象山港西部海域夏季浮游植物生态学研究:Ⅰ.种类组成及年际变化

根据2006~2008年夏季(7~8月)在象山港西部海域(121°37′E、29°40′N以西)进行的海洋调查资料,对该海域浅水Ⅲ型浮游生物网采集的浮游植物的种类组成与分布、年际变化以及与理化环境因子的相关性进行了研究。结果表明:调查海域夏季共鉴定到浮游植物54种,其中硅藻类占绝对优势,为48种,并可大体分为河溪淡水性、外洋性广布种和沿岸内湾性三大生态类群,优势种主要有丹麦细柱藻(Leptocylindrus danicus)、紧密角管藻(Cerataulina compacta)、中肋骨条藻(Skeletonema costatum)、琼氏圆筛藻(Coscynodiscus jondsiarus)等。根据环境因子与种类数的相关性分析表明,透明度和化学需氧量(COD)对浮游植物种类数影响最大,其次为活性磷酸盐(PO43-P),无机氮(DIN)、盐度、水温相对较小。与历史资料相比,调查海域夏季浮游植物种类数量存在明显年际差异,且仍处于波动状态。     

长江口及邻近海域浮游植物生态系统气候变化综合风险评估

近几十年来,在气候变化和人类活动的影响下,我国近岸河口海域尤其是长江口及邻近海域生态灾害频繁发生,严重影响了海洋生态系统的健康及其服务功能。本研究基于政府间气候变化专门委员会（Intergovernmental Panel on Climate Change, IPCC）气候变化风险理论框架,构建了河口浮游植物生态系统的气候变化综合风险评估指标体系,并利用IPCC 第五次耦合模式比较计划（CMIP5）地球系统模式数据,分别计算分析了在温室气体低（RCP 2.6）、中等（RCP 4.5）和高（RCP 8.5）浓度排放情景下未来不同时期（2030—2039、2050—2059、2090—2099年）长江口及邻近海域浮游植物生态的致灾因子危害性、承灾体暴露度和脆弱性及其综合风险。结果表明： RCP 2.6、4.5和8.5情景下,到21世纪中期,致灾因子危害性均有明显上升,其中RCP 4.5和8.5情景下,到21世纪末,还将大幅度增加,且以RCP 8.5情景最为显著,而RCP 2.6情景下则相反,有所下降;RCP 2.6情景下,高暴露度区域主要位于长江口附近,不同年代的变化差异较小;RCP 4.5和8.5情景下高暴露度区域明显大于RCP 2.6情景,尤其是后者到21世纪末期扩大至长江口邻近海域;脆弱性总体呈现近岸高远岸低的分布特征,且变化均较小;RCP 2.6、4.5和8.5情景下,综合风险均呈现近岸高远岸低,且有增加的趋势,但以RCP 8.5情景最为明显,并在21世纪末达到最大。     

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。     

Uptake of nitrogenous nutrients by phytoplankton in a barrier Island estuary: Great South Bay,New York

The uptake of urea, nitrate and ammonium by phytoplankton was measured using ¹⁵N isotopes over a one-year period in Great South Bay, a shallow coastal lagoon. The bay is a unique environment for the study of nutrient uptake since ambient concentrations of $\text{NO}{}_3{}^{\mathrm{?}}\text{NH}{}_4{}^{\mathrm{+}}$ and urea remain relatively high through the year, and phytoplankton are probably never nutrient limited. Urea nitrogen averaged 52% of the total assimilated, while ammonium represented 33% and nitrate 13%. High rates of ammonium uptake occurred only at low urea concentrations (ca< 1-μg-atom urea l^?1). Over the sampling period urea was present in relatively high concentrations, averaging 5·35 μg-atom N l^?1, while means for ammonium and nitrate averaged 1·94 and 0·65 μg-atom N l^?1, respectively. Total N uptake measured with ¹⁵N averaged about 3·3 times the calculated (from elemental ratios and ¹⁴C productivity measurements) N needs of the phytoplankton population. Highest nitrogen uptake occurred in the summer and coincided with the primary production maximum.     

The composition of phytoplankton within the Chesapeake Bay plume and adjacent waters off the Virginia coast,U.S.A.

Phytoplankton composition differences were used to identify and plot the extent of the Chesapeake Bay plume over the continental shelf. Distinct but different phytoplankton assemblages were noted within the plume for March, June and October 1980. The major constituents in the plume were Skeletonema costatum, a variety of other diatoms and an unidentified ultraplankton component assumed to consist of several cyanophycean and chlorophycean species. The shelf plankton outside of the plume was mainly characterized by the coccolithophores and other phytoplankters that formed different seasonal assemblages than what was within the plume. Patchiness and fluctuations in the shape, size and extent of the plume were noted. A total of 235 species is given, with their presence within the plume and at shelf stations indicated.     

The Use of Pigment Signatures to Assess Phytoplankton Assemblage Structure in Estuarine Waters

The seasonal dynamics of chlorophyll a and the main accessory pigments accompanied by microscopic observations on live and fixed material were investigated in the Urdaibai estuary, Spain. Fucoxanthin was the dominant pigment during the peak in chlorophyll a, with which it was strongly correlated. Concentrations of fucoxanthin (81·30 μg l⁻¹) in the upper estuary were amongst the highest found in the literature, and were mainly associated with diatoms and symbiotic dinoflagellates. In the lower estuary, fucoxanthin showed values typical of coastal waters (<5 μg l⁻¹) and was mainly due to diatoms and prymnesiophytes. Chlorophyllb concentration was high along the estuary, followed the same seasonal pattern as chlorophyll a, and was associated with the presence of euglenophytes, chlorophytes and prasinophytes. High values of 19′-butanoyloxyfucoxanthin were often measured, but no organisms containing this pigment were observed in live or fixed samples. Alloxanthin and peridinin were found in low concentrations which was in agreement with cell counts of cryptophytes and peridinin-containing dinoflagellates. Two main patterns of phytoplankton assemblages were observed along the estuary. In the upper segments, during the chlorophylla maximum fucoxanthin containing algae masked the other algal groups, which were relatively more abundant during or after enhanced river flows. In the lower estuary, although dominated by fucoxanthin-containing algae, the other algal groups were important all year around. In this study, the use of diagnostic pigments has provided considerable insight into the temporal and spatial dynamics of phytoplankton assemblages by detecting phytoplankton taxa generally underestimated or overlooked by microscopy.     

南极长城湾夏季浮游植物数量与环境的关系

研究了南极长城湾 1 999/2 0 0 0年夏季网采浮游植物的种群动态以及浮游植物数量与营养盐和水温的关系。结果显示 ,浮游植物的细胞数量平均值为 2 87.65× 1 0 4 个 /m3,其中 2月份最高 ,达平均值的 4倍之多。综合 2 0世纪 90年代以来的调查结果 ,表明浮游植物的细胞数量与水温有明显的对应关系     

Diel variability of glycolate in the eastern tropical Atlantic Ocean

The concentration of dissolved glycolate in sea water was measured by high performance liquid chromatography in the eastern tropical Atlantic Ocean during the Eumeli 4 oceanographic cruise in June 1992. Diurnal concentrations of glycolate reached 74 kg 1⁻¹ 1⁻¹ in mesotrophic waters and 17 μg 1⁻¹ 1 in oligotrophic waters. At midday total dissolved glycolate exceeded 1 g of carbon per m² of ocean, decreasing strongly during the night (less than 0.1 g of carbon per m²). At the three stations studied, glycolate carbon difference between night and day in the water column was of the same order as the daily primary production estimated by incorporation of ¹⁴C0₂. Disappearance of this compound at night suggested a rapid consumption by heterotrophic organisms. These data suggest that glycolate excretion by phytoplankton may be important, and possibly influenced by ambient nutrient concentrations. Further, with glycolate representing up to 50% of daily productivity, our estimates of the total biological reduction of C0₂ need to be re-examined.     

Effects of environmental gradients concerning water qualities on the structure of the phytoplankton community in the coastal sea

The effects on the structure of the phytoplankton community of in situ environmental gradients concerning water qualities, formed during the mixing process of coastal with oceanic waters, were investigated on macro scale over a wide area of the Seto Inland Sea, Japan.The community structure of the phytoplankton varied almost constantly along the in situ environmental gradients in the community, which was shown by use of the diversity index rather than a mere listing of the phytoplankton community. These observations were considered to be the result of the direct or indirect response of the phytoplankton community to environmental gradients which occur in situ, which mean a series of variations of the habitat of the phytoplankton community. Their effects were reflected not in biomass but in the structure of the phytoplankton community. It was difficult to establish quantitatively the extent of their effects because of the variability in the degree of the environmental gradients which occur in situ.