桥弯藻科和异极藻科（硅藻门）植物中国7种新记录

对采自黑龙江省东南部兴凯湖湿地的100余号硅藻标本进行分类研究,共发现桥弯藻科、异极藻科（硅藻门）中国新记录植物5种2变种,分别为亚粗糙桥弯藻（Cymbella peraspera Krammer）、尖头弯肋藻［Cymbopleura cuspidata (Kützing) Krammer］、不显内丝藻高山变种（Encyonema obscurum var.alpina Krammer）、西里西亚内丝藻翼形变种（Encyonema silesiacum var.lata Krammer）、耳状异极藻（Gomphonema auritum Braun & Kützing）、棍棒异极藻（Gomphonema clava Reichardt）、极细异极藻［Gomphonema exilissimum (Grunow) Lange-Bertalot & Reichardt］。对其分类学特征进行了详细的描述,与同属中相似的种类进行了比较与讨论,为今后该区域的藻类研究提供了基础的资料。     

密云水库的浮游植物群落结构与密度

 1998年的调查研究显示,密云水库库区水体的浮游植物群落为硅藻(Bacillariophyta)—绿藻(Chlorophyta)型,细胞密度为358.76×104·L-1。湖泊的营养特征为浮游植物响应型。1988～1998年库区水体总氮增长48.7％,总磷增长31.2％,浮游植物细胞密度增长41.7％,库区水体已为中营养,并出现了富营养型浮游植物指示种类,例如斜生栅藻(Scenedesmus obliquus(Turp)．Kütz．),铜绿微囊藻(Microcystis aeruginosa Kütz．),湖泊色球藻(Chroococcus limneticus Lemm．)。水体向富营养化发展趋势明显。应加强水环境保护,增加密云水库流域植被覆盖度,净化、涵养水源,以保证密云水库向北京市供水的质量和数量。     

中国淡水微囊藻属常见种类的分类学讨论——以滇池为例

根据中国云南滇池藻类样品的观察结果,对中国分布的淡水微囊藻属Microcystis10个常见种的形态特征进行了描述,同时对它们的分类学进行了讨论,并整理出分类检索表。这10种微囊藻是铜绿微囊藻M.aeruginosa、放射微囊藻M.botrys、坚实微囊藻M.firma、水华微囊藻M.flos-aquae、鱼害微囊藻M.ichthyoblabe、挪氏微囊藻M.novacekii、假丝微囊藻M.pseudofilamentosa、史密斯微囊藻M.smithii、绿色微囊藻M.viridis、惠氏微囊藻M.wesenbergii。最后还讨论了中国报道的其它微囊藻种类的分类学状况。     

2008年苏州阳澄湖浮游藻类群落结构与环境因子的CCA分析

2008年1月—12月对江苏阳澄湖的浮游藻类进行了调查,分析了藻类的群落结构、物种多样性以及其与阳澄湖生态环境的相互关系。共发现藻类8门124属324种(包括变种),全年优势种为铜绿微囊藻(Microcystis aerugini-sa)、小席藻(Phorimidium tenus)、不定微囊藻(M.incerta)、密集微囊藻(M.densa)等。藻类的年平均丰度为3462.93×104cell/L,年平均生物量为8.09 mg/L。利用生物学指标对湖泊进行营养状况评价,阳澄湖属于α-中污染富营养型湖泊。CCA分析表明阳澄湖的蓝藻主要分布在夏、秋季,绿藻在夏季受到微囊藻的抑制,硅藻主要分布在春、冬季,金藻和黄藻主要分布在冬季;温度是阳澄湖藻类的首要影响因子,总氮与总磷的影响作用由入湖河道向东湖逐步减小。     

《植被制图》一书简介

由A.W.Küchler博士和I.S.Zonneveld博士合编的《植被制图》(Vegetation Mapping)一书由Kluwer学术出版社于1988年出版。该书是由H.Lieth主编的《植被科学手册》的第十卷,是目前最新的植被制图学专著。本书第一编者A.W.Küchler博士曾于1967年出版过一部同名的书。在这两部书相距的二十多年间,一方面由于遥感技术、自动制图以及地理信息系统的迅速发展,已将植被制图技术提高到了一个新的水平;另一方面由于植被是整个景观(生态系统)的重要组分和景观状况的重要指示者,人类所面临的资源与环境问题无疑都与植被科学密切相关,这也就大大促进了植被制图理论及方法的发展并使植被制图的应用向深度和广度发展。以上     

二种淡水微囊藻rDNA16S-235基因间隔区的序列测定与分析

本研究采用PCR及序列测定的方法,对我国淡水铜绿微囊藻有毒株(M8641)和另一低毒的种类惠氏微囊藻(M574)rDNA16S-23S基因间隔区进行了序列的测定和分析,结果表明:rDNA16S-23S基因间隔区可以作为一个精细且稳定的指标,用于微囊藻的分类和鉴定。并从分子水平提出了铜绿微囊藻与惠氏微囊藻在种系发生上有较近缘的关系。本文首次对微囊藻属Microcystis rDNA基因间隔区全序列作了报道,为微囊藻属的鉴定及系统学研究提供了分子基础。       

浙江薹草属（莎草科）新分类群

摘要描述及图解了浙江薹草属Carex 5新种和1新变种,它们是：灰帽薹草组sect. Mitratae Kükenth.的天目山薹草Carex tianmushanica C. Z. Zheng & X. F. Jin和拟三穗薹草C. pseudotristachya X. F. Jin & C. Z. Zheng;匏囊薹草组sect. Lageniformes (Ohwi) Nelmes的密毛薹草C. densipilosa C. Z. Zheng & X. F. Jin;菱形果薹草组sect. Rhomboidales Kükenth.的浙南薹草C. austrozhejiangensis C. Z. Zheng & X. F. Jin和朝芳薹草C. chaofangii C. Z. Zheng & X. F. Jin;疏花薹草组sect. Laxiflorae Kunth的无芒长嘴薹草C. longerostrata C. A. Mey. var. exaristata X. F. Jin & C. Z. Zheng。     

三种水华蓝藻对不同磷浓度生理响应的比较研究

本实验研究了铜绿微囊藻(Microcystis aeruginosa FACHB469)、水华鱼腥藻(Anabaena flos-aquae FACHB245)和浮游颤藻(Oscillatoria planctonicaFACHB708)对磷浓度变化的生理响应。结果表明,在缺磷条件下,A. flos-aquae对低磷环境的适应能力较强,O. planctonica其次,M. aeruginosa最差;在磷充足条件,微囊藻对磷过量吸收的能力明显高于其他两种蓝藻。三种蓝藻胞外碱性磷酸酶活性(APA)与培养基中磷浓度呈负相关性,其产生碱性磷酸酶(AP)的能力由高至低为:A. flos-aquae>O. planctonica>M. aeruginosa。磷缺陷时A. flos-aquae产生的胞外APA约是M. aeruginosa的10倍,是O. planctonica的5倍。     

生长素吲哚乙酸对铜绿微囊藻生理生化及产毒特性的影响

为了探究生长素吲哚乙酸(IAA)对产毒铜绿微囊藻(Microcystis aeruginosa)的影响, 从生长、光合色素含量、叶绿素光诱导荧光特征、脂质氧化和微囊藻毒素合成特性等方面, 研究了IAA对M. aeruginosa CHAB6301生理生化及产毒的影响。结果表明, 在低浓度IAA(0.04和0.2 mg/L)条件下, 铜绿微囊藻生长、叶绿素含量、光合系统(PSⅡ)电子传递效率及藻毒素含量均无明显变化, 藻蓝蛋白、别藻蓝蛋白和丙二醛(MDA)含量均低于对照。高浓度IAA(1和5 mg/L)能够促进细胞生长, 提高叶绿素含量, 但是抑制藻蓝蛋白和别藻蓝蛋白含量, 降低膜脂过氧化程度和细胞内藻毒素合成。综合各指标测定结果, 低浓度IAA对M. aeruginosa CHAB6301生长和光合作用影响不明显, 而高浓度IAA可促进藻细胞生长和光合作用, 增加微囊藻水华形成几率。     

有机肥配施氮肥对西北旱地冬小麦产量、品质及土壤生物学特性的影响

在西北旱地冬小麦进行有机肥和化肥配施试验,共设5个处理,有机肥(牛粪,M)施用量30 t·hm^-2,配以不同量的化学氮肥(0、75、150、225、300 kg N·hm^-2,分别用M+N₀、M+N₇₅、M+N₁₅₀、M+N₂₂₅、M+N₃₀₀表示)。试验进行3年后,连续两年(2018、2019年)测定小麦产量、品质和土壤生物学特性。结果表明: 有机肥配施氮肥小麦产量均显著高于单施有机肥的M+N₀处理;M+N₁₅₀、M+N₂₂₅和M+N₃₀₀ 3个处理产量均显著高于M+N₇₅处理,3个处理之间差异不显著。除淀粉含量外,有机肥配施氮肥小麦籽粒粗蛋白含量、湿面筋含量、沉降值、延伸性均显著高于M+N₀处理,且M+N₁₅₀、M+N₂₂₅、M+N₃₀₀处理均显著高于M+N₇₅处理,但3个处理之间差异不显著。M+N₁₅₀处理两年的土壤微生物生物量碳氮均最高,显著高于M+N₀、M+N₂₂₅、M+N₃₀₀处理。2018年M+N₁₅₀处理β-1,4-葡萄糖苷酶(βG)、纤维二糖水解酶(CBH)、L-亮氨酸氨基肽酶(LAP)、β-1,4-N-乙酰基氨基葡萄糖苷酶(NAG)、碱性磷酸酶(AKP)活性均显著高于其他处理;2019年,除L-亮氨酸氨基肽酶活性外,M+N₁₅₀处理的其他酶活性均显著高于M+N₀和M+N₂₂₅处理。相关分析显示,MBC与MBN呈极显著正相关,MBC、MBN与CBH、NAG、AKP均呈显著正相关,MBN与TN呈显著正相关、与NO₃^-呈显著负相关。综合考虑冬小麦产量、品质、土壤生物学特性等因素,M+N₁₅₀更有利于西北旱地麦田的可持续利用。     

Morphological,biochemical and phylogenetic assessments of water‐bloom‐forming tropical morphospecies of Microcystis (Chroococcales,Cyanobacteria)

Previous polyphasic analyses of five morphospecies of the water‐bloom‐forming cyanobacterial genus Microcystis, Microcystis aeruginosa (Kützing) Lemmermann (=Microcystis aeruginosa (Kützing) Kützing), Microcystis ichthyoblabe Kützing, Microcystis novacekii (Komárek) Compère, Microcystis viridis (A. Braun) Lemmermann, and Microcystis wesenbergii (Komárek) Komárek in Kondratieva, have shown them to be conspecific and they have been proposed to be included under the binomial Microcystis aeruginosa (Kützing) Lemmermann. However, several morphospecies from tropical regions, such as Microcystis bengalensis Banerji, Microcystis panniformis Komárek, Komárková‐Legnerová, Sant'anna, Azevedo & Senna, Microcystis protocystis Crow, Microcystis pseudofilamentosa Crow, Microcystis ramosa Bharadwaya, and Microcystis robusta (Clark) Nygaard, have never been analyzed biochemically or phylogenetically; consequently, their taxonomic status is uncertain. To resolve this issue, we collected 57 strains of Microcystis from Vietnam for taxonomic analysis using a polyphasic approach. Strains were assigned to the six tropical morphospecies listed above or to four morphospecies with cosmopolitan distributions (M. aeruginosa, M. ichthyoblabe, M. novacekii, and M. wesenbergii). Several strains produced colony variants in different culture media; some of these variants had forms that overlapped with those of other morphospecies. Cell diameters varied widely between strains (2.6–9.3 µm) and were unrelated to morphospecies discrimination criteria. Strains of the 10 morphospecies examined had similar fatty acid compositions and closely similar 16S rRNA gene sequences (>99.2% similar). Phylogenetic analyses using 16S rRNA gene and 16S–23S internal transcribed spacer sequences did not identify any clear separations corresponding to morphospecies concepts or microcystin‐producing abilities. Thus, the six tropical morphospecies (M. bengalensis, M. panniformis, M. protocystis, M. pseudofilamentosa, M. ramosa, and M. robusta) are not natural taxonomic units within the genus Microcystis and should be included under M. aeruginosa.     

Morphological variability of colonies of Microcystis morphospecies in culture

Serial observations were carried out on cultures of five morphospecies of the genus Microcystis Kützing ex Lemmermann 1907, Microcystis aeruginosa (Kützing) Kützing, Microcystis ichthyoblabe Kützing, Microcystis novacekii (Komárek) Compére, Microcystis viridis (A. Brown) Lemmermann, and Microcystis wesenbergii (Komárek) Komárek in Kondratieva. Many strains maintained colony forms characteristic of their morphospecies, and others showed morphological variations, some of which were characteristic of other morphospecies. M. novacekii displayed several morphotypes including some characteristics of M. aeruginosa and M. ichthyoblabe. M. wesenbergii also showed great morphological variability and showed morphotypes characteristic of M. aeruginosa. Distinction among these morphospecies, therefore, seemed to be obscure or impossible. We conclude that the current classification of the genus Microcystis, chiefly based on morphological characteristics, is no longer valid and must be reviewed in light of our observations that one strain may have various colony forms.     

MEASUREMENT OF IN SITU SPECIFIC GROWTH RATES OF MICROCYSTIS (CYANOBACTERIA) FROM THE FREQUENCY OF DIVIDING CELLS1

Diel changes in the frequency of dividing cells (FDC) of three Microcystis species were investigated in a small eutrophic pond from July to October 2005. The representative species was M. aeruginosa (Kütz.) Kütz., constituting 57%–86% of the Microcystis population throughout the study period, and the remainder were M. viridis (A. Braun) Lemmerm. and M. wesenbergii (Komárek) Komárek. The FDC of M. aeruginosa and M. wesenbergii increased in the daytime and fell in the nighttime in July and August, but this regular variation was not observed in September or October. The in situ specific growth rates of Microcystis species were estimated based on the assumption that the specific growth rate can be given as an absolute value of the derivative of FDC with respect to time. The calculated values were similar among species—0.15–0.38 · d^?1 for M. aeruginosa, 0.14–0.63 · d^?1 for M. viridis, and 0.18–0.61 · d^?1 for M. wesenbergii. The specific growth rates in July and August slightly exceeded those in September and October. The analysis of the in situ specific growth rate of Microcystis indicated that recruitment of the benthic population or morphological change, rather than massive growth, was at least partly responsible for the dominance of M. aeruginosa in the study pond.     

GENETIC ADAPTATION AND ACCLIMATION OF PHYTOPLANKTON ALONG A STRESS GRADIENT IN THE EXTREME WATERS OF THE AGRIO RIVER–CAVIAHUE LAKE (ARGENTINA)1

We tested if different adaptation strategies were linked to a stress gradient in phytoplankton cells. For this purpose, we studied the adaptation and acclimation of Dictyosphaerium chlorelloides (Naumann) Komárek et Perman (Chlorophyta) and Microcystis aeruginosa (Kütz.) Kütz. (Cyanobacteria) to different water samples (from extremely acid, metal‐rich water to moderate stressful conditions) of the Agrio River–Caviahue Lake system (Neuquén, Argentina). Both experimental strains were isolated from pristine, slightly alkaline waters. To distinguish between physiological acclimation and genetic adaptation (an adaptive evolution event), a modified Luria‐Delbrück fluctuation analysis was carried out with both species by using as selective agent sample waters from different points along the stress gradient. M. aeruginosa did not acclimate to any of the waters tested from different points along the stress gradient nor did D. chlorelloides to the two most acidic and metal‐rich waters. However, D. chlorelloides proliferated by rapid genetic adaptation, as the consequence of a single mutation (5.4 × 10^?7 resistant mutants per cell per division) at one locus, in less extreme water and also by acclimation in the least extreme water. It is hypothesized that the stress gradient resulted in different strategies of adaptation in phytoplankton cells from nonextreme waters. Thus, very extreme conditions were lethal for both organisms, but as stressful conditions decreased, adaptation of D. chlorelloides cells was possible by the selection of resistant mutants, and in less extreme conditions, by acclimation.     

Spatio‐temporal distribution of phytoplankton in four coastal rivers of southeastern of Ivory Coast (Soumié, Eholié, Ehania and Noé)

Spatio‐temporal dynamics of phytoplankton and their relation to abiotic environmental factors in four rivers of south‐eastern Ivory Coast (Soumié, Eholié, Ehania and Noé) was analysed from July 2003 to March 2005. The pelagic zone of each river was sampled upstream and downstream. Phytoplankton abundance was higher in Noé River (154.3 10⁴ cells l^?1) and lower in Eholié river (23.05 10⁴ cells l^?1). Dominant taxa were Microcystis aeruginosa (Kütz.) Lemmerm. and Aphanocapsa incerta (Lemmerm.) Cronberg & Komárek. In general, minimum densities of phytoplankton were observed during the rainy season, while maximum were observed in dry season in the whole stations of the rivers studied, such periods corresponding to low and high concentrations of nitrates. Among the rivers surveyed, Eholié river seems to be the least disturbed because of its higher species diversity. Seasonality fluctuations of algae abundance appear to be influenced by the flow of water and nitrate levels. This work is a useful starting point for future research on micro algae in Ivory Coast.     

cpcBA-IGS as an effective marker to characterize Microcystis wesenbergii (Komárek) Komárek in Kondrateva (cyanobacteria)

Microcystis wesenbergii (Komárek) Komárek in Kondrateva, a major bloom forming cyanobacterial species, possesses unique colonial characteristics which can be easily distinguished from other Microcystis species. However, there is still no genetic marker to effectively characterize M. wesenbergii. In this research, thirteen strains of M. wesenbergii, collected from eight locations in Chinese water bodies were examined for molecular characterization of both cpcBA-IGS sequences (phycocyanin intergenic spacer and flanking regions) and ITS sequences (internal transcribed spacer region between 16S and 23S rDNA). The phylogenetic analysis based on cpcBA-IGS sequences showed that the M. wesenbergii strains formed a distinct cluster with high support values, indicating the cpcBA-IGS region could be used to characterize and distinguish M. wesenbergii from other species of Microcystis. These developed primers were verified to be effective in distinguishing M. wesenbergii from other species of Microcystis and from other species in different genera of cyanobacteria.     

Bioaccumulation of Microcystins in Lettuce

The contamination of lettuce (Lactuca sativa L.) by water‐borne crude extracts of the cyanobacterium microcystin‐producing Microcystis aeruginosa (Kützing) Kützing was investigated. The aim of the study was to determine whether bioaccumulation of microcystins occurs in lettuce foliar tissue when sprayed with solutions containing microcystins at concentrations observed in aquatic systems (0.62 to 12.5 μg · L^?1). Microcystins were found in lettuce foliar tissues (8.31 to 177.8 μg per Kg of fresh weight) at all concentrations of crude extracts. Spraying with water containing microcystins and cyanobacteria may contaminate lettuce at levels higher than the daily intake of microcystins recommended by the World Health Organization (WHO), underscoring the need to monitor such food exposure pathways by public authorities.     

POLYPHASIC CHARACTERIZATION OF DOLICHOSPERMUM SPP. AND SPHAEROSPERMOPSIS SPP. (NOSTOCALES,CYANOBACTERIA): MORPHOLOGY, 16S rRNA GENE SEQUENCES AND FATTY ACID AND SECONDARY METABOLITE PROFILES1

The genera Dolichospermum (Ralfs ex Bornet et Flahault) Wacklin, L. Hoffm. et Komárek and Sphaerospermopsis Zapomělová, Jezberová, Hrouzek, Hisem, K. ?eháková et Komárk.‐Legn. represent a highly diversified group of planktonic cyanobacteria that have been recently separated from the traditional genus Anabaena Bory ex Bornet et Flahault. In this study, morphological diversity, phylogeny of the 16S rRNA gene, production of fatty acids, and secondary metabolite profiles were evaluated in 33 strains of 14 morphospecies isolated from the Czech Republic. Clustering of the strains based on 16S rRNA gene sequences corresponded to wider groups of species in terms of morphology. The overall secondary metabolite and fatty acid profiles, however, were not correlated to each other and neither were they correlated to the 16S rRNA phylogeny nor the morphology of the strains. Nevertheless, a minor part of the detected secondary metabolites (19% of all compounds) was present only in close relatives and can be thus considered as autapomorphic features.     

Spatial and temporal dynamics of the steady-state phytoplankton assemblages in a temperate shallow hypertrophic lake (Lake Manyas,Turkey)

Spatial and temporal dynamics of phytoplankton biomass and species composition in the shallow hypertrophic Lake Manyas, Turkey, were studied biweekly from January 2003 to December 2004 to determine steady-state phases in phytoplankton assemblages. Steady-state phases were defined when one, two or three coexisting species contributed to at least 80% of the standing biomass for at least 2 weeks and during that time the total biomass did not change significantly. Ten steady-state phases were identified throughout the study peiod. During those periods, Achnanthes microcephala (Kützing) Cleve twice dominated the phytoplankton biomass alone and contributed to more than 50% of the total biomass in seven phases. Microcystis aeruginosa (Kützing) Kützing, Anabaena spiroides Klebahn, Cyclotella stylorum Brightwell, Pediastrum boryanum (Turpin) Meneghini and Phacus pusillus Lemmermann were also represented once in steady-state phytoplankton assemblages. A. microcephala was dominant usually during cold periods of the year, while M. aeruginosa and A. spiroides were usually dominant in warm seasons. The total number of species showed a clear decrease during steady-state phases at all stations. All stations were significantly different in terms of the measured physical and chemical parameters (P < 0.05) and phytoplankton biomass (F = 117, P < 0.05).     

Active release of microcystins controlled by an endogenous rhythm in the cyanobacterium Microcystis aeruginosa

The active release of microcystins in cyanobacterium Microcystis aeruginosa (Kützing) Kützing, strain BCCUSP232 was confirmed. The microcystin release is controlled by an endogenous rhythm, pointing to a biosynthetic pattern of toxins in cyanobacteria. Proofing tests for this active release were carried out by experiments at two independent 24 h cycles, light : dark and continuous light (12:12 h) along the exponential growing phase. Cultivation samples at light, temperature and photoperiod controlled conditions were collected in 2‐h intervals. Microcystin concentrations from the pellet aliquots (intracellular microcystin per cell‐quota –IMC) and supernatant (extracellular microcystin per equivalent cell‐quota – EMC) were quantified with enzyme linked immunosorbent assay. The IMC concentrations showed increases and decreases in both cycles. Decreases of IMC clearly demonstrate that the toxin was actively released to the surrounding medium and not by cell lysis. The total microcystins concentrations (IMC and EMC) between the light : dark and continuous light cycles presented similar variations between the same hours.