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1.
2016年3月对西太平洋马里亚纳区域M2海山浮游植物粒级结构和分粒级初级生产力进行了观测,同时结合温度、盐度和营养盐浓度,研究了M2海山的总叶绿素a浓度的分布规律,不同粒级浮游植物对总叶绿素a的贡献率及其与环境因子的关系,初级生产力结构和分布特征。结果表明:M2海山各水层叶绿素a浓度变化范围分别为0.004—0.304mg/m3,平均叶绿素a浓度为0.094mg/m3。微微型浮游植物在整个调查区域内为最优势类群,对总叶绿素a浓度的贡献率达到了85%,微型浮游植物和小型浮游植物的贡献率均较低,分别为10%和5%。M2海山的叶绿素a浓度最大层均在100m深度附近的次表层,其中西南部和东南部为叶绿素a浓度高值区。M2海山的平均初级生产力为71.31mgC/(m2·d),初级生产力的主要贡献者为微型和微微型浮游植物,其中微型浮游植物贡献率达到了72%,微微型浮游植物贡献率为28%。M2海山的海山效应不明显,浅海山(<200m)可能对浮游植物的生长存在促进作用。 相似文献
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2009年2月在南海北部海域现场观测粒度分级叶绿素a质量浓度和初级生产力(PP)的分布。结果表明,调查海域水柱平均叶绿素a质量浓度的变化范围为0.11~8.37 mg/m3,平均为(1.28±2.23) mg/m3,高值区出现在珠江口及近岸海域;初级生产力的范围为344.8~1 222.5 mgC/(m2·d),平均为(784.2±351.4) mgC/(m2·d),高值区位于近岸及陆架海域。浮游植物粒度分级测定结果表明,在生物量较高的近岸海域,叶绿素a的粒级结构以小型浮游植物占优势,其贡献率为40.9%,微型和微微型浮游植物对总叶绿素a的贡献率分别为34.6%和24.5%;而在生物量较低的陆坡和开阔海域,各粒级浮游植物对叶绿素a的贡献率由大到小依次为微微型浮游植物(78.9%),微型浮游植物(17.2%)和小型浮游植物(3.9%)。相关性分析结果表明,调查海域分级叶绿素a的区域化分布特征与洋流运动下营养盐的分布密切相关,同时叶绿素a又高度影响着此区域PP的分布。此外,我们将调查海域实测所得浮游植物最佳光合作用速率与采用垂向归一化初级生产力模型估算的数据进行对比,发现后者明显低于前者,这说明通过水温估算最佳光合作用速率的算法在冬季南海北部可能存在低估。 相似文献
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本文依据南黄海海域的调查资料,探讨了叶绿素a与初级生产力和真光层内叶绿素a积分值之间的相关关系。并对表层叶绿素a是否可以作为海洋中浮游植物蕴藏量的指标加以验证。验证的具体方法是分析表层叶绿素a(SC);真光层内叶绿素a积分值(IC)和初级生产力(PP)三者之间的相关关系。分析表明:在叶绿素a含量高且变化梯度大的高生产力海域,SC、IC和PP之间存在着非常显著的相关性,SC可以作为某海域浮游植物现存量及其生产力的指标;而在叶绿素a和初级生产力低且分布均匀的海域,SC、IC和PP之间不相关。故指出利用SC作为某海域浮游植物蕴藏量和初级生产力指标时应慎重。 相似文献
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文章利用2018年9—11月厦门岛西北海域的现场调查资料,在对海域水质污染状况和富营养化水平进行评价的基础上,分析并讨论浮游植物生物量粒级结构及其环境影响因素。研究结果表明:同安湾在11月处于富营养水平,属于中度或严重污染海域;九龙江口和西海域在9-11月均处于磷中等限制潜在性富营养或磷限制潜在性富营养水平,属于严重污染海域。同安湾和西海域浮游植物分粒级的生物量占比与九龙江口存在明显差异,前者由大到小依次为微型、小型、微微型,后者由大到小依次为小型、微型、微微型。小型浮游植物生物量与硝酸盐和亚硝酸盐、溶解无机氮、溶解无机磷以及活性硅酸盐呈显著正相关,与盐度呈显著负相关;微型浮游植物生物量与真光层深度、铵盐和溶解无机磷呈显著正相关;微微型浮游植物生物量与真光层深度、铵盐和溶解无机磷呈显著正相关,与pH值呈显著负相关。影响浮游植物群落粒级结构的最重要的海洋环境因子是盐度、真光层深度和溶解无机磷,尤其是溶解无机磷浓度,其值一旦升高,浮游植物极有可能从磷胁迫状态发展为赤潮。控制排污、实时监控、增强预警能力和改善生态环境是控制和预防营养盐污染以及赤潮暴发的有效手段。 相似文献
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南极普里兹湾浮游植物现存量与初级生产力粒级结构和新生产力研究 总被引:9,自引:4,他引:5
报道1998~1999年夏季在南极普里兹湾及其毗邻海域对细胞丰度、优势种类组成、生物量和初级生产力的粒级结构、新生产力及其环境制约机制的研究.结果表明,调查海区具有显著的空间区域化特征.普里兹湾及其毗邻陆架区浮游植物现存生物量和生产力均较高,大陆坡和深海区明显降低;营养盐浓度由于浮游植物的消耗则有相反的分布趋势.浮游植物生物量和生产力受水体的垂直稳定度、浮游动物摄食、水温和光照等环境条件的控制.粒度分级测定结果表明,对调查海区叶绿素a的贡献,小型浮游生物为52.2%,微型为29.4%,微微型为18.4%;对初级生产力的贡献,小型为52.4%,微型为28.7%,微微型为18.9%.研究海区的平均新生产力和f比分别为230.6mg/(m2·d)和0.43. 相似文献
6.
南黄海叶绿素a与初级生产力之间的相关分析 总被引:1,自引:0,他引:1
本文根据南黄海海域的调查资料,探讨了叶绿素a与初级生产力和真光层内叶绿素a积分值之间的相关关系。并对表层叶绿素a是否可以作为海洋中浮游植物蕴藏量的指标加以验证。验证的具体方法是分析表层叶绿素a(SC);真光层内叶绿素a积分值(IC)和初级生产力(PP)三者之间的相关关系。分析表明:在叶绿素a含量高且变化梯度大的高生产力海域,SC、IC和PP之间存在着非常显著的相关性,SC可以作为某海域浮游植物现存 相似文献
7.
莱州湾及潍河口夏季浮游植物生物量和初级生产力的分布 总被引:9,自引:2,他引:9
于1998年6月黄河断流期在潍河口及其邻近海域进行了水文、化学和生物等专业综合外业调查.对此海区浮游植物叶绿素a浓度、脱镁色素浓度和初级生产力的变化进行了分析.研究结果表明,叶绿素a浓度介于0.089~5.444mg/m3之间,平均值为1.331mg/m3;脱镁色素浓度介于0.176~3.402mg/m3之间,平均值为0.905mg/m3.叶绿素a和脱镁色素浓度高密度区分布在小清河口附近、潍河口内及潍河口以外临近海域.初级生产力介于13.58~301.54mg/(d·m2)之间,平均值为62.49mg/(d·m2).水柱初级生产力高值区分布在小清河口和37.30°N,119.47°E附近.对水文、化学和浮游动物等环境因子与浮游植物生物量和初级生产力的相关性分析表明,整个调查区,浮游植物生物量和初级生产力与海区潮汐、光照、磷酸盐、硅酸盐和微型浮游动物等环境因子密切相关,同氨盐、硝酸盐和亚硝酸盐的作用不明显,其中潍河口内浮游植物的生物量分布同潮汐的关系最为密切.夏季此海域浮游植物生长主要受磷酸盐和硅酸盐的限制.调查海域浮游植物生物量及生产力水平较历史同期有所增加. 相似文献
8.
黑潮源区及其邻近海域叶绿素a浓度的季节分布 总被引:6,自引:0,他引:6
2001年冬季、2002年春季和秋季在琉球群岛、台湾岛和吕宋岛以东的西北太平洋黑潮源区及其邻近海域观测叶绿素a浓度季节分布及其粒级结构。结果表明,冬季表层平均叶绿素a浓度高于春季和秋季,台湾岛及以北岛链东南部的北部测区叶绿素a浓度高于巴士海峡及吕宋岛以东的南部海区。叶绿素a垂直分布呈真光层内随垂直深度增加而浓度增大,真光层下至水深200m随垂直深度增加而浓度降低的分布趋势。春季和秋季叶绿素a浓度粒级结构表明,微微型光合浮游生物(Pico级份)对总叶绿素a的贡献占优势,微型(Nano级份)次之,小型(Micro级份)所占比例最小。表层水光合浮游植物细胞丰度在(1.3~13.5)×103cells/dm3,以小粒径的硅藻占优势。呈现出微微型光合浮游生物在观测海区的重要性。 相似文献
9.
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
10.
台湾海峡浮游植物生物量和初级生产力的粒级结构及碳流途径 总被引:17,自引:1,他引:17
本文研究了1997年8月、1998年2-3月、8月和1999年8月台湾海峡浮游植物生物量和初级生产力的粒级组成、各粒级生物量和初级生产力变动(包括年际变动及其影响因子。结果表明,台湾海峡微型(简称NANO)和微微型浮激植物(简称PICO)占优势,贡献率分别达34%-48%、34%-40%,小型浮游植物(简称MICRO)仅占12%-27%。粒级组成和各粒级生物量存在着明显的季节和年际变化,如1997年夏季三种粒级浮游植物生物量均明显低于其它年份,PICO和MICRO组份呈1998年夏季高于1997年和1999年夏季,而NANO组份则呈1998年夏季低于1997年和1999年夏季。PICO组份对初级生产力的贡献最大,达45%-50%,而NANO和MICRO组份对初级生产力的贡献相近,为19%-32%;PICO组份的同化系数明显高于NANO和MICRO组份。初步分析了初级生产的碳流途径,表明台湾海峡初级生产的碳将有25%经异养细菌的“二次”生产而进入微食物环,36%通过原生动物(主要是异养鞭毛虫)摄食“打包”的作用后进入微食物环,即近60%的初级生产的碳经微食物环的两个起点分别进入微食物环,表明微型生物食物网在该海域生源有机碳转换过程中起重要作用。 相似文献
11.
荣成靖海湾海参养殖池塘初级生产力季节变化特征 总被引:1,自引:0,他引:1
2007年5月~2007年11月调查了山东荣成靖海湾海参养殖池塘水体中浮游植物种类组成、生物量、叶绿素含量变化以及底泥沉积物中叶绿素和脱镁叶绿素含量的变化.结果表明,海参养殖池塘水体中浮游植物共有7门,44属,62种,主要以硅藻为主.水体中浮游植物平均生物量1号池塘为17.52×10~4 /L;2号池塘为18.30×10~4 /L.水体叶绿素含量变化范围:1号池塘为1.38~5.00 μg/L;2号池塘为0.98~5.45 μg/L.池塘沉积物中叶绿素含量变化范围:1号池塘为0.66~1.67 μg/g,2号池塘为0.56~1.34 μg/g.池塘沉积物中脱镁叶绿素含量变化范围:1号池塘为2.97~5.63 μg/g;2号池塘为2.90~6.36 μg/g.1号池塘和2号池塘的浮游植物群落结构及叶绿素含量没有显著性差异(P>0.05).叶绿素,脱镁叶绿素变化趋势较为一致.海参夏眠期间,沉积物中叶绿素及脱镁叶绿素含量最高,为海参结束夏眠进入摄食提供食物储备.研究结果表明,靖海湾海参养殖池塘浮游植物以硅藻为主,养殖池塘水体浮游植物生物量较低,多样性指数较高,增加浮游植物沉降速率,增加养殖系统初级生产力可为海参提供更多食物. 相似文献
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浮游植物的分粒级研究是监测浮游植物特征的重要工具,对于深入了解浮游植物动态的作用也不容忽视。本文的研究目的在于揭示长江口邻近海域春秋季不同粒级的浮游植物分布动态,分析浮游植物粒级结构与环境因素以及浮游动物群落结构的关系。通过2010年春季和秋季对粒径分级叶绿素a浓度的现场调查研究发现:春季,浮游植物主要以微型浮游植物占优势;秋季,微微型浮游植物和微型浮游植物共同占优势。相关分析结果表明,温度和富营养化状况是影响微型和微微型浮游植物对总叶绿素a贡献的重要因素。浮游动物的摄食压力可能对小型浮游植物对总叶绿素a的贡献起着重要的作用。 相似文献
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Studies on growth rate and grazing mortality rate by microzooplankton of size-fractionated phytoplankton in spring and summer in the Jiaozhou Bay, China 总被引:15,自引:2,他引:13
1 Introduction Phytoplankton has been considered as a dom inantprim ary producer in m arine ecosystem s, starting them arine food chain (N ing and V aulot.,2003;Sun etal.,2001; Zhu et al., 2000; N ing and V aulot, 1992). A l-though potentialfates ofphytoplankton include advec-tion,verticalm ixing,sinking and m ortality due to virallysis and grazing (B anse,1994),m ortality due to graz-ing,especially by m icrozooplankton,is generally con- μm m esh to 25-L carboys, then transpo… 相似文献
14.
Grazing impacts of calanoid copepods on size-fractionated phytoplankton biomass [chlorophyll (Chl)-a] were measured in Jangmok Bay, Geoje Island, Korea, monthly from November 2004 to October 2005. The ingestion rate of calanoid copepods on total phytoplankton biomass ranged between 1 and 215 ng Chl-a copepod?1 day?1 during bottle incubations. Results indicated that microphytoplankton (> 20 μm) was the primary food source for calanoid copepods in grazing experiments on 3 phytoplankton size categories (< 3 μm, 3–20 μm, and > 20 μm). The ingestion rate on microphytoplankton showed a significant increase (r = 0.93, p < 0.01) with Chl-a concentration. Nanophytoplankton (3–20 μm) showed a negative ingestion rate from June 2005 to October 2005, but the reason is not completely understood. Calanoid copepods were unable to feed efficiently on picophytoplankton (< 3 μm) due to unfavorable size. Calanoid copepods removed between 0.1% and 27.7% (average, 3.6 ± 15.8%) of the phytoplankton biomass daily during grazing experiments. Grazing pressure was high in winter and early spring (January–March: 15.6–27.7%), while low in summer (June–August: ?33.1–0.0%) and autumn (September–November: ?1.4–5.1%). Results suggest that calanoid copepods play an important role in controlling the biomass and size structure of phytoplankton in winter and early spring. 相似文献
15.
为探究富营养河口水体藻华粒级结构的调控机制,本研究利用枯水期珠江口上游河水、下游海水及其等比例混合水进行培养实验,跟踪监测水体中叶绿素a和营养盐的浓度变化,并利用稀释实验估算藻类生长速率(μ)和小型浮游动物的摄食速率(m),以阐明上行控制(营养盐刺激)和下行控制(摄食影响)对藻类粒级结构的影响。结果显示:营养加富能增加藻类的生物量,藻类群落的优势粒级由超微型和微型转换为小型;加富河水中μ维持2~3 d高值后下降,速率为(1.13±0.37)d?1,加富海水中μ逐步增加,速率为(1.06±0.16)d?1,加富混合水中μ轻微波动,速率为(0.58±0.14)d?1,总体上小型藻类μ最大。3组加富水体中m总体均先增大后下降,粒级差异不明显。藻类被小型浮游动物摄食率(m/μ)随粒级增大而减小,说明富营养刺激大粒级的生长,大粒级面临的被摄食压力较小。m/μ随藻类每日的比生长速率(μChl a)降低而增加,说明藻华前期由上行控制主导,后期下行控制作用相对加强。本研究表明,富营养化不仅能够改变藻华的生物量,而且能影响其粒级结构,初步阐明了富营养河口水体中藻华粒级结构的调控机制。 相似文献
16.
Tetsuichi Fujiki Kazuhiko Matsumoto Shuichi Watanabe Takuji Hosaka Toshiro Saino 《Journal of Oceanography》2011,67(3):295-303
We deployed a profiling buoy system incorporating a fast repetition rate fluorometer in the western subarctic Pacific and
carried out time-series observations of phytoplankton productivity from 9 June to 15 July 2006. The chlorophyll a (Chl a) biomass integrated over the euphotic layer was as high as 45–50 mg Chl a m−2 in the middle of June and remained in the 30–40 mg Chl a m−2 range during the rest of observation period; day-to-day variation in Chl a biomass was relatively small. The daily net primary productivity integrated over the euphotic layer ranged from 144 to 919 mg C m−2 day−1 and varied greatly, depending more on insolation rather than Chl a biomass. In addition, we found that part of primary production was exported to a 150-m depth within 2 days, indicating that
the variations in primary productivity quickly influenced the organic carbon flux from the upper ocean. Our results suggest
that the short-term variability in primary productivity is one of the key factors controlling the carbon cycle in the surface
ocean in the western subarctic Pacific. 相似文献
17.
Community Structure and Dynamics of Phytoplankton in the Western Subarctic Pacific Ocean: A Synthesis 总被引:1,自引:1,他引:1
The phytoplankton community in the western subarctic Pacific (WSP) is composed mostly of pico- and nanophytoplankton. Chlorophyll
a (Chl a) in the <2 μm size fraction accounted for more than half of the total Chl a in all seasons, with higher contributions of up to 75% of the total Chl a in summer and fall. The exception is the western boundary along the Kamchatka Peninsula and Kuril Islands and the Oyashio
region where diatoms make up the majority of total Chl a during the spring bloom. Among the picophytoplankton, picoeukaryotes and Synechococcus are approximately equally abundant, but the former is more important in term of carbon biomass. Despite the lack of a clear
seasonal variation in Chl a concentration, primary productivity showed a large seasonal variation, and was lowest in winter and highest in spring. Seasonal
succession in the phytoplankton community is also evident with the abundance of diatoms peaking in May, followed by picoeukaryotes
and Synechococcus in summer. The growth of phytoplankton (especially >10 μm cell size) in the western subarctic Pacific is often limited by
iron bioavailability, and microzooplankton grazing keeps the standing stock of pico- and nano-phytoplankton low. Compared
to the other HNLC regions (the eastern equatorial Pacific, the Southern Ocean, and the eastern subarctic Pacific), iron limitation
in the Western Subarctic Gyre (WSG) may be less severe probably due to higher iron concentrations. The Oyashio region has
similar physical condition, macronutrient supply and phytoplankton species compositions to the WSG, but much higher phytoplankton
biomass and primary productivity. The difference between the Oyashio region and the WSG is also believed to be the results
of difference in iron bioavailability in both regions.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
18.
Lee Minji Kim Jin Ho Kim Yun-Bae Park Chan Hong Shin Kyoungsoon Baek Seung Ho 《海洋学报(英文版)》2020,39(2):107-122
The East Sea(Sea of Japan)is a marginal,semi-closed sea in the northwestern Pacific.The Ulleung Basin area,which is located near the subpolar front of the East Sea,is known to have high primary production and good fisheries in spring season.After episodic wind-driven events during the spring of 2017,horizontal and vertical profiles of physical chemical biological factors were investigated at 29 stations located in the Ulleung Basin area.In addition,growth responses of phytoplankton communities to nutrient additions were evaluated by bioassay experiments to understand the fluctuation of phytoplankton biomass.Because of strong northwestern wind,phytoplankton biomass was scattered and upwelling phenomenon might be suppressed in this season.The phytoplankton abundances in the coastal stations were significantly higher than offshore and island stations.In contrast,the nutrient and chlorophyll a(Chl a)concentrations and the phytoplankton biomass were quite low in all locations.Bacillariophyceae was dominated group(>75.1%for coastal,40.0%for offshore and 43.6%for island stations).In the algal bioassays,the phytoplankton production was stimulated by N availability.The in vivo Chl a values in the+N and+NP treatments were significantly higher than the values in the control and the+P treatments.Based on the field survey,the higher nutrients in coastal waters affected the growth of diatom assemblages,however,little prosperity of phytoplankton was observed in the offshore waters despite the injection of sufficient nutrients in bioassay experiments.The growth of phytoplankton depended on the initial cell density.All of results indicated that a dominant northwestern wind led to a limited nutrients condition at euphotic layers,and the low level of biomass supply from the coasts resulted in low primary production.Both supplying nutrients and introducing phytoplankton through the currents are critical to maintain the high productivity in the Ulleung Basin area of the East Sea. 相似文献