象山港盐度分布和水体混合 Ⅱ.混合分析   总被引：5，自引：3，他引：2  

董礼先  苏纪兰 《海洋与湖沼》2000,31(3):322-326

利用１９８１－１９９０年象山港的实测水文断面资料和盐度通量分析方法定量检验了各种动力因子对象山港水体混合的贡献,探讨了象山港水体混合的控制机理。象山港牛鼻水道至佛渡水道为平流和潮弥散混合区,水体纵向混合较好。象山港狭湾内段的潮混合强度较弱,垂向环流和潮振荡的垂向切变作用突出,水体纵向混合较狭湾外差。象山港湾外段为内段与田外的过渡区,各种混合因子的地位随季节和潮汛而变,水体混合状况介于狭湾内段和口外  相似文献   

象山港潮汐通道潮波变化特征及其影响因素分析     

吴清松  施伟勇  许雪峰  宋泽坤 《海洋通报》2015,34(5):518-529

依据象山港佛渡水道、牛鼻山水道和狭湾口的实测水文资料,分析3个潮汐通道的潮汐、潮流分布特征及其差异性;建立该水域潮流数值模型,探讨各水道及其交汇处的流场变化特征和影响影响分析。结果显示,狭湾内的涨落潮流主要通过牛鼻山水道受外海潮波的影响,仅在涨落潮流的起始阶段经佛渡水道与崎头洋存在水体交换;牛鼻山水道涨落潮流主要受外海潮波的控制;崎头洋落潮流与外海涨潮流在佛渡水道的交替变化,决定了佛渡水道涨落潮流的方向。佛渡水道涨潮流为东北向,落潮流为西南向。崎头洋通过佛渡水道与象山港进行水体交换,象山港涨、落潮流除了与外海进行水交换外,还受到杭州湾涨、落潮流的影响,有助于对舟山群岛南侧潮波以及杭州湾与外海水体交换的研究。  相似文献   

象山港牛鼻山水道潮流场的高频地波雷达观测与分析          下载免费PDF全文

何天祺  管卫兵  曹振轶  鲍敏  李嵩  李雨 《海洋学研究》2021,39(4):109-122

作为LORCE计划中构建高频地波雷达观测网的试点,面向象山港牛鼻山水道,在六横岛郭巨山和白马礁各设置了1台OSMAR S50高频地波雷达。在2台雷达合成表面流场有效区域的中间地带,利用Valeport旋桨式海流仪和ADCP定点开展了周日连续观测,以验证高频地波雷达合成表面流场的精度。对比定点流场和高频地波雷达对应数据发现,两者变化相关性较好,高频地波雷达在该点获得的流场有较高精度。借助SCHISM建立的区域模型结果,检验了高频地波雷达数据大面上的可用性。比较发现,观测和模拟值在大的趋势上是一致的：牛鼻山水道为规则半日潮流海域,M2是主要分潮,分潮M2和K1以往复流为主;涨潮时外海海水先通过牛鼻山水道流向象山港内,一段时间后再流向佛渡水道;落潮时象山港内海水率先经牛鼻山水道流出至外海,随后佛渡水道海水再逐渐流入牛鼻山水道。  相似文献   

浙江近岸典型港湾的营养盐行为特征   总被引：4，自引：0，他引：4       下载免费PDF全文

蔡小霞  潘建明  于培松  刘小涯  孙维萍 《海洋通报》2013,32(5):488-493

利用象山港（2010年4 月）、三门湾（2010年3月）及乐清湾（2009 年4 月）平水期的调查资料,分析讨论了不同 类型的港湾水体营养盐的分布和行为特征。发现象山港具有3个港湾中最高浓度的PO43-和NO2-,分别为1.87和1.22 滋mol/dm3, 三门湾则具有最高的NO3-浓度（61.0 滋mol/dm3）。三门湾的NO3-/PO43-比值高达43.0,其次是乐清湾（32.4） 和象山港 （27.5）,水体富营养化特征明显。3个养殖港湾SiO32-浓度均与盐度之间呈显著的负相关,表明在混合过程中均呈保守行为, 这与硅酸盐的天然来源和港内较弱的生物吸收有关。乐清湾NO3-与盐度之间存在一定的相关关系,而象山港和三门湾NO3-在 混合稀释过程则表现为不保守,此外三门湾和乐清湾PO43-均表现为不保守行为,这主要由于NO3- 和PO43-多样的人为来源和 复杂的转移机制。另外,NO3-/SiO32-比值随盐度的变化表明象山港和三门湾在咸水端则均有较明显的硝酸盐输入,显然来源 于海水养殖自身污染,水产养殖对海域氮和磷的负荷具有较显著的贡献。  相似文献   

象山港Chl-a的分布及其与环境因子关系研究     

《中国海洋大学学报(自然科学版)》2015,(8)

根据2012年5、8、10月在象山港海域的监测资料,分析了该海域Chl-a的时空分布特征,及其与水温、盐度、溶解氧、COD以及营养盐等主要环境因子的相关关系。结果表明:象山港海域Chl-a浓度在0.27~27.29μg/L范围内,平均浓度为2.80μg/L。海域Chl-a浓度的季节性变化非常明显,峰值出现在夏季,而秋季浓度最低;并且具有从内湾港顶向港外逐渐递减的空间分布规律。相关性分析显示,在夏季,影响Chl-a含量的主要因素是盐度和溶解氧;在秋季,Chl-a与活性磷酸盐和硅酸盐间的相关性非常显著,但与无机氮(DIN)不具显著意义相关关系。总体看来,象山港海域Chl-a的时空分布受到海域水动力条件、海水养殖活动等的共同影响,夏季还可能受到台风影响。  相似文献   

象山港盐度分布和水体混合I.盐度分布和环流结构   总被引：4，自引：1，他引：3  

董礼先  苏纪兰 《海洋与湖沼》2000,31(2):151-158

利用１９８１—１９９０年的实测水文资料分析了象山港与混合密切相关的盐度分布和环流结构,并对盐度锋面出现成因进行了探讨。研究结果表明,象山港盐度受长江冲淡水活动影响较大,冬、夏口门附近盐度分别为２４—２５左右和３１以上,湾顶附近盐度季节变化不大。冬季湾内盐度空间梯度较小。夏季湾内有两个盐度锋面出现,水体垂向略有层化但并无明显的跃层出现。此外,象山港狭湾内以重力环流为主,狭湾外以水平环流为主。  相似文献   

象山港,三门湾潮间带生态学研究：Ⅰ.种类组成与分布     

范明生  邵晓明 《海洋学研究》1996,14(4):27-34

象山港和三门湾地处浙江沿岸带中部，这两个半封闭型港湾的软相潮间带底栖动物种类组成均以广温广布性种占多数，其次为亚热带性种。种类的分布与盐度、潮流流速、悬沙含量以及港湾屏蔽程度等环境因子有关。象山港种类多于三门湾，同一港湾种类呈现湾底多于湾中多于湾口的特点。  相似文献   

象山港盐度分布和水体混合Ⅰ. 盐度分布和环流结构   总被引：12，自引：3，他引：9  

董礼先  苏纪兰 《海洋与湖沼》2000,31(2):151-158

利用９８１－１９９０年的实测水文资料分析了象山港与混合密切相关的盐度分布和环流结构,并对盐度锋面出现成因进行了探讨。研究结果表明,象山港盐度受长江冲淡水活动影响较大,冬、复口门附近盐度分别为２４－２５左右和３１以上,湾顶附近盐度季节变化不大。冬季湾内盐度空间梯度较小。夏季湾内有两个盐度锋面出现,水体垂向略有层化但并无明显的跃层出现。此外,象山港狭湾内以重力环流为主,狭湾外水平环流为主。  相似文献   

三门湾海域4、7月营养盐分布及其稀释效应   总被引：2，自引：0，他引：2  

王奎  金明明  陈建芳  金海燕  卢勇  李宏亮 《海洋学研究》2007,25(1):10-22

利用2005年4、7月三门湾海域26个站位的两次水化学要素调查资料,描述了表层盐度和营养盐平面分布特征,对营养盐和盐度进行相关分析,并探讨了24 h连续站的营养盐变化规律,结果表明:(1)表层硝酸盐、硅酸盐浓度基本呈东低西高分布,磷酸盐的分布规律不明显。(2)7月硝酸盐、磷酸盐平均浓度比4月低,而硅酸盐、亚硝酸盐平均浓度比4月高,氨平均浓度在4、7月无显著变化。(3)4、7月表、底层的硝酸盐、硅酸盐、亚硝酸盐浓度均为湾内高湾口低,且与盐度呈显著的负相关,表明在调查时间内受强潮汐作用的三门湾海域呈现出硝酸盐、硅酸盐的保守稀释效应,磷酸盐稀释效应则表现不明显。(4)7月25-26日连续站(29°06′33″N、121°39′03″E,三门湾中部猫头山嘴附近,水深为27-34 m)24 h盐度变化与潮汐变化几乎一致,硝酸盐、硅酸盐浓度与盐度变化呈显著负相关。硝酸盐、硅酸盐的浓度变化可以指示海水与淡水的稀释与混合效应。  相似文献   

象山港余流特征数值研究     

万猛  姚炎明  陈琴  李丹 《海洋通报》2015,34(3):295-302

基于Delft3D-Flow模块建立了象山港海域的三维斜压潮流数值模型,结合实测水文资料,研究了象山港的潮(余)流特征,对欧拉余流场的时空分布进行了定量的比较和分析,并与潮流测站计算分析得到的欧拉余流分布对比,很好的模拟了象山港的余流特征。结果表明:由湾外至湾顶,余流呈减小的趋势,湾外余流最大为33 cm/s,湾顶最小,余流平均仅5 cm/s。垂向上,表层余流大于底层余流,表层余流指向湾外,而底层余流则指向湾内。对比斜压、正压两种模式下的欧拉余流分布,可以看出湾顶附近主要受径流控制,两种模式得到的结果基本一致,口门至西沪港区域受径流和潮流的共同影响,斜压模式更准确地模拟出了水体层化和垂向余环流结构。  相似文献   

杭州湾营养盐时空分布特征及其影响研究   总被引：1，自引：0，他引：1       下载免费PDF全文

陈思杨  宋琍琍  余骏  马佳斌 《海洋开发与管理》2018,35(11):61-66

文章基于2015年1—12月杭州湾海域12个航次的调查资料,对杭州湾海域营养盐溶解无机氮(DIN)和活性磷酸盐(PO_4~(3-))的月度时空分布特征及其影响进行了探讨。结果表明,杭州湾表层海水DIN和PO_4~(3-)含量空间分布月际间变化明显,其变化受湾内、沿岸径流输入和长江冲淡水影响显著。杭州湾海域12个月DIN含量均超第四类海水水质标准,硝酸盐氮(NO_3~-)占DIN的94%及以上。N/P值处于较高水平,内湾(IB)和外湾(OB)的N/P值季节性变化幅度比中湾(CB)大,海湾生态系统对磷的变化敏感。营养盐-盐度对研究区域的水体混合状况有明显的指示作用,杭州湾营养盐的分布主要受物理混合作用所控制,浮游生物活动对营养盐分布的影响相对较小。  相似文献   

A Massive Coccolithophorid Bloom Observed in Mikawa Bay, Japan     

Masanobu Kai  Tamotsu Hara  Hiroaki Aoyama  Nobuo Kuroda 《Journal of Oceanography》1999,55(3):395-406

In April 1996, a massive algal bloom of the coccolithophorid Gephyrocapsa oceanica developed in both Chita Bay and Atsumi Bay which comprise the bay known as Mikawa Bay of Japan. It was the first record of such a bloom in this area. In Chita Bay, the bloom persisted until the middle of May, however in Atsumi Bay, it remained until early June. From the analysis of salinity, water temperature, and current velocity and direction data, it is considered that the following mechanism accounts for the occurrence and maintenance of the bloom: Before the bloom, the standing crop of phytoplankton was poor, resulting in relatively rich nutrients throughout the bay. Thereafter, with the influx of oceanic water into Mikawa Bay, high salinity occurred firstly in Chita Bay. Under these hydrographic conditions, the bloom occurred first in Chita Bay, and extended throughout the bay with the clockwise circulation of water into Atsumi Bay. In Chita Bay, the bloom was influenced by rainfall and G. oceanica flowed out from this area. Whereas, in Atsumi Bay, the bloom persisted for longer due to the clockwise circulation and another influx of oceanic water.  相似文献   

Arsenic,barium, germanium,tin, dimethylsulfide and nutrient biogeochemistry in Charlotte Harbor,Florida, a phosphorus-enriched estuary     

P.N. Froelich  L.W. Kaul  J.T. Byrd  M.O. Andreae  K.K. Roe 《Estuarine, Coastal and Shelf Science》1985,20(3):239-264

Concentrations of dissolved nutrients (NO₃, PO₄, Si), germanium species, arsenic species, tin, barium, dimethylsulfide and related parameters were measured along the salinity gradient in Charlotte Harbor. Phosphate enrichment from the phosphate industry on the Peace River promotes a productive diatom bloom near the river mouth where NO₃ and Si are completely consumed. Inorganic germanium is completely depleted in this bloom by uptake into biogenic opal. The $\text{Ge}\text{Si}$ ratio taken up by diatoms is about 0·7 × 10^?6, the same as that provided by the river flux, confirming that siliceous organisms incorporate germanium as an accidental trace replacement for silica. Monomethylgermanium and dimethylgermanium concentrations are undetectable in the Peace River, and increase linearly with increasing salinity to the seawater end of the bay, suggesting that these organogermanium species behave conservatively in estuaries, and are neither produced nor consumed during estuarine biogenic opal formation or dissolution. Inorganic arsenic displays slight removal in the bloom. Monomethylarsenic is produced both in the bloom and in mid-estuary, while dimethylarsenic is conservative in the bloom but produced in mid-estuary. The total production of methylarsenicals within the bay approximately balances the removal of inorganic arsenic, suggesting that most biological arsenic uptake in the estuary is biomethylated and released to the water column. Dimethylsulfide increases with increasing salinity in the estuary and shows evidence of removal, probably both by degassing and by microbial consumption. An input of DMS is observed in the central estuary. The behavior of total dissolvable tin shows no biological activity in the bloom or in mid-estuary, but does display a low-salinity input signal that parallels dissolved organic material, perhaps suggesting an association between tin and DOM. Barium displays dramatic input behavior at mid-salinities, probably due to slow release from clays deposited in the harbor after catastrophic phosphate slime spills into the Peace River.  相似文献   

2009年夏季长江口及邻近海域硝酸盐、磷酸盐的变化规律及其行为特征   总被引：1，自引：0，他引：1  

陈法锦  陈建芳  张海生  李宏亮  高生泉  金海燕  卢勇  王奎  庄燕培  刘希真 《海洋学研究》2011,(3):48-56

利用2009年6月份和8月份(夏季)长江口及邻近海域的调查资料,分析了该海域硝酸盐、磷酸盐的扩散和输运行为特征,结果表明:8月份冲淡水对长江口及邻近海域硝酸盐和磷酸盐的影响比6月份大,这可能与8月份时长江的径流量大有关;6月份和8月份,该海域硝酸盐、磷酸盐的转移机制主要是物理混合稀释过程,但8月份时的硝酸盐、磷酸盐转移...  相似文献   

湛江湾三维温盐特征季节变化观测分析     

黄润琪  谢玲玲  李敏  王丽菊 《海洋学报》2021,43(11):46-60

利用2017年1?12月的现场观测数据,分析了湛江湾温盐的三维空间结构及季节变化特征。结果表明:(1) 2017年湛江湾各站位年平均温度为23～27℃、盐度为19～27、位势密度为11～17 kg/m3、浮性频率(N2)为7×10?5～5×10?3 s?2。浮性频率的垂向结构及水平分布与温度分布类似,而位势密度则与盐度的变化趋势几乎一致;(2)温度季节变化明显,夏季最高,秋季次之,冬季最低,冬夏温差最大达15℃,而盐度季节变化则不大。相较于季节引起的变化,涨落潮对温度以及盐度影响较小。温度跃层夏季最强,10 m处温度最大梯度可达到0.7℃/m,春秋季温跃层抬升至5 m附近,冬季水体上下混合均匀。夏季和秋季存在明显的盐跃层,盐度梯度最大可达到1.1 m?1。跃层上下温盐的季节变化规律一致;(3)水平分布上,从湾顶区、湾颈区、大堤区、浅滩区到湾口区,温度递减,盐度递增,湾顶区和湾口区平均温度差为2.3℃,盐度差为2.7。温盐图分析显示,不同季节水体呈现为不同的温盐条带,湾口区基本为低温、高盐水体,而湾顶区基本为高温、低盐水体,其他区域水体介于上述两者之间。  相似文献   

Daily Variations in Nutrient Concentrations of Seawater at 321 m Depth in Toyama Bay, Japan Sea     

Masami Watanabe  Jun Ohtsu  Akira Otsuki 《Journal of Oceanography》2000,56(5):553-558

Nutrient concentrations (nitrate + nitrite, phosphate and silicate) in deep seawater (321 m depth) of Toyama Bay, Japan, were measured from August 1996 to July 1997 to determine the magnitude of daily variations. Significant daily variations were observed; concentrations ranged from 4.42 to 22.4 µM for nitrate + nitrite, from 0.86 to 1.98 µM for phosphate, and from 9.91 to 47.7 µM for silicate, respectively. However, there were not significant relationships between nutrient concentrations and water temperature, or between nutrients and salinity. Since temperature and salinity in the >300 m depth layer were constant through the year, the results suggest that there may be water masses with different nutrient concentrations in the deep layers (at about 320 m depth) of the bay, and a horizontal advection of these water masses may be responsible for the observed daily variations.  相似文献   

Seasonality in nutrient concentrations in Galveston Bay     

Peter H. Santschi 《Marine environmental research》1995,40(4)

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.  相似文献   

海水淡化排海浓盐水对胶州湾盐度分布影响   总被引：2，自引：1，他引：1       下载免费PDF全文

王晓萌  刘学海  梁生康  石晓勇 《海洋学报》2009,31(1):44-51

为考察海水淡化产生的浓盐水对胶州湾盐度分布的影响,利用POM模式,建立了胶州湾盐度扩散模型,分别以现有海水淡化量和2010年规划海水淡化量所排放的浓盐水量为输入条件,模拟计算了胶州湾盐度的分布和变化。模拟显示,2010年2月、5月、8月和10月胶州湾整个湾内平均盐度分别为30.9895,30.8040,30.0221和30.2306,较2008年分别增加约0.0276,0.0274,0.0212和0.0205。浓盐水排放位置附近局部海域盐度增加明显,如黄岛浓盐水排放点附近海域,2月大潮涨潮时盐度超过31.55的水域面积较2008年增加0.24 km2,并且出现0.08 km2盐度超过32.00的水域;2月大潮落潮时盐度超过31.55水域面积比2008年增加0.53 km2左右,盐度超过32.00的面积增加约0.16 km2。2月、5月、8月和10月最高值分别达到40.23,36.66,37.94和37.87。结合前期室内实验结果可以看出,2月份的盐度最高值超过对胶州湾浮游植物生长有明显影响的非检测浓度(38.62)。这表明,按2010年规划的海水淡化规模所产生的排海浓盐水尽管对整个胶州湾的盐度分布影响不大,但会导致局部海域盐度明显增加,从而可能会对该海域浮游植物生长造成一定影响。  相似文献   

秋、夏季珠江口、南海北部陆坡溶解态铝的分布及其影响因素     

张小红  任景玲  郭颖  李磊  张瑞峰 《海洋学报》2020,42(2):10-21

于2014年10月和2015年6月对珠江口、南海北部陆坡区域溶解态铝的分布进行观测,探讨影响其分布及季节差异的主要因素,并以其作为示踪因子探讨潜在的陆源物质跨陆架输送途径。研究结果显示,夏、秋季珠江口盐度为0时溶解态铝的浓度分别为690.0 nmol/L和360.0 nmol/L,在淡咸水混合初期溶解态铝迅速自水体清除,夏季的清除率(55.8%)大于秋季(29.7%)。在南海北部陆坡区域,夏季表层溶解态铝浓度表现为沿纬线方向西高东低的分布特点,秋季则相反;夏、秋季底层溶解态铝浓度均呈现出随着离岸距离增加逐渐降低的分布趋势。秋季溶解态铝浓度的分布与盐度呈现显著的负相关关系,表明其行为近乎保守,陆架混合水及黑潮次表层水等水团混合是影响南海北部陆坡区域溶解态铝分布的主要因素。并且以溶解态铝作为示踪因子发现,在21.6~22.2 kg/m^3密度面区间存在自陆架向陆坡方向的跨陆架输送。而夏季陆坡中部受到珠江冲淡水的影响出现低盐水舌,但溶解态铝的浓度相对较低,表现出明显的不保守行为。浮游植物的清除作用是导致夏季陆坡区域溶解态铝分布异常的重要因素。  相似文献   

Water masses in the Humboldt Current System: Properties,distribution, and the nitrate deficit as a chemical water mass tracer for Equatorial Subsurface Water off Chile     

《Deep Sea Research Part II: Topical Studies in Oceanography》2009,56(16):1004-1020

Three sections are used to analyze the physical and chemical characteristics of the water masses in the eastern South Pacific and their distributions. Oceanographic data were taken from the SCORPIO (May–June 1967), PIQUERO (May–June 1969), and KRILL (June 1974) cruises. Vertical sections of temperature, salinity, σ_θ, dissolved oxygen, nitrate, nitrite, phosphate, and silicate were used to analyze the water column structure. Five water masses were identified in the zone through T–S diagrams: Subantarctic Water, Subtropical Water, Equatorial Subsurface Water, Antarctic Intermediate Water, and Pacific Deep Water. Their proportions in the sea water mixture are calculated using the mixing triangle method. Vertical sections were used to describe the geographical distributions of the water mass cores in the upper 1500 m. Several characteristic oceanographic features in the study area were analyzed: the shallow salinity minimum displacement towards the equator, the equatorial subsurface salinity maximum associated with a dissolved oxygen minimum zone and a high nutrient content displacement towards the south, and the equatorward intermediate Antarctic salinity minimum associated with a dissolved oxygen maximum. The nitrate deficit generated in the denitrification area off Peru and northern Chile is proposed as a conservative chemical tracer for the Equatorial Subsurface Waters off the coast of Chile, south of 25°S.  相似文献