ZnO/PDMS对生物被膜形成和厚壳贻贝稚贝附着的影响及在养殖网箱的潜在应用OA北大核心CSTPCD
ZNO/PDMS ON MARINE BIOFILM FORMATION AND ATTACHMENT OF MYTILUS CORUSCUS AND THEIR POTENTIAL APPILICATIONS IN AQUACULTURE CAGES
为探究养殖网箱表面涂层对海洋污损的防污性能,研究在Glass基底上以聚二甲基硅氧烷(Poly-dimethylsiloxane,PDMS)为成膜剂,填充不同浓度(3.5wt%、7.5wt%、11.25wt%、15wt%)的ZnO纳米粒子,采用流延法制备ZnO/PDMS涂层后,将基底投放于浙江嵊泗枸杞岛自然海域(30.72 °N,122.76 °E),测试该涂层表面所成生物被膜情况,及其对厚壳贻贝稚贝附着的影响.结果显示:生物被膜的生物量随基底投放时间的增加而增加.在28d时,填充ZnO纳米粒子各实验组生物被膜的细菌密度、硅藻密度及其对厚壳贻贝稚贝附着的诱导能力显著低于未添加组.与Glass相比,15 wt%ZnO/PDMS上28d生物被膜细菌密度下降了43.25%、硅藻密度下降了91.59%;厚壳贻贝稚贝附着率同比Glass组及PDMS组分别下降了75.41%和62.50%.利用MiSeq测序技术评估15wt%ZnO/PDMS上28d生物被膜群落结构发现,与Glass相比,ZnO/PDMS通过降低嗜冷杆菌属(Psychrobacter)相对丰度,提高罗氏菌属及维诺格拉德斯基氏菌属(Winogradskyella)相对丰度,改变了细菌群落的组成.因此,ZnO/PDMS通过降低生物被膜的生物量及改变细菌群落结构丰度来影响自然生物被膜的形成,并抑制了厚壳贻贝稚贝的附着.
Cage aquaculture plays an essential role in marine aquaculture.However,the negative impact of biofouling shortens the cleaning cycle of the cage,leading to increased maintenance cost.Additionally,biofouling obstructs oxygen supply and waste removal from the cage,heightening the risk of infection among aquatic organisms.This issue poses a significant challenge to the advancement of aquaculture.Currently,methods to combat marine biofouling mostly remain in the laboratory stage because of the tedious production process and lack of practical verification.Therefore,it is meaningful to develop an economical and effective antifouling coating for aquaculture cages.Biofilm formed by bacteria and diatoms facilitate the settlement of marine invertebrates such as Mytilus coruscus,which is the key to solve the problem of marine biofouling.Polydimethylsiloxane(PDMS)is a typical fouling-release coating known for its viscoelasticity and hydrophobicity.The lack of mechanical strength and the performance of long-term confrontation with diatom adhesion uncovered the limitations of PDMS.The conventional solution is to incorporate other materials into PDMS,which can improve the mechanical properties of PDMS and allow PDMS to inhibit the microfouling formed by bacteria and diatoms.Nano-zinc oxide particles(ZnO NPs)are characterized by small particle size and high specific surface area,showing excellent antibacterial properties,which can be combined with PDMS as a bacteriostat.In this study,ZnO/PDMS coating made from PDMS filled with different concentrations of ZnO NPs was used to improve the antifouling ability of cages.The effects of Glass,PDMS,and ZnO/PDMS(ZnO NPs concentra-tions of 3.5wt%,7.5wt%,11.25wt%,and 15wt%)on natural biofilms and subsequent mussel settlement were tested in field bioassay.Compared with Glass and PDMS,the settlement rate of M.coruscus decreased by 75.41%and 62.50%,respectively,on 15wt%ZnO/PDMS-coated surfaces with 28-day-old biofilms.Furthermore,at 28 days of age,the bacterial density of the biofilm formed on 15wt%ZnO/PDMS was reduced by 43.25%and 40.44%,respectively,compared to Glass and PDMS.The diatom density decreased by 91.59%and 13.32%,respectively,compared with Glass and PDMS in 28-day-old biofilm.MiSeq sequencing confirmed differences in bacterial communities among substrates.Representatively,the relative abundance of Psychrobacter decreased,while the relative abundance of Wino-gradskyella increased on 15wt%ZnO/PDMS.Structural Equation Model results indicate that ZnO/PDMS could inhibit M.coruscus attachment by reducing natural biofilm biomass and changing the bacterial community.This study fills the gap in the effect of ZnO/PDMS coating on the bacterial community of natural biofilms and provides a novel solution for the biofouling in cage aquaculture.
李局;李政;杨金龙;梁箫
上海海洋大学水产与生命学院,海洋生物科学国际联合研究中心,上海 201306||上海市水产动物良种创制与绿色养殖协同创新中心,上海 201306||中国-葡萄牙星海"一带一路"联合实验室,上海 200120
生物学
ZnO/PDMS生物被膜厚壳贻贝养殖网箱细菌群落
ZnO/PDMSBiofilmMytilus coruscusCage aquacultureBacterial community
《水生生物学报》 2024 (008)
1322-1332 / 11
国家重点研发计划(2023YFE0115500、2023YFD2401902和22022YFE0204600)资助[Supported by the National Key Research and Development Program of China(2023YFE0115500,2023YFD2401902 and 22022YFE0204600)]
评论