Early onset of a microcystin-producing cyanobacterial bloom in an agriculturally-influenced Great Lakes tributary

In late May 2016, a cyanobacterial harmful algal bloom(cHAB) was detected in the Maumee River, the largest tributary to Lake Erie, the southernmost lake of the Laurentian Great Lakes system. Testing on 31 May identified Planktothrix agardhii as the dominant cyanobacterium with cell abundance exceeding 1.7×10~9 cells/L and total microcystins(MC) reaching 19 μg/L MC-LR equivalents, a level over 10-fold higher than the 2015 revised U.S. Environmental Protection Agency(EPA) national health advisory levels for drinking water exposure to adults. Low river discharge coincident with negligible precipitation through the latter half of May coincided with an 80% decline in river turbidity that likely favored bloom formation by a low-light adapted P. agardhii population. Also contributing to the c HAB were high initial nutrient loads and an increase of the river temperature from 13℃ to 26℃ over this same period. The bloom persisted through 5 June with microcystins exceeding 22 μg/L MC-LR equivalents at the bloom peak. By 6 June, the river had returned to its muddy character following a rain event and sampling on 7 June detected only low levels of toxin(<0.6 μg/L) at public water systems located near the bloom origin. The elevated toxin production associated with this early onset bloom was without precedent for the Maumee River and an unique attribute of the c HAB was the high proportion of potentially-toxic genotypes. Whereas Planktothrix spp. is common in lotic environments, and has been previously detected in the Maumee, blooms are not commonly reported. This early onset, microcystin-producing c HAB provided a rare opportunity to glean insights into environmental factors that promote bloom development and dominance by Planktothrix in lotic environments.

Periodic Addition of Glucose Suppressed Cyanobacterial Abundance in Additive Lake Water Samples during the Entire Bloom Season

Previously, we showed that prophylactic addition of glucose to Harsha Lake water samples could inhibit cyanobacteria growth, at least for a short period of time. The current study tested cyanobacterial control with glucose for the entire Harsha Lake bloom season. Water samples (1000 ml) were collected weekly from Harsha Lake during the algal-bloom season starting June 9 and lasting until August 24, 2022. To each of two 7-liter polypropylene containers, 500 ml of Harsha Lake water was added, and the containers were placed in a controlled environment chamber. To one container labeled “Treated,” 0.15 g of glucose was added, and nothing was added to the container labeled “Control.” After that, three 25 ml samples from each container were collected and used for 16S rRNA gene sequencing each week. Then 1000 ml of Harsha Lake water was newly collected each week, with 500 ml added to each container, along with the addition of 0.15 g glucose to the “Treated” container. Sequencing data were used to examine differences in the composition of bacterial communities between Treated and Control containers. Treatment with glucose altered the microbial communities by 1) reducing taxonomic diversity, 2) largely eliminating cyanobacterial taxa, and 3) increasing the relative abundance of subsets of non-cyanobacterial taxa (such as Proteobacteria and Actinobacteriota). These effects were observed across time despite weekly inputs derived directly from Lake water. The addition of glucose to a container receiving weekly additions of Lake water suppressed the cyanobacterial populations during the entire summer bloom season. The glucose appears to stimulate the diversity of certain bacterial taxa at the expense of the cyanobacteria.

Ultra-high specific surface area activated carbon from Taihu cyanobacteria via KOH activation for enhanced methylene blue adsorption

Cyanobacteria-based activated carbon(CBAC)was successfully prepared by pyrolysis-activation of Taihu cyanobacteria.When the impregnation ratio and activated temperature were 2 and 800-C,respectively,the optimal CBACs possessed an ultra-high specific surface(2178.90 m^(2)·g^(-1))and plenty of micro-and meso-pores,as well as a high pore volume(1.01 cm^(3)·g^(-1)).Ascribed to ultra-high surface area,π-π interaction,electrostatic interaction,as well as hydrogen-bonding interactions,the CBACs displayed huge superiority in efficient dye removal.The saturated methylene blue adsorption capacity by CBACs could be as high as 1143.4 mg·g^(-1),superior to that of other reported biomass-activated carbons.The adsorption was endothermic and modeled well by the pseudo-second-order kinetic,intra-particle diffusion,and Langmuir models.This work presented the effectiveness of Taihu cyanobacteria adsorbent ascribed to its super large specific surface area and high adsorption ability.

Isolation and Characterization of Cyanobacterial Community Including a Microcystin-Producing Nostoc sp. Strain in the Nile River, Egypt

The combined use of morphological identification and phylogenetic characterization employing primers that target the 16S rDNA region led to the identification of ten isolates belonging to eight cyanobacterial genera in the Nile River. 16S-23S ITS region was amplified to confirm two isolates to be affiliated to genus Nostoc. Using MALDI-TOF/MS, we detected the production of the hepatotoxic demethylated MC-LR by one isolate that clustered together with the genus Nostoc. Protein phosphatase inhibition assay has confirmed toxicity. Our results add to the rising importance of Nostoc as a hepatotoxin-producing cyanobacterium. Furthermore, our results stress that water municipalities in the studied region need to assess the potential threat of toxic cyanobacteria that may pose to human health and economy.

Microscopic analysis on eukaryotic algae and cyanobacteria in nine seasonal lakes and ponds in Vestfjella,Dronning Maud Land,Antarctica

Antarctic continental lakes and ponds are among the most impoverished aquatic environments on earth but many of them support flourishing populations of cyanobacteria,eukaryotic algae,protozoans,and some multicellular animals.In this study,we present results of a microscopic analysis of cyanobacteria and eukaryotic algae from nine diverse types of Antarctic continental water bodies during one austral summer.The results supplement and enlarge our previous studies on the limnological characteristics of the epiglacial and supraglacial lakes and ponds in Dronning Maud Land,an area that has received little attention from limnologists.The taxon with highest frequency among the samples(n=79)was Mesotaenium cf.berggrenii,a eukaryotic Zygnematophyceae,which occurred in 82%of the samples with a maximum cell density of 68 cells·mL^(-1).The taxa with second and third highest frequency were the prokaryotes Gloeocapsopsis(60%)and Leptolyngbya(41%),followed by Chlamydomonas(34%)and Cyanothece(29%).The number of taxa varied between 7-21 among the lakes and ponds,being highest in a supraglacial lake,and lowest in an epiglacial lake.The results did not reveal any obvious correlation between the abundance of any taxa and the water chemistry,but water bodies with inorganic sediments had higher cell densities and biomasses than those without sediment.This suggests the importance of sediment in supporting biological diversity in these ultraoligotrophic lakes and ponds.

Spatio-temporal dynamics of cyanobacterial abundance and toxicity in a Mediterranean hypereutrophic lake

The Mediterranean basin is considered one of the most vulnerable areas in the world under the impacts of global warming and changes in precipitation patterns.Oubeira,a shallow and polymictic freshwater lake located in northeastern Algeria(36°50′N,08°23′E),has recently experienced a significant proliferation of harmful cyanobacteria resulting in the generation of toxins.We carried out this study in order to understand the succession patterns of dominant cyanobacteria and cyanotoxin production and the factors driving this in Oubeira Lake.A total of 26 cyanobacterial genera were identified,and among them Microcystis and Planktothrix accounted for more than 60%of the overall cell abundance.The summer/fall period was dominated by Microcystis,Planktothrix,and in lesser extend by Cylindrospermum,Cylindrospermopsis.During the fall/winter transition,Dolichospermum,Pseudanabaena,and Aphanizomenon were the dominant genera.Statistically,the bloom-forming cyanobacteria showed significant differences between months but not between stations.Intracellular microcystins(MC-LR)was detected in all collected samples(0.62-and 19.14-μg MC-LR equivalent/L),but appeared in high concentrations throughout the period of dominance of Microcystis and Planktothrix.Microcystis was more sensitive to nutrients than to temperature.Planktothrix was more dependent on temperature than on nutrients,which explains their coexistence during summer-fall period.However,both genera are positively correlated with MC-LR and would probably be the main producers of microcystins.Pseudanabaena,Dolichospermum,and Aphanizomenon co-occurred at the end of Planktothrix dominance period(December).Aphanizomenon and Pseudanabaena were correlated negatively with temperature and positively with water conductivity.Dolichospermum showed a strong positive correlation with MC-LR.Oubeira Lake,could serve as a model of how cyanobacteria blooms may develop in lakes within Mediterranean climates.

Hydrocarbon generation differences of shales composed of green algal and cyanobacteria: A case study of Mesozoic and Cenozoic saline lacustrine shales in Junggar Basin, NW China

The Mesozoic and Cenozoic strata in the Junggar basin developed two sets of shallow to semi-deep lacustrine shale, namely, the Cretaceous Qingshuihe Formation (K_(1q)) and the Paleogene Anjihaihe Formation (E_(2-3a)). Through organic petrology and scanning electron microscope (SEM) observation, it is found that the primary hydrocarbon-generating organic matter (OM) in the two sets of strata is different. The biological precursor of the E_(2-3a) OM is mainly green algae (Pediastrum), while the precursor of K_(1q) kerogen is mainly cyanobacteria (Oscillatoria). Then, the E_(2-3a) green algae-rich shale and K_(1q) cyanobacteria-rich shale were subjected to hydrous pyrolysis and kinetic analysis, respectively. The results show that the evolution modes of hydrocarbon generation of the typical shales are very different. Green algae have the characteristics of a low oil generation threshold, heavy oil quality, and no prominent oil peak, while cyanobacteria have the characteristics of late oil generation, concentrated hydrocarbon generation, and relatively light oil quality. The characteristics of oil generation can also be well reflected in the composition evolution of the crude oil components. The carbon isotope of gas, kerogen, and extracts of the E_(2-3a) green algae-rich shale are significantly heavier than the K_(1q) cyanobacteria-rich shale, which may be related to the living habits of their biological precursors, carbon source usage, photosynthesis efficiency, and carbon fixation efficiency.

锑污染物对绿藻及蓝藻的急性毒性效应

为深入了解不同价态锑的水生生态毒性及其影响因素,选用2种绿藻(羊角月牙藻、莱茵衣藻)和2种蓝藻(聚球藻、水华鱼腥藻)作为模式生物,通过测定藻细胞抑制率、叶绿素a、抗氧化酶及观察细胞微观结构,对锑(Ⅲ)和锑(Ⅴ)进行毒性影响研究。结果表明:在2 mg/L锑(Ⅲ)或锑(V)暴露72 h后,锑(Ⅲ)对微藻的抑制率最高达76.6%,而锑(Ⅴ)对微藻的最高抑制率仅为41.0%,且绿藻较蓝藻受锑胁迫更为敏感;微藻的叶绿素a合成及可溶性蛋白含量变化表现出与生长抑制类似的响应规律,相较之下蓝藻的叶绿素a合成受到的影响较绿藻小;绿藻的超氧化物歧化酶和过氧化氢酶活性变化规律呈现出低浓度促进高浓度抑制的现象,而蓝藻则不具备统一的变化规律;从亚细胞结构来看,莱茵衣藻的细胞壁、细胞核、叶绿体及其它细胞器均受到了损伤,而聚球藻主要是光合系统受损。

结合双线性网络和注意力的蓝藻图像识别方法

针对实际工程环境中采集的蓝藻图像数量不均衡、复杂光照条件影响、蓝藻图像局部区域特征捕捉不全面等问题,提出一种结合双线性网络和注意力的蓝藻图像识别方法。首先构建蓝藻图像数据集,并使用图像增强算法对数据集进行优化,再使用双线性网络充分提取蓝藻图像特征信息,同时结合卷积块注意力机制,聚焦重要的局部特征,忽视无用信息,进一步提升对无蓝藻、颗粒状蓝藻、带状蓝藻和片状蓝藻等4类不同形态蓝藻图像的分类效果。在构建的Algea-ultimate蓝藻数据集上进行实验,结果表明:相比识别效果最好的经典网络模型ResNet18,所提方法在识别准确率上提升7.29%,识别精度有明显提升。识别方法可用于太湖流域水质监测和预警平台中,提供蓝藻图像自动识别功能,为实时监测水体蓝藻形态提供智能化解决方案。

淡水硅藻水华成因与控制技术研究进展

在全球气候变暖和人类活动的共同影响下,硅藻水华爆发趋势加剧,并对水生态及供水安全产生负面影响.因此明确其形成原因并探索高效的防控技术至关重要.目前关于淡水硅藻水华已有较多研究成果,但缺少系统性整理.淡水硅藻水华爆发的关键因素为温度、光照、营养盐和流速.在原位防控方面,生态调度和扬水曝气等物理技术较为成熟,低剂量的化学药剂处理效果不佳,而生物方法的实施会受到环境条件的限制.联合使用混凝剂和助凝剂或氧化剂可以有效去除硅藻,但硅藻水华范围的扩大致使部分水厂未能及时调整工艺,影响制水效率.本文对硅藻水华的成因及防治方法进行了分析和总结,与蓝藻水华进行比较,并展望后续研究热点,对确保饮用水安全和水体污染控制与治理有着重要意义.

中国沙漠结皮蓝藻新记录属——结席藻属(Crustifilum,Coleofasciculales)及相近属的分类讨论

为进一步推进现代蓝藻分类系统单系化发展,研究对从宁夏沙坡头的土壤结皮样本中分离纯化得到CHAB7530和CHAB7535两株丝状蓝藻进行了研究。该藻株在形态学上与束鞘丝藻类(Coleofasciculus-like)和微鞘藻类(Microcoleus-like)的物种相似,基于16S rRNA基因的序列分析表明,CHAB7530和CHAB7535与帕斯结席藻(Crustifilum hispaliculae Moreira-Fernandes,Giraldo-Silva,D.Roush&Garcia-Pichel 2021)的序列相似性达99.7%—99.9%,系统发育分析表明它们与结席藻属(Crustifilum)聚集并形成支持度良好的进化分支。此外还补充了该物种的ITS二级结构数据。结合分子、形态学和生态学数据的多相方法分析表明CHAB7530和CHAB7535为帕斯结席藻(C.hispaliculae),该属种是中国新记录属种。文章还结合系统发育分析结果,对先前从Microcoleus steenstrupii复合体中独立出来的部分属(例Parifilum)进行了分类学的修改建议讨论。

南海海滩岩微生物群落结构和特定菌株对其成因机制的启示

热带—亚热带潮间带沉积物中丰富的菌—藻类微生物及其复杂的生命活动对颗粒的早期胶结过程起重要作用。本文通过16S r RNA高通量基因测序方法分析西沙群岛石屿、全富岛及海南龙湾珊瑚礁滨岸带海滩岩表生微生物群落结构,确定主导海滩岩快速胶结的共性菌株/微生物功能群。表层生长草皮海藻的全富岛海滩岩原核生物多样性最高。龙湾潮间带上部暴露时间较长的海滩岩比潮间带下部海滩岩原核生物多样性高。相对固结的石屿海滩岩原核生物多样性最低。4个取样点具有较为相似的细菌门类组成,物种丰度由大到小依次为变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes)、放线菌门(Actinobacteriota)、蓝细菌门(Cyanobacteria)、绿弯菌门(Chloroflexi)、芽单胞菌门(Gemmatimonadota)和脱硫杆菌门(Desulfobacterota)。不同点位的海滩岩形成环境中蓝细菌主要种类大体相同,其中眉藻(Calothrixsp.)是主导海滩岩早期胶结的共性钙化菌株,通过分泌胞外聚合物成为碳酸盐矿物沉淀的“热点”。群落中检出的反硝化细菌和硫酸盐还原菌表明海滩岩内部氧化还原梯度较大,表面下极浅处即存在缺氧微环境。微生物群落内强烈的光合作用、硫酸盐还原作用和反硝化作用不断提高微环境pH值,有利碳酸盐矿物在粒间孔内的成核和生长并加速颗粒胶结。

蓝藻消亡分解过程中的水质变化及营养盐释放特征

为研究蓝藻消亡分解对湖泊水质及水体营养盐的影响,从巢湖藻类水华易发区收集新鲜藻浆,在室内进行了蓝藻消亡分解实验,探讨蓝藻消亡分解过程中的水体溶解氧(DO)、总氮(TN)、总磷(TP)等理化指标的变化。研究结果表明,在蓝藻消亡分解过程中,水体DO和氧化还原电位(ORP)会在短时间内迅速下降,最低值分别达0.1 mg/L和-200 mV,使水体处于厌氧强还原状态;蓝藻中的营养盐会快速向水体中释放,导致水体氮磷浓度持续升高,使水体TN、氨氮(NH_(3)-N)、TP最大浓度分别达到初始浓度的2.15、1.18、2.60倍。在蓝藻消亡分解过程中,水体营养盐浓度与藻类生物量呈显著负相关。对蓝藻聚集区内的蓝藻开展快速有效打捞,对于遏制蓝藻污染十分必要。

基于蓝藻生物炭粒子电极的3维电化学系统对磺胺甲恶唑的降解

遵循“以废治废”理念,以机械打捞后的太湖蓝藻这一典型固废为原料,采用高温热解和酸/碱处理的方法制备了环境友好的蓝藻基生物炭,并将其作为3维电化学系统(3DES)中的粒子电极,用于高效催化氧化降解去除水中的典型抗生素磺胺甲恶唑(SMX)。经过热解及酸/碱改性后,生物炭更大的比表面积和更丰富的孔道结构提高了SMX在粒子电极表面的富集能力;而蓝藻中原有的铁、氮等元素掺杂在热解生物炭中有效提高了体系中活性氧物种的产生量,使得体系对SMX的去除率和矿化率均显著提高。在最佳制备和运行条件下(粒子电极制备条件:700℃热解和碱改性;3DES运行条件:电流600mA、溶液pH为6、粒子电极用量1.00g/L、水流速300 mL/min、电解质Na_(2)SO_(4)浓度50mmol/L),SMX在120min内去除率可达96%以上;6h后,水体总有机碳(TOC)去除率可达94%。机理研究表明,3DES中,SMX降解的间接氧化作用(占比84.32%)大于直接氧化作用(占比15.68%);间接氧化中,HO^(·)和SO_(4)^(·-)在体系中均被检出,但是,未检测出超氧自由基和单线态氧;而相较于SO_(4)^(·-),HO^(·)对SMX的降解占主导地位(间接氧化中HO占比87.31%)。在连续循环使用6次后,3DES对SMX的去除效率仍能保持在85%以上。研究结果为基于蓝藻生物炭粒子电极的3DES在水处理领域的应用提供了技术支撑和理论依据。

蓝藻泥浓度对其厌氧发酵产挥发性脂肪酸的影响

采用不同浓度蓝藻泥进行厌氧发酵产挥发性脂肪酸(VFAs)试验,发现加入蓝藻泥后乙酸占比增多,但丙酸占比下降,对其他酸影响不大;蓝藻泥浓度为20%(w/v)时产VFAs最多,达4.10 g/L;蓝藻泥浓度越高,产酸越多,pH下降越明显,蓝藻泥浓度为20%(w/v)时,pH下降2.12;发酵前后总固体(TS)、挥发性总固体(VS)和溶解性蛋白质显著下降,但溶解性碳水化合物、SCOD和氨氮浓度上升,表明产酸细菌更倾向于利用蛋白质生成VFAs.

南沙群岛珊瑚礁区黑斑鹦嘴鱼(Scarus globiceps)食性分析

鹦嘴鱼科(Scaridae)鱼类参与珊瑚礁生态系统诸多关键生态过程,在维持珊瑚礁生态系统稳定与平衡中发挥着重要作用。由于以往研究手段的限制,对鹦嘴鱼的食物来源及生态功能价值认识不足,在其功能定位方面存在较多争议。本研究选择珊瑚分布的典型区域—南沙群岛中的东门礁和南薰礁为研究海域,对该海域鹦嘴鱼优势种类黑斑鹦嘴鱼(Scarus globiceps)摄食的藻类多样性进行全面分析。通过18S rDNA和16S rDNA多基因条形码技术,分别对黑斑鹦嘴鱼肠含物的真核藻类和原核藻类DNA进行高通量测序分析。18S rDNA的测序结果发现,黑斑鹦嘴鱼类的肠含物中真核藻类以甲藻(Dinoflagellata)、红藻(Rhodophyta)、绿藻(Chlorophyta)、褐藻(Ochrophyta)为主,共计77个OTU(operational taxonomic units)。甲藻相对序列丰度和多样性较高,序列比例占真核藻类序列总数的51.42%,其中网甲藻科(Suessiaceae)OTU_5在东门礁和南薰礁的样品中均超过20%。16S rDNA测序鉴定发现肠含物含有原核藻类(蓝藻)的序列,共计21个OTU,其中以念珠藻目(Nostocales)的相对序列丰度最高,达到39.33%。本研究表明,黑斑鹦嘴鱼在摄食过程中会摄入一定量大型藻类,但微藻(甲藻)序列占据优势地位,蓝藻在肠含物中也有较高的检出率,说明需要重新考虑微藻(甲藻和蓝藻)在鹦嘴鱼食源中的重要贡献以及对珊瑚礁生态系统结构与功能的影响。

抗生素和重金属镉单一和复合污染对集胞藻PCC6803的影响

为评估抗生素和重金属对藻类生态系统的影响,本研究探讨了四环素(tetracycline,TC)/磺胺甲噁唑(sulfamethoxazole,SMX)与Cd^(2+)的4个单一处理(100 ng/L TC;100 ng/L SMX;0.001 mg/L Cd^(2+);0.5 mg/L Cd^(2+))以及4个复合处理(100 ng/L TC+0.001 mg/L Cd^(2+);100 ng/L TC+0.5 mg/L Cd^(2+);100 ng/L SMX+0.001 mg/L Cd^(2+);100 ng/L SMX+0.5 mg/L Cd^(2+))对集胞藻的生长、光合活性以及抗氧化系统的影响。结果显示,100 ng/L SMX刺激集胞藻的生长和光合活性,而用100 ng/L TC处理则无明显影响;0.001 mg/L Cd^(2+)对集胞藻的各项指标均无明显影响,但0.5 mg/L Cd^(2+)明显抑制集胞藻的生长和光合作用,破坏抗氧化系统,损伤细胞膜,刺激集胞藻分泌胞外多糖。抗生素与镉复合污染处理方面,100 ng/L TC与0.001 mg/L Cd^(2+)共存时,增强集胞藻酯酶活性、刺激分泌胞外多糖;100 ng/L SMX与0.001 mg/L Cd^(2+)共存时,促进集胞藻生长、增强光合作用和酯酶活性;100 ng/L SMX与0.5 mg/L Cd^(2+)共存时,SMX能缓解高浓度Cd^(2+)造成的氧化损伤,较单一高浓度Cd^(2+)处理组的ROS产量减少、SOD酶活降低、MDA含量降低、协同刺激集胞藻酯酶活性;而100 ng/L TC不能显著缓解高浓度Cd^(2+)对细胞的损伤。研究结果表明,低浓度四环素对细胞生长影响较小,也基本不改变Cd^(2+)对集胞藻细胞的毒性,而低浓度磺胺甲噁唑会促进细胞生长,且能够减轻Cd^(2+)对集胞藻细胞的毒性,在污染评估时需综合考虑抗生素和重金属的复合污染。

寒武系张夏组树形石中的钙化蓝细菌——以山东淄博峨庄镇后紫峪剖面为例

山东淄博峨庄镇后紫峪剖面寒武系张夏组顶部发育树形石,根据宏观露头岩性变化所反映的沉积相特征,研究区张夏组层序可以划分为三个四级亚层序。随着微生物影响树形石的形成过程的证据不断丰富,广为接受的“CCM机制引发蓝细菌鞘钙化作用”的观点正不断受到挑战。本文通过野外勘探采样、室内薄片分析相结合的方式,镜下识别刻画树形石的组构,并与现代实例进行类比进而分析其成因机制。树形石的主要组构为暗色泥晶基质、亮晶方解石胶结物和碎屑颗粒,显微镜下显示,树形石内部发育钙化蓝细菌生物化石,包括附枝菌(Epiphyton)、基座菌(Hedstroemia)、肾形菌(Renalcis),还可见孢网菌(Bacinella)、石松藻(Lithocodium)状组构。通过对研究区树形石中多种类型钙化蓝细菌和钙化蓝细菌微生物膜钙化残余物质的研究,为树形石内钙化微生物多样性做出了较为翔实的补充,明确了树形石是附枝菌等蓝细菌主导的微生物膜或微生物席钙化作用的产物,其中胞外聚合物(EPS)在树形石的发育和矿物沉淀过程中起关键作用,为树形石的“微生物影响成因”提供了一个典型实例。

聚乳酸微塑料对沉积物中蓝藻复苏的影响

为探究生物可降解聚乳酸微塑料(PLA-MPs)对沉积物蓝藻复苏的影响,构建了室内复苏实验体系,分别向淡水沉积物中加入0(对照)、0.05%、0.5%及5%(w/w)的PLA-MPs,并在15℃光照强度为40μE/(m^(2)·s)条件下培养50d.结果表明,0.5%和5%PLA-MPs处理组均显著升高了上覆水的氨氮(NH_(4)^(+)-N)和硝氮(NO_(3)^(-)-N)含量(P<0.05),实验结束时两组上覆水的NH_(4)^(+)-N含量分别是对照组的61.19、84.94倍,NO_(3)^(-)-N含量分别是对照组的5.80和17.01倍,这与沉积物中氮固定基因(nifH)、硝化基因(AOB-amoA、nxrB)的上调,反硝化基因(narG)的下调有关.同时,PLA-MPs抑制了有机磷矿化基因(phoD)的丰度,降低了沉积物中溶解氧渗透深度,促进了沉积物溶解性活性磷(SRP)的释放.随着PLA-MPs含量的增加,水柱中蓝藻门的相对丰度显著增加,分别比对照组高出12.38%、23.53%和28.54%,表明PLA-MPs促进了沉积物中蓝藻的复苏.研究结果有助于进一步识别PLA-MPs的水生态风险.

风速与太阳辐照度对蓝藻群体垂直迁移的复合影响

由于蓝藻具有伪空胞,在风浪、光照和捕食等外部环境因子作用下,经常主动或者被动发生垂直迁移,并在水面聚集形成肉眼可见的漂浮水华,直接破坏了水域景观和影响生态系统健康。尽管国内外就蓝藻群体垂直迁移的影响机制开展了广泛研究,但在野外原位精细刻画或者量化环境因子对蓝藻群体垂直迁移的科学认知仍显不足。为探究典型气象因子对蓝藻群体垂直迁移的影响,选择2022年7-9月太湖蓝藻暴发期,利用陆基高光谱近感监测仪高清视频对蓝藻群体水面漂浮进行高频昼夜连续观测,结合同步高频气象数据,科学量化典型气象因子对蓝藻群体野外原位垂直迁移的影响。结果表明:①风速和太阳辐照度与蓝藻群体漂浮发生概率呈显著负相关。②风速对蓝藻群体漂浮的影响占据主导,贡献率为66.60%,太阳辐照度的贡献率为29.92%。③蓝藻群体存在白天下沉、夜间上浮的周期性垂直迁移现象。④当水华蓝藻颗粒大量聚集形成藻团时,其垂直迁移受风和强光照的影响较小。由此可见,风速和太阳辐照度的复合作用对蓝藻水华的垂向迁移与集聚消散影响显著,研究结果深化了对蓝藻水华发生机制的科学认知并可为其预测预警与灾害防控提供理论参考。