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1.
密云水库沉积物中磷的形态和分布特征   总被引:26,自引:3,他引:26       下载免费PDF全文
采用连续提取化学分析技术,对密云水库的柱状沉积物和表层沉积物样品进行了磷形态的提取分析,研究了各种形态磷在表层及垂立方向上的分布特征。分析结果表明,密云水库沉积物中以无机磷为主,有机磷次之,无机磷占总磷的76.88%。95.09%。沉积物中总磷及其不同形态无机磷在垂直方向上的分布变化规律为:总磷、可溶态磷含量随深度增加而降低,Ca—P合量随深度增加而增加,Al—P和闭蓄态磷变化幅度不大,Fe—P、有机磷的垂直方向变化情况较复杂。潮、白河流域总磷与各形态磷在表层及垂直方向上的分布差异在一定程度上反映出近年来水库所受上游流域工业活动和人为污染的影响情况。  相似文献   

2.
胶州湾沉积物中氮的地球化学特征及其环境意义*   总被引:6,自引:2,他引:6  
通过分级浸取的方法获得了胶州湾沉积物中不同形态的氮,将可转化态氮分为离子交换态(IEF-N)、弱酸浸取态 (WAEF-N)、强碱浸取态(SAEF-N)和强氧化剂浸取态(SOEF-N),讨论了其地球化学特征和控制因素,并结合210 Pb测年计算了不同年代氮的埋藏通量。在此基础上,分析了胶州湾沉积物中氮给出的环境信息。结果表明,强氧化剂浸取态氮是胶州湾沉积物中可转化态氮主要赋存形态,NO3-N是胶州湾沉积物中氮的优势形态,氮的含量及埋藏通量的分布受到pH、盐度、温度、生物扰动、沉积物粒度、沉积速率等多种因素的影响。受人为活动的影响,目前每年排入胶州湾的固体垃圾和污水中的悬浮颗粒物的量已超过河流来沙,成为胶州湾主要的沉积物来源。在20世纪初由于污染情况较轻,并且受人为活动的影响较小,胶州湾沉积物各形态氮的埋藏通量较低,但自从20世纪80年代开始,环胶州湾地区的工农业迅猛发展,氮的埋藏通量急剧增加,胶州湾地区的环境一度恶化,但由于近年来采取的较为得力的治污与排放措施,胶州湾的环境状况已有明显改观。  相似文献   

3.
化学连续提取法对太湖沉积物中磷的各种形态测定   总被引:2,自引:0,他引:2  
杨柳  唐振  郝原芳 《世界地质》2013,32(3):634-639
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。  相似文献   

4.
永定河沉积物中磷的存在形态及其指示意义   总被引:11,自引:3,他引:11  
采集官厅水库的永定河入库口附近沉积物,采集深度77cm,以1cm做为一个层位单元进行分割,测定其中11个层位的总磷,同时对这些层位沉积物中二钙结合态磷、八钙结合态磷、铝结合态磷、铁结合态磷进行连续分级提取,有机磷通过灼烧法测定,残留态磷由总磷与上述五种形态磷差减确定。结果显示:沉积物中总磷含量在580.3~1276.2μg/g,主要成分为无机磷,平均占总磷的比例为88%;残留态磷为沉积物中磷的主要形态,含量占总磷50%以上。在沉积物深度75~20cm的沉积年份中,永定河向官厅水库输送的残留态磷量不断增加,且增速逐渐加快,主要为水土侵蚀的产物。从沉积深度20cm以来的沉积年份里,总磷的输入量不断减少,但以二钙结合态磷为主的生物有效磷输入量随总磷的含量降低而持续增加,主要来自工业和生活污水,反映了官厅水库上游永定河流域内工业和生活污水排放所占的比重日益增加,成为官厅水库富营养化污染的主要来源,以致官厅水库富营养化的趋势增强。  相似文献   

5.
密云水库沉积物-水界面磷的地球化学作用   总被引:11,自引:4,他引:11  
以密云水库为例,研究了水库沉积物中有机质的含量与有机磷的关系,表明表层沉积物中的总有机碳和有机磷的含量都明显高于底层,是由于一些以磷为营养素的富营养化指示藻类在水体中逐年增加,它们死亡后的残骸经分解-矿化后在底积物中累积的结果。沉积物和孔隙水中磷的剖面特征研究表明,表层沉积物和孔隙水中的磷都有明显上升的趋势,是由于沉积物的表层微生物和活性有机碎屑层比较丰富,有机质降解和含磷的有机化合物分解,使溶解性磷酸盐进入孔隙水。对沉积物磷形态、总有机碳及孔隙水中总磷对磷释放的影响进行了线性相关分析,结果表明上覆水中的磷主要来自沉积物的铁结合态磷、铝结合态磷、溶解态磷三种形态,孔隙水中总磷以及总有机碳含量对上覆水中总溶解磷浓度存在较大的影响,这些为研究水库沉积物作为水库内污染源对水质的影响提供了基础资料。  相似文献   

6.
渤海沉积物中氮的形态及其在循环中的作用   总被引:76,自引:2,他引:76  
利用分级浸取分离法首次将自然粒度下渤海表层沉积物中的氮分为可转化态氮和非转化态氮,并将可转化态氮区分为四种形态:离子交换态氮(IEF—N)、碳酸盐结合态氮(CF—N)、铁锰氧化态氮(IMOF—N)及有机态和硫化物结合态氮(OSF—N),并对其分布进行了研究,估算了各形态氮对沉积物-海水界面循环的贡献。结果表明,渤海沉积物氮中可转化态氮占总氮(TN)的比例为30.85%,其中IEF—N、CF—N、IMOF—N和OSF—N所占比例分别为3.67%、0.31%、0.42%和26.45%,其分布呈现不同的地球化学特征,分布的控制因素亦不同;各形态氮释放的顺序与其在沉积物中结合的牢固程度一致,对界面循环的相对贡献随时间尺度发生变化,绝对贡献的大小与其在沉积物中的储存量大小一致,为0SF—N(84.6%)>IEF—N(13、0%)>IMOF—N(1.4%)>CF—N(1、0%);非转化态氮占TN的69.15%,其中约有49%是由于粒度因素所致。  相似文献   

7.
长江口海域表层沉积物中磷的形态分布及环境意义   总被引:4,自引:0,他引:4  
用分级浸取的方法对2009年2月采自长江口海域27个表层沉积物样品中P的形态和相关环境特征进行了研究。结果表明,物质来源和沉积物粒度是各形态P的含量与分布的主要控制因素。Ex-P(可交换态磷),Fe-P(铁结合态磷),Al-P(铝结合态磷),Lea-OP(可浸取有机磷)和CFA-P(自生钙磷)5种形态的沉积磷在适当条件...  相似文献   

8.
探讨了南印度洋海区总有机磷(TOP)、总有机氮(TON)以及溶解无机营养盐的分布规律。分析结果表明:研究海区内溶解无机营养盐受水体中生物活动和物理过程的综合影响,表层水体由于生物活动的消耗,其磷酸盐等无机营养元素的含量一般是采样水深范围内最低的;中深层水体由于生物活动的降低以及有机质矿化作用的影响,无机营养元素的变化范围较小。表层水体中TOP和TON含量占TP和TN的主要部分,说明表层水体中的氮和磷主要以有机态形式存在,且沿着37.8°S从西向东,TOP和TON的含量以及TOP/TP和TON/TN的比值呈降低的趋势。研究海区叶绿素a的分析结果表明,初级生产力的变化可能是控制研究海区TON和TOP空间分布的主要因素。不同形态氮、磷营养元素的相关分析表明,有机营养盐和无机营养盐之间互为补充,且表层水体中有机氮和磷是水体初级生产所需营养盐的重要来源,总氮、总磷的关系表明研究区初级生产力并不受氮、磷的限制。  相似文献   

9.
长江河田及其上海岸带水体沉积物中磷的存在形态   总被引:7,自引:0,他引:7  
刘敏  陆敏 《地学前缘》2000,7(B08):94-98
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)、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692.79~1570.99μg/g之间,无机磷含量在220.02~928.33μg/g之间,占总磷含量的31.8%~60.5~,而有机磷含量在394.89~642.66μg/g之间,为总磷含量的39.5%~68.2%。在分析水体喾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。  相似文献   

10.
长江河口及其上海岸带水体沉积物中磷的存在形态   总被引:13,自引:0,他引:13  
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。  相似文献   

11.
Particulate carbon, nitrogen, and phosphorus samples from the water column and surficial sediments of the Maryland portion of Chesapeake Bay were thermally partitioned into their organic and inorganic components. During periods of both high and low fluvial input and high and low phytoplanktonic production, particulate organic carbon accounted for a mean of 99.3% of the total particulate carbon and particulate organic nitrogen accounted for a mean of 99.1% of the total particulate nitrogen. The particulate organic phosphorus contribution was variable both seasonally and spatially, accounting for 14–77% of the total pool of particulate phosphorus. The highest concentrations were found in the surface waters during maximum phytoplanktonic production and low fluvial input. The contribution of particulate inorganic phosphorus to the seston and to total particulate phosphorus decreased as distance from the primary fluvial source increased, reflecting a greater relative inclusion of particulate phosphorus in the biologically bound component in the higher salinity zone seaward of the turbidity maximum. Organic carbon and nitrogen constituted over 99% of the surficial sediment carbon and nitrogen, and organic phosphorus was 10–40% of the surficial sediment phosphorus.  相似文献   

12.
太湖东部湖湾水生植物生长区底泥氮磷污染特征   总被引:6,自引:0,他引:6  
向速林  朱梦圆  朱广伟  许海 《沉积学报》2014,32(6):1083-1088
为了解太湖东部湖湾(贡湖湾、光福湾、渔洋湾)表层底泥中氮、磷的污染特征及其与水生植物生长的关系,采集了各湖湾滨岸带水生植物生长区的表层底泥,探讨了水生植物的生长与分布对表层底泥中总氮(TN)、总磷(TP)及总有机碳(TOC)等含量的影响,并对表层底泥进行营养评价.结果表明,水生植物生长密集区底泥中TN、TP、TOC的含量均显著低于水生植物零星生长区,说明水生植物的生长对太湖东部湖湾表层底泥中营养盐与有机碳含量具有较为明显的影响;相关性分析显示,表层底泥中TOC与TN含量呈显著相关性(R2=0.832 8),而与TP的相关性则较弱(R2=0.166 5),反映了TOC在湖泊底泥中的沉积可能成为湖泊氮的重要来源,而对磷的影响较小.利用有机指数与有机氮指数两种方法分别对东部各湖湾底泥进行污染评价,贡湖湾、光福湾、渔洋湾底泥有机指数平均值分别为0.142 7、0.228 6与0.208 6,均属较清洁与尚清洁水平,而各湖湾有机氮指数平均值均为Ⅲ与Ⅳ级,说明底泥已遭受了一定程度的氮污染.因此,对水生植物零星生长区表层底泥中氮含量的控制与削减有利于湖泊富营养化的预防与治理.  相似文献   

13.
胶州湾底层水营养盐的分布特征及有机污染状况分析   总被引:7,自引:2,他引:7  
根据胶州湾底层水营养盐的调查资料,分析了胶州湾底层水中营养盐的分布规律、营养盐的限制因素、水体富营养化水平和有机污染状况。结果表明胶州湾底层水营养盐含量、底层水富营养化判断值与底层水有机污染指数的平面分布非常相似,均从东北向西南递减,研究区域富营养化程度达45.45%,且胶州湾中浮游植物的生长主要受控于溶解无机磷的限制。  相似文献   

14.
Utilizing a sequential extraction technique this study provides the first quantitative analysis on the abundance of sedimentary phosphorus and its partitioning between chemically distinguishable phases in sediments of the Bering Sea, the Chukchi Sea and the Mackenzie River Delta in the western Arctic Ocean. Total sedimentary phosphorus (TSP) was fractionated into five operationally defined phases: (1) adsorbed inorganic and exchangeable organic phosphorus, (2) Fe-bound inorganic phosphorus, (3) authigenic carbonate fluorapatite, biogenic apatite and calcium carbonate-bound inorganic and organic phosphorus, (4) detrital apatite, and (5) refractory organic phosphorus. TSP concentrations in surface sediments increased from the Chukchi Sea (18 μmol g−1 of dried sediments) to the Bering Sea (22 μmol g−1) and to the Mackenzie River Delta (29 μmol g−1). Among the five pools, detrital apatite phosphorus of igneous or metamorphic origin represents the largest fraction (~43%) of TSP. The second largest pool is the authigenic carbonate fluorapatite, biogenic apatite as well as CaCO3 associated phosphorus (~24% of TSP), followed by the Fe-bound inorganic phosphorus, representing ~20% of TSP. The refractory organic P accounts for ~10% of TSP and the readily exchangeable adsorbed P accounts for only 3.5% of TSP. Inorganic phosphorus dominates all of phosphorus pools, accounting for an average of 87% of the TSP. Relatively high sedimentary organic carbon and total nitrogen contents and low δ13C values in the Mackenzie River Delta together with the dominance of detrital apatite in the TSP demonstrate the importance of riverine inputs in governing the abundance and speciation of sedimentary phosphorus in the Arctic coastal sediments.  相似文献   

15.
Analyses of organic carbon, total nitrogen, and inorganically bound ammonium (exchangeable and fixed ammonium) in two oxic deep-sea sediment cores from the Central Pacific Ocean revealed insufficiently high inorganic ammonium contents of these sediments to explain the low C/N ratios, although representing 20–45% of the total nitrogen.Both, organic carbon/total nitrogen ratios (ranging from 3.9?1.3) and organic carbon/organic nitrogen ratios (5.6?1.9) decrease with increasing sediment depth, the latter indicating a real enrichment of organic nitrogen compounds during diagenesis relative to total organic matter.Organic matter/alumina relationships indicate that this unusual preservation of organic nitrogen compounds is probably caused by sorption to clay minerals protecting them against bacterial attack.  相似文献   

16.
太平洋西部深海沉积物中有机质、氮、磷的初步研究   总被引:7,自引:0,他引:7  
鲍根德 《沉积学报》1987,5(1):114-124
本文通过对太平洋西部(南纬2°-8°,东径170°-173°20')水深在3800-5200米7个站位柱状样中有机质、氮、磷的含量分析,并与沉积物中粒度、微古、底栖生物、矿物资料的对比研究,指出了太平洋西部深海沉积物中有机质、氮、磷的分布规律,控制因素及地球化学特征。资料研究表明:有机质、氮主要来自海水的化学作用及生物作用的沉淀物,而磷同时又有火山喷发时颗粒无机磷的加入;有机质、氮的含量分布与沉积物类型密切有关,在某种程度上,对太平洋西部的沉积环境起了标志作用。  相似文献   

17.
Total organic nitrogen (TON) and phosphorus (TOP) were measured as a function of depth in 14 cores taken from a New England, tidal, freshwater marsh. TON and TOP ranged from 1.56 to 1.97% and 0.11 to 0.30% of dry weight sediments, respectively. The variation in both pool sizes over time was small and TON varied inconsistently with depth; however, TOP decreased regularly down to 20 cm. Consequently, the TON: TOP ratio increased linearly from 14∶1 at the surface to 32∶1 at 20 cm, then was nearly constant to 70 cm. This pattern may be a general feature of marsh sediments and may indicate 1) that phosphorus is recycled less efficiently than nitrogen, 2) that over time proportionately more introgen than phosphorus is incorporated into recalcitrant compounds, or 3) that phosphorus is more mobile than nitrogen in these marsh sediments. The total inorganic nitrogen pool was measured in this marsh also and was dominated by ammonium (97% of total). The annual average free ammonium concentration was 3.70±0.64 mg N per 1 at the surface and decreased to 0.92±0.18 mg N per 1 at 20 to 22 cm in the sediments. Sorptiondesorption studies showed that, on a fresh sediment volume basis, sediment sorbed ammonium was roughly equivalent to free porewater ammonium (K=0.8). The relationship between free and sorbed ammonium was linear between 0.4 and 24.0 mg NH4·N per 1 of pore water. The depth distribution of ammonium in these sediments is probably maintained by a dynamic balance between net microbial mineralization of litter, plant uptake, transpiration, diffusion, and porewater advection.  相似文献   

18.
Chesapeake Bay sediments were examined for biogeochemical evidence of eutrophication trends using two mesohaline sediment cores. Measurements of 210Pb geochronology and sediment profiles of organic carbon, nitrogen, organic phosphorus, inorganic phosphorus, and biogenis silica (BSi) were used used to develop temporal concentration trends. Recent sediments have 2–3 times as much organic carbon and nitrogen as sediments from 80 to 100 yr ago, but the increases result from both changes in organic matter deposition and time-dependent changes in organic matter decomposition rates. Despite increases in phosphorus loading, no major changes in phosphorus concentration were noted throughout most of the century; anthropogenic phosphorus deposition, though not evident in sulfidic mid-bay sediments, must occur in more oxidizing sediment environments in both the northern and southern bays. Temporal trends in BSi concentrations are much less evident and the lack of substantial increases in this century suggest that BSi inputs may be capped by late spring-summer Si limitation.  相似文献   

19.
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。  相似文献   

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