有机改性粘土去除有害赤潮藻的研究

本研究以阳离子表面活性剂十六烷基三甲基溴化铵为改性材料,通过粘土颗粒的表面吸附及离子交换作用对粘土进行了表面改性,并以常见于我国沿海的有害赤潮生物种-东海原甲藻(Prorocentrum donghaiense)为目标生物,研究了有机粘土对该藻的去除效果．结果表明,改性后的粘土具有极强的去除赤潮生物能力,当有机粘土的用量为0．01g·L-1时,在24h内东海原甲藻的去除率大于95％。而未经改性处理的原土在相同用量下没有表现出对东海原甲藻的有效去除作用,这表明通过有机改性能显著增强粘土的除藻能力．对有机粘土高效去除机理分析表明。有机粘土表面静电作用、季铵盐离子亲脂性长脂肪链的“网捕”作用及粘土颗粒表面局部高浓度季铵盐离子的灭杀作用是有机粘土具有强去除藻细胞能力的主要原因．     

不同起始密度对3种赤潮微藻种间竞争的影响

通过共培养的方法,研究了不同起始密度对赤潮异弯藻和中肋骨条藻、塔玛亚历山大藻和赤潮异弯藻、塔玛亚历山大藻和中肋骨条藻之间种间竞争的影响。结果表明1赤潮异弯藻对中肋骨条藻的生长有一定的抑制作用,随着初始接种时赤潮异弯藻细胞密度的提高,这种抑制作用愈加明显。2塔玛亚历山大藻和中肋骨条藻与塔玛亚历山大藻和赤潮异弯藻之间的种间竞争结果相类似,即起始密度比例为A∶S(H)=1∶4时,中肋骨条藻和赤潮异弯藻分别在竞争中占优势;当起始密度比例为A∶S(H)=1∶1和A∶S(H)=4∶1,塔玛亚历山大藻在竞争中占优势。     

3种海洋赤潮微藻蛋白质和核酸合成对UV-B辐射增强的响应

应用同位素标志法, 研究了赤潮异弯藻 (Heterosigmaakashiwo) 、亚历山大藻 (Alexandriumtamarense ) 和中肋骨条藻 (Skeletonemacostatum) 核酸和蛋白质合成对紫外线B波段 (UV_B, 2 80~ 32 0nm) 辐射增强的响应变化。结果表明 :1) 按照由高到低的顺序, 3种海洋赤潮微藻对UV_B辐射增强的敏感性依次是赤潮异弯藻、亚历山大藻和中肋骨条藻。 2 ) UV_B辐射增强抑制赤潮异弯藻的生长和脱氧核糖核酸 (DNA) 的合成, 而低剂量的UV_B辐射对中肋骨条藻和亚历山大藻的生长与DNA的合成表现出刺激作用, 高剂量则表现出抑制作用。 3) 随着UV_B辐射的增强, 3种海洋赤潮微藻核糖核酸 (RNA) 和蛋白质的合成速度下降, 其中赤潮异弯藻合成速度的下降幅度明显大于中肋骨条藻和亚历山大藻, 表明赤潮异弯藻RNA和蛋白质的合成对UV_B辐射增强的敏感性高于中肋骨条藻和亚历山大藻。     

小珊瑚藻对赤潮异弯藻的化感效应

研究了不同浓度的小珊瑚藻组织4种不同极性有机溶剂(甲醇、丙酮、乙醚、氯仿)提取物对赤潮异弯藻的生长抑制作用.结果表明：小珊瑚藻组织甲醇提取物对赤潮异弯藻的生长抑制活性最强,并且在较高浓度下能使赤潮异弯藻完全死亡,其他3种有机溶剂提取物对赤潮异弯藻的生长无明显影响.表明小珊瑚藻组织中含有的对赤潮异弯藻有抑制作用的活性物质具有较高的极性.对小珊瑚藻的甲醇提取物进行液液萃取,将其分离为石油醚相、乙酸乙酯相、正丁醇相和蒸馏水相, 并对赤潮异弯藻进行生物活性检测.结果发现石油醚相和乙酸乙酯相具有较强的杀藻活性,表明脂肪酸可能是小珊瑚藻组织内抑制赤潮异弯藻生长的化感物质的重要组成成分之一.     

小珊瑚藻对赤潮异弯藻的克生效应及其 对UV-B辐射增强的响应

通过共培养方法,以细胞密度为主要测定指标,研究了小珊瑚藻对赤潮异弯藻的克生效应及其对UV-B辐射增强的响应.结果表明：小珊瑚藻的新鲜组织和水溶性抽提液对赤潮异弯藻的生长表现出显著的抑制作用(P＜0.05),说明小珊瑚藻对赤潮异弯藻具有克生效应;而小珊瑚藻干粉末和培养水过滤液对赤潮异弯藻生长则无明显影响(P>0.05).将小珊瑚藻用不同剂量的UV-B辐射预处理后,再与赤潮异弯藻共培养,除培养水过滤液外,其新鲜组织、干粉末和水溶性抽提液对赤潮异弯藻生长的作用效果均有所改变,高剂量(3.0 J·m^-2)UV-B辐射使小珊瑚藻对赤潮异弯藻的抑制作用减弱(P＜0.05),而低剂量(0.9 J·m^-2) UV-B辐射则使抑制作用增强(P＜0.05).     

强壮前沟藻化感物质分析

微藻化感作用是一种极其复杂的生理、生态学现象。选取强壮前沟藻指数生长初期Ⅰ和平台生长初期Ⅱ两个阶段的滤液对中肋骨条藻、海洋原甲藻、锥状斯氏藻及球等鞭金藻生长的影响进行了研究,并萃取了阶段Ⅱ的粗提物,抑藻检测表明其具有"杀藻"效应,通过GC/MS分析该粗提物中具有潜在化感作用的物质种类。研究发现强壮前沟藻两个生长阶段的滤液对中肋骨条藻均产生强烈致死效应(phaseⅠ:F=15.18475,P=0.00298<0.05;phaseⅡ:F=6.24559,P=0.03149<0.05);锥状斯氏藻在强壮前沟藻滤液中生长,实验结束时两个阶段中的细胞密度分别是对照组的79.3%和68.9%;海洋原甲藻在强壮前沟藻生长阶段Ⅱ滤液实验的最后3d,其生长受到显著抑制(F=4.84438,P=0.04925<0.05);而等鞭金藻在强壮前沟藻两个生长阶段滤液中被抑制现象不明显(P>0.05)。强壮前沟藻滤液实验表明,强壮前沟藻能够向微环境中分泌代谢产物来抑制中肋骨条藻和海洋原甲藻的生长,并且这种抑制效应具有种类特殊对应性。上述实验结果还表明,强壮前沟藻生长阶段Ⅱ的滤液具有的生长抑制作用较为明显。采用乙酸乙酯萃取强壮前沟藻生长阶段Ⅱ滤液中的代谢产物,检测发现其代谢粗提物具有溶藻效应,GC/MS分析结果表明粗提物中存在4种可能产生化感抑制作用的物质,其中二丁基羟基甲苯(Butylated Hydroxytoluene BHT)被认为具有抗滤过性病原体和抗微生物活性。     

缘管浒苔对赤潮异弯藻的克生效应

利用共存培养系统研究了缘管浒苔(E nterom orpha linza)新鲜组织和干粉末对赤潮异弯藻(H eterosigm a akash iw o)生长的克生效应。共存实验结果表明,缘管浒苔新鲜组织和干粉末对赤潮异弯藻生长均有强烈的克生效应。同时,研究了缘管浒苔培养水过滤液对赤潮异弯藻的克生作用。赤潮异弯藻在缘管浒苔培养水过滤液的半连续添加方式下生长受到明显的克制作用,但在一次性培养方式下生长未受到明显的抑制作用,说明克生物质的连续分泌是有效克制赤潮异弯藻生长的关键;煮沸的大藻培养水过滤液对微藻的生长无抑制作用,表明克生物质在高温下不稳定和易分解。     

厚游仆虫(Euplotes crassus)对有毒赤潮藻的清除效应研究

原生动物是水生食物网中主要的植食性生物, 在自然水体中能够有效控制浮游植物的生物量, 具有预防及延缓赤潮发生的潜在应用价值。在福建沿岸分离筛选出一种常见的原生动物—厚游仆虫(Euplotes crassus), 通过研究其对三种常见有毒赤潮藻类的毒素耐受性、抑藻率及自身在赤潮压力下的生长速率, 评测厚游仆虫对常见有毒赤潮藻类的抑制作用, 挖掘其作为控藻生物的应用潜力。将厚游仆虫分别接种于不同浓度的剧毒卡尔藻(Karlodinium veneficum)、赤潮异弯藻(Heterosigma akashiwo)及米氏凯伦藻(Karenia mikimotoi)中, 在温度20 ℃、光照度100 μmol·M–2 ·s–1和光暗比12 h: 12 h 的条件下进行共培养。结果显示, 厚游仆虫对剧毒卡尔藻和赤潮异弯藻具有明显的抑制作用, 持续抑藻时间可达72 h以上, 且未见藻细胞数量的明显反弹, 而对于米氏凯伦藻则没有明显的抑制能力。说明厚游仆虫在一定条件下可作为一种有效可行的控藻生物, 但其对赤潮藻类的抑制作用具有一定的种类特异性。结果证明, 在赤潮形成初期厚游仆虫对赤潮藻类的摄食压力可能有助于抑制或延缓剧毒卡尔藻及赤潮异弯藻赤潮的发生与发展, 其在赤潮治理中的实际应用还需结合野外水体做进一步研究。     

中国渤海海域甲藻孢囊的种类多样性和生态地理分布

在渤海湾24个站位采集0–10 cm表层沉积物144份样品, 进行甲藻孢囊的种类多样性和生态地理分布研究, 并分析渤海海域水体的富营养化趋势。在渤海海域共采集鉴定出6类32种甲藻孢囊, 包括原多甲藻类孢囊11种、裸甲藻类孢囊6种、膝沟藻类孢囊7种、钙质类孢囊5种、翼藻类孢囊2种及Tuberculodinioid类孢囊1种。其中, 自养型甲藻孢囊17种, 优势种为锥状斯氏藻(Scrippsiella trochoidea)孢囊, 丰富的孢囊库为锥状斯氏藻赤潮提供种源, 可作为该海域发生锥状斯氏藻赤潮的参考依据; 异养型甲藻孢囊15种, 优势种为无纹多沟藻(Polykrikos schwartzii)和锥形原多甲藻(Protoperidinium conicum)孢囊; 发现1种产麻痹性贝类毒素的孢囊--塔玛亚历山大藻(Alexandrium tamarense)孢囊, 但是仅在S6、S8和S14三个站位发现, 且孢囊数量较少。渤海甲藻孢囊组成与世界其它海域相似, 异养型甲藻孢囊种类丰富, 提示渤海海域富营养化程度较高。每个站位沉积物样品分为3层(每层约3 cm), 春夏两季表层、中层和底层之间孢囊组成差异不大, 平均种类数为5.58–7.29, 孢囊的平均密度范围在58.82–103.57 cysts·g^–1 DW之间; 孢囊种类丰富的站点, 孢囊密度也较高, 如S9、S14站位。对渤海海区表层沉积物中甲藻孢囊的生物多样性进行了统计分析, 发现表、中、底3层甲藻孢囊的平均种类多样性指数在春季(5月)分别为1.69、1.61和1.52; 略低于夏季(8月)的1.83、1.89和1.60。     

广东大亚湾甲藻孢囊及其与锥状斯氏藻赤潮的关系

1999年12月至2001年1月,在大亚湾澳头海域用沉积物捕捉器(Sediment trap)及TFO重力采泥器对甲藻孢囊进行每月一次的周年监测,并同时研究了浮游植物的季节变化.结果显示,晚秋孢囊形成率最高(3.48105 cysts/m2d),冬季形成率较低,年平均为1.28105 cysts/m2d.锥状斯氏藻(Scrippsiella trochoidea)是大亚湾沉积物孢囊中的绝对优势种,除个别季节外,其形成率一般占孢囊总形成率的50%以上.2000年8月至9月,该海域发生了一次较大规模的锥状斯氏藻赤潮,最高细胞密度达4.0104 cells/mL.赤潮中后期,锥状斯氏藻孢囊包括暂时性孢囊和休眠孢囊大量形成,孢囊的形成减少了水体中营养细胞数量,是赤潮消退原因之一.       

Some dinophycean red tide plankton species generate a superoxide scavenging substance

Recent studies indicate that some raphidophycean red tide flagellates produce substances able to scavenge superoxide, whereas there have been no reports on superoxide scavenger production by dinophycean red tide flagellates. In this study, we examined the superoxide-scavenging activity of aqueous extracts from dinophycean red tide flagellates, Gymnodinium spp., Scrippsiella trochoidea, and Karenia sp., by a luminol analog L-012-dependent chemiluminescence (CL) method and an electron spin resonance (ESR)-spin trapping method, and compared the activity to that of raphidophycean red tide flagellates, Chattonella spp., Heterosigma akashiwo, and Fibrocapsa japonica. In the experiment applying the L-012-dependent CL method, only the aqueous extracts from raphidophycean red tide flagellates showed superoxide-scavenging activity. On the other hand, applying the ESR-spin trapping method, we found that the aqueous extracts from dinophycean red tide flagellates also showed superoxide-scavenging activity. This is the first report on the production of a superoxide-scavenger by dinophycean red tide flagellates.     

UV-B辐射增强对三种赤潮微藻DNA的伤害效应

运用生态毒理学和生物化学方法研究了UV-B辐射增强对赤潮异弯藻、亚历山大藻和中肋骨条藻DNA的伤害作用.结果表明,3种赤潮微藻的生长状况对UV-B辐射增强的敏感性不同;对UV-B辐射增强的敏感性由高到低依次是赤潮异弯藻、亚历山大藻和中肋骨条藻.随着UV-B辐射剂量的增加,3种赤潮微藻的DNA损伤程度提高,而且赤潮异弯藻DNA的损伤程度明显高于亚历山大藻和中肋骨条藻,亚历山大藻DNA的伤害程度又远远高于中肋骨条藻.UV-B辐射处理解除后,损伤DNA可明显恢复.赤潮异湾藻和亚历山大藻恢复培养6d,损伤DNA可明显恢复(P＜0.05);而中肋骨条藻恢复培养3d,损伤DNA可明显恢复(P＜0.05),说明3种赤潮微藻的DNA损伤水平不适合作为指示UV-B辐射增强的生物学指标.     

Studies on the transmission of WSSV (white spot syndrome virus) in juvenile Marsupenaeus japonicus via marine microalgae

We studied the possible role that marine microalgae may play during the outbreaks of WSS (white spot syndrome). In order to elucidate the possibility of marine microalgae carrying WSSV (white spot syndrome virus), six marine microalgae (Isochrysis galbana, Skeletonema costatum, Chlorella sp., Heterosigma akashiwo, Scrippsiella trochoidea, Dunaliella salina) were co-cultured with adult Marsupenaeus japonicus infected with WSSV and were assayed daily by nested-PCR to study whether they could carry WSSV. Further experiments were conducted to investigate whether the virus carried by microalgae could re-infect juvenile M. japonicus. Results showed that all of the experimental microalgae, except H. akashiwo could carry WSSV, and among them, Chlorella sp. and S. trochoidea had the strongest WSSV-carrying ability. Unlike other invertebrate carriers of WSSV, the WSSV detections in microalgae, which were positive after 1 and 3 days, were negative after 10days of incubation. WSSV detection results in juvenile M. japonicus showed that the juvenile shrimp were re-infected by co-cultured Chlorella sp., although the juvenile M. japonicus carried so small an amount of WSSV that it could only be detected by nested-PCR. The results of this experiment suggest that microalgae might be one possible horizontal transmission pathway for WSSV. Further research, however, is required to better understand the factors behind the different carrying abilities and virus-carrying mechanisms of different microalgae.     

海洋浮游藻类无机碳利用机理的研究

为了认识海洋浮游藻类在碳充足和碳受限条件下对水体中溶解无机碳(DIC)的利用方式与可能机理,对13种海洋浮游藻类在不同pH和CO2浓度及不同DIC条件下细胞外碳酸酐酶(CA)的活性进行了分析测定.结果显示:13种藻中,只有Amphidinium carterae和Prorocentrum minimum在碳充足条件下具细胞外CA活性.Melosira sp.、Phaeodactylum tricornutum、Skeletonema costatum、Thalassiosira rotula、Emiliania huxleyi和Pleurochrysis carterae则在碳受限条件下才具细胞外CA活性.Chaetoceros compressus、Glenodinium foliaceum、Coccolithus pelagicus、 Gephrocapsa oceanica和Heterosigma akashiwo即使在碳受限条件下也未检测到细胞外CA活性.应用封闭系统中pH漂移技术和阴离子交换抑制剂4′4′-diisothiocyanatostilbene-2,2-disulfonic acid (DIDS)等的研究表明,Coc. pelagicus和G. oceanica可通过阴离子交换机制进行HCO-3的直接利用.H. akashiwo没有潜在的HCO-3直接利用或细胞外CA催化的HCO-3利用.     

Selective toxic effects of polyunsaturated fatty acids derived from Ulva fasciata on red tide phyotoplankter species

Alpha-linolenic acid and linoleic acid isolated from Ulva fasciata showed toxic effects on red tide phytoplankters in a concentration-dependent manner. Among six species tested, raphidophycean flagellate Heterosigma akashiwo was the most susceptible to these fatty acids, and 50% lethal concentrations (LC50) of alpha-linolenic acid and linoleic acid were estimated to be 0.58 and 1.91 microg/ml respectively, whereas dinoflagellate Gymnodinium impudicum and Heterocapsa circularisquama were highly resistant and no significant toxic effects were observed up to 1,000 microg/ml. Both fatty acids were less toxic to fish (devil stinger), zooplankters (brine shrimp and rotifer), and mammalian cell lines (U937, HeLa, Vero, and CHO cells) than H. akashiwo.     

Feeding by the Pfiesteria-like heterotrophic dinoflagellate Luciella masanensis

To explore the feeding ecology of the Pfiesteria-like dinoflagellate (PLD) Luciella masanensis (GenBank Accession no. AM050344, previously Lucy), we investigated the feeding behavior and the kinds of prey species that L. masanensis fed on and determined its growth and ingestion rates of L. masanensis when it fed on the dinoflagellate Amphidinium carterae and an unidentified cryptophyte species (equivalent spherical diam., ESD=5.6 microm), which were the dominant phototrophic species when L. masanensis and similar small heterotrophic dinoflagellates were abundant in Masan Bay, Korea in 2005. Additionally, these parameters were also measured for L. masanensis fed on blood cells of the perch Lateolabrax japonicus and the raphidophyte Heterosigma akashiwo in the laboratory. Luciella masanensis fed on prey cells by using a peduncle after anchoring the prey with tow filament, and was able to feed on diverse prey such as cryptophytes, raphidophytes, diatoms, mixotrophic dinoflagellates, and the blood cells of fish and humans. Among the prey species tested in the present study, perch blood cells were observed to be the optimal prey for L. masanensis. Specific growth rates of L. masanensis feeding on perch blood cells, A. carterae, H. akashiwo, and the cryptophyte, either increased continuously or became saturated with increasing the mean prey concentration. The maximum specific growth rate of L. masanensis feeding on perch blood cells (1.46/day) was much greater than that of A. carterae (0.59/day), the cryptophyte (0.24/day), or H. akashiwo (0.20/day). The maximum ingestion rate of L. masanensis on perch blood cells (2.6 ng C/grazer/day) was also much higher than that of A. carterae (0.32 ng C/grazer/day), the cryptophyte (0.44 ng C/grazer/day), or H. akashiwo (0.16 ng C/grazer/day). The kinds of prey species which L. masanensis is able to feed on were the same as those of Pfiesteria piscicida, but very different from those of another PLD Stoeckeria algicida. However, the maximum growth and ingestion rates of L. masanensis on perch blood cells, A. carterae, H. akashiwo, and the cryptophyte were considerably lower than those of P. piscicida. Therefore, these three dinoflagellates may occupy different ecological niches in marine planktonic communities, even though they have a similar size and shape and the same feeding mechanisms.     

Feeding by the newly described, nematocyst-bearing heterotrophic dinoflagellate Gyrodiniellum shiwhaense

We explored the feeding ecology of the newly described, nematocyst-bearing heterotrophic dinoflagellate Gyrodiniellum shiwhaense (GenBank accession number=FR720082). Using several different types of microscopes and high-resolution video-microscopy, we investigated feeding behavior and types of prey species that G. shiwhaense feeds upon. Additionally, we measured its growth and ingestion rates on its optimal algal prey, the cryptophyte Teleaulax sp. and the dinoflagellate Amphidinium carterae, as a function of prey concentration. These rates were measured for other edible prey at single prey concentrations at which the growth and ingestion rates of G. shiwhaense were saturated. After anchoring the prey with a tow filament, G. shiwhaense fed using a peduncle, ingesting small algal species with equivalent spherical diameters (ESDs) of <13 μm. However, it did not feed on larger algal species that had ESDs≥13 μm or the small diatom Skeletonema costatum. The specific growth rates for G. shiwhaense feeding upon Teleaulax sp. and A. carterae increased rapidly with increasing mean prey concentration before saturating at concentrations of ca. 180-430 ng C/ml. The maximum specific growth rate of G. shiwhaense on Teleaulax sp. and A. carterae were 1.05 and 0.82/d, respectively. However, Heterosigma akashiwo did not support positive growth of G. shiwhaense. The maximum ingestion rates of G. shiwhaense on Teleaulax sp. and A. carterae were 0.35 and 0.54 ng C/grazer/d, respectively. The calculated grazing coefficients attributable to G. shiwhaense on co-occurring cryptophytes and Amphidinium spp. were 0.01-1.87/d and 0.08-2.60/d, respectively. Our results suggest that G. shiwhaense can have a considerable grazing impact on algal populations.     

Growth and Grazing Rates of the Heterotrophic Dinoflagellate Polykrikos kofoidii on Red-Tide and Toxic Dinoflagellates

We investigated growth rates, grazing rates, and prey selection of Polykrikos kofoidii when feeding on several species of red-tide and/or toxic dinoflagellates. Polykrikos kofoidii ingested all prey species used in this study, exhibiting positive growth on Lingulodinium polyedrum, Scrippsiella trochoidea, Ceratium furca, Gymnodinium catenatum, Gyrodinium impudicum, Prorocentrum micans, and the toxic dinoflagellate Amphidinium carterae, but not on P. minimum. Specific growth rates of P. kofoidii increased rapidly with increasing density of L. polyedrum, S. trochoidea, C. furca, and G. catenatum before saturating between 500-2,000 ng C ml(-1). Specific growth rates increased continuously when P. kofoidii was fed the other prey species. Maximum specific growth rates of P. kofoidii on G. catenatum (1.12 d(-1)), S. trochoidea (0.97 d(-1)), and L. polyedrum (0.83 d(-1)) were higher than those on C. furca (0.35 d(-1)), A. carterae (0.10 d(-1)), P. micans (0.06 d(-1)), G. impudicum (0.06 d(-1)), and P. minimum (-0.03 d(-1)). Threshold prey concentrations (where net growth = 0) were 54-288 ng C ml(-1). Maximum ingestion and clearance rates of P. kofoidii on these dinoflagellates were 5-24 ng C pseudocolony(-1) d(-1) and 1.0-5.9 microl pseudocolony(-1) h(-1), respectively. Polykrikos kofoidii strongly selected L. polyedrum over S. trochoidea in prey mixtures. Polykrikos kofoidii exhibited higher maximum growth, ingestion, and clearance rates than previously reported for the mixotrophic dinoflagellate Fragilidium cf. mexicanum or the heterotrophic dinoflagellates Protoperidinium cf. divergens and P. crassipes, when grown on the same prey species. Grazing coefficients calculated by combining field data on abundances of Polykrikos spp. and co-occurring red-tide dinoflagellate prey with laboratory data on ingestion rates obtained in the present study suggest that Polykrikos spp. sometimes have a considerable grazing impact on prey populations.     

Selective algicidal action of peptides against harmful algal bloom species

Recently, harmful algal bloom (HAB), also termed "red tide", has been recognized as a serious problem in marine environments according to climate changes worldwide. Many novel materials or methods to prevent HAB have not yet been employed except for clay dispersion, in which can the resulting sedimentation on the seafloor can also cause alteration in marine ecology or secondary environmental pollution. In the current study, we investigated that antimicrobial peptide have a potential in controlling HAB without cytotoxicity to harmless marine organisms. Here, antimicrobial peptides are proposed as new algicidal compounds in combating HAB cells. HPA3 and HPA3NT3 peptides which exert potent antimicrobial activity via pore forming action in plasma membrane showed that HPA3NT3 reduced the motility of algal cells, disrupted their plasma membrane, and induced the efflux of intracellular components. Against raphidoflagellate such as Heterosigma akashiwo, Chattonella sp., and C. marina, it displayed a rapid lysing action in cell membranes at 1~4 μM within 2 min. Comparatively, its lysing effects occurred at 8 μM within 1 h in dinoflagellate such as Cochlodium polykrikoides, Prorocentrum micans, and P. minimum. Moreover, its lysing action induced the lysis of chloroplasts and loss of chlorophyll a. In the contrary, this peptide was not effective against Skeletonema costatum, harmless algal cell, even at 256 μM, moreover, it killed only H. akashiwo or C. marina in co-cultivation with S. costatum, indicating to its selective algicidal activity between harmful and harmless algal cells. The peptide was non-hemolytic against red blood cells of Sebastes schlegeli, the black rockfish, at 120 μM. HAB cells were quickly and selectively lysed following treatment of antimicrobial peptides without cytotoxicity to harmless marine organisms. Thus, the antibiotic peptides examined in our study appear to have much potential in effectively controlling HAB with minimal impact on marine ecology.