The genus Pseudo-nitzschia (Bacillariophyceae) in New Zealand: analysis of the last decade's monitoring data     

L Rhodes  W Jiang  B Knight  J Adamson  K Smith  V Langi 《新西兰海洋与淡水研究杂志》2013,47(4):490-503

The diatom genus Pseudo-nitzschia blooms throughout New Zealand's coastal waters. More than a decade of monitoring data were analysed in this study and seasonality was a significant factor in the appearance of Pseudo-nitzschia blooms. Austral spring and summer were the main bloom periods, although there were regional differences. Between January 2000 and August 2011, 8.4% of 29,000 seawater samples analysed for Pseudo-nitzschia exceeded the voluntary trigger level for biotoxin testing (10×10⁴ cells l^?1), and these were analysed by fluorescent in situ hybridisation (FISH) assays. Pseudo-nitzschia fraudulenta and P. pseudodelicatissima (low domoic acid [DA] producers) were the dominant bloom formers throughout New Zealand (each contributing 25%) followed by the highly toxic P. australis (10%). Shellfish flesh testing for DA was triggered on 8477 occasions between 2000 and 2011, but no samples exceeded the regulatory limit (20 mg/kg); the maximum concentration was 13 mg/kg (Marlborough Sounds, mid-winter 2010).  相似文献   

Optical detection of Prorocentrum donghaiense blooms based on multispectral reflectance     

TAO Bangyi  PAN Delu  MAO Zhihu  SHEN Yuzhang  ZHU Qiankun  CHEN Jianyu 《海洋学报(英文版)》2013,32(10):48-56

Prorocentrum donghaiense is one of the most common red tide causative dinoflagellates in the Changjiang （Yangtze） River Estuary and the adjacent area of the East China Sea. It causes large-scale blooms in late spring and early summer that lead to widespread ecologic and economic damage. A means for distinguish- ing dinoflagellate blooms from diatom （Skeletonema costatum） blooms is desired. On the basis of measure- ments of remote sensing refectance [Rrs（λ）] and inherent optical parameters, the potential of using a mul- tispectral approach is assessed for discriminating the algal blooms due to P. donghaiense from those due to S. costatum. The behavior of two reflectance ratios [R1 = Rrs（560）/Rrs（532） and Re = Rrs（708）/Rrs（665）], suggests that differentiation of P. donghaiense blooms from diatom bloom types is possible from the current band setup of ocean color sensors. It is found that there are two reflectance ratio regimes that indicate a bloom is dominated by P. donghaiense; （1） R1 〉 1.55 and R2 〈 1.0 or （2） R1 〉 1.75 and R2 ≥ 1.0. Various sensitivity analyses are conducted to investigate the effects of the variation in varying levels of chlorophyll concentration and colored dissolved organic matter （CDOM） as well as changes in the backscattering ratio （bbp/bp） on the efficacy of this muitispectral approach. Results indicate that the intensity and inherent op- tical properties of the algal species explain much of the behavior of the two ratios. Although backscattering influences the amplitude of Rrs（λ）, especially in the 530 and 560 nm bands, the discrimination between P. donghaiense and diatoms is not significantly affected by the variation of bbp/bp. Since aCDOM （440） in coastal areas of the ECS is typically lower than 1.0 m-1 in most situations, the presence of CDOM does not interfere with this discrimination, even as SCDOM varies from 0.01 to 0.026 nm-1. Despite all of these effects, the dis- crimination of P. donghaiense blooms from diatom blooms based on multispectral measurements of Rrs（λ） is feasible.  相似文献   

太湖藻源溶解性有机质光化学降解研究   总被引：5，自引：2，他引：3  

孙伟  巩小丽  陈煜  郑建伟  李琪  杜瑛珣 《湖泊科学》2018,30(1):91-101

蓝藻水华暴发过程会产生大量的溶解性有机质——藻源溶解性有机质(A-DOM);A-DOM的光化学降解影响其迁移转化和在湖泊中的功能.本研究从太湖藻华中提取A-DOM,利用三维荧光光谱-平行因子分析法(EEMsPARAFAC),研究A-DOM中各组分的光化学降解;再研究不同光照强度、溶解氧浓度、A-DOM浓度、波长对A-DOM的降解的影响.结果显示,A-DOM中含有4种EEMs-PARAFAC组分:C1(UVC类腐殖质)、C2(UVA类腐殖质)、C3(类色氨酸)和C4(类络氨酸),对总荧光强度的贡献比例分别为22.2%、8.6%、68.1%和1.1%.当DOC初始浓度为10 mg/L、反应温度为28℃、pH=8.0时,经500 W汞灯(391.7 W/m~2)光照12 h,A-DOM的总光化学降解率(以a_(355)计)为70.4%;荧光组分C1、C2和C3的降解率分别为96.1%、85.4%和99.2%,三者的光反应性为C3C1C2.条件控制实验显示溶解氧的增加和光强的增强均有助于A-DOM的降解;A-DOM光化学降解主要发生在紫外区,可见光不能使C1和C2得到降解.结果表明A-DOM的光化学降解速度较快,且能通过控制光强、照射光波长和引入溶解氧等条件控制降解速度.实验结果可为湖泊蓝藻水华暴发时的应急处理和保障饮用水安全提供理论依据.  相似文献   

Association between trophic state,watershed use,and blooms of cyanobacteria in south-central Chile     

《Limnologica》2019

An increase in the distribution and frequency of cyanobacterial blooms has been reported for many regions worldwide. Due to this fact, we studied the variables that influence the abundance of natural populations of planktonic cyanobacteria in temperate lakes of central and southern Chile. These lakes differed in trophic state and watershed use. Cyanobacteria dominated in meso- and eutrophic systems and their occurrence correlated to watershed use (tree plantations and urban). Ochrophyta and Bacillariophyta were dominant in oligotrophic lakes, where native forest dominated land usage. In these lakes, the maximum depth of the euphotic zone influenced the community structure and the genera of cyanobacteria. Dolichospermum was the most abundant, frequent, and widely distributed genus, found in oligotrophic and eutrophic lakes, forming blooms in eutrophic systems.The concentration of total phosphorus and total nitrogen positively influenced cyanobacterial abundance and bloom formation, mainly by Aphanizomenon, Aphanocapsa, Aphanothece, and Dolichospermum, and Microcystis.In contrast to many reports on their occurrence in the northern hemisphere, these genera occurred widely at less than 20 °C, forming dispersive blooms, at low temperatures in autumn and winter (10.8–15.6 °C). This shows that eutrophication is the main factor for bloom formation and these genera can form blooms independent of temperature. However, some genera, such as Microcystis, increased their abundance and presented more intense blooms (scums) at high temperatures. Our study provides baseline data to document long-term changes in lentic systems of the western south-central area of South America, including genera that could respond by increasing their abundance with eutrophication and projected climatic changes.  相似文献   

基于视频监控图像的环巢湖蓝藻实时动态监测     

马腾耀  肖鹏峰  张学良  段洪涛  邱银国 《湖泊科学》2022,34(6):1840-1853

蓝藻的防控与治理是湖泊水环境、水生态管理的重要内容,实时获取蓝藻的空间分布信息对于降低蓝藻灾害风险具有重要意义.针对地面调查费时费力、卫星遥感监测粒度较粗且时效性不强等问题,本文提出了一种基于视频监控网络的湖泊蓝藻实时监测技术.基于环巢湖视频监控网络的33个功能摄像机,研究如何从视频图像中实时、准确提取蓝藻的分布信息.为克服不同摄像头的观测角度不一致、光照强度和背景条件不一致等诸多挑战,在视频图像蓝藻表征分析的基础上,通过多尺度深度网络进行图像粗粒度分类,区分蓝藻与浑浊、阴影水体;基于随机森林进行蓝藻精细化识别,克服蓝藻的强异质性.最后以渔政站沿岸水域的日均蓝藻覆盖率和月均蓝藻覆盖率为统计单位,开展了巢湖沿岸蓝藻的动态监测.研究成果可为科学制定蓝藻治理方案提供技术支撑.  相似文献   

太湖和巢湖中微囊藻(Microcystis)与长孢藻(Dolichospermum)的长时序变化及其驱动因子     

张民  史小丽  阳振  陈开宁 《湖泊科学》2021,33(4):1051-1061

随着我国湖泊治理力度的加大,太湖和巢湖的营养盐水平,特别是氮水平近年来明显下降,如2007年以后太湖总氮和近年来巢湖的氨氮水平都呈现下降趋势,但是2个湖泊水华蓝藻的优势种却向相反的方向演化,太湖的长孢藻(Dolichospermum)比例在增加,而巢湖的长孢藻比例却在降低,为阐明这种变化过程和驱动因素,本研究利用太湖(19932015年)和巢湖(2012 2018年)的历史数据分析了2个湖泊中的水华蓝藻——微囊藻(Microcystis)和长孢藻生物量的历史变化过程,并结合营养盐数据分析了影响2种水华蓝藻变动的驱动因素.结果显示:太湖和巢湖的微囊藻生物量多年来始终保持高位波动,近年来均有升高的趋势,这与2个湖泊磷的高位波动具有明显的相关性,磷是决定微囊藻生物量长尺度变化的主要驱动因素;太湖的长孢藻生物量呈现较大波动变化,2007年以后明显升高,巢湖的长孢藻生物量则明显下降,氮与长孢藻生物量呈现负相关关系,而且这种负相关仅在低磷浓度时具有显著性.微囊藻生物量对磷浓度变化敏感的正反馈响应是其水华形成的重要机制之一,在高温高磷条件下,微囊藻可以快速繁殖,并竞争性排除长孢藻,从而形成优势;而长孢藻可以通过温度生态位和固氮两种方式占据优势,在氮浓度相对较低,且温度低于微囊藻形成水华的温度范围时,长孢藻可以依靠温度生态位的优势形成水华,而在氮限制的条件下,即使在夏季高温时,长孢藻依然可以利用固氮作用形成水华,但是关键的温度阈值和开始固氮的氮浓度阈值仍不清楚.基于2种水华蓝藻对营养盐变化响应的差异,建议在进行蓝藻水华治理、污染削减过程中,应针对不同水华蓝藻的特性进行分时段分类别的营养盐控制策略.  相似文献   

Evidence for toxic cyanobacteria in sediments and the water-sediment interface of a tropical drinking water reservoir     

《Limnologica》2021

Cyanobacterial blooms in drinking water reservoirs constitute a health risk for humans and animals, especially in tropical zones where climate conditions may favour their prevalence throughout the year. The presence, viability, and toxicity of cyanobacteria were determined in the euphotic zone, in the water-sediment interface, and in the upper sediment fraction of the Riogrande II reservoir (Antioquia, Colombia), which provides drinking water for 1.4 million people. Cyanobacterial identification and quantification were performed in environmental samples of the euphotic zone and of the sediment-water interface. In addition, the effects of environmental parameters on occurrences of cyanobacteria were assessed and two microcystin synthetase (mcy) genes were extracted from water, interface, and sediment samples and quantified using qPCR. The viability of the cells in cultures from these different matrices was determined using chlorophyll-a measurements. Chlorophyll-a concentrations representing the biomass of cyanobacteria were higher at the interface than in the euphotic zone at all sampling sites. The potentially toxic genera Dolichospermum and Microcystis predominated in the euphotic zone and the interface, respectively. Moreover, the copy numbers of mcy genes was higher in cyanobacteria sampled at the interface and the upper sediment layers than in cyanobacteria sampled in the euphotic zone, which were correlated with the order Chroococcales. No impact of variation in environmental conditions on cyanobacterial abundance was observed. Viability of cyanobacterial cultures sampled from the interface and the upper sediment fraction showed the ability of cyanobacteria from several orders to proliferate under lab conditions. These results show that the surface sediment layer from Riogrande II serves as a sink for potentially toxic cyanobacteria which have the potential to recolonize and bloom in the water column.  相似文献   

Recent moon jelly (Aurelia sp.1) blooms in Korean coastal waters suggest global expansion: examples inferred from mitochondrial COI and nuclear ITS-5.8S rDNA sequences     

Ki  Jang-Seu; Hwang  Dae-Sik; Shin  Kyoungsoon; Yoon  Won Duk; Lim  Donghyun; Kang  Young Shil; Lee  Yoon; Lee  Jae-Seong 《ICES Journal of Marine Science》2008,65(3):443-452

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How many seasons are there in a sub-tropical lake? A multivariate statistical approach to determine seasonality and its application to phytoplankton dynamics     

《Limnologica》2016

Seasonal patterns in factors that affect primary producers are an important part of defining the structure and function of aquatic ecosystems. However, defining seasonality is often more difficult in aquatic than in terrestrial ecosystems, particularly in subtropical and tropical environments. In this study, a long-term data set for a shallow subtropical lake (Lake George, Florida, USA) was used to investigate seasonality using a range of physical, chemical and hydrological parameters. K-means cluster analysis of monthly averages among 11 selected environmental factors across 18 years suggested the overall annual pattern consists of three different seasonal clusters: a cold season (January–April), a warm season (May–August) and a flushing season (September–December). High dissolved oxygen and increased Secchi depth are key features of the cold season, while the warm season is characterized by high mean light irradiances, temperature, rainfalls, total nitrogen and phytoplankton biomass (as chlorophyll a level). The flushing season is characterized by high river discharge rates and high levels of dissolved nutrients and colored organic matter. Multiple response permutation procedures indicated that these seasonal cluster arrangements were significantly different than randomly permuted clusters (A-statistics = 0.3314, significance of delta = 0.0160, based on 1000 permutations). Results from principal component analyses supported the presence of the three seasons in the lake. Linear models explaining chlorophyll a levels using the 3-season system generally indicated better ratios of explained variance compared to the models without seasonal alignments, further indicating that even for sub-tropical systems defining seasons provides a better understanding of phytoplankton dynamics. The approaches used in this study provide statistically-based multivariate tools for the definition of seasonality in aquatic ecosystems. The ability to accurately define seasons is a key step in modeling the structure and dynamics of aquatic ecosystem, which is essential to the development of effective management strategies in a rapidly changing world.  相似文献   

Laboratory analysis of the effects of elevated atmospheric carbon dioxide on respiration in biological soil crusts     

《Journal of Arid Environments》2013

Metabolic activity of Biological Soil Crusts (BSCs) is principally dependent on moisture availability, but also on temperature and light conditions. Less understood is how BSCs respond to elevated atmospheric CO₂. This paper reports laboratory experimental results of elevated atmospheric CO₂ on carbon fluxes for cyanobacterial BSCs. The study uses newly designed dynamic gas exchange chambers in which the internal atmosphere was controlled. CO₂ flux was monitored during controlled experiments in two phases under simulated rainfall events (2 & 5 mm plus control with no wetting) each lasting 3 days with a dry period in between. Phase 1 subjected crusts to 392 ppm CO₂ (representing ambient level) in dry air; in phase 2, the CO₂ concentration was 801 ppm. Both phases exhibited significant efflux (respiration) of CO₂ immediately after wetting, followed by substantial influx (sequestration) of CO₂. Samples subject to 2 mm wetting sequestered an order of magnitude more C under elevated CO₂ than at ambient CO₂; for samples subject to 5 mm wetting, this increase was threefold. The findings highlight the role of BSCs in future carbon budgets by enabling greater sequestration into dryland soils even under enhanced atmospheric CO₂ concentrations, following both light and heavy rainfall events.  相似文献