Effect of dissolved phosphorus on alkaline phosphatase activity in marine microalgae

Alkaline phosphatase activity (APA) and dissolved phosphorus were monitored during the batch cultures of two bone microalgae. Results indicate that variation of APA was in the shape of 'S' curve. Different specs of dissolved phaphorus had different effects on APA. The concentrations of dis solved inorganic phosphorus (DIP) and and molecular dissolved organic phosphorus (SDOP) had a sig nificant effect on APA, while the concentration of large molecular dissolved organic phosphorus (LDOP) had a little effect on APA., and the increase of APA could accelerate the decomposing of LDOP in the medium. Results also show that algae species and abundance had why a little effect on APA.

Temporal and Spatial Distribution of DIN and DIP Concentrations and Source Apportionment Along the Bohai Sea of China During 2015-2022

The Bohai Sea is one of the most polluted sea areas in China.In this study,we used 2184 integrated concentrations of dis-solved inorganic nitrogen(DIN)and dissolved inorganic phosphorus(DIP)in the Bohai Sea of China during spring(March,April,and May),summer(June,July,and August),and autumn(October and November)from 2015 to 2022 to explore the trends and sources of nutrients variations.From 2015 to 2022,DIN showed a downward trend until 2020 and then an upward trend,whereas DIP exhibited a stable trend with a slight decrease.The concentrations of DIN and DIP had similar seasonal pattern which was the highest in autumn(0.292±0.247 mg/L for DIN and 0.013±0.016 mg/L for DIP)but lower in spring(0.267±0.238 mg/L for DIN and 0.006±0.010 mg/L for DIP)and summer(0.263±0.324 mg/L for DIN and 0.008±0.010 mg/L for DIP).Sources of DIN and DIP apportioned by the positive matrix factorization(PMF)model were riverine input,sediment resuspension,sewage discharge,atmospheric deposition,and underground input.During 2015-2022,the largest contributor to DIN was sewage discharge(28.7%)and the largest contributor to DIP was sediment resuspension(44.6%).Seasonally,DIN in spring and autumn was dominated by sewage discharge(45.4%and 27.8%,re-spectively).Whereas in summer,it was dominated by riverine input(32.4%)and atmospheric deposition(29.7%).DIP was dominated by sediment resuspension during all three seasons(35.8%-52.5%).In addition,the increase in DIN concentrations in 2021 and 2022 were mainly due to the incremental input of river discharge and atmospheric deposition caused by increased precipitation during sum-mer and autumn.

Changes in nitrogen and phosphorus and their effects on phytoplankton in the Bohai Sea

Systematic studies of the changes in dissolved inorganic nitrogen(DIN) and dissolved inorganic phosphorus(DIP) and their effects on phytoplankton over the last 30 years in the Bohai Sea are presented.The amount of sewage disposal,use of fertilizer and the Huanghe River runoff were found to have a significant influence on the DIN or DIP concentrations in the Bohai Sea over the last 30 years.Moreover,the changes in DIN and DIP resulted in changes in the limiting nutrients of phytoplankton in the Bohai Sea from nitrogen in the early 1980s to nitrogen-phosphorus in the late 1980s,and then to phosphorus after the 1990s.In addition,changes in nitrogen and phosphorus had a significant effect on the phytoplankton community structure.The half saturation constant(Ks) was used to evaluate the effect of nutrients on the phytoplankton community structure in the Bohai Sea over the last 30 years.Cell abundance percentages of dominant phytoplankton species with high Ks values for phosphorus and low Ks values for nitrogen have decreased since the 1980s,while those of dominant phytoplankton species with low Ks values for phosphorus and high Ks values for nitrogen increased during this period.

不同类型含磷营养物质对微小亚历山大藻(Alexandrium minutum)生长和毒素产生的影响

采用显微镜细胞计数和麻痹性贝毒的高效液相色谱分析方法,通过对比磷酸二氢钾、磷酸甘油和三磷酸腺苷(ATP)等含磷营养物质对微小亚历山大藻生长和毒素产生的影响,研究了微小亚历山大藻对不同类型含磷营养物质的利用情况。结果表明,在磷限制条件下,加入磷酸二氢钾、磷酸甘油和ATP均能促进微小亚历山大藻的生长,所获得的最大藻细胞密度分别为22700、28400和27800藻细胞/ml,对数期生长速率分别为0.12/d、0.14/d和0.15/d,溶解态有机磷对藻生长的促进作用稍好于溶解态无机磷。三种含磷营养物质对毒素产生的效应没有明显差别,稳定期藻细胞毒素含量分别为22.87、23.98和21.80fmol/cell。磷限制对毒素组成的影响很大,磷限制条件下膝沟藻毒素GTX1/4的含量占绝对优势,GTX2/3含量很少。在添加含磷营养物质后,GTX1/4所占比例降低,GTX2/3比例增加,说明磷限制显著改变了微小亚历山大藻的毒素组成。对藻体碱性磷酸酶活性分析的结果显示,磷限制组具有最高的碱性磷酸酶活性,添加有机磷化合物实验组的碱性磷酸酶活性显著高于添加无机磷化合物的实验组。研究结果表明,微小亚历山大藻可以利用实验中采用的无机磷化合物和有机磷化合物,但其利用溶解态有机磷化合物的机制尚不清楚,可能是通过诱导合成碱性磷酸酶来水解培养基中的溶解态含磷有机物,从而释放无机磷酸盐用于藻细胞的生长。

武汉月湖水体营养物质的分布与硅藻的生态指示

通过对武汉月湖2007年1-12月水体理化指标(电导率、溶解氧、pH值、水温、透明度、无机氮、无机磷、可溶硅)、生物指标(硅藻、蓝藻、叶绿素a)的监测,结果表明:月湖水体中无机氮、无机磷含量较丰富,可溶硅含量较低;月湖水体初级生产力较高,湖泊中蓝藻密度远大于硅藻密度;月湖水体中浮游植物与生境因素有着复杂的生态网络关系。月湖水体营养盐结构不合理,在硅藻消亡后,湖泊水域中的营养组合(丰富的氮与磷,但缺乏可溶硅),这种特殊生境刺激蓝藻的生长,进一步导致硅藻的减少,使月湖浮游植物的优势种转变成蓝藻类。可溶硅在湖泊浮游植物群落由硅藻型向蓝藻演变的过程中起着重要的作用,可溶硅起始浓度水平不仅决定硅藻生产量最大值的程度,而且制约着硅藻持续时间,补偿湖泊可溶硅可能是防治湖泊富营养化的新路。

大鹏湾海水中氮和磷的分布变化

依据香港特别行政区环境保护署于1999—2007年106个航次的调查资料,结合国家海洋局南海分局于1998—2007年10个航次的调查资料,简要描述和分析大鹏湾海水中可溶性无机氮(DIN)和可溶性无机磷(DIP)含量的多年平均分布变化。结果表明,DIN和DIP含量均夏、冬季较高,而春、秋季较低;受香港和深圳等陆源排放影响,四季吐露港西部和沙头角海区域的DIN和DIP含量普遍比其他区域高;夏季南澳养殖场附近水域的DIN也明显较高,可能与养殖场的饵料投放有关。大鹏湾海水中平均氮磷原子比大于16,而DIN和DIP的平均含量分别为0.069和0.009 mg/L。夏季,由于外海高盐水的入侵,底层水中DIN和DIP含量明显高于表层。9 a调查期间,大鹏湾香港海区海水中DIN和DIP含量的年际变化呈较明显下降趋势,而氮磷原子比的年际变化则呈上升趋势。

南海气溶胶中溶解性无机磷的空间和季节分布特征

于2012年夏季、秋季和2013年冬季,利用科考船在南海海域对大气总悬浮颗粒物(TSP)样品进行采集。通过分析TSP水溶性离子及溶解性无机磷酸盐(DIP),对DIP在南海气溶胶中的浓度、空间及季节分布特征进行探讨,同时估算了DIP的干沉降通量。结果表明,冬季气溶胶DIP浓度为(31.50±15.93)ng·m^(−3),夏季为(0.14±0.07)ng·m^(−3),秋季为(0.87±0.61)ng·m^(−3),冬季远高于夏秋季;夏、秋和冬季南海气溶胶DIP干沉降通量分别为(0.1±0.05)、(0.6±0.4)、(20.7±10.5)μg·m^(−2)·d^(−1),年平均沉降通量为(6.4±11.0)μg·m^(−2)·d^(−1)。根据Redfield比值C∶N∶P=106∶16∶1,估算得到由干沉降进入南海的溶解性磷(TDP)可支持南海1.3mg·m^(−2)·d^(−1)C的海洋浮游植物碳生产。夏、秋季气溶胶DIP浓度由南海南部向北部递减,南海西部DIP浓度高于东部,冬季中南半岛附近海域DIP浓度较高,DIP浓度的季节变化和空间分布可能是因为夏秋季在西南季风的主导下,南海主要受印度洋海洋性气团影响,导致DIP浓度较低,而冬季则受东北季风携带的东北亚沿海城市污染物的影响,导致冬季DIP浓度更高。DIP与Al_(3)^(+)、NO_(3)^(−)、NH_(4)^(+)等离子相关性,表明南海冬季(P<0.01)可能受东北亚人为排放源影响较大,夏季(P>0.05)受人为排放源影响较小。

海南岛近岸海域溶解无机磷时空分布及富营养化

根据2016年枯水季、丰水季和平水季海南岛近岸海域表层海水现场调查资料,对该海域表层海水中溶解无机磷(DIP)的时空分布特征进行研究,评价其污染水平和营养盐结构,分析该海域富营养化程度,并探讨了研究区域DIP的主要来源及与环境因子之间的关系.结果表明,海南岛近岸海域表层海水DIP的平均浓度为(0.008±0.006) mg/L,浓度范围为0.000~0.062mg/L,万宁小海海域是3个水季的主要污染区域;平水季研究海域DIP污染水平高于枯水季与丰水季;富营养化指数变化范围为0.00~3.94,平均为(0.21±0.46),总体上海南岛近岸表层海水富营养化程度较低,但局部海域富营养化问题依然突出.

台湾海峡中北部上升流区各种形态磷的化学特性

根据1988年7月调查资料讨论了台湾海峡中北部海域夏季上升流区各种形态磷的分布特征。结果表明,上升流中心区(即海坛岛东侧一带水域)具有低温、高盐、低溶解氧;DIP,TDP,PP,TP较高;DOP较低(0.27);及DIP/DOP比值(约为1)较高的特性。DOP是该海域磷的主要形态(占TP的49.2％),其含量分布及其形态转化与生物活动直接相关,是该海域生物生产力高的体现。

Growth and alkaline phosphatase activity of Chattonella marina and Heterosigma akashiwo in response to phosphorus limitation

The growth and alkaline phosphatase activity（APA） of two raphidophyceae species Chattonella marina and Heterosigma akashiwo were investigated in response to P-limitation and subsequent addition of dissolved inorganic phosphorus（DIP, Na H2PO4） and two dissolved organic phosphorus（DOP） compounds： guanosine 5-monophosphate（GMP） and triethyl phosphate（TEP）. APA levels increased greatly after P-starvation as the decrease of the cellular phosphorus quotes（Qp）. C. marina responded to P-limitation quickly and strongly, with 10-fold increase in APA within 24 hr after P-starvation. The larger difference between maximal and minimal QP values in C. marina indicated its high capacity in P storage. APA of H. akashiwo was maximally enlarged about 2.5 times at 48 hr of P-starvation. After the addition of nutrients, cell numbers of C. marina increased in all treatments including the P-free culture, demonstrating the higher endurance of C. marina to P-limitation. However, those of H. akashiwo increased only in DIP and GMP cultures. APA increased only after the addition of the monophosphate ester GMP. The results suggest that quick responses of C. marina to P-limitation, high capacity in P storage as well as endurance for P-depletion provide this species an ecological advantage in phytoplankton community competition under DIP-limited conditions.

夏季青岛大气气溶胶中不同形态磷的浓度、来源及沉降通量

利用2016年6~7月在青岛采集的总悬浮颗粒物(TSP)样品,分析了其中不同形态磷的浓度,讨论了夏季气溶胶中总磷(TP)、溶解态磷(DP)、溶解态无机磷(DIP)和溶解态有机磷(DOP)的分布特征及来源,并估算了大气P的沉降通量.结果表明,夏季青岛大气气溶胶中TP的浓度为(49.3±30.6)ng·m^(-3),其中DP浓度为(15.5±10.4)ng·m^(-3),对TP的贡献为30.9%±11.0%.DP中以DIP占主导,其贡献平均约为60%.气溶胶中不同形态P的来源分析结果显示,夏季青岛气溶胶中P的来源复杂,受地壳源、人为源、生物质燃烧、农业施肥等多种源的共同影响.其中TP的38%来自土壤源的贡献,农业活动源和工业源的贡献分别为20%左右;DP中DIP主要受到农业活动源及燃烧源的影响,其贡献分别为51%和24%;DOP主要来源于土壤源及农业活动源,其贡献分别为41%和27%.观测期间,大气TP的干沉降通量为(51.7±31.7)μg·(m^2·d)^(-1),其中DP对TP干沉降通量的贡献为23.2%±8.2%.DP中DOP有重要贡献,约为DP干沉降通量的40%.DP的干沉降通量可支持黄海(0.5±0.3)mg·(m^2·d)^(-1)浮游植物碳的生产,对新生产力的贡献约为1%.