秋季东海二甲基硫和二甲巯基丙酸内盐浓度分布及降解速率研究

于2013年10~11月现场测定了东海中二甲基硫(DMS)及其前体物质二甲巯基丙酸内盐(DMSP,分为溶解态DMSPd和颗粒态DMSPp)的含量,研究其水平分布特征、DMSPp的粒径分布及DMSPd的降解速率,并对DMS的海-气交换通量进行了探讨。研究结果表明,表层海水中DMS、DMSPd和DMSPp的浓度平均值分别为(4.84±0.40)、(5.84±0.93)和(13.01±0.52)nmol·L-1。海水中DMSPd的降解速率在2.59~16.36nmol·L-1·d-1之间,平均值为(6.78±0.84)nmol·L-1·d-1。调查海域范围内,小型浮游植物(20μm)是DMSPp和叶绿素a(Chl a)重要贡献者。此外,秋季东海表层海水DMS的海-气交换通量为0.66~31.73μmol·m-2·d-1,平均值为(11.63±0.71)μmol·m-2·d-1。     

胶州湾及青岛近海微表层与次表层中二甲基硫(DMS)与二甲巯基丙酸(DMSP)的浓度分布

以胶州湾及青岛近海为研究区域,利用吹扫-捕集气相色谱法研究了二甲基硫(DMS)和二甲巯基丙酸(DMSP,分为溶解态DMSPd和颗粒态DMSPp)在微表层与次表层中的浓度以及它们在微表层中的富集行为。结果表明,DMS、DMSPd和DMSPp在微表层中的浓度高于次表层,它们在微表层中的富集因子分别为1.17、1.84和1.51。研究发现,DMS及DMSPp浓度与叶绿素a(Chl-a)浓度有很好的相关性,但它们的周日变化与Chl-a并不完全同步。DMS/Chl-a和DMSPp/Chl-a的比值在次表层和微表层分别为4.35、13.47mmol/g和3.99、15.88mmol/g。胶州湾及青岛近海生态环境受人为活动干扰严重,使本海域DMS含量较高,从而贡献出较大的DMS海-气通量。     

东海二甲基硫丙酸的分布及其制约因素的初步研究

于１９９４年４月对海水域二甲基硫丙酸浓度进行观测,结合对叶绿素和营养盐的监测结果,分析研究了了ＤＭＳＰ分布及其调控因素。结果表明,ＤＭＳＰ浓度范围为０．１７－５．６６ｎｍｏｌ／Ｌ,最高浓度出现一４１０站。     

北黄海二甲基硫(DMS)的海-气释放及其对气溶胶中非海盐硫酸盐的贡献

根据2006年7～8月和2007年1月对北黄海进行的大面调查,分析研究了夏冬季表层海水中二甲基硫(DMS)的浓度分布和海-气交换通量.研究表明:表层海水以及大气中DMS浓度季节变化明显,夏季平均值分别是冬季的3.2和3.7倍.相关性分析显示,海水中DMS和Chl a浓度存在明显的相关性,说明浮游植物生物量是影响DMS浓度分布的1个重要因素.利用Liss和Merlivat公式(LM86)估算了北黄海夏冬季DMS的海-气交换通量,其平均值分别为7.31和4.98 μmol·m-2·d-1.另外,根据测定的大气中甲基磺酸盐(MSA)和非海盐硫酸盐(Nss-SO2-4)的浓度及比例,估算出夏冬季北黄海生源硫释放对气溶胶中Nss-SO2-4的贡献比例分别为10.1%和2.8%.此结果表明北黄海大气中Nss-SO2-4主要来源于人为排放.     

不同氮磷比及铁浓度对球形棕囊藻二甲基硫和二甲巯基丙酸内盐生产的影响

本文通过实验室培养研究了不同氮磷比(0∶1、5∶1、20∶1、50∶1)以及铁浓度(10、100、1 000nmol·L-1)对球形棕囊藻二甲基硫(DMS)和二甲巯基丙酸内盐(DMSP)产生的影响。富磷浓度(36.12μmol·L-1)条件下的球形棕囊藻DMS和DMSP的产量明显高于贫磷浓度条件下(0.361 2μmol·L-1)的DMS和DMSP的产量,N/P比为50∶1时球形棕囊藻的DMS和DMSP产量明显高于其他N/P比(0∶1、5∶1、20∶1)的DMS和DMSP产量,但N/P比为50∶1时单位Chl-aDMS/DMSP产量在4个N/P比(0∶1、5∶1、20∶1、50∶1)中却最低。贫磷培养液的DMSPd在N/P比为0∶1时峰值显著高于其它N/P比(5∶1、20∶1、50∶1)条件下的DMSPd,并且N/P比为50∶1时DMS的释放量最大。低Fe3+浓度有助于球形棕囊藻藻液中DMSPd的形成,Fe3+浓度为1 000nmol·L-1时单位Chl-a的DMSPp产量最小,而单位Chl-a的DMS生产能力在Fe3+浓度为100nmol·L-1时得到加强。     

旋链角毛藻和小普林藻对二甲基硫和二甲巯基丙酸的释放研究

通过实验室培养研究了旋链角毛藻(Chaetoceros curvisetus Cleve)和小普林藻(Prymnesium parvum Carter)生长周期内培养液中二甲基硫(DMS)和二甲巯基丙酸(DMSP)的含量。结果表明,2种微藻均能释放DMS,但小普林藻单细胞释放的DMS浓度约是旋链角毛藻的500倍。在藻类生长的不同阶段,它们释放DMS和DMSP的能力存在较大差异,但2种藻类DMS大量释放均出现在衰亡期。同时研究了盐度对2种微藻DMS释放的影响,结果表明高盐度会促进小普林藻DMS和DMSP的释放,而对旋链角毛藻DMSP的释放未有显著影响。     

海水中痕量DMS和DMSP分析方法的研究

二甲基硫（DMS）是海洋排放的占优势地位的生源硫气体,其在大气中的氧化产物能够影响到环境酸化和世界的气候变化.因此, 测定海水中的DMS对于准确地评价其在全球硫循环所起的重要作用具有重要意义.本文中作者研究了海水中DMS的痕量分析技术.海水中的DMS首先采用气提-冷阱捕集技术进行预浓缩, 然后用带有火焰光度检测器的气相色谱（GC-FPD）进行分析.该方法的精确度在5%以内, 平均回收率为85.6% （82.8%-90.5%）, 最小检出限为0.15 ng S.β-二甲基巯基丙酸内盐（DMSP）的分析是通过将其在碱性溶液中分解成DMS来进行.作者采用此方法实测了黄海中DMS和DMSP的含量, 获得了理想的结果.     

挪威海和格陵兰海海水DMS分布特征及影响因素研究

于2012年7—9月现场测定了北极挪威海和格陵兰海区域海水二甲基硫(DMS)及其前体物质二甲巯基丙酸内盐(DMSP,分溶解态DMSPd和颗粒态DMSPp)的含量,研究了其空间分布格局及其影响因素,探讨了表层海水DMS的生物周转和去除途径。结果表明,表层海水DMS、DMSPd和DMSPp的平均浓度分别为5.36nmol/L、15.63nmol/L和96.73nmol/L,受挪威海流和北极深层水影响,表层海水二甲基硫化物浓度呈现出由低纬度向高纬度海域递减的趋势。DMSPd和DMSPp浓度与Chl a浓度均有显著的相关性,说明浮游植物生物量是影响挪威海和格陵兰海二甲基硫化物生产的重要因素。表层海水DMS生物生产和消费速率平均值分别为18.19nmol/(L·d)、15.67nmol/(L·d)。DMS微生物周转时间变化范围为0.03~1.80d,平均值为0.49d,DMS海-气周转时间是微生物消费时间的90倍,说明夏季挪威海和格陵兰海表层海水中DMS微生物消费过程是比海-气扩散更具优势的去除机制。     

黄、渤海二甲基硫化物的浓度分布与迁移转化速率研究

于2015年8-9月对黄、渤海海域进行现场调查,研究了海水中二甲基硫（DMS）、β-二甲巯基丙酸内盐（DMSP）、二甲亚砜（DMSO）的浓度分布、相互关系及影响因素,测定了DMS的生物生产与消耗、光化学氧化和海-气扩散速率,对DMS的迁移转化速率进行综合评价。结果表明:表层海水中DMS、溶解态DMSP（DMSPd）、颗粒态DMSP（DMSPp）、溶解态DMSO（DMSOd）和颗粒态DMSO（DMSOp）浓度的平均值分别为（6.12±3.01）nmol/L、（6.03±3.45）nmol/L、（19.47±9.15）nmol/L、（16.85±8.34）nmol/L和（14.37±7.47）nmol/L,整体呈现近岸高远海低,表层高底层低的趋势。DMS、DMSPd和DMSOp浓度与叶绿素（Chl a）浓度存在显著的相关性。表层海水中DMS光氧化速率顺序为:k_UVA > k_UVB > k_可见,其中UVA波段占光氧化的70.8%。夏季黄、渤海微生物消耗、光氧化及海-气扩散对DMS去除的贡献率分别为32.4%、34.5%和33.1%,表明3种去除途径作用相当。黄、渤海DMS海-气通量变化范围为0.79~48.45 μmol/（m2·d）,平均值为（11.87±11.35）μmol/（m2·d）。     

海洋中β-二甲基巯基丙酸内盐降解过程的研究进展

二甲基硫(DMS)是海水中一种最重要的、含量最丰富的还原态挥发性生源有机硫化物,前体β-二甲基巯基丙酸内盐(DMSP)的降解过程受各种因素影响。其中主要包括温度、DMSP的浓度、氧气、盐度、酸度、颗粒粒度、藻类生长期、季节变化、氧化压力、抑制剂等。它们均与DMSP降解速率呈一定的函数关系,并对DMSP的降解产物产生影响。藻类是DMSP的主要来源,因此着重讨论了温度、盐度、酸度等对不同浮游植物细胞内DMSP与DMS生物生产和转化过程的影响。结合海洋硫循环的研究现状和海洋化学发展的趋势,探究了用颗粒态DMSP与Chla的比率来量化碳和硫通量的方法及DMSP裂解酶活性的检验技术。大气中CO2压力持续增加导致的海洋酸化对藻类中DMSP降解过程的影响也是进一步研究的重点。     

Distribution of phytoplankton in the East China Sea and the southern Yellow Sea in spring in relation to environmental variables and dimethylsulfide compounds

The coastal ecosystems are highly sensitive to climate change and are usually influenced by variations in phytoplankton communities and water physiochemical factors. In the present study, the phytoplankton community, chlorophyll a（Chl a） and their relationships with environmental variables and dimethylsulfide（DMS） and dimethylsulfoniopropionate（DMSP） were investigated in spring 2017（March 24 to April 16） in the East China Sea（26.0°–33.0°N, 120.0°–128.0°E） and southern Yellow Sea（31.0°–36.0°N, 12...     

南黄海和中国东海中挥发性卤代烃的分布与海气通量

Distributions and sea-to-air fluxes of five kinds of volatile halocarbons(VHCs) were studied in the southern Yellow Sea(SYS) and the East China Sea(ECS) in November 2007. The results showed that the concentrations of 1,1,1-trichloroethane(C2H3Cl3), 1,1-dichloroethene(C2H2Cl2), 1,1,2-trichloroethene(C2HCl3), trichloromethane(CHCl3) and tetrachloromethane(CCl4) in the surface water were 0.31–4.81, 2.75–21.3, 1.21–17.1, 5.02–233 and 0.045–4.47 pmol/L, respectively, with the average values of 1.89, 12.20, 6.93, 60.90 and 0.33 pmol/L. On the whole, the horizontal distributions of C2H3Cl3, C2H2Cl2 and CCl4 were affected mainly by anthropogenic activities, while C2HCl3 and CHCl3 were influenced by biological factors as well as anthropogenic activities. In the study area, the concentrations of VHCs(except C2HCl3) exhibited a decreasing trend from inshore to offshore sites, with the higher values occurring in the coastal waters. The sea-to-air fluxes of C2H3Cl3, C2HCl3, CHCl3 and CCl4 were calculated to be-56.00–(-5.68),-7.31–123.42, 148.00–1 309.31 and-83.32–(-1.53) nmol/(m2·d), respectively, with the average values of-6.77, 17.14, 183.38 and-21.27 nmol/(m2·d). Our data showed that the SYS and ECS in autumn was a sink for C2H3Cl3 and CCl4, while it was a source for C2HCl3 and CHCl3 in the atmosphere.     

南黄海生物硅的时空变化

Concentrations of biogenic silica(BSi) in the southern Yellow Sea were determined during four cruises(spring:April–May 2014; autumn: November 2014; summer: August–September 2015; winter: January 2016). Samples of BSi were measured using the double extraction method. Seasonal and spatial variations of BSi and the potential correlation between chlorophyll a(Chl a) content and BSi in four seasons were measured in this study. Significant spatial variability was observed in seawater BSi concentrations. The average concentration of BSi was highest in winter and lowest in spring. Furthermore, the relationships between concentrations of BSi and hydrological parameters were also discussed. There was a significant positive correlation between Chl a and BSi. The concentrations of BSi showed significant relationships with temperature and the concentrations of silicates, total inorganic nitrogen and total inorganic phosphorus, indicating that distribution of BSi was affected by temperature and nutrient level.     

春、秋季南黄海浮游纤毛虫丰度及生物量的分布差异

Seasonal variation of marine plankton spatial distribution is important in understanding the biological processes in the ocean.In this study,we studied spatial distribution of planktonic ciliate abundance and biomass in the central deep area(station depth greater than 60 m) and the coastal shallow area(station depth less than 60 m) of the southern Yellow Sea(32°–36.5°N,121°–125°E) in spring(April) and autumn(October–November) of 2006.Our results showed that both ciliate abundance and biomass in the surface waters were higher in spring((1 490±2 336)ind./L;(4.11±7.81) μg/L) than in autumn((972±823) ind./L;(1.11±1.18) μg/L,calculated by carbon).Ciliate abundance and biomass in the surface waters of the coastal shallow area were similar in spring and autumn.However,in the central deep area,those values were much higher in spring((1 878±2 893) ind./L;(5.99±10.10)μg/L) than in autumn((738±373) ind./L;(0.74±0.76) μg/L).High values of ciliate abundance and biomass occurred in the central deep area in spring and in the coastal shallow area in autumn.Mixotrophic ciliate Laboea strobila was abundant in the central deep area in spring,when a phytoplankton bloom occurred.However,in autumn,L.strobila was abundant in the coastal shallow area.Boreal tintinnid Ptychocyli obtusa was found in spring.Both L.strobila and P.obtusa were concentrated in the surface waters when their abundance was more than 1 000 ind./L.Peaks of these species were in the subsurface waters when their abundance was less than 400 ind./L.This study showed that both high abundance and biomass of ciliates occurred in different areas in southern Yellow Sea seasonally.     

南黄海涡动能及其谱特征的季节性变化

为进一步了解南黄海涡动能的季节变化特点,本文利用气候态月平均数据分析了南黄海涡动场的季节变化规律,并通过计算动能通量谱探讨了相关的变化机制。结果显示,南黄海涡动能在季节变化尺度上存在双峰结构,9月和1月各存在一个峰值,9月峰值较大,1月峰值较小。而且,上半年南黄海存在的涡主要为经向伸长,下半年主要为纬向伸长。动能通量谱的计算结果显示,9月存在的涡动能峰值主要是斜压不稳定过程直接作用的结果,而1月的峰值主要与涡涡相互作用相关。本文从一个新的角度(涡动能)对南黄海进行了探究,有利于加深人们对该海域海水动力机制的认识。     

黄海春季和秋季中华哲水蚤脂类含量及组成分析

脂类物质在哲水蚤的休眠、繁殖以及个体发育过程中发挥着重要作用,通过分析2010年11月(秋季)和2011年4月(春季)黄海中华哲水蚤Calanus sinicus的脂类组成,对脂类各组分的生理功能进行了初步探讨。结果表明,春季、秋季中华哲水蚤雌体脂类平均含量占干质量的10.6%和12%,C5期个体脂类含量偏高,占到干质量的17%。中华哲水蚤所含脂类主要由蜡脂和磷脂组成,两种脂类约占总脂的90%,三酰甘油含量约占总脂的6%。结合种群结构对脂类的生理作用进行了初步探讨,发现:(1)蜡脂作为主要的能量储存方式,其含量变化反映出不同发育期、不同季节中华哲水蚤的能量需求变化;(2)磷脂作为结构性脂类在中华哲水蚤个体生长与生殖过程中具有重要作用;(3)三脂酰甘油在中华哲水蚤中的含量不高,但是可能在脂类转化利用过程中发挥作用。     

The influence of thermohaline fronts on chlorophyll a concentrations during spring and summer in the southeastern Yellow Sea

A spatial and temporal variation in physiochemical parameters in the southeastern Yellow Sea(YS) is investigated in the spring and summer of 2009 to 2011.Nutrient show a strong negative relationship with chlorophyll a(Chl a) concentration in spring,and the subsurface chlorophyll a maxima(SCM) layer was associated with the nitracline in summer.In summer,the SCM was usually found within or above the pycnocline and at the depths of shoals from the open sea to the coastal sea due to tidal and/or topographical fronts in the southernmost study area.High Chl a concentrations were found in the central southern YS,where the YS cold water layer expanded under the pycnocline and encountered water masses during spring and summer.After a typhoon in the summer of 2011,Chl a concentration increased,especially in the central southern YS,where cold waters occurred below the pycnocline.The results suggest that the development of thermohaline fronts may play an important role in the growth and accumulation of phytoplankton biomass in the upper layer of the southeastern YS during spring and summer.     

夏秋季南黄海浮游植物群落及其调控因子

The phytoplankton water samples were collected in two multidisciplinary investigations which were carried out during summer(June) and autumn(November to December) of 2011. Phytoplankton species composition and abundance data were accomplished by Uterm?hl method. The phytoplankton community was dominated by diatoms and dinoflagellates in the southern Yellow Sea(YS) in summer and autumn. In summer, Paralia sulcata and Prorocentrum dentatum were the predominated species, the cell abundance ranged from 0.074 to 107.733×103 cells/L with an average of 9.057×103 cells/L. Two phytoplankton high abundance appeared in northwest part of the survey area and the Changjiang River Estuary, respectively. In autumn, Par. sulcata became the predominant species, and the phytoplankton cell abundance ranged from 1.035×103 to 8.985×103 cells/L, the average was 3.263×103 cells/L. The phytoplankton abundance in surface layer presented the homogeneous distributions. Canonical Correspondence Analysis(CCA) method was applied for discovering the relationship between environmental factors and the common found phytoplankton species. The responses of phytoplankton to nutrients were varied between summer and autumn. The abundance of most predominant species, Par. sulcata was strongly correlated to temperature and salinity in autumn, but not the case in summer.