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1.
研究了胶州湾柱状沉积物磷的存在形态、浓度水平及其分布特征.结果表明3种形态磷的浓度为:总磷(TP) 12.78 μmol·g-1;无机磷(IP)9.60 μmol·g-1;有机磷(OP)3.18 μmol·g-1.无机态磷占总磷的75%,为沉积物中磷的主要存在形式.磷在柱状沉积物中的分布呈上层低(0~10cm),中间层段(66~90cm)略高,155cm以深层段浓度稳定且较低的态势,尤以TP和IP表现明显.磷在上层沉积物中浓度水平较低的现象可能与近年来入湾河流磷的输入量较低有关. 相似文献
2.
通过对2006年夏季对北黄海的现场调查,对该海域磷的形态和分布特征进行了探讨.结果表明: 夏季北黄海海域总磷(TP)浓度的变化范围是0.00~1.63 μmol/L,其中溶解无机磷(DIP)是最主要的存在形式,占TP的44%,溶解有机磷(DOP)略低,颗粒磷(PP)最少,总磷的分布呈现由南向北逐渐增高的趋势.北黄海海域水体中各种形态磷(除DOP外)均是表层低于底层,表底层PP的含量相差不大, 表层以DOP为主要存在形态,而底层则以DIP为主,大部分DIP浓度高的区域恰好是DOP浓度的低值区,一定程度上存在着负相关关系(r=-0.34).这样的分布趋势除了受生物活动的影响外,在底部海域还与黄海冷水团密切相关. 相似文献
3.
厦门西港表层沉积物磷的形态与分布 总被引:5,自引:0,他引:5
本文简要地介绍了厦门西港表层沉积物中各形态的磷:总磷(TP)、有机磷(OP)、无机磷(IP)、水可溶解磷[P(sol)]、铁铝结合态磷[P(Al+Fe)]和钙结合态磷[P(Ca)]的含量与分布。结果表明,沉积物中TP的质量分数为(473~738)×10~(-6),平均值为560×10~(-6);TP中主要是IP,IP/TP值为60%,其他形态磷与总磷的比值是:P(sol)为1.5%,P(Al+Fe)为14%,P(Ca)为45%,OP为40%。 相似文献
4.
沉积物释放是海洋环境中甲烷(CH_4)的重要来源。通过2013年7月和8月两个航次,对东、黄海泥质区沉积物中CH_4浓度的垂直分布和沉积物-水界面通量进行了研究。结果表明,除个别站位外,黄海沉积物(50 cm以浅)中CH_4的浓度变化范围在0.2~1.0μmol/L之间,长江口及浙闽沿岸附近的沉积物中CH_4浓度则要更高(1.0~2.0μmol/L),而东海东部海域沉积物中CH_4浓度波动范围为0.2~3.0μmol/L。总体来说,东、黄海沉积物中CH_4浓度偏低,这可能与观测到的高浓度硫酸盐(20 mmol/L)有关。通过整柱密室培养实验估算出东、黄海沉积物-水界面CH_4释放速率在0.64~2.12μmol/(m2·d)之间,东、黄海沉积物CH_4释放总量为6.7×108 mol/yr;但采用菲克定律估算的CH_4扩散通量则要比现场培养的结果低2~5倍,表明不同的方法在估算沉积物-水界面CH_4通量上还具有一定的不确定性。 相似文献
5.
花鸟山外海域几种形态磷在柱状沉积物中的分布及环境意义 总被引:7,自引:0,他引:7
综合运用 SEDEX化学法、ASPILA化学法和 XRF仪器分析法 ,对在东海赤潮多发区花鸟山外海域采集的柱状沉积物进行了总磷及其不同形态磷含量的系统分析。研究表明 ,总磷及其不同形态磷在沉积柱垂向上的分布有一定的变化规律。在采样深度范围内 ,总磷 (TP)、有机磷 (OP)和铁结合态磷 (Fe - P)的含量自下而上增高 ,而吸附态磷 (Ad - P)、自生钙结合态磷 (Ca- P)与碎屑态磷 (De- P)的含量向上递减。样品柱具有较均匀的粒度及矿物、化学组成 ,基本可以排除沉积物质来源和沉积环境变化对沉积物中磷含量的影响 ,而且也不能仅仅用早期成岩作用来解释磷的上述行为。不同形态磷在柱状沉积物中的分布规律 ,在一定程度上反映了近年来陆源区环境污染加剧的趋势。 相似文献
6.
黄海北部夏季无机氮赋存形态及其与反硝化速率的关系研究 总被引:2,自引:0,他引:2
用乙炔抑制法对北黄海海域沉积物-水界面反硝化速率进行了研究,并用分相浸取法对相应站位沉积物中氮的赋存形态进行了分析.结果表明,该海域界面反硝化速率在3.2.~7.5 μmol/m2·h之间,可提取无机氮的平均含量范围在0.7 2~80.36 μg/g之间.对两者之间的关系研究表明,该海域反硝化速率与沉积物中离子交换态(IEF)硝酸盐氮和可提取无机总氮之间存在较好的相关性,相关系数分别为0.947和0.88 6(P<0.01);与碳酸盐结合态(CF)和铁锰氧化物态(IMOF)的硝酸盐氮及氨氮之间相关性不明显. 相似文献
7.
2007年秋季搭栽开放航次时黄海、东海、南海3个海域共10个站位的小型底栖动物组成、丰度和生物量,以及环境因子进行了调查研究.3个海域小型底栖动物的平均丰度以黄海最高,为(2 132±946)个/10 cm2,东海次之,为(1 954±2 047)个/10 cm2,而南海仅(156±56)个/10 cm2;平均生物量(干质量)依次为(2 193±1 148)μg/10 cm2、(1 865±1 555)μg/10 cm2和(212±22)μg/10 cm2.3个海区分选出的14个小型底栖动物类群中,丰度上均以自由生线虫占绝对优势,分别占总量的85%、89%、85%.在生物量上,黄海以自由生线虫贡献最多(33%),多毛类居次;东海二者比例相近(约为37%),而南海则以多毛类占绝对优势(56%).在小型底栖动物的垂直分布上,3个海区差异较大:分布于沉积物表层0~2 cm的小型底栖动物在黄海高迭90%,东海仅46%,在南海为63%.统计分析表明,本研究站位小型底栖动物丰度与沉积物中的叶绿素及脱锾叶绿酸含量和底温呈显著正相关,与水深呈显著负相关.该结果与本航次之后在广东湛江和海南以东的南海海域开展的908调查结果形成了鲜明对照,后者的小型底栖动物及线虫丰度与沉积物中有机质含量呈显著正相关,与水深呈显著负相关,表明近海受人类干扰影响较大. 相似文献
8.
磷元素是海洋基础营养盐之一,其赋存形态及分布直接影响海区的初级生产力,是海洋生物地球化学循环的重要驱动力。但大河河口与近海等重要的水生关键带水动力循环过程复杂,导致悬浮颗粒物(SPM )中磷元素的赋存形态和分布特征变化多端,亟须深入研究。根据2016年春季(4?5月)、夏季(7月)和秋季(9?10月)对浙江近岸海域的调查结果,本研究分析了浙江近岸海域SPM中总磷(TPP)、无机磷(PIP)和有机磷(POP)的含量水平、空间分布特征和影响因素。结果表明,浙江近岸海域SPM中TPP含量范围为0.13~66.13 μmol/L,均值为3.35 μmol/L;PIP含量范围为0.03~34.19 μmol/L,均值为1.97 μmol/L;POP含量范围为0.06~31.94 μmol/L,均值为1.39 μmol/L。PIP是浙江近岸海域水体中TPP的主要存在形式,占52.3%。春季浙江近岸海域表层TPP含量占总磷(TP)含量的19.3%~97.7%。春、秋季的SPM中,TPP、PIP和POP含量空间分布相似,均呈现由内湾向外海逐渐降低的变化趋势。PIP、POP与SPM呈显著的正相关性,表现出高SPM含量的海区有着较高的颗粒态磷含量,说明其受陆源输入的影响。春季盐度大于28且SPM含量小于20 mg/L的外侧远海海域,POP与Chl a的相关系数和斜率均明显高于PIP与Chl a的相关系数和斜率,说明该区域浮游植物是POP的主要贡献来源。 相似文献
9.
2010年3月在厦门湾采集表层沉积物,应用改进的化学试剂连续分级浸取法(SEDEX)法对其中的弱吸附态磷(Ads-P)、铁结合态磷(Fe-P)、自生磷灰石及钙结合态磷(Ca-P)、碎屑态磷(De-P)和有机态磷(OP)的含量进行了分析测定,结合沉积物的环境参数,讨论了各种形态磷的地球化学行为。Ads-P、Fe-P、Ca-P、De-P、OP和总磷(TP)平均含量分别为9.80μg·g-1、148.69μg·g-1、14.07μg·g-1、136.89μg·g-1、91.97μg·g-1和401.41μg·g-1。研究表明,沉积物中的TP受陆源输入影响较小;Ads-P和Ca-P含量主要源于海区内部生物地球化学过程;De-P、OP和Fe-P主要受陆源输入影响;Ca-P、De-P和OP与重金属(Cu、Pb、Cd和As)具有化学耦合作用,在沉积过程中,可能具有相似地球化学行为。 相似文献
10.
硝化作用是海洋氮循环的核心过程。作为硝化过程关键步骤的氨氧化过程的主要参与者,氨氧化古菌和氨氧化细菌对硝化作用的相对贡献是海洋氮循环关注的热点问题之一。本文选取渤海和南黄海20个站位的表层沉积物,通过微宇宙培养实验研究了沉积物中氨氧化古菌和氨氧化细菌对硝化潜势的相对贡献。结果表明,渤海和南黄海海域表层沉积物中潜在硝化速率(以氮计,下同)为0.004 6~0.283 1μmol/(g·d),其中氨氧化古菌潜在硝化速率为0.004 3~0.274 3μmol/(g·d),氨氧化细菌潜在硝化速率为0.000 4~0.056 0μmol/(g·d)。氨氧化古菌是硝化潜势的主要贡献者,在渤海海域的贡献率为59.79%~97.95%,在南黄海海域的贡献率为18.47%~94.26%。渤海海域潜在硝化速率显著高于南黄海海域。此外,本研究海域中盐度是影响潜在硝化速率的关键环境因子,对渤海海域的分析则表明越高的NO3-浓度可能指示着越高的硝化潜势。在河口及近海沉积物中,氨氧化古菌在硝化过程中起着更加重要的作用;河口和近岸沉积物硝化潜势总体高于远海。本研究为进一... 相似文献
11.
黄东海表层沉积物中磷的赋存形态和分布特征及其对生态系统的潜在影响 总被引:2,自引:0,他引:2
For better understanding the phosphorus(P) cycle and its impacts on one of the most important fishing grounds and pressures on the marine ecosystem in the Yellow Sea(YS) and East China Sea(ECS), it is essential to distinguish the contents of different P speciation in sediments and have the knowledge of its distribution and bioavailability. In this study, the modified SEDEX procedure was employed to quantify the different forms of P in sediments. The contents of phosphorus fractions in surface sediments were 0.20–0.89 μmol/g for exchangeable-P(Exch-P), 0.37–2.86 μmol/g for Fe-bound P(Fe-P), 0.61–3.07 μmol/g for authigenic Ca-P(ACa-P), 6.39–13.73μmol/g for detrital-P(DAP) and 0.54–10.06 μmol/g for organic P(OP). The distribution of Exch-P, Fe-P and OP seemed to be similar. The concentrations of Exch-P, Fe-P and OP were slightly higher in the Yellow Sea than that in the East China Sea, and low concentrations could be observed in the middle part of the ECS and southwest off Cheju Island. The distribution of ACa-P was different from those of Exch-P, Fe-P and OP. DAP was the major fraction of sedimentary P in the research region. The sum of Exch-P, Fe-P and OP may be thought to be potentially bioavailable P in the research region. The percentage of bioavailable P in TP ranged from 13% to 61%. Bioavailable P burial flux that appeared regional differences was affected by sedimentation rates, porosity and bioavailable P content, and the distribution of bioavailable P burial flux were almost the same as that of TP burial flux. 相似文献
12.
黄东海沉积物中的还原无机硫 总被引:2,自引:1,他引:1
Cold diffusion methods are used to separate and quantify the three reduced inorganic sulfur species into acid volatile sulfide(AVS), pyrite–S and element sulfur(ES) in the sediments of the Yellow and East China Seas. The results show that up to 25.02 μmol/g of AVS, 113.1 μmol/g of pyrite–S and 44.4 μmol/g of ES are observed in the sediments of the Yellow Sea and East China Sea. Pyrite–S is the predominant sulfide mineral in the sediments, while the concentration of AVS is quite low at most stations in the study area. The amounts and reactivity of organic matter are the primary limited factor for the sulfide formation, while an iron limitation and a sulfate limitation are not observed in the sediments of the Yellow Sea and East China Sea. The irregular profiles of the three reduced inorganic sulfur species also reflected the comprehensive influence of sediment composition and sedimentation rates. 相似文献
13.
Jianming Pan Chuanyu Hu Jianfang Chen Xiaoya Liu Huaiyang Zhou Weidong Ji 《海洋学报(英文版)》2003,22(3):385-394
According to two cruises investigation information in summer and winter during 1998 and1999, the phosphorous concentration distribution and changes of summer and winter were discussed pri-marily in the South China Sea. The results show that the phosphate concentration of surface seawater insummer is distinctly lower than that in winter, averaging 0.04 μmol/dm3 in summer and 0.35 μmol/dm3 in winter. The organic phosphorous concentration of surface seawater in summer is higher than thatin winter, averaging 0.12μmol/dm3 in summer and 0.04 μmol/dm3 in winter respectively. The season-al changes of total phosphorus are similar to phosphate, averaging 0.22 μmol/dm3 in summer and 0.61μmol/dm3 in winter respectively. In vertical direction, phosphate, TDP and TP content are the lowestin upper 50 m water column, and increase in linearity rapidly with water depth, increasing slowly under500 m, reach to maximum about 1 000 m, then decrease slightly with water depth increasing. The ver-tical distribution is typical in summer, and there is small dispersed for phosphorus concentration for thesame depth of different stations. However, in winter there is a large disperse for phosphate, TDP andTP, specifically for phosphate at 200 m at which the concentration is maximum. This result indicatesthat there are large differences in hydrology and biology conditions that affect largely the chemical envi-ronment of the South China Sea. The organic phosphorus is the predominant in surface seawater of theSouth China Sea, but the inorganic phosphorus is the predominant in layers below depth of 150 m. Theorganic phosphorus concentration in deep water usually decreases with water depth increasing. The or-ganic phosphorus in summer is remarkably more than that in winter because of the strong biology activi-ties in summer. 相似文献
14.
Recent sediment accumulation and origin of shelf mud deposits in the Yellow and East China Seas 总被引:3,自引:0,他引:3
Modern (last 100 yr) accumulation rates of shelf mud deposits in the Yellow and East China Seas were investigated using the distribution of excess 210Pb (210Pbex) in sediment core samples. Compilation and merger of new and previously published data helped clarify sediment accumulation in these seas. The estimated accumulation rates, together with data of suspended sediment concentrations, provided findings on the sediment budget, origin, and transport pathway of the mud deposits. The overall accumulation distribution in the Yellow and East China Sea shelf revealed a general, cross-shelf decreasing trend along the sediment dispersal system away from the rivers, except for the South Sea (SSM) and southeastern Yellow Sea (SEYSM) mud patches found along the Korean coast. Notably, 210Pbex activity profiles within the SSM and the SEYSM yielded a relatively high accumulation rate of 2-5 mm/yr, implying a sedimentation rate of 4-15 × 107 tons per year in this coastal zone. Such an annual accumulation rate is about one order of magnitude greater than the total sediment discharge (6-20 × 106 tons/yr) from Korean rivers, suggesting an additional offshore source. The distribution pattern of the well-defined suspended plume clearly showed the possible transport and exchange of fine-grained sediments between the ECS shelf and the coastal area of Korea, especially during winter. Such a high accumulation in Korean coastal areas is attributable to the sediments supplied from the mud deposit of the ECS (i.e., SWCIM), with origins in Chinese rivers. Therefore, the Korean coastal area may be an important sink for some of Chinese river sediments being transported from the south by the Yellow Sea Warm Current. 相似文献
15.
黄、东海柱状沉积物中生物硅含量的分析 总被引:15,自引:0,他引:15
对东、黄海2 0 0 0年10月和2 0 0 1年5月2个航次所获得的表层及柱状沉积物样品进行分析,在单点提取测定方法的基础上采用连续提取方法,利用斜率校正法扣除非生物硅的干扰,测定了东、黄海柱状沉积物中生物硅的含量。从整个东、黄海海域来看,沉积物中生物硅的含量<1% ,属于低含量海域;讨论了沉积物样品处理方法对分析结果的影响,在此基础上分析了不同海区柱状沉积物中生物硅的分布特征以及沉积物中叶绿素、水体中硅酸盐、叶绿素、N/P比值等生态要素与沉积物中生物硅分布的相关关系。 相似文献
16.
Surface sediment samples taken from the East China Sea off the Changjiang estuary are used as raw materials for phosphorus releasing experiment. It is found that after being thoroughly mixed with seawater for about 10 minutes, phosphorus released from the sediments reaches its maximum value. Adsorption kinetics can be fitted with both Elovich equation and two-constant rate equation. The releasing amount is closely related to the composition of the sediments. Phosphorus release from silty and muddy sediment is higher than from that dominated by sandy composition. For the desorption reaction, iron-phosphorus(Fe-P) is the most active one, with a releasing ratio higher than other phosphorus forms,followed by absorbed-phosphorus (Ad-P) and organic bound phosphorus (OP). All of them can be referred to as bio-available phosphorus. The results demonstrate that phosphorus in sediments can be released into seawater under suitable hydrodynamic conditions, and have a great impact on the nutrition state and primary productivity of marine biosphere. 相似文献
17.
南海海域海水中各形态磷的化学分布特征 总被引:6,自引:0,他引:6
根据1998年7月和1999年1月两个航次的调查资料,对南海水体中磷的含量分布以及夏、冬季变化规律进行了探讨.结果表明,南海表层水体中磷酸盐夏季含量明显低于冬季,夏季平均含量为0.004μmol/dm3,而冬季为0.35 μmol/dm3;有机磷含量夏季高于冬季,含量分别为0.12,0.04 μmol/dm3;总磷含量的季节变化与无机磷酸盐类似,夏、冬季含量分别为0.22,0.61 μmol/dm3.在垂向分布上表层50 m水柱中PO43--P,总溶解态磷和总磷含量最小,随水深增加基本上呈线性快速增加,至500 m增加减缓,1 000 m左右为最大含量,然后随着水深略有下降.在夏季垂直分布比较典型,不同站位在一水深的含量离散性小,而冬季PO43--P,总溶解态磷和总磷的垂直分布则显得离散性大,尤其是PO43--P分布在200 m左右出现最大值,说明当年冬季南海各区域存在着较大水文、生物差异,很大的影响了化学环境的变化.在南海表层水中通常以有机磷占优势,在150 m深处以下的水中则以无机磷为主.深水中溶解的有机磷含量一般随水深减少.夏季的有机磷明显高于冬季,表明夏季的生物作用强烈. 相似文献
18.
Historical sediment nutrient concentrations and heavy metal distributions were studied in four estuaries in the Gulf of Finland, Baltic Sea to examine the response of these estuaries to temporal changes in human activities. Cores were collected using a 1-m Mackereth corer and dated using 210Pb and 137Cs. The cores were analyzed for total carbon (TC), total nitrogen (TN), total phosphorus (TP), organic phosphorus (OP), inorganic phosphorus (IP), biogenic silica (BSi), loss-on-ignition (LOI), Cu, Zn, Al, Fe, Mn, K, Ca, Mg and Na. Principal component analysis (PCA) was used to summarize the trends in the chemical variables and to compare the trends at the different sites. Applying the 1986 137Cs date as a reference point, 210Pb chronologies were constructed for the sites using either the CRS model or a composite model (using both CIC and CRS). Significant increases were observed in sedimentation rates, TP and TN concentrations in all of the cores. Copper showed clear increases from 1850 towards present at all sites. Furthermore, redundancy analysis (RDA) was used to correlate environmental variables (catchment land use, catchment size, estuary surface area, depth and lake percentage) to sediment geochemistry. Based on redundancy analysis (RDA), the percentage of agriculture in the catchment was the most important factor affecting the sediment accumulation rate. Urban land-use types and industry correlate well with sediment Cu and Ca concentrations. Forest areas were related to high sediment BSi concentrations. Catchment land use was the most significant factor affecting sediment geochemical composition and sediment accumulation rates in these coastal embayments. Our results demonstrate that the coastal estuaries of the Gulf of Finland respond to the increased nutrient loading with the increased sedimentation and nutrient accumulation rates. 相似文献
19.
ZHANG Junqiang LIU Jian WANG Hongxi XU Gang QIU Jiandong YUE Baojing ZHAO Guangtao 《海洋学报(英文版)》2013,32(4):49-58
The previous studies of the sedimentology and chronology of sediment core SYS-0701, which was recovered from the western South Huanghai Sea (Yellow Sea), have revealed the changes in the sea-level and sedimentary evolution during the late Quaternary in the region. The present study used mineralogical data from the section of the core deposited since Marine Isotope Stage (MIS) 3, to decipher the provenance of sediments of the paleo-delta deposited during MIS 3 and MIS 1. Based on the lithologic features and the variations with depth of the concentrations of carbonates and both heavy and light minerals in bulk samples, the upper part of Core SYS-0701 can be divided into three units designated DU1, DU4, and DU5, in accord with previously used terminology. Sub-units of units DU1 (DU1-1 and DU1-2) and DU4 (DU4-1 and DU4-2) have also been identified. DU1 was deposited during MIS 1, and DU4 and DU 5 were formed during MIS 3. All data pertaining to dominant heavy mineral assemblages, diagnostic minerals, ratios of diagnostic minerals, light mineral associations, textural maturities, and carbonate contents, indicate that the sediments of Core SYS-0701 are comparable with Huanghe River (Yellow River) sediments. Moreover, the mineralogy of the sediment evidenced its dependence on supply rates and hydrodynamic conditions. Weak hydrodynamics (DU5 and DU4-2) and/or low sediment supply (DU1-2) led to sediment containing less hornblende and epidote, with a large specific gravity and high content of flaky minerals, and vice versa in cases of strong hydrodynamics (DU4-1) and very large sediment supply (DU1-1). 相似文献