UV-C辐射增强对绿化树种膜质过氧化及抗氧化酶的影响

采用叶片试验法研究了模拟紫外辐射(UV-C)胁迫对3种绿化树种叶片膜质过氧化及抗氧化酶产生的影响。实验结果表明:UV-C辐射处理使连翘ForsythiasuspensaVahl和垂柳Salixbabylonica叶片的叶绿素质量分数增加,但使水蜡树FraxinuschinesisRoxb.叶片的叶绿素质量分数降低。UV-C辐射处理增加连翘和垂柳叶片的SOD活性,而水蜡的SOD活性则表现为先升高随后降低的变化趋势;辐射处理对水蜡树和垂柳POD活性影响不大,但使连翘POD活性先升高随后降低;辐射处理明显降低水蜡树和连翘的CAT活性,而垂柳的则先升高后降低。辐射处理导致MDA含量增加。     

Removal of virus aerosols by the combination of filtration and UV-C irradiation

● The removal of virus aerosols by filtration and UV-C irradiation was proposed. ● The filtration efficiency for virus aerosols was affected by the filtration rate. ● The inactivation rate by UV-C was not linear with irradiation intensity or time. ● The virus trapped by filter material had a shielding effect on UV-C irradiation. The COVID-19 pandemic remains ever prevalent and afflicting—partially because one of its transmission pathways is aerosol. With the widely used central air conditioning systems worldwide, indoor virus aerosols can rapidly migrate, thus resulting in rapid infection transmission. It is therefore important to install microbial aerosol treatment units in the air conditioning systems, and we herein investigated the possibility of combining such filtration with UV irradiation to address virus aerosols. Results showed that the removal efficiency of filtration towards f2 and MS2 phages depended on the type of commercial filter material and the filtration speed, with an optimal velocity of 5 cm/s for virus removal. Additionally, it was found that UV irradiation had a significant effect on inactivating viruses enriched on the surfaces of filter materials; MS2 phages had greater resistance to UV-C irradiation than f2 phages. The optimal inactivation time for UV-C irradiation was 30 min, with higher irradiation times presenting no substantial increase in inactivation rate. Moreover, excessive virus enrichment on the filters decreased the inactivation effect. Timely inactivation is therefore recommended. In general, the combined system involving filtration with UV-C irradiation demonstrated a significant removal effect on virus aerosols. Moreover, the system is simple and economical, making it convenient for widespread implementation in air-conditioning systems.     

UV-C辐照抑制铜绿微囊藻生长的动态实验研究

以我国典型淡水水华藻种铜绿微囊藻(Microcystis aeruginosa905)为研究对象,采用推流式低压紫外灯反应器研究在动态条件下Ultraviolet-C(UV-C)辐照对蓝藻生长抑制作用的效果.对数培养期的蓝藻液流经反应器进行UV-C辐照处理,其后正常培养,在培养期2 h、1 d、3 d、5 d、7 d、9 d分别取样,通过研究级倒置荧光显微镜在荧光视野下进行细胞计数.结果表明,辐照处理未引起铜绿微囊藻细胞的大量破裂死亡,36~115 mW.s.cm-2剂量范围的UV-C辐照能在9 d内有效抑制2.6×105~2.7×105cells.mL-1的铜绿微囊藻细胞密度增长,31~50 mW.s.cm-2剂量范围的UV-C辐照能在9d内有效抑制9.0×105~1.15×106cells.mL-1的铜绿微囊藻细胞密度增长.     

Mechanisms of photosynthetic inactivation on growth suppression of Microcystis aeruginosa under UV-C stress

This study aims to investigate the effects of UV-C irradiation on photosynthetic processes of Microcystis aeruginosa to unravel the mechanism(s) involved in how and in what ways UV-C mediates growth suppression and cellular recovery. Changes in the concentration of photosynthetic pigments, photochemical efficiency, PS II core protein (D1) content, and the coding genes expressions were measured. The results indicate that UV-C doses at 20–200 mJ cm⁻² lead to rapid reduction in gene expression of both psbA (for D1) and cpc (for phycocyanin), but the suppression was short term and recoverable within 3 d of post-UV incubation. Conversely, UV-C doses at ?50 mJ cm⁻² could induce marked decline in photochemical efficiency (represented by the optimal PS II quantum yield, F_V/F_M, and the effective PS II quantum yield, Y) as well as decreases in D1 content and water soluble pigments (phycoerythrins, phycocyanins, allophycocyanins) in M. aeruginosa during the post UV-C incubation period. The results suggest that interruption of both the light energy harvesting apparatus (especially the water soluble pigments) and the photochemical process mainly accounted for the growth suppression effect in UV-C irradiated M. aeruginosa.     

N2O2与UV-C灭藻的协同效果研究及工程实验

研究了UV-C/N₂O₂催化氧化去除鱼腥藻PCC7120的效果,探讨了各种因素如c(N₂O₂),pH,辐照度及反应时间对灭藻率的影响.结果表明,N₂O₂对UV-C(紫外线C波段辐照)灭藻具有协同作用,UV-C/N₂O₂高级氧化体系对鱼腥藻PCC7120具有很强的氧化能力.在藻液中c(N₂O₂)为1 mmol/L,反应温度为25℃,pH为6.8,紫外线辐照度0.54 mW/cm2及反应20min的条件下,受试藻种的灭活率5 d后可以达到85%以上.将N₂O₂与浸没式UV-C流动除藻装置结合进行流动式的灭藻实验,灭藻效果显著,鱼腥藻PCC7120体内的SOD酶和POD酶的活性及C-PC藻蓝蛋白、叶绿素a的含量都有大幅度的下降,且灭活后的蓝藻不会重新生长.      

不同UV-C辐射时间对豌豆幼苗光合特性及抗氧化酶活性的影响

研究了不同UV-C辐射时间对豌豆幼苗光合特性及抗氧化酶活性的影响。结果表明,UV-C辐射增强使叶片光合速率减弱,气孔导度、胞间CO2浓度、蒸腾速率和羧化效率明显降低,CO2补偿点升高。随着UV-C辐射时间的延长,POD和CAT活性先升高随后降低,SOD活性、叶绿素含量则逐渐降低,但丙二醛含量逐渐增加。这说明UV-C辐射增强引起抗氧化酶活性降低,使膜脂过氧化,导致光合作用减弱。