不同类型化感物质抑制蓝藻效益比较及联合抑藻效应评述  被引量：6

作　　者：郭钟惠 李洁明 张明霞[1,2] GUO Zhong-Hui;LI Jie-Ming;ZHANG Ming-Xia(College of Resources and Environmental Sciences,China Agricultural University,Beijing 100193,China;Beijing Key Laboratory of Biodiversity and Organic Farming,China Agricultural University,Beijing 100193,China)

机构地区：[1]中国农业大学资源与环境学院,北京100193 [2]中国农业大学生物多样性与有机农业北京市重点实验室,北京100193

出　　处：《水生生物学报》2023年第1期177-194,共18页Acta Hydrobiologica Sinica

基　　金：国家自然科学基金(31872694)资助。

摘　　要：世界范围内的蓝藻水华持续威胁着水生生态系统功能和人类健康,化感物质凭借其环境安全和对微藻有特异毒性等特征可以短期抑制蓝藻水华的暴发和生长。文章分别概括了酚类化合物、含氮化合物、脂肪酸/酯类、萜类化合物四类化感物质及其衍生物对蓝藻的杀藻效果、潜在机制及特异作用靶点,并依据高效抑藻化感物质(EC_(50)<10 mg/L)的经济成本进一步预估其实际应用潜能。结果表明,单独胁迫下的各类化感物质具不同抑藻特性:脂肪酸/酯类的性价比最优,能以较少剂量对蓝藻产生极强毒性,对蓝藻多样的作用靶点是其具有极强抑制效果的关键,可在0.015-52.95 mg/L浓度范围内将目标蓝藻抑制50%;酚类化合物总数最多、活性普遍较高,半数效应浓度(EC50)为0.05-162.53 mg/L,可通过抑制光合作用、破坏细胞氧化应激平衡和损害细胞壁/膜结构等多种机制抑制蓝藻生长,但高效杀藻酚类化合物的理论成本差异较大,性价比次于脂肪酸位于第二位;含氮化合物对蓝藻生长存在特异性和均匀高效的杀藻作用, EC50集中于0.3-8.14 mg/L,主要通过破坏蓝藻的光合作用、阻断电子传递和破坏细胞结构(包括超微结构)而对蓝藻造成不可逆转的严重损伤,但成本较高、性价比最低而难以广泛实际应用;萜类化合物杀藻作用弱于其他三个类别的化感物质,主要集中于多途径破坏蓝藻细胞的光合功能,但EC50高达25.3-228 mg/L,实际应用也受限。为减少各种化感物质用量、降低经济成本并实现更高效的杀藻效果,文章总结归纳相同和不同类型化感物质联合作用方式和特点,指出化感物质所产生的联合作用效果取决于混合化感物质的数量、作用靶点、混合比例和混合物含量四个因素。综述还提出抑藻靶点多样且互补的化感物质混合(“多靶点组合”)可产生协同杀藻作用,且在混合物中应增加具有高杀�Cyanobacterial blooms worldwide pose severe threat to aquatic ecosystem functions and even human health.Due to environmental-friendliness and high selectivity, allelochemicals have put forward a promising option for inhibiting cyanobacterial overgrowth and therefore mitigating blooms in a short term. This study overviewed the algicidal effects of four types of allelochemicals, i.e., polyphenolics, nitrogen-containing compounds, fatty acids/esters and terpenoids, as well as underlying mechanisms and specific target sites against cyanobacteria, and further evaluated the application potential based on economic costs of highly effective cyanobacterium-inhibiting allelochemicals. The results demonstrated distinctive algicidal characteristics among each type of allelochemicals: Fatty acids/esters were the most cost-effective in algicidal activity, which induced extremely strong toxicity to cyanobacteria at low doses due to various action targets and suppressed target cyanobacterial growth by 50% in concentration range of 0.015-52.95 mg/L;Polyphenolics as the most abundant allelochemicals generally exhibited high algicidal activity with median effect concentration(EC50) ranging from 0.05 to 162.53 mg/L, and could restrain cyanobacterial growth by multiple mechanisms such as inhibiting photosynthesis, disrupting cellular oxidative stress balance and damaging cell wall/membrane structure. However, the theoretical costs vastly differed among highly effective algicidal polyphenolics, whose cost-efficiencies were inferior to fatty acids and thus ranked as 2nd place following fatty acids;N-containing compounds generally exhibited specific and evenly effective algicidal effect against cyanobacterial growth, with EC50varying from 0.3 to8.14 mg/L, and induced irreversible cell damage by mainly disrupting cyanobacterial photosynthesis, blocking electron transfer, and destroying cellular structures(including ultrastructure). However, N-containing compounds involved high costs and lowest effectiveness that hindered their wide appli

关 键 词：化感物质 蓝藻 抑藻活性 化感机制 杀藻作用靶点 联合抑藻作用 

分 类 号：X52[环境科学与工程—环境工程]