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1.
夏季南海东北部和东海陆架浮游植物群落结构昼夜变化的比较研究 总被引:2,自引:2,他引:0
于2008年和2009年夏季分别对南海东北部和东海陆架区浮游植物生物量和群落结构的昼夜变化进行了24 h时间序列连续观测和研究。通过高效液相色谱法分析浮游植物特征光合色素可以看出3个测站的叶绿素a浓度均呈现出明显的昼夜变化,最高值出现在夜间,而在中午至午后达到最低值,而这种昼夜变化主要是由于光照和潮汐作用所导致。各站均以硅藻为最主要的优势类群,受上升流影响的S702站硅藻生物量超过80%,S305和DH04站硅藻也占据了35%~50%,且3个测站硅藻生物量昼夜变化与叶绿素a一致,但所占生物量百分比却在叶绿素a高值的时间段较低,表明高生物量对应着更为丰富的浮游植物类群组成多样性。除硅藻外,S305站青绿藻也表现出与叶绿素a同步的昼夜变化规律。而在东海DH04站,由于存在明显层化特征,聚球藻是上混合层的主要优势类群,且表现出与叶绿素a一致的变化。黎明前后,甲藻出现了暴发式的生物量升高,所占生物量超过30%,由于其昼夜变化并不明显,分析可能由于水团的侧向输送所致。 相似文献
2.
长江口羽状锋海区浮游植物的生态研究:—昼夜分布动态 总被引:5,自引:0,他引:5
本文对长江口羽状锋海区浮游植物的昼夜变动进行了初步研究,结果表明,浮游植物数量的昼夜变化明显,潮汐作用是影响数量昼夜分布变化的主导因素,同时也与该地区浮游植物的水平分布有着密切的联系。 相似文献
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对1998年9月和1999年4月在渤海(37°~41°N,117.5°~122.5°E)进行的两次生态系统综合外业调查,对蓬莱、长岛两地进行15个月的连续资料监测,对渤海调查区浮游植物粒级生物量的平面分布、垂直分布、昼夜变化和周年变化特征进行了研究.结果表明,秋季主要以小型浮游植物为主,然后依次为微型和微微型浮游植物;春季主要以微型浮游植物所占比重最高,其次为小型浮游植物,微微型浮游植物占比例最低.1998年秋季对断面1,2浮游植物粒级组分的垂直分布研究表明,在不同海区(调查区西部、南部、渤海中部和渤海海峡)的不同水层,浮游植物粒级生物量的分布有明显差异.潮汐对浮游植物粒级生物量的周日变化影响较大.蓬莱、长岛两地的连续调查资料表明,浮游植物各粒级组分除微微型浮游植物外1a有两个峰.网采浮游植物在4和7月有高峰,4月是主峰;小型网采浮游植物在6和11月有高峰,6月是主峰;微型浮游植物在4和11月有高峰,两峰值接近;微微型浮游植物在9月有高峰.调查区与其他海区浮游植物叶绿素a浓度粒级组分比较,表明小型浮游植物所占比重较大. 相似文献
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浮游植物生物量研究Ⅱ.胶州湾网采浮游植物细胞体积转换生物量 总被引:12,自引:0,他引:12
基于浮游植物细胞体积转换法获得的胶州湾浮游植物细胞生物量,计算了胶州湾水体中同采浮游植物生物量,并与浮游植物细胞计数结果进行了周年变化的比较和优势种分析。研究结果表明,调查期内,浮游植物细胞数量出现两次高峰(主峰1月份,次峰9月份),转换生物量仅出现一次高峰(8月份);优势种分析表明,上述峰值期的不同,与浮游植物群落结构及不同种群细胞的个体大小密切相关。浮游植物细胞体积转换生物量不仅能较客观地反映浮游植物现存量,又能从群落、种群结构角度解释能量分布及不同种群对浮游植物生物量的各自贡献。 相似文献
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2001年夏季胶州湾浮游植物群落结构的特征 总被引:7,自引:2,他引:7
本文根据 2 0 0 1年 8月 2 0~ 2 2日期间对胶州湾海域进行的大面积调查资料 ,对浮游植物的群落结构进行了初步研究。结果表明 ,浮游植物群落主要由沿岸暖水性种类组成 ,以硅藻为主 ,还有少量的甲藻、金藻和绿藻。湾中央出现的种类最多 ,湾口其次 ,湾边缘最少。细胞数量的高值区出现在B断面和 A5站周围的水域 ,低值区出现 D断面和 E断面。此外 ,对群落多样性的研究表明 ,Shannon指数在湾北部的多数站位高于湾南部水域 ,在 D2和 B1站出现 2个低值区 ;Margalef指数在湾内东部和 D4站周围水域明显高于湾内西部和湾口水域 ;均匀度则在 B1和 D2站周围水域偏高。浮游植物群落同营养盐的相关分析表明 ,调查期氨盐和磷酸盐是影响浮游植物生长的主要营养盐 ,中肋骨条藻、浮动弯角藻和旋链角毛藻等几种优势种类决定了这一关系 相似文献
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根据2005年1,4,7和10月4个季度代表月份在海南岛三亚湾进行的现场综合调查资料,分析了海区浮游植物和浮游细菌生物量的空间分布及季节变异特征,探讨了它们与温度,DIN,PO43-,DO,BOD5等生态环境因子的关系.结果表明,三亚湾海区2005年平均叶绿素a浓度为:(2.48±2.97)mg/m3,浮游植物生物量(C)为:(124.2±148.3)mg/m3,浮游植物生物量秋季最高,其他季节差异不大,除夏季外,浮游植物生物量(C)均表现为:表层大于底层;年平均浮游细菌丰度为(6.90±2.95)×108个/dm3,细菌生物量(C)为(13.79±5.90)mg/m3,细菌生物量夏季最高,往下依次为冬季、春季和秋季,且4个季节均为表层大于底层.4个季节表、底层浮游植物和细菌生物量的空间分布特征明显,均表现为从近岸的三亚河口往外海逐渐降低的趋势,三亚河的陆源输送和入海扩散是造成此分布特征的主要原因.无机营养盐中,DIN是调控浮游植物和细菌生物量的主导因子.位于热带的三亚湾,温度不成为影响二者季节差异的主要因子.浮游细菌生物量和浮游植物生物量的比值BB/PB为:0.06~0.15(平均为0.12),三亚湾浮游植物生物量和浮游细菌生物量间的相关性非常显著(P<0.01),初级生产是影响水域浮游细菌分布的重要因素. 相似文献
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春季季风间期巽他陆架和马六甲海峡表层海水浮游植物群落结构研究 总被引:2,自引:1,他引:1
于2013年3-5月通过走航取样分别对巽他陆架和马六甲海峡表层海水浮游植物叶绿素a生物量和群落结构进行了观测和研究。结果表明:巽他陆架生物量较低,叶绿素a浓度平均值为(0.083±0.043)μg/L,爪哇海的SS4站位生物量最低,仅为0.014μg/L,浮游植物粒级组成上主要以Pico-级为优势,占80%以上;马六甲海峡自西北至东南存在明显的盐度梯度,在盐度最低的SM5站,叶绿素a生物量最高,达到1.080μg/L;马六甲海峡站位叶绿素a浓度平均值为(0.433±0.315)μg/L,同时浮游植物群落结构变动较大。在海峡西北的SM1-SM4站与巽他海峡类似,主要以聚球藻为优势类群,Pico-级浮游植物占60%~80%;在生物量最高的SM5站,同样以聚球藻为优势类群,而在海峡东南段的SM6和SM7站,虽然叶绿素a浓度相对于SM5略有降低,但仍明显高于其他马六甲海峡站位和巽他陆架站位,此两个站位硅藻比例明显升高,均可达20%以上。从优势类群生物量与环境因子和营养浓度的相关性可以看出,研究海区叶绿素a生物量与水体盐度呈现显著负相关(p0.050),说明陆源输入对研究海区生物量具有明显的影响。另外,硅藻生物量也与磷酸盐浓度(p0.050)和硅酸盐(p0.010)浓度均呈现显著正相关;聚球藻在浮游植物群落中的优势度会受到陆源营养盐输入的影响而降低,但仍然是整个研究区域最优势的浮游植物类群。 相似文献
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象山港冬季浮游动物的分布 总被引:2,自引:0,他引:2
对2002年12月象山港海区的浮游动物种类组成和数量分布特征及其与环境的关系进行了研究。结果表明,象山港海区出现浮游动物44种,可以划分为4个生态类群,其中近岸低盐性类群的种类较多,其优势种有真刺唇角水蚤Labidoceraeuchaeta、驼背隆哲水蚤Acro-calanusgibber、中华哲水蚤Calanussinicus、中华假磷虾Pseudeuphausiasinica和拿卡箭虫Sagittanagae等,半咸水河口类群、暖水性外海类群和广盐暖水性类群的种数均较少。浮游动物生物量的分布趋势与丰度的一致。湾顶部水域浮游动物的生物量和丰度都出现最高值,从湾顶部往湾口方向,浮游动物的生物量和丰度均呈逐渐降低的趋势。象山港海区周日连续站观测的结果显示,夜间半日潮时浮游动物的生物量和丰度均高于白昼半日潮时,低平潮时浮游动物的生物量与丰度均出现了最高值。 相似文献
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莱州湾是渤海典型海湾,沿岸工业区的存在产生大量营养盐和重金属等物质随黄河、小清河等多条河流汇入莱州湾,对浮游植物生长产生影响。本文于2020年8月对莱州湾开展海洋调查工作,研究了营养盐、重金属等环境因子的分布情况,及其对莱州湾浮游植物生长的影响。结果表明:沿岸黄河、小清河等带来的径流输入,导致黄河入海口(站位L1的E=1.25)和莱州湾西南部海域(站位L5、20的E值分别为16.96、1.14)呈现富营养化,整个调查海域约95%的站位存在磷的潜在限制;对应富营养化海域为浮游植物生物量高值区,有更高比例的甲藻物种数和赤潮种(中肋骨条藻、夜光藻和海洋原甲藻);重金属(铅和砷)处于理论上可能抑制浮游植物生长的浓度,但高营养负荷可能掩盖了重金属毒性,导致浮游植物生物量与重金属铅和砷呈现正相关。 相似文献
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大规模增养殖区柘林湾叶绿素a的时空分布 总被引:9,自引:1,他引:9
柘林湾是粤东一个大规模海水增养殖区和赤潮重灾区.2001年7月至2002年7月对柘林湾及其周边水域(共设19个站位)进行的叶绿素a含量周年调查结果表明,调查海区叶绿素a站位实测值年变化为0.01~3.26 mg/m3,均值为0.56 mg/m3.平面分布的基本格局表现为湾顶黄冈河内与湾口外侧海域的叶绿素a含量明显高于湾内的,湾内外侧和东部水域的叶绿素a含量明显高于湾内内侧和湾西部的.结合同步调查的水化数据得知,柘林湾是一个高营养盐、低叶绿素的海湾,其原因可能与高密度、大规模海水增养殖业引起的水流不畅、水下光照减弱和养殖贝类的摄食等有关.柘林湾叶绿素a含量的季节变化显著,最高值出现在2001年夏季8月,最低值出现在冬季1月和2002年7月,其中2002年7月的叶绿素a含量仅为2001年7月的1/10左右.这种巨大的年际间变化显然与2001~2002年厄尔尼诺现象导致粤东地区于2002年春夏期间气候异常、干旱少雨、径流剧减和调查海区浊度大幅升高有关. 相似文献
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基于2017年春季和冬季的海流资料分析了红海湾海区海流特征、潮流状况、涨落潮流特性、余流特征及表层漂流特征。研究海域共布设3个临时潮位观测站和11个全潮水文观测站。根据流速、流向过程曲线和潮位过程曲线的关系,得出涨(落)潮流速最大的时刻和最小流速发生时刻与潮位关系并非固定在高(低)潮时或半潮面左右,由此看出,研究海域的潮波介于驻波与前进波之间,属于不规则半日潮流主导的海域。研究海域中大部分站位潮流属于往复流,少数站位潮流运动具有一定的旋转性,平均涨潮流速最大为7 cm/s,平均退潮流速最大为14 cm/s。春季大潮期和中潮期各站余流流向整体为偏东向,小潮期,除少数测站余流流向偏向南东向,其余测站余流流向偏西向;冬季大潮期和中潮期各站余流流向整体为偏西向,小潮期,湾西侧余流流向偏西向,湾东侧余流流向偏南东向。垂向上各层余流流速由表至底逐渐减小,流向基本一致。 相似文献
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Suspended sediment dynamics on a seasonal scale in the Mandovi and Zuari estuaries,central west coast of India 总被引:2,自引:0,他引:2
V. Purnachandra Rao R. ShynuPratima M. Kessarkar D. SundarG.S. Michael Tanuja NarvekarViegas Blossom Prakash Mehra 《Estuarine, Coastal and Shelf Science》2011
Suspended particulate matter (SPM) collected at regular stations from the Mandovi and Zuari estuaries indicates that the peaks of high SPM coincide with peaks of high rainfall and low salinity and also with peaks of moderate/low rainfall coupled with high salinity during the monsoon. The estuarine turbidity maximum (ETM) is a characteristic feature, it occurs in the channel accompanying spring tide during the monsoon and pre-monsoon, and shifts to the bay on neap tide during post-monsoon. ETM remains at the same position in the Mandovi River, both during the monsoon and pre-monsoon, whereas in Zuari it stretched upstream during monsoon and migrates seaward of the channel during pre-monsoon. The ETM coincides with the freshwater–seawater interface during the monsoon and is formed by the interaction between tidal currents and river flows. The ETM during pre-monsoon is associated with high salinities and is generated by tidal and wind-induced currents. The turbidity maximum on neap tide during post-monsoon may be due to the erosion and resuspension of sediments from the emergent tidal flats and transport of these turbid waters into the bay. Funneling effect of the narrowing bay in the Zuari estuary and associated physical processes effectively enhance the magnitude of the currents and transports sediments to the channel. SPM retention percentage indicates that the estuarine channel is prone to siltation. 相似文献
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北黄海典型水域秋冬季浮游植物群落的昼夜变化 总被引:1,自引:0,他引:1
利用冬季(2007年1月)和秋季(2007年10月)在北黄海中部昼夜连续观测所获浮游植物样品,分析了浮游植物群落的昼夜变化.结果表明:浮游植物丰度在各层存在昼夜变化,冬季10~20 m层主要在白天出现高丰度,而20~30 m层和30~底层都是在夜间出现高丰度,冬季丰度垂直分布相对较均匀.秋季各层都主要在夜间出现高丰度,丰度垂直分布是下层水体明显比上层高.2个季节优势种昼夜组成都比较稳定.冬季优势种为具槽帕拉藻(Paralia sulcata),主要分布在下层水体.秋季罗氏角毛藻(Chaetoceros lauderi)和密连角毛藻(Chaetoceros densus)成为优势种,两者分别以下层和上层水体分布较多.冬季浮游植物群落多样性和均匀度昼夜变化都不明显,秋季0~10 m层和20~30 m层多样性和均匀度昼夜变化较明显.从季节变化来看,秋季多样性要高于冬季,均匀度的季节变化不明显. 相似文献
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15.
枯水期钦州湾浮游植物群落结构组成与分布特征 总被引:5,自引:2,他引:3
应用浮游植物特征光合色素的分析方法,研究了2011年枯水期钦州湾浮游植物的结构组成与分布特征。结果表明:枯水期含量较高的浮游植物光合色素按含量高低依次为叶绿素a、岩藻黄素、叶绿素b、青绿素和多甲藻素,其他特征光合色素的含量很低。经CHEMTAX对光合色素转化计算,枯水期普遍检出的浮游植物类群为硅藻、青绿藻和甲藻,是枯水期浮游植物的优势类群,其生物量的平均值(±标准差)分别为(2.36±2.38)μg/L、(0.87±0.53)μg/L、(0.13±0.14)μg/L,变化范围为0.18~7.45μg/L、0.10~1.80μg/L和0.02~0.60μg/L。硅藻、青绿藻和甲藻占枯水期浮游植物生物量比例的平均值(±标准差)分别为59%±21%、30%±16%、6%±4%,占比变化范围为29%~96%、1%~53%和0.4%~14%,其他藻类所占比例很低。河口和外湾靠外海域两个区域以硅藻为优势类群,内湾及外湾近岸硅藻和青绿藻共同为优势类群。河流营养盐输入量和比例的不同决定了钦州湾河口海区浮游植物群落结构的差异,大面积贝类养殖导致了内湾至外湾近岸海区硅藻比例的降低,而外湾水温的增加引起暖水性硅藻大量增长成为优势类群,在温度进一步增加和营养盐持续输入等条件下存在会发生硅藻赤潮的风险。 相似文献
16.
Copepod feeding in a coastal area of active tidal mixing: diel and monthly variations of grazing impacts on phytoplankton biomass 总被引:1,自引:0,他引:1
This study examined monthly feeding rates and grazing impact on phytoplankton biomass, as well as diel feeding rhythms of four key copepod species in a tidally well mixed estuary (Asan Bay, Korean Peninsula). Monthly ingestion rates estimated based on gut pigment analysis were closely associated with their peak densities, but not with phytoplankton biomass, implying high ingestion may be related to reproductive output for population growth. The three smaller copepods, Acartia hongi, Acartia pacifica and Paracalanus parvus, showed feeding preference for smaller phytoplankton (<20 μm) with higher clearance rates, whereas the larger Calanus sinicus preferred larger phytoplankton. Acartia pacifica and P. parvus showed distinct increased nocturnal feeding rates as measured with gut fluorescence, whereas A. hongi showed no significant day–night differences. Copepod diel feeding patterns were not associated with food quantity, and endogenous physiological rhythm might be hypothesized as responsible for the observed diel feeding patterns. Grazing impact on phytoplankton biomass by the four copepods in the estuary was on average 8% (range 0.2–29.8%) of the phytoplankton standing stock, similar to values reported in other coastal waters. Very high copepod abundances but low daily carbon ration (<20% for all copepods) provided by feeding on phytoplankton indicate that copepods also grazed on other non‐phytoplankton foods in Asan Bay. 相似文献
17.
《Estuarine, Coastal and Shelf Science》2003,56(3-4):795-805
The utilisation of a brackish estuarine marsh by nekton was investigated over a semi-lunar cycle in August 1994. Nekton migrating in and out of the intertidal creeks of the marsh ‘Het Verdronken Land van Saeftinghe’ in the Westerschelde estuary, SW Netherlands, was sampled passively during seven complete tidal cycles. Sampling one tidal cycle yielded three consecutive flood samples and four consecutive ebb samples. Sampling occurred every 2–3 days, covering diel, tidal and semi-lunar situations, thus allowing comparison of tidal, diel and semi-lunar influences on the composition of the intertidal fauna.Two different tidal-migration modes were observed. The mysid shrimp, Mesopodopsis slabberi, showed maximum abundance around high tide. For the remaining common species, the mysid (Neomysis integer), the shrimp (Palaemonetes varians), the crab (Carcinus maenas) and the goby (Pomatoschistus microps) and the amphipod (Corophium volutator), highest densities were recorded during lower water heights. The faunal assemblage shifts between the different tidal stages.On two occasions, consecutive day and night samples were taken. Total densities were higher during the night samples. During spring tide, difference in community composition was noticed between the night and the day samples. During neap tide, day–night differences were less clear. Recorded total densities were highest during spring tide and lowest during neap tide. At maximum water levels, a drop in total density was observed. A shift in community composition occurred between spring and neap tides. 相似文献
18.
Roberto Millan-Nuñez Saul Alvarez-Borrego David M. Nelson 《Estuarine, Coastal and Shelf Science》1982,15(3):317-335
Sea level, salinity, temperature, nitrate, nitrite, phosphate, silicate, chlorophylls a, b and c and their phaeophytins, phytoplankton abundance and phytoplankton productivity time series were generated for the mouth and three interior locations of Bahia San Quintin, Baja California, Mexico, for 10 days during summer of 1979. The samples were taken once every 2 h. This was done to describe space and time variability of these ecological properties and to elucidate the main factors that cause this variability. Upwelling events bring nutrient reach waters near the bay mouth and tidal currents propagate those waters throughout the bay. Nutrient remineralization at the sediments and the effect of turbulence induced by tidal currents and winds increase nutrient concentrations in the interiors of the bay. In comparison with available information on nutrients limited growth of planktonic algae, nutrients seemed not to be limiting to phytoplankton growth during the sampling period. Phytoplankton cell abundances at the extremes of the lagoon are an order of magnitude lower than at the mouth due to greater turbidity. Chlorophyll concentrations at the extremes are about one-third of those of the mouth. Primary productivity decreases from the mouth to the interiors in the same manner as chlorophyll does. There is not a significant difference in cell size between phytoplankton at the bay mouth and those at the extremes of the bay. Primary productivity in the bay is comparable to the productivity maxima of other upwelling areas. There is no clear permanent dominance of diatoms over dinoflagellates, or vice versa, at any location in the bay. The alternation of upwelling and non-upwelling played an important role, together with that of the spring-neap tide cycle, in producing low frequency (< 0.01 cycles h?1) temporal variability of ecological properties throughout the bay. 相似文献
19.
依据锦州湾12个站点现场实测海流资料(1991年6月和8月二个航次)和潮流场数值模拟结果,获得了该湾潮流和余流的分布规律。并基于41个站点重矿物鉴定资料,给出了重矿物分布规律和矿物类型分区。结果表明,该湾潮流具有潮驻波特征。总的流动趋势为涨潮时从湾口南岸朝西北方向流入湾内,落潮时朝东南向流出湾外,葫芦岛—大酒篓北侧是锦州湾潮流主要通道和强流区,最大涨、落潮流流速在1kn以上。湾内余流随湾形按逆时针方向流动,湾口北部最强余流可达16cm/s。流场的强弱分布与重矿物的类型分区密切相关,经分析研究得出了重矿物与流场之间的定量分配关系。 相似文献
20.
To evaluate the relative importance of possible food sources, including riverine particulate organic matter, reeds, benthic microalgae, seaweeds, cultured laver (Porphyra) and coastal phytoplankton, for commercial bivalves and co-occurring benthic animals, 73 macrofaunal species were collected from intertidal and subtidal soft bottoms in the inner part of Ariake Sound, Kyushu, southern Japan, and their isotopic compositions were analyzed. The results revealed that (1) both intertidal and subtidal food webs were constituted of 3 trophic levels, (2) suspension-feeding bivalves utilize a mixture of benthic microalgae and coastal phytoplankton, and omnivores and carnivores incorporate benthic microalgae and phytoplankton through their intermediate prey, and (3) 3 bivalves (Scapharca kagoshimensis, Modiolus metcalfei and Atrina lischkeana) inhabiting both intertidal and subtidal bottoms showed similar seasonal fluctuations, suggesting no difference in the diet composition among the species and between the 2 habitats. We conclude that a large biomass of benthic microalgae which was approximately equal to that of phytoplankton and the strong tidal currents that would resuspend benthic microalgae and transport them to subtidal bottom areas account for the benthic microalgal and phytoplankton based trophic structure in the inner part of Ariake Sound. 相似文献