：（1）研究区全氮变化范围为0.37～5.42g/kg,全磷为1.01～9.06g/kg,有效磷为150～760mg/kg,全氮、全磷和有效磷都存在空间上中等程度的变异性。（2）芦苇群落对氮和磷的拦截、沉积效果最好,香蒲群落、茭草群落、荷花群落以及沉水植物群落由于受植物密度、分布位置以及自身生物学等因素的影响,表现出一定的差异性,但都强于分布植物较少的对照区。     

A Mass Balance Mercury Budget for a Mine-Dominated Lake: Clear Lake, California

The Sulphur Bank Mercury Mine (SBMM), active intermittently from 1873–1957 and now a USEPA Superfund site, was previously estimated to have contributed at least 100 metric tons (10⁵ kg) of mercury (Hg) into the Clear Lake aquatic ecosystem. We have confirmed this minimum estimate. To better quantify the contribution of the mine in relation to other sources of Hg loading into Clear Lake and provide data that might help reduce that loading, we analyzed Inputs and Outputs of Hg to Clear Lake and Storage of Hg in lakebed sediments using a mass balance approach. We evaluated Inputs from (1) wet and dry atmospheric deposition from both global/regional and local sources, (2) watershed tributaries, (3) groundwater inflows, (4) lakebed springs and (5) the mine. Outputs were quantified from (1) efflux (volatilization) of Hg from the lake surface to the atmosphere, (2) municipal and agricultural water diversions, (3) losses from out-flowing drainage of Cache Creek that feeds into the California Central Valley and (4) biotic Hg removal by humans and wildlife. Storage estimates include (1) sediment burial from historic and prehistoric periods (over the past 150–3,000 years) from sediment cores to ca. 2.5m depth dated using dichloro diphenyl dichloroethane (DDD), ²¹⁰Pb and ¹⁴C and (2) recent Hg deposition in surficial sediments. Surficial sediments collected in October 2003 (11 years after mine site remediation) indicate no reduction (but a possible increase) in sediment Hg concentrations over that time and suggest that remediation has not significantly reduced overall Hg loading to the lake. Currently, the mine is believed to contribute ca. 322–331 kg of Hg annually to Clear Lake, which represents ca. 86–99% of the total Hg loading to the lake. We estimate that natural sedimentation would cover the existing contaminated sediments within ca. 150–300 years.     

Mercury in Lake Vänern, Sweden Distribution In Surface Sediment And Catchment Budget

Lake Vänern is Sweden's largest lake and freshwater reservoir. Large quantities of mercury were released into the lake during a large part of the 20th century, resulting in serious contamination. The main load originated from one single point source — a chlor-alkali industry. Its releases were drastically reduced in the early 1970's, but nearby sediments displayed alarmingly high concentrations. During summer 2001, fifty-one sediment cores were taken, and analysed for total mercury. It was found that mercury concentrations in surface sediments have decreased significantly between 1974 and 2001, but the influence of the former single point source was still reflected in the concentration patterns. Thirty years ago, sediments around the dominant point source displayed the highest concentrations. Today, the highest concentrations in surface sediments were still found close to it, but also in deep waters in the central part of the lake. Surprisingly, the gradient from the point source is stronger today compared to 1974. A mercury budget, based on the annual sediment accumulation rate, the bulk density, atmospheric load and outflow of mercury, was formed. The surface sediments (0—1 cm, on average corresponding to ～5 yr according to ¹³⁷Cs dating) in accumulation bottoms (water depth >40m) contained approximately 530 kg Hg (corresponding value for year 1974 was 4100 kg Hg). A majority of the present additions of mercury to the lake originates from atmospheric deposition. It was also found that the lake acts as a sink for mercury. In fact, approximately 90—95% of the incoming mercury was retained within the catchment or in the sediments.     

星云湖种植空心菜生长量及净化湖水效果分析

针对当前星云湖中度富营养化(劣V类)水质的实际问题,采用漂浮种植设施直接在星云湖湖面种植空心菜(Ipomoea aquatica),开展适应性生长试验和湖水养分吸收净化试验的研究。结果表明:空心菜能够很好地适应生长于低浓度养分的星云湖水体环境(全N 2.41 mg·L~(-1)、水溶性N 2.00 mg·L~(-1)、水溶性P 0.46 mg·L~(-1)),并且前期表现为较短的缓苗期(7 d),后期则枝叶生长旺盛;在空心菜的6次茎叶收割周期中,其生长量呈现出"先增后降"的趋势,且茎叶生长量较高,空心菜的茎叶鲜重达75 555 kg·hm~(-2)·a~(-1),生长量为1 260 kg·hm-2·d-1;空心菜的养分含量主要分配在茎叶,茎叶中总N、总P、总K含量分别为3.43%、0.74%、6.25%;空心菜对星云湖湖水养分具有较强的吸收净化能力,吸收星云湖湖水中的N、P、K量分别为259.05、55.21、469.84 kg·hm~(-3)·a~(-1),净化星云湖湖水的量以水溶性N、水溶性P、水溶性K计,分别为129 525、120 022、34 220 m~3·hm~(-2)·a~(-1);空心菜的生长量与茎叶养分吸收量和湖水养分量之间存在一定的相关性。利用空心菜漂浮种植于星云湖水面,产生了明显的经济效益及显著的生态效益。     

Mercury in Small Freshwater Lakes: A Case Study: Lake Velenje, Slovenia

Lake Velenje is located in one of the most polluted regions ofSlovenia, the ?alek Valley. The major source of pollution is the coal-fired thermal power plant in ?o?tanj (?TPP). In the past, dumping of coal ash directly into Lake Velenje and drainage water from the ash disposal site resulted in unique chemical characteristics of the lake water, such as very high pH (10–12) and high concentrations of heavy metals. The introduction of a closed cycle ash transport system in 1995resulted in a very fast recovery of the lake water quality. The aim of our study was to establish the sources, fate and distribution of mercury in Lake Velenje. In order to establishrecent sources of mercury, total mercury and methylmercury concentrations were measured in various environmental samples(lake inflows, outflow, rainwater, sediments, etc.). Total mercury and methylmercury concentrations were measured at thesurface and at different depths to establish mercury cycling, its transport and chemical transformations in the lake. Generalwater quality parameters (such as pH, Eh, O₂, temperature,TDS, conductivity) were also determined. The results show that the major sources of mercury in Lake Velenje are lake inflows and wet deposition. Total mercury andmethylmercury concentrations in the water column are very low (total mercury: 0.2–2.7 ng L^-1; methylmercury: 20–86 pg L^-1) and can be compared to other non-contaminated freshwater lakes. These results suggest that the major form of mercury emitted from thermal power plant stacks is volatile Hg⁰, whichhas no or very little influence on the nearby surroundings, but rather is subject to long-range atmospheric transport.     

连环湖敖包泡沉积物磷形态垂向分布特征

应用SMT连续提取法对连环湖敖包泡北部(AB1)和南部(AB2)柱状沉积岩芯中磷形态的含量和垂向分布特征进行对比分析,结合沉积岩芯年代测定,探讨了该湖区沉积物中磷的演化特征与人为污染历史以及内源磷的释放风险。结果表明,AB1、AB2沉积物中磷形态的含量和垂向变化不同,AB1沉积物中各形态磷含量均高于AB2,且随深度变化波动较大。20世纪40年代中期至1981年,AB1沉积物各形态磷和OM含量波动较大;AB2沉积物中Ca-P、IP、TP含量呈先增加后减少之势,Fe/Al-P、OP、OM含量变化较稳定。1981—2009年,AB1沉积物Ca-P、IP、OM含量变化较小,Fe/Al-P、OP、TP含量相对波动较大;AB2沉积物Ca-P、Fe/Al-P、TP含量不同程度上先增加后减少,IP、OP、OM含量变化均呈增加趋势。连环湖敖包泡沉积物磷人为来源以工业废水、居民生活污水和农药化肥的流失为主。湖泊北部磷含量高于南部,这与人类活动强度密切相关,敖包泡北部附近村落密集而南部没有村落。应用单一因子标准指数法对湖泊表层沉积物磷素进行生态风险评价表明,湖区北部表层沉积物总磷含量超标,存在一定的安全风险,同时AB1沉积物上部较底部活性磷(Fe/Al-P和OP)增加较多、且活性磷(Fe/Al-P和OP)是AB1沉积物磷增加的主要形态,因此连环湖敖包泡沉积物中磷向上覆水体释放的风险增加,对湖泊水体的富营养化的影响应予以关注。     

Bottom sediments in a humic lake with artificially increased calcium content: sink or source for phosphorus?

Lake Flosek (north-eastern part of Poland) is a small shallow and without outflow lake which has been limed in 1970. The concentration of Ca was increased from 3-4 mg L-1 to 17 mg L-1 in the water and from 0.2-0.3% dry weight to 0.9-1.7% dry weight in sediments (5 cm upper layer) due to CaCO3 addition to the lake. In the spring-summer seasons of 1992 and 1993, an experimental study was conducted in Lake Flosek to assess the capacity of bottom sediments to uptake and release mineral phosphorus. The rate of phosphorus exchange between sediments and near-bottom water was experimentally measured under conditions of high (100%), and of reduced (10%) oxygen saturation in near-bottom water. To determine the component of sediments responsible for the uptake of most phosphorus, the proportions of phosphorus forms in sediments were analysed. Sediments of Lake Flosek showed a slight tendency to release phosphates. The rate of this process was similar under high (100%) and low (10%) oxygen saturations ranging from - 0.161 to + 0.200 mg P m-2 d-1. This is much lower (by 1-2 orders of magnitude) than reported from other harmonic, non-humic lakes. In the total phosphorus pool, the highest content of phosphorus was found in the organic and residual phosphorus fractions (over 70% of the total phosphorus in sediments). The largest part of the readily extractable phosphorus was found in the fraction bound to Al and humic substances (41%). Both these fractions determine a weak exchange of phosphorus between sediments and water. No difference in P-release related to P-fraction compound was found in the cores taken from three sites in the lake.     

Phosphorus Dynamics in a Small Eutrophic Italian Lake

Phosphorous dynamics within Lake Sirio (NW Italy) were investigated, considering both water and sediments. The total phosphorus (TP) concentration in the water is about 79 μg l^?1 after the winter mixing, that is in homogeneous conditions; then TP content increases up to an average of 360 μg l^?1 in late autumn in the deep hypolimnium (30–45 m). This deep lake portion accounts for only 1/12 of the water volume. Close to the water-sediment interface, TP concentrations up to 530 μg l^?1 are observed. Sediment sampled at depths of 20 and 33 m contains less than 2,000 mg kg^?1 of TP, whereas cores from the deepest sediments (46 m) display TP values of 2,000–4,000 mg kg^?1 at the water-sediment interface, increasing with depth to 16,000 mg kg^?1 at about 60–100 cm. In these deep sediments the main chemical form is the Al–Fe–Mn bound P (about 90% in the high TP cores) and Fe and Mn are also highly enriched (3 and 9 times more than in the shallow sediments respectively). The P–Fe association is confirmed by SEM-EDS and XRD analyses. The vertical distribution of the P content in the water column is consistent with its release from sediments, but in this hypothesis an unrealistic P release rate from 8.1 to 3.0 g m^?2y^?1 was estimated. A more complex model is therefore proposed, involving a process of P concentration in the sediments of the central (deepest) part of the lake, and a short term sediment-water exchange. The TP vertical variability and speciation in the cores suggests a change in the sediment retention capacity, connected to the lake shift to more eutrophic conditions.     

天目湖水体与沉积物中营养盐时空分布及成因

采用现场监测及实验室分析方法,2006年对天目湖水体和沉积物营养盐等进行了调查。结果发现,天目湖水体中营养盐浓度影响最大的是上游流域输人,冬季天目湖上游输入的颗粒物是导致水体营养盐尤其是TN水平升高的主要因素;而在夏季,水体中营养盐以溶解态为主,天目湖的营养类型是磷限制。表层沉积物营养盐含量最高的点位是下游靠近大坝取水口附近,表层沉积物N、P含量明显高于其下各层,尤其对于营养盐含量较高的点位。研究表明,作为一个兼顾饮用水源地和旅游功能的水库,上游区流域综合保护、水库渔业调控及旅游活动的进一步规范是控制天目湖富营养化的关键。     

Heavy metal accumulations in a semi-enclosed hypereutrophic system: Lake Teganuma,Japan

Heavy metal concentrations and other physical and chemical properties were studied so as to assess the heavy metal accumulation process in the sediments of a hypereutrophic lake, Lake Teganuma, Japan. The accumulations were most evident near the inflow inlets of two main inflow rivers in Kaminuma (the west part of Lake Teganuma) with the significant Zn accumulation. Except for Fe, the vertical distributions of heavy metals showed the highest concentrations in the surface 10 cm and decreased gradually with the sediment depth. The high concentrations in the upper layer was caused by an increase in the non-residual fractions. The large influx of heavy metal to Lake Teganuma seems to be due to the domestic effluents via the two rivers in last decades.