太湖MS岩芯重金属元素地球化学形态研究

采用BCR三步提取法对太湖MS岩芯沉积物中Cu、Fe、Mn、Ni、Pb和Zn等6种重金属元素的化学形态进行了研究.结果表明,有效结合态的Cu、Ni和Pb主要以有机物及硫化物结合态、Fe-Mn氧化物结合态存在,Fe和Zn主要以Fe-Mn氧化物结合态存在,Mn主要以可交换态及碳酸盐结合态存在;Fe-Mn氧化物结合态的Ni、Pb和Zn与可还原态的Mn有较好的正相关关系,有机物及硫化物结合态的Cu、Mn、Ni、Pb和Zn与有机碳含量有较好的正相关关系;重金属形态分布体现了重金属元素地球化学性质的差异,以及重金属形态含量与沉积物理化性质的关系.沉积岩芯重金属元素形态垂向变化规律及次生相富集系数表明,Cu、Mn、Ni、Pb和Zn在沉积岩芯13～4 cm有效结合态含量较稳定,为自然沉积;4～0 cm有效结合态含量明显升高,存在一定程度的人为污染.根据137Cs测年结果判断,沉积岩芯Cu、Mn、Ni、Pb和Zn等重金属污染开始于20世纪70年代末期,主要污染元素及污染历史与太湖流域污染工业类型及经济发展阶段相吻合.     

日本大沼湖沉积物碳氮比值、有机碳同位素特征及其近400年的古气候环境意义

通过对日本大沼湖沉积物样品总有机碳含量(TOC)及其稳定同位素、总氮含量(TN)和C/N值的测定,结合沉积岩芯火山灰和1℃年代,分析了大沼湖沉积物中有机质的来源,探讨了沉积物有机碳同位素的主要影响因素.结果表明:大沼湖沉积物中有机质主要来源于自生藻类,受陆源输入的影响较小;沉积物δ13C值指示了夏季温度的变化.过去400年来,大沼湖地区存在1660～ 1730年和1780～ 1860年两个明显的冷期,与邻近地区冰芯、树轮和湖泊沉积物记录的冷期基本一致,分别对应于Maunder和Dalton太阳黑子极小期.     

海河干流表层沉积物中磷形态的空间分布特征及其对水相磷的影响

为了控制水体富营养化,对沉积物中磷的分布特征进行了研究。在海河干流采集13个表层沉积物和表层水样,采用逐级提取法获得可交换态磷(NH4Cl-P)、可还原态磷(BD-P)、铁铝结合磷(NaOHP)、钙磷(HCl-P)和残渣态磷(Res-P),分析各形态磷空间分布及其对水相(间隙水、表层水)磷的影响。结果表明:海河干流表层沉积物中总磷质量分数较高,为808.5~1 698.7mg·kg-1,上游和下游的采样点含磷量较低,中游采样点含磷量较高;不同形态磷的质量分数差异较大,NH4Cl-P、BD-P、NaOH-P、HCl-P和Res-P的质量分数变化范围分别为8.1~31.1、41.9~84.9、151.6~348.2、312.2~819.9、226.8~1 003.0mg·kg-1,分别占总磷(TP)的0.65%~1.85%、3.19%~6.57%、10.8%~24.34%、20.26%~52.18%、24.41%~58.33%;间隙水中总溶解性磷与沉积物中NH4Cl-P、BD-P、NaOH-P的质量分数相关性较高,相关系数分别达到0.892、0.848、0.749。研究结果表明海河内源磷释放的主要控制方向为NH4Cl-P、BDP、NaOH-P。     

南海湖沉积物中Hg的形态分布特征

以包头市南海湖为研究对象,采用连续化学提取法,系统开展了沉积物中Hg的形态分布研究。结果表明,表层沉积物中Hg含量的水平分布总体呈现湖心区低,西南和东北部湖区高的趋势。腐殖酸结合态为表层沉积物中Hg的主导形态,次为交换态和水溶态。表层沉积物中生物有效态Hg的含量甚高,占总汞的76%~94%,对整个生态系统具有潜在危害性。沉积柱芯中总Hg表现为表层富集并随深度增加而降低的变化趋势。B、F站位柱状沉积物中腐殖酸结合态Hg随深度有规律的递减,H站位20 cm以上Hg的主导形态为腐殖酸结合态,残渣态次之;20～30 cm的主导形态则为残渣态及可交换态。     

哈素海沉积物中氮和有机质的分布特征

针对哈素海富营养化日趋严重的现实,系统开展了湖泊沉积物中不同形态氮及有机质的空间分布和污染特征研究。结果表明,表层沉积物中TN、Org N、NH+4 N及有机质的水平分布均表现经向分异特征,Org N的分布特征主导了TN的水平分布格局,有机质与TN具有强相关性。沉积柱芯中TN随深度增加而递减,有机质和Org N与TN的垂向分布相似,尽管 NH+4 N的垂直变化分异较大,但仍表现于表层富集的特点。Org N为表层沉积物和沉积柱芯中氮的主导形态,NH+4 N为无机氮的主导形态,成岩过程中,沉积物中TN只有极少部分在发生矿化。沉积物中有机质主要来源于湖中芦苇等大型挺水植物及陆源输入。哈素海表层沉积物的氮污染对底栖生物已经产生了严重的生态毒性效应,对底栖生物群落及整个水生生态系统构成了严重威胁。     

典型内陆湖泊沉积物氮、磷和重金属分布特征及生态风险评价——以武汉市武湖为例

城市内陆型湖泊湿地对城市生态系统具有重要的作用。以武汉市武湖为例,采用数理统计、营养盐指数、地累积指数和潜在生态风险指数等方法,对武湖表层沉积物中的氮、磷、有机质和重金属的平面分布特征、影响因素、富集污染程度、生态风险进行评价。结果表明: 武湖西北部表层沉积物中总氮、总磷和有机质的含量明显高于东南部,武湖周边地表径流和农田是营养元素的主要来源,旱地较水田有利于沉积物中总磷的富集; 武湖沉积物中有机质为内源水生植物和外源陆生植物的混合来源,与总氮具显著正相关关系; 沉积物中重金属含量总体较低,局部呈现高镉,平面上总体北部高于南部; 沉积物中重金属富集程度和潜在风险较低,局部地区镉和铅为轻微富集,镉和汞具中等潜在风险; 沉积物的潜在生态风险为低至中等,潜在生态风险与沉积物中镉的分布高度一致。     

云南安宁磷矿区水系沉积物磷赋存形态及分布特征

磷污染是水污染的重要组成部分,因其可造成水体富营养化、水质下降,从而引起人们的广泛关注。研究沉积物中不同磷赋存形态及其分布特征有助于了解沉积物中磷的行为特征及迁移能力,从而为水体富营养化防治提供支撑。磷矿的开采、冶炼对矿区内水资源环境可能产生严重影响,本文以安宁磷矿区内河流、水库为研究区域,分析了不同水系沉积物磷元素赋存形态及分布特征,并对其生态风险进行评估。采用X射线荧光光谱法测定研究区水系沉积物总磷(TP)含量,并基于顺序提取及Hupfer改进的磷形态分析方法,将研究区各水系沉积物中磷分为弱吸附态磷(NH₄Cl-P)、可还原态磷(BD-P)、金属氧化物结合态磷(NaOH-P)、钙结合态磷(Ca-P)、残渣态磷(Res-P)等5种形态,采用单因子污染指数法对其进行生态风险评估。结果表明：研究区水系沉积物样品中TP含量范围为567.6～48115.5mg/kg,NH4Cl-P含量范围为0.07～115.2mg/kg,BD-P含量范围为8.84～802.5mg/kg,NaOH-P含量范围为21.3～3129.5mg/kg, Ca-P含量范围为12～45098mg/k...     

云南抚仙湖沉积物有机质来源与时空变化特征

为揭示抚仙湖沉积物总有机碳(TOC)和总氮(TN)的时空分布特征及其主要来源,对抚仙湖表层沉积物和沉积物柱芯的TOC、TN和有机碳同位素组成(δ13Corg)进行了分析。结果表明,表层沉积物的TOC和TN含量分别为2.02%~3.40%和0.16%~0.36%;沉积物柱芯的TOC和TN含量分别为0.41%~6.63%和0.08%~0.77%,呈现出北湖高南湖低、表层高底部低的分布特征。内源有机质是抚仙湖沉积物中有机质的主要来源,不同湖区外源有机质的输入差异明显,其中南湖沉积物有机质中陆源比例较高。沉积物柱芯C/N值从底部到表层逐步增大,表明抚仙湖沉积物有机质中陆源有机质所占比例持续增加。与内源有机质相比,外源有机质输入增加更快,指示流域内人为活动增强导致流域侵蚀和水土流失加剧。     

兰州市宛川河中段表层沉积物中重金属元素迁移富集特征

通过对兰州市宛川河中段双店子河段表层沉积物元素分析,结合有机质含量和粒度测试,运用聚类分析和相关分析的方法,研究了重金属元素在河流表层沉积环境中的分布及迁移富集等地球化学行为与特征。结果表明Zn元素在研究河段有轻度污染;相关分析表明重金属元素含量与沉积物粒度之间无显著相关性,重金属元素主要是在固-液平衡体系中、通过多相化学反应形成沉淀。污染源分析表明,造纸污水的排放是造成研究区域中上游河段有机质含量较高的主要原因,大分子有机物质的存在不仅改变了此段河流沉积物粒度的变化,且有机质对重金属元素的富集有一定减缓作用。     

长江河口及其上海岸带水体沉积物中磷的存在形态

讨论了磷的 5种存在形态及其分布规律。河口及岸带水体沉积物中磷主要是以有机磷 (OP)和无机磷 (IP)形式存在的 ,有机磷是有机质的组成部分 ,无机磷又可分为可溶性磷(DP)、铁结合磷 (Fe P)、铝结合磷 (Al P)、钙结合磷 (Ca P)。研究发现 ,沉积物中总磷含量水平在 6 92 79～ 1570 99μg/g之间 ,无机磷含量在 2 2 0 0 2～ 92 8 33μg/g之间 ,占总磷含量的31 8%～ 6 0 5% ,而有机磷含量在 394 89～ 6 4 2 6 6 μg/g之间 ,为总磷含量的 39 5%～ 6 8 2 %。在分析水体沉积物中各形态磷的含量和变化的基础上 ,对磷在时空上的变化、与有机碳、总氮的关系以及污水输入影响等进行了初步的论述 ,并提出沉积物中铁结合磷 (Fe P)和铝结合磷 (Al P)可作为判断污染的指标之一。     

Sediment phosphorus fractions and profile distribution at different vegetation growth zones in a macrophyte dominated shallow Wuliangsuhai Lake,China

Sediment phosphorus (P) fractions and profile distribution at submerged macrophyte growth zone, emergent macrophyte growth zone and open-water zone were studied in Wuliangsuhai Lake, China, as well as the correlations among water content, grain size, and organic matter and P fractions. Among the three surveyed zones, the highest concentrations of most P forms occurred in the surface sediment and the lowest between a depth of 12 and 22 cm, except HCl-P and NaOH-P. Sediment phosphorus was mainly associated to inorganic forms (>50%) in three surveyed areas, and the highest value of inorganic phosphorus (IP) in the surface sediment was obtained from submerged macrophyte growth zone. Submerged and emergent macrophytes increased the IP content by 107 and 44 μg/g, respectively, in the surface sediment compared with open-water zone. Vertical profiles of IP in the three surveyed zones showed that the concentrations decreased from surface to 12 cm depth and then increased. There was a similar trend in the sediment profiles of organic phosphorus (OP) and total phosphorus (TP), but the highest concentration of OP and TP in surface sediment was obtained from the emergent macrophyte growth zone. Compared with open-water zone, the emergent macrophyte increased TP content in surface sediment by 1.73 times to 1,320 μg/g, while submerged macrophyte enhanced TP content in the surface sediment by 1.13 times to 865 μg/g. It was observed that in macrophyte growth zones, a strong linear correlation existed between organic matter and OP (r > 0.98), and the maximum concentrations of OP were present in the areas with maximum concentrations of organic matter. Results show that, although rooted macrophyte could uptake directly P from sediments, it is responsible for increasing the internal P loading especially OP by reducing current velocities, attenuating wave energy and generating organic residue in Wuliangsuhai Lake.     

化学连续提取法对太湖沉积物中磷的各种形态测定

为确定太湖沉积物中磷的各种形态含量,本文应用SMT 连续提取法对太湖梅梁湾表层沉积物样品和淡水沉积物标准物质BCＲ --684 中磷的各种形态进行测定。结果表明SMT 法具有一定的适用性和准确性。太湖沉积物中磷形态测定结果表明无机磷是太湖沉积物中磷的主要赋存形态,占总有效磷的 59. 22%,无机磷含量中非磷灰石态磷含量为139 μg /g,大于磷灰石态磷含量113 μg /g。     

Phosphorus fractions in sediment profiles and their potential contributions to eutrophication in Dianchi Lake

Dianchi Lake is a eutrophic lake in southwestern China. Sediment and the bottom water samples were taken from six sites in the east, west, south, north and center of the lake, respectively, in December 2002. Total phosphorus (TP) concentrations in sediments were high and reached a maximum value of 6.66 g/kg. There was a soluble reactive phosphorus (SRP) concentration gradient at the sediment–water interface. In the present study, sediment P was divided into loosely adsorbed P (NH₄Cl-P), redox-sensitive P (BD-P), metal oxides bound P (NaOH-P), calcium bound P (HCl-P), and organic P (Org-P). At three of the six sites selected, the concentrations of different P forms in sediments followed the order: NaOH-P, Org-P>HCl-P>BD-P>NH₄Cl-P in the profile, and in the southern lake the order was HCl-P>NaOH-P, Org-P>BD-P>NH₄Cl-P in the top 15 cm layers of the sediments. The sediment profiles showed that different forms of P had an increasing trend upward toward the sediment surface. There is a considerable potential for release from the sediment into the overlying water and sediment P could be the dominant factor determining the trophic status of the lake if the external load is reduced. An erratum to this article can be found at     

崇明东滩沉积物磷的分布特征及环境意义

对崇明东滩采集的表层样和柱状样品,进行样品的总磷(TP)、无机磷(IP)和有机磷(OP)以及有机质含量等的测定,分析了磷的分布变化特征并对其影响因素和环境意义进行了探讨。     

Phosphorus in suspended matter and sediments of a hypertrophic lake. A case study: Lake Dianchi,China

From June 2004 to December 2004, Lake Dianchi, which had large scale of cyanobacterial blooms was investigated in order to study P-fractionation in the suspended matter and the sediment. The investigation improves our understanding of phosphorus in Lake Dianchi and the relationship between phosphorus and cyanobacterial blooms. It contributes to the available literature on the behavior of P in hypertrophic lakes. The distribution of P-fractions in Lake Dianchi was not uniform from northwest to south, but was closely related to the trophic status of the whole lake. The concentrations of total phosphorus, labile P (NH₄Cl-P), Organic P (NaOH-NRP) and loss on ignition in suspended matter were positively correlated with the strength of cyanobacterial blooms. Total phosphorus in suspended matter was relatively stable for almost half an year and closely related to Chl. a concentration. The main content of organic phosphorus is in the cyanobacterial blooms. The concentrations of phosphorus bound to metal oxides and carbonates (NaOH-SRP and HCl-P) in sediment were similar to NaOH-SRP and HCl-P in the corresponding suspended matter. The latter two forms of P in suspended matter were not affected by cyanobacterial blooms, indicating that the inorganic phosphorus is derived from the sediment after resuspension from the sediment due to wind and wave action. The contribution of the different P-fractions to TP in sediment and in suspended matter indicates that NH₄Cl-P in the suspended matter is an important buffer for maintaining dissolved phosphorus in water.     

Comparison between the lower Nansi Lake and its inflow rivers in sedimentary phosphorus fractions and phosphorus adsorption characteristics

There were many differences between rivers and lakes such as flow velocity, hydraulic retention time, water vegetation community and other chemical-physical factors that may lead to different characteristics of sedimentary phosphorus. In our research, sedimentary phosphorus fractions and its phosphorus adsorption differences between the lower Nansi Lake and its main inflow rivers were compared. The results showed that the contents of NaOH-P, Org-P, IP-P, and TP in lake sediments were obviously higher than those in its inflow river sediments while HCl-P had no obvious difference between them. Based on analysis, the unstable NaOH-P would accumulate in lake sediments, while it is difficult for it to retain in sediments of rivers because of a high frequency of flood flows and unstable bed sediments. In addition, water vegetation communities were helpful in the accumulation of Org-P in lake sediments. From phosphorus adsorption experiments results, the Ceqc (equilibrium concentration of phosphorus release/adsorption) of lake sediments was higher than that of river sediments. It was indicated that sedimentary phosphorus would be more easily released from lake sediments than river sediments. So in future more work should be focused on internal P loading from lake sediments release.     

青海湖底沉积物的矿物物相及有机质保存研究

盐湖沉积环境是烃源岩发育的重要地质环境。本文以青海湖湖底沉积物为例，根据有机质与粘土矿物含最及矿物表面积的关系，分析了矿物学因素对盐湖相富有机质沉积物中有机质保存的影响。研究发现：湖底沉积物中有机质丰富，为上层水中的浮游生物和南河流携带束的陆地高等植物两种来源。矿物物相分析发现沉积物中粘土矿物含量达到32．4％，以伊利石为主。沉积物经密度分离后测试发现，有机碳含量与粘土矿物含量及矿物表面积之间具有很好的正相关性，说明粘土矿物吸附是青海湖底沉积物中有机质的主要赋存形式。     

长江中下游不同类型湖泊沉积物营养盐 蓄积变化过程及其原因分析*

在长江中下游的洪湖、太湖、巢湖采集了沉积柱样,测定了总有机碳、总氮、磷,并采用²¹⁰ Pb和¹³⁷ Cs定年。洪湖1950年以来沉积物中营养元素急剧增加,巢湖在20世纪70年代以来营养元素开始增加,而在太湖中则为80年代。结果表明草型湖中有机质增加比藻型湖迅速,洪湖湖泊沉积物有机质迅速增加与围垦活动开始时间一致。沉积物中总磷的变化不如总有机碳、总氮的变化规律性明显。洪湖两钻孔总磷背景值为0.7~0.8g/kg,太湖钻孔其总磷本底为0.6g/kg,梅梁湾大量钻孔表明总磷本底在0.5g/kg;巢湖的则更低。对比湖泊类型来看,目前为藻型湖的沉积本底磷偏低,而目前为草型湖的沉积本底磷偏高,这可能与不同生态类型湖泊营养元素的生物地球化学循环与积累的方式有关。