甬江口海洋倾倒区沉积物中多氯联苯分布特征和生态风险评价

为了探讨甬江口海洋倾倒区附近海域表层沉积物中多氯联苯的污染水平及生态环境影响,对2014年1月在甬江口倾倒区及附近海域采集的8个沉积物样品用气相色谱法测定PCBs残留量,并且进行环境生态风险评价。结果显示:甬江口海洋倾倒区表层沉积物中PCBs含量为1.310~6.538 μg·kg^-1,平均值为3.413 μg·kg^-1,其分布表现为西北和东南向PCBs含量高于倾倒区;10种指示性PCBs中,主要以低氯代的PCB28、PCB118和PCB155为主,其中PCB118和PCB155在表层沉积物中的含量相对较高,其含量在各采样站位中占PCBs总量的26.1%~93.1%。甬江口海洋倾倒区沉积物中PCBs污染水平低于长江口、闽江口及珠江口,高于鸭绿江口、辽河口及黄河口。采用潜在生态危害指数法、加拿大环境质量标准ISQG法、生态风险值(EPA)法及毒性当量因子法进行评价,结果基本一致:甬江口海洋倾倒区属于较低生态风险,一般不会引起生物的负效应。     

基于模糊综合评价的粤港澳大湾区海洋沉积物中重金属污染演变历史

本研究测定了粤港澳大湾区典型海域—大亚湾沉积物中主要重金属元素的含量水平与污染状况。利用我国海洋沉积物质量标准和模糊综合评价法,系统探讨了大亚湾海洋沉积物质量的历史演变过程,为我国大湾区可持续发展提供了科学理论支持。结果表明,大亚湾海域的重金属污染状况在过去近百年经历了3个主要变化阶段:(1)20世纪80年代之前,大部分重金属含量较低,沉积物质量处于一类等级,与重金属污染相关的生态风险较小,对沉积物生态风险贡献最高的元素为Cr,最低的为Cd;(2)1980?2000年间,大亚湾沉积物中的重金属含量明显高于背景值,表明该阶段出现了较为严重的重金属污染,使近岸海域的沉积物质量等级处于二类与三类,但大亚湾外部海域沉积物受污染影响较小,仍处于一类等级,在此期间,Cu取代Cr成为最主要的污染元素;(3)2000年以后,沉积物重金属的污染水平显著降低,生态风险迅速下降,沉积物质量等级恢复到了一类水平,Cr是这一阶段最主要的污染元素。     

厦门海域表层沉积物中DDTs、HCHs和PCBs的含量及其分布

对厦门海域表层沉积物中有机氯农药和多氯联苯的含量与分布进行了调查研究.调查结果表明厦门海域HCHs和PCBs含量较低,远低于国家海洋沉积物质量标准第一类底质标准的阈值,说明其污染已受到有效控制;但厦门海域表层沉积物中DDTs含量较高,部分海区已经超出或者接近国家海洋沉积物质量标准第一类底质标准的阈值.DDTs和PCBs有极为相似的分布特征,而HCHs的分布特征则不尽相同.     

天津近岸海域沉积物重金属及砷分布与生态风险分析

2011 年对天津近岸海域表层沉积物中重金属及砷含量进行了调查, 采用Muller 地累积指数法和Hakanson 潜在生态风险指数法(RI), 对该区表层沉积物中重金属及砷的生态风险进行了评价。结果表明: 天津近岸表层沉积物中重金属及As 含量总体处于较低水平, 33.3%的站位Cu 含量超过第一类海洋沉积物质量标准; 单因子指数法和地累积指数法计算污染程度排序一致, 均为Cd>Pb>Cu>Zn>Cr>Hg>As; 潜在生态风险评价显示重金属对天津近岸海域生态风险构成的风险程度排序为Cd>Hg>Pb>Cu>As>Cr >Zn, 天津近岸海域沉积物重金属的潜在生态风险属于低度生态风险。     

莱州湾表层沉积物中多氯联苯分布特征及生态风险评价

为探明莱州湾海域多氯联苯(PCBs)的分布及污染状况,本文利用2017年春夏季13个站位表层沉积物采样结果进行研究分析。结果表明,春季、夏季PCBs含量分别为1.27～4.10μg/kg和1.07～2.80μg/kg,均以低氯代为主。春季含量高于夏季,莱州湾西部浓度高于东部。本文分别用EPA法、环境质量标准法、潜在生态危害指数法、毒性当量因子法等对莱州湾表层沉积物中PCBs的潜在生态风险进行评价,均表明莱州湾海域PCBs潜在生态风险较低。     

珠江口外陆架海域表层沉积物重金属潜在生态风险评价及来源分析

基于2017年11月珠江口外陆架海域表层沉积物中Hg、As、Cu、Pb、Cd、Zn、Cr等7种重金属元素的调查结果,应用单因子标准指数和地累积指数法评价了研究海域表层沉积物环境质量,采用H?kanson潜在生态风险指数评价法定量评估沉积物中重金属的潜在生态风险,并利用Pearson相关性分析和主成分分析初步探究了研究海域沉积物中重金属的主要来源。结果表明:研究海域表层沉积物中7种重金属污染物含量均达到海洋沉积物质量一类标准,地累积指数显示研究海域表层沉积物环境整体处于清洁状态,部分站位中的As和Cd属轻度污染。总体来说,研究海域沉积物环境属于低潜在生态风险(综合潜在生态风险系数RI 150)。单项因子潜在生态风险由高到低为Cd Hg As Pb Cu Cr Zn,研究海域西部表层沉积物重金属Cd的潜在生态风险系数均值达到中等潜在生态风险水平。Cr、Cu和Zn元素具有相近来源,主要为工业产生的陆源污染物; Pb、As和Cd元素来源相似,来源于陆源工业和农业污染经大气沉降及海上交通污染;而Hg与其他重金属元素无明显相关。     

莱州湾沉积物粒度与重金属分布特征

作者依据2019年8月份莱州湾海洋沉积物调查资料,分析了该海域表层沉积物粒径组成、重金属时空分布特征并评价了其生态风险。结果显示,莱州湾沉积物分为砂质粉砂、粉砂、粉砂质砂和砂4种类型,以砂质粉砂为主,其次为粉砂与粉砂质砂,再次为砂,中值粒径平均58.956μm;表层沉积物中Cr、Zn、Pb、Cu、As、Cd、Hg和TOC平均含量分别为57.6、52.6、18.7、15.3、9.14、0.130、0.0234 mg/kg和0.222%;由于河流排海物质和莱州湾内潮流运动,导致Cu、Pb、Zn、As、Cr和Cd基本呈现中部海域含量较高,西部海域高于东部海域的特征,东南部海域Cd、Hg与矿产资源的开发相关;14.3%的站位综合潜在生态风险属于中生态风险,Cd对综合潜在生态风险指数的贡献率最高,为主要潜在生态风险因子;研究区域中重金属Cu、Zn含量的分布与沉积物粒径和有机碳的含量密切相关。     

舟山渔场软体生物中PCBs的残留及潜在生态风险

本文测定了舟山渔场附近6个沿海城市5种软体动物体内多氯联苯的污染水平,并进一步探讨了其潜在来源以及生态风险。结果显示,样品中PCBs的总含量水平为18.0~95.9 ng/g干重,平均含量为51.9 ng/g干重,与世界其他海域相比处于中等污染水平。组分分析表明,五氯联苯和二氯联苯为主要组成。PCBs的健康风险HR值均远低于1,表明日常食用不会对人体健康产生明显危害。     

福建东山湾八尺门海域水体及沉积物中的重金属污染评价

本研究分析了2013年10月东山湾八尺门海域表层海水和沉积物中重金属Zn、Cu、Pb、Cd含量,并基于多种方法进行评价。结果显示,研究海域表层海水中重金属含量符合《海水水质标准》第一类标准,重金属污染指数法评价显示污染风险较低。沉积物中Pb、Cd、Zn含量均符合《海洋沉积物质量》第一类标准,整体污染水平较低;潜在生态风险指数大小顺序为：Cd>Cu>Pb>Zn,沉积物重金属污染整体情况良好,但个别站位的Cd的潜在生态风险指数超过40,应加以关注;地累积指数评价法显示总体污染情况较轻,其地累积指数平均值大小依次为Zn>Cu>Pb>Cd。纵观1990年至2013年的研究结果,东山湾水体中重金属含量总体呈先升高后降低的趋势;与同期相比,东山湾水体中的重金属含量与福建其他海域相差不大,而沉积物中重金属含量比其他海域稍高。     

山东近岸海域表层沉积物7种重金属污染特征和生态风险评估研究

本文综合运用单因子污染指数法、Hakanson潜在生态风险指数法和沉积物质量基准法3种方法,研究和评价了2012年和2013年山东近岸海域表层沉积物重金属的污染特征和潜在生态风险。结果表明:山东近岸海域94%以上站位的表层沉积物重金属含量符合第一类海洋沉积物质量标准,沉积物质量良好;山东近岸海域重金属综合潜在生态风险低,各重金属潜在生态风险由高到低为HgAsCdPbCuCrZn(2012年)和HgCdAsPbCuCrZn(2013年),Hg在个别站位达中潜在生态风险程度,为主要污染因子;50%以上站位As含量介于美国佛罗里达州和加拿大沉积物质量基准的TEL—PEL之间,表明负面生物效应偶尔发生。应加强对山东近岸海域表层沉积物中重金属Hg和As的监测,重点关注二者相对高值区的潜在生态风险和负面生物效应。     

Size-fractionated uranium isotopes in surface waters in the Jiulong Estuary in China

Surface water was collected from the Jiulong Estuary for determination of activity concentrations of uranium isotopes in different size fractions, namely, greater than 53, 10 -53, 2 - 10, 0.4 -2 μm, 10 000 u -0.4 μm and less than 10 000 u fractions by microfihration and cross-flow uhrafiltration technologies. Results indicated that most of the dissolved uranium （ 〈 0.4 μm） exis- ted in the low molecular mass fraction （ 〈 10 000 u）, and the colloidal uranium-238 （10 000 u -0.4 μm） only contributed less than 1% of the dissolved uranium-238. The fractions of colloidal uranium in the dissolved phases decreased with the increasing sa- linity. A positive linear relationship between uranium-238 activities and salinities was observed for the dissolved, colloidal and low molecular mass fractions, indicating a conservative behavior of uranium in the Jiulong Estuary. In the particulate phases （ 〉 0.4 μm）, the partitioning of uranium isotopes among different size fractions was controlled by the partitioning of particle concentrations. In the regions with salinities below 20, the partitioning of uranium-238 among different size fractions was as follows： 10 - 53 μm 〉 2 - 10 μm 〉 0.4 - 2 μm greater than above 53 μm. However, the order at the offshore station with salinities above 30 changed as follows ： 0.4 - 2 μm 〉 10 - 53 μm 〉 2 - 10 μm greater than above 53 μm. The fraction of the 0.4 - 2 μm particles increased at the offshore station, suggesting the increased contribution of the authigenic uranium. The activity ratio of uranium-234 to uranium-238 in the dissolved phases, including the low molecular mass fraction and the colloidal fraction, was larger than unity, showing the occurrence of excess uranium-234. In contrast, the activity ratio of uranium-234 to uranium-238 in all size fractions of the particulate phase was close to the equilibrium value （1.0）. The observed different values of the activity ratio of uranium-234 to uranium-238 in the dissolved phase and the partic     

夏季珠江口沉积物中营养盐剖面分布和界面交换通量

通过对夏季珠江口区域沉积物间隙水营养盐剖面分析,调查了营养盐含量分布和特征,探讨了有机物的降解特性、营养盐的底部通量估算和作用.结果表明,珠江口沉积物间隙水中营养盐以高含量铵盐为主要的存在形式,沉积物中有机物的降解反应主要在厌氧状态下进行,底部水体铵盐的增加来源于底部沉积物有机质的降解释放,而且对水体的营养盐循环有较大的贡献.     

Recent progress in submarine geosciences in China

In China submarine geosciences represents a newly established discipline of oceanography, focusing on the oceanic lithosphere, and its interface with the hydrosphere and biosphere. Recently, supported by the National High Technology Research and Development Program and other high-tech development projects, significant progress has been made in the development of advanced technologies and equipment. This en- ables the scientists in China to carry out explorations of the international seabed area in the Pacific Ocean and on the Southwest Indian Ridge. In addition, they have been active in the research activities associated the mid-ocean ridges and western Pacific marginal seas. It is anticipated that this research field will continue to be highly fruitful in the near future.     

湄洲湾夏季的初级生产力

湄洲湾１９９２年夏季的叶绿素ａ，三磷酸腺苷，碳比积累速率，初级生产力的变化范围和均值分别为０．４５－４．７２，１．４９ｍｇ／ｍ＾３；０．１２－１．０７，０．３１μｇ／ｄｍ＾３；０．０６－０．５８，０．３４ｄ＾－１；０．０７－０．３４，０．２１ｍ／（ｍ＾２．ｄ）。叶绿素ａ与三磷酸腺苷之间。初级生产力与碳比积累速率之间均呈正相关关系。叶绿素ａ三磷本能腺苷的比值为４．８，湄洲湾夏季浮游植物的生长受氮不足     

Recent advances in marine technology in Canada

Much of the recent Canadian activity in marine technology has focused on development of capabilities in Arctic waters, and on the update and replacement of naval vessels. This paper describes some of the significant projects and programs now under way, and suggests future research and development requirements.     

Challenges in cross-sectoral marine protection in Europe

Marine environment protection in Europe faces a number of challenges. One is the coordination of relevant sectoral policies — such as agricultural and fisheries policies — with regard to marine protection objectives. The question in the following is on how marine protection issues can be more closely integrated in sectoral policies under the conditions prevailing at present. In particular the strength and weaknesses of the Marine Strategy Framework Directive (MSFD) as the key instrument for marine environment protection in Europe are analyzed in this context. In particular, the MSFD does not adequately address all sectors and policies which are relevant to marine environment protection. One possible means of giving the MSFD greater influences on other policies of relevance to marine waters is to integrate the objectives established under the MSFD in the European maritime policy. The aim should be to require the further development of sectoral policies to take unrestricted account of the objectives of the MSFD implementation process. But also other instruments of marine policy such as maritime spatial planning and marine protected areas are crucial to advance the protection of European seas.     

一氧化氮在浮游植物中的研究进展

对一氧化氮在浮游植物中的研究进展进行了归纳,总结了一氧化氮对浮游植物生长的影响,探讨了浮游植物中一氧化氮的产生机制,并对今后的研究重点提出展望。     

Seasonality in nutrient concentrations in Galveston Bay

In order to investigate factors controlling nutrient cycling in the shallow and turbid coastal ecosystem of Galveston Bay, data from: (1) the Texas Water Commission (TWC) database 1980–1989, and (2) salinity transects in 1989 and 1993 are presented and analyzed. Statistical regression and time-series analysis were carried out on data acquired by TWC between 1980 and 1989, in an attempt to establish seasonally of nutrient and chlorophyll-a (chl.-a.) concentrations in the bay and to determine factors which regulate these concentrations.A strong seasonality was found for phosphorus and chl.-a. in the upper and mid-bay stations. A recurring maximum for phosphate occurred in September and a chl.-a. maximum occurred regularly in March–April. It is hypothesized that benthic regeneration of phosphorus at the end of summer is responsible for the phosphate maximum. The inverse correlation of the partition coefficient (K_d) for phosphate with the concentration of suspended particulate matter (SPM), coupled to a strong enrichment of phosphate in suspended particles at low SPM concentrations, indicates additional control by geochemical and physical processes such as particle sorting and/or particle-colloid interactions. Nitrate is inversely correlated with salinity at the upper and mid-bay stations, indicating the Trinity River is a major source.Nutrient concentrations in the lower bay (East and West Bay stations) are considerably lower and less predictable, as they are not correlated with salinity or temperature. Data from the 1989 and 1993 transects confirm the yearly maximum in phosphate concentration in late summer months, with peak concentrations in the upper Trinity Bay. It is concluded that despite possible phosphate buffering by physical and geochemical mechanisms, relatively large concentration maxima recur regularly every year during the summer, possibly caused by a benthic source of phosphate.     

Mesozooplankton in the Arctic Ocean in summer

The biomass, species and chemical composition of the mesozooplankton and their impact on lower food levels were estimated along a transect across the Arctic Ocean. Mesozooplankton biomass in the upper 200 m of the water column was significantly higher (19–42 mg DW m^-3) than has previously been reported for the Arctic Ocean, and it reached a maximum at ca. 87°N in the Amundsen Basin. The lowest values were recorded in the Chukchi Sea and Nansen Basin, where ice cover was lower (50–80%) than in the central Arctic Ocean. In the deeper strata (200–500 m) of the Canadian and Eurasian Basins, the biomass was always much lower (4.35–16.44 mg DW m^-3). The C/N (g/g) ratio for the mesozooplankton population was high (6.5–8.5) but within the documented range. These high values (when compared to 4.5 at lower latitudes) may be explained by the high lipid content. Mesozooplankton accounted for approximately 40% of the total particulate organic carbon in the upper 100 m of the water column. Mesozooplankton species composition was homogeneous along the transect, consisting mainly of copepods (70–90% of the total number). It was dominated by four large copepod species (Calanus hyperboreus, C. glacialis, C. finmarchicus and Metridia longa), which together accounted for more than 80% of the total biomass. According to measurements of gut pigment and gut turnover rates, the mesozooplankton on average ingested between 6 and 30% of their body carbon per day as phytoplankton. Microzooplankton may have provided an additional source of energy for the mesozooplankton community. These data emphasize the importance of mesozooplankton in the arctic food web and reinforce the idea that the Arctic Ocean should no longer be considered to be a “biological desert”.