成果

2021
Li F, Wen D, Yingyu Bao, Huang B, Mu Q, Chen L. Insights into the distribution, partitioning and influencing factors of antibiotics concentration and ecological risk in typical bays of the East China Sea. Chemosphere [Internet]. 2021;2021:132566. 访问链接Abstract
In order to obtain in-depth insight of the behavioral fate and ecological risks of antibiotics in coastal environment, this study investigated the distribution, partitioning and primary influencing factors of antibiotics in water and sediment in the East China Sea. After quantification of 77 target antibiotics in 6 categories, ten antibiotics were detected simultaneously with a detection frequency >50.0% in water and sediment; the concentrations of these ten antibiotics were 0.1–1508.0 ng L−1 and 0.01–9.4 ng g−1 in water and dry sediment, respectively. Sulfadiazine and Azithromycin (Pseudo partitioning coefficient were 28–3814 L kg−1 and 21–2405 L kg−1, respectively.) had the largest partitioning coefficient between sediment and water. In addition, pseudo partitioning coefficient of Sulfadiazine and Clindamycin were higher than the values of corresponding equilibrium partitioning constant (Kd), which would likely cause them to re-release from sediment to water. Compared to the physiochemical properties of the sediment, water quality has a greater impact on antibiotic partitioning. We found that the partitioning of antibiotics was significantly positively correlated with salinity, suspended solids, pH, NH4+-N and Zn; and negatively correlated with temperature, dissolved oxygen, PO43−, chemical oxygen demand, NO3−-N, oil, Cu and Cd. The ecological risks of antibiotics in water and sediment were also evaluated for revealing their relationship with the concentration partitioning of antibiotics. Results showed that the target antibiotics mainly pose ecological risks to Daphnia with low and median chronic toxicity risk rather than fish and green algae. The antibiotics in sediment were more chronically toxic to Daphnia than that in water. The risk quotient ratio of sediment and water (RQs/RQw) ranged from 0 to 1154.0, which were exactly opposite of the values of organic carbon normalized partition coefficient (Koc), suggesting that the physical properties of antibiotics drove the ecological risk allocation of antibiotics in sediment and water.
Tao Y, Zhang L, Su Z, Dai T, Zhang Y, Huang B, Wen D. Nitrogen-cycling gene pool shrunk by species interactions among denser bacterial and archaeal community stimulated by excess organic matter and total nitrogen in a eutrophic bay. Marine Environmental Research [Internet]. 2021;169:105397. 访问链接Abstract
Microbial densities, functional genes, and their responses to environment factors have been studied for years, but still a lot remains unknown about their interactions with each other. In this study, the abundances of 7 nitrogen cycling genes in the sediments from Hangzhou Bay were analyzed along with bacterial and archaeal 16S rRNA abundances as the biomarkers of their densities. The amount of organic matter (OM) and total nitrogen (TN) strongly positively correlated with each other and microbial densities, while total phosphate (TP) and ammonia-nitrogen (NH3–N) did not. Most studied genes were density suppressed, while nirS was density stable, and nosZ and hzo were density irrelevant. This suggests eutrophication could limit inorganic nitrogen cycle pathways and the removal of nitrogen in the sediment and emit more greenhouse gases. This study provides a new insight of microbial community structures, functions and their interactions in the sediments of eutrophic bays.
Yao P, Chen L, Zhang Y, Wen D. The pre-oxidation kinetics and mechanism of sulfapyridine for biodegradability improvement. Journal of Cleaner Production [Internet]. 2021;329:129698. 访问链接Abstract
Oxidation of sulfapyridine (SPY) by typical oxidant, hydrogen peroxide (H2O2) and/or potassium peroxydisulfate (PDS), was used as a pre-treatment for antibiotic wastewater. The degradation dynamics showed that SPY was successfully removed, and the trend was fitted to the first-order reaction kinetics. H2O2 removed SPY more efficiently in acid condition than in basic condition, while PDS was the opposite. Better performance was achieved by using PDS than using H2O2, but combined using of PDS and H2O2 got the best performance. Although SPY was oxidized by those oxidants and biodegradability was improved, the intermediates still exhibited antibacterial activity. The degradation pathways and mechanism of SPY were deduced through density functional theory (DFT) and evidenced by intermediates product detection. Nucleophilic attack and radical attack were determined to be the major attack pathways in H2O2 and PDS systems, respectively. The SPY degradation pathways proposed in the two systems were based on the cleavage of bonds and hydroxyl substitution. Additionally, intermediate ΔG value showed that stubborn molecules remained in the wastewater even after pre-oxidation, which is harmful for further bio-treatment. This study provides a new insight for the improvement of biodegradability and the efficient degradation of SPY in antibiotic wastewater.
2020
熊富忠, 张楠, 温东辉, 李琪琳. 流动室系统中含氮杂环化合物降解菌的生物膜形成特征研究. 北京大学学报(自然科学版) [Internet]. 2020;56(05):907-916. 访问链接Abstract
采用流动室(FlowCell)生物膜发生装置和激光共聚焦显微镜观察技术,揭示不同环境条件下含氮杂环化合物(nitrogenous heterocyclic compounds,NHCs)降解菌的生物膜形成特征。结果表明,增加初始接种菌液浓度并延长初始黏附时间,有利于吡啶降解菌在基质表面的黏附和生物膜形成;降低培养基流速,细菌生物膜更加均质化且形成水通道结构;不同条件下的生物膜都存在内层活细胞比例较低,外层活细胞比例较高的规律。此外,还发现相对于单一菌株,混合菌株在生物膜厚度、基质覆盖率与活细胞比例上都更具优势。目标NHC浓度对喹啉降解菌生物膜的形态和活性也有明显的影响:低浓度下降解菌团聚结构分布较零散,但具有较大的体积;高浓度下降解菌团聚结构明显变小,在基质表面的分布则更均匀;低浓度下生物膜的活细胞比例显著高于高浓度下的生物膜。
Su Z, Wen D. Evaluating the potential antibiotic resistance status in environment based on the trait of microbial community Huang B. Frontiers in Microbiology [Internet]. 2020;11:575707. 访问链接Abstract
The overuse of antibiotics has promoted the propagation and dissemination of antibiotic resistance genes (ARGs) in environment. Due to the dense human population and intensive activities in coastal areas, the health risk of ARGs in coastal environment is becoming a severe problem. To date, there still lacks of a quantitative method to assess properly the gross antibiotic resistance at microbial community level. Here, we collected sediment samples from Hangzhou Bay (HB), Taizhou Bay (TB), and Xiangshan Bay (XB) of the East China Sea for community-level ARGs analysis. Based on the 16S rRNA genes and predictive metagenomics, we predicted the composition of intrinsic ARGs (piARGs) and some related functional groups. Firstly, a total of 40 piARG subtypes, belonging to nine drug classes and five resistance mechanisms, were obtained, among which the piARGs encoding multidrug efflux pumps were the most dominant in the three bays. Secondly, XB had higher relative abundances of piARGs and pathogens than the other two bays, which posed higher potential health risk and implied the heavier impact of long-term maricultural activities in this bay. Thirdly, the co-occurrence network analysis identified that there were more connections between piARGs and some potential pathogenic bacteria. Several piARG subtypes (e.g., tetAaacAaacC, and aadK) distributed widely in the microbial communities. And finally, the microbial diversity correlated negatively with the relative abundance of piARGs. Oil, salinity, and arsenic had significant effects on the variations of piARGs and potential pathogenic bacteria. The abundance-weighted average ribosomal RNA operon (rrn) copy number of microbial communities could be regarded as an indicator to evaluate the antibiotic resistance status. In conclusion, this study provides a new insight on how to evaluate antibiotic resistance status and their potential risk in environment based on a quantitative analysis of microbial communities.
Xiong F, Zhao X, Wen D, Li Q. Effects of N-acyl-homoserine lactones-based quorum sensing on biofilm formation, sludge characteristics, and bacterial community during the start-up of bioaugmented reactors. Science of the total environment [Internet]. 2020;735:139449. 访问链接Abstract
Bioaugmentation is an effective technology for treating wastewater containing recalcitrant organic pollutants. However, it is restricted by several technical problems, including the difficult colonization and survival of the inoculated bacteria, and the time-consuming start-up process. Considering the important roles of quorum sensing (QS) in regulating microbial behaviors, this study investigated the effects of N-acyl-homoserine lactones (AHLs)-based manipulation on the start-up of biofilm reactors bioaugmented with a pyridine-degrading strain Paracoccus sp. BW001. The results showed that, in the presence of two specific exogenous AHLs (C6-HSL and 3OC6-HSL), the biofilm formation process on carriers was significantly accelerated, producing thick and structured biofilms. The protein and polysaccharide contents of the extracellular polymeric substances (EPS) and soluble microbial products (SMP) in sludge were also elevated, possibly due to the increased abundance of several EPS-producing bacterial genera. Specifically, the stability and complexity of protein structures were improved. Besides the reactor running time, the AHL-manipulation was proved to be the main factor that drove the shift of bacterial community structures in the reactors. The addition of exogenous AHLs significantly increased the succession rate of bacterial communities and decreased the bacterial alpha diversity. Most importantly, the final proportions of the inoculated strain BW001 were elevated by nearly 100% in both sludge and biofilm communities via the AHL-manipulation. These findings strongly elucidated that AHL-based QS was deeply involved in biofilm formation, sludge characteristics, and microbial community construction in bioaugmented reactors, providing a promising start-up strategy for bioaugmentation technology.
Zhao Y, Chen W, Wen D. The effects of crude oil on microbial nitrogen cycling in coastal sediments. Environment International [Internet]. 2020;139:105724. 访问链接Abstract
Crude oil could affect certain critical microbial processes of nitrogen cycling (N-cycling) in coastal sediments, and disturb the nitrogen balance. However, the understanding of the effects of crude oil on coastal sediments N-cycling under human disturbance was still limited. In this study, two sediments (named SY and HB with heavy and slight pollution, respectively) were sampled from Hangzhou Bay, China. After an incubation with exposure to different amounts of crude oil in above two sediments for 30 days, we found that crude oil affected microbial N-cycling in multiple levels. Potential rate measurements revealed that crude oil stimulated potential denitrification and N2O emissions in both sediments, which showed a higher influence on denitrification rates in higher concentration of oil. Quantitative PCR revealed that crude oil greatly increased abundances of bacterial and archaeal 16S rRNA genes and N-cycling genes (nirS, nosZ, nrfA, part of AOA and AOB amoA). On the other hand, only a few genes (16S rRNA and nrfA) showed higher transcriptional activities in oil-addition treatments. Results about relative changes of N-cycling genes revealed that the variations of N-cycling genes in oil-addition treatments were related to sediment types but not crude oil concentrations, and the genes in HB were more sensitive to crude oil than SY. Network analysis of N-cycling genes found that crude oil decreased the complexity of N-cycling gene networks in SY, while increased complexity in HB, and led to more competition among N-cycling microbes. Our findings help to look into the effects of crude oil on key N-cycling processes, and improve the understanding of the interactions among N-cycling under crude oil contamination.
Feifei L, Lyujun C, Weidong C, Yingyu B, Yuhan Z, Bei H, Qinglin M, Donghui W, Chuanping F. Antibiotics in coastal water and sediments of the East China Sea: Distribution, ecological risk assessment and indicators screening. Marine Pollution Bulletin [Internet]. 2020;151:110810. 访问链接
Tianjiao D, Yanan Z, Daliang N, Bei H, Qinglin M, Yunfeng Y, Donghui W. Dynamics of coastal bacterial community average ribosomal RNA operon copy number reflect its response and sensitivity to ammonium and phosphate. Environmental Pollution [Internet]. 2020:113971. 访问链接
Zhiguo S, Aolin L, Jiayu C, Bei H, Qinglin M, Lyujun C, Donghui W. Wastewater discharge drives ARGs spread in the coastal area: A case study in Hangzhou Bay, China. Marine Pollution Bulletin [Internet]. 2020;151:110856. 访问链接
2019
熊富忠, 赵小希, 温东辉, 李琪琳. 一株吡啶降解菌Pseudomonas sp. ZX08的生物膜形成特性及影响因素. 微生物学通报 [Internet]. 2019. 访问链接AbstractPKU 
【背景】 煤化工企业排放的废水中含有大量难降解、高毒性的有机污染物,采用以高效降解菌为基础的生物强化技术对其进行处理,是一种经济可行的策略;而促进高效降解菌在载体材料表面的生物膜形成,有助于提升生物膜法废水处理系统的效能。【目的】 探究一株吡啶高效降解菌 Pseudomonas sp.ZX08 的生物膜形成过程和特性,识别不同的环境因子如温度、 pH、 Na+、 K+、Ca2+、 Mg2+等对其生物膜形成的影响规律,为实现人工调控其在实际废水处理系统中的成膜过程提供理论依据。【方法】 采用改良的微孔板生物膜培养与定量方法,以单因子影响实验测定不同条件下菌株在 12 孔板内的生物膜形成量和浮游态细菌量;采用激光共聚焦显微镜(confocal laser scanning microscope,CLSM)观察和分析生物膜的结构特征。【结果】 Pseudomonas sp. ZX08 菌株具有良好的吡啶降解性能,且生物膜形成能力较强, CLSM 观察到其在载体表面形成的生物膜可达到 40-50 mm;生物膜外层的活细胞比例更高,分泌的胞外蛋白也更多。 ZX08 菌株的生物膜形成量具有明显的周期性变化特征, 12 h、48 h 的生物膜量是相对峰值。 ZX08 生物膜形成的最适温度是 25 °C,最适 pH范围是 7.0-9.0;较高浓度的 NaCl (>0.6 mol/L)和 KCl (>0.4 mol/L)均对 ZX08的生物膜形成有显著的抑制作用;一定范围内(0-16 mmol/L) Ca2+浓度的提高可以促进 ZX08 在 12 孔板底部固-液界面生物膜的形成,浓度更高时则显著抑制生物膜的形成;一定范围内(0-16 mmol/L) Mg2+浓度的提高对 ZX08 生物膜形成有促进作用,但促进幅度不大。【结论】 吡啶降解菌 Pseudomonas sp. ZX08 的生物膜形成能力较强,未来在实际废水处理系统中应用时需要综合考虑各种环境因子对其生物膜形成的影响。
赵小希, 熊富忠, 温东辉, 李琪琳. 多株吡啶高效降解菌的降解性能与生物膜形成特性的研究. 北京大学学报 [Internet]. 2019;55(06):1129-1140. 访问链接AbstractPKU 
以吡啶为目标污染物,考察从焦化废水处理系统中分离的12株高效吡啶降解菌对吡啶的降解性能和生物膜形成特性,以期为在废水处理系统中构建降解型生物膜提供理论参考。结果表明:12株菌都具有较高的吡啶降解活性,其中代表性菌株Pseudomonas sp.ZX01和Arthrobacter sp.ZX07降解吡啶的最适温度是35°C,最适pH是7.0,在初始吡啶浓度为100~2000 mg/L的范围内,降解率均达到100%。不同菌株的生物膜形成能力差异明显,胞外蛋白分泌量、胞外多糖分泌量和由鞭毛参与的游动能力与各株菌的生物膜形成能力之间存在显著的正相关关系。 
Zheng Y, Su Z, Dai T, Li F, Huang B, Mu Q, Feng C, Wen D. Identifying human-induced influence on microbial community: A comparative study in the effluent-receiving areas in Hangzhou Bay. Frontiers of Environmental Science & Engineering [Internet]. 2019;13(9). 访问链接Abstract
Microbial community structure is affected by both natural processes and human activities. In coastal area, anthropegenetic activity can usually lead to the discharge of the effluent from wastewater treatment plant (WWTP) to sea, and thus the water quality chronically turns worse and marine ecosystem becomes unhealthy. Microorganisms play key roles in pollutants degradation and ecological restoration; however, there are few studies about how the WWTP effluent disposal influences coastal microbial communities. In this study, sediment samples were collected from two WWTP effluent-receiving areas (abbreviated as JX and SY) in Hangzhou Bay. First, based on the high-throughput sequencing of 16S rRNA gene, microbial community structure was analyzed. Secondly, several statistical analyses were conducted to reveal the microbial community characteristics in response to the effluent disposal. Using PCoA, the significant difference of in microbial community structure was determined between JX and SY; using RDA, water COD and temperature, and sediment available phosphate and ammonia nitrogen were identified as the key environmental factors for the community difference; using LDA effect size analysis, the most distinctive microbes were found and their correlations with environmental factors were investigated; and according to detrended beta-nearest-taxon-index, the sediment microbial communities were found to follow “niche theory”. An interesting and important finding was that in SY that received more and toxic COD, many distinctive microbes were related to the groups that were capable of degrading toxic organic pollutants. This study provides a clear illustration of eco-environmental deterioration under the long-term human pressure from the view of microbial ecology.
Tang Y, Dai T, Su Z, Hasegawa K, Tian J, Chen L, Wen D. A Tripartite Microbial-Environment Network Indicates How Crucial Microbes Influence the Microbial Community Ecology. Microbial Ecology [Internet]. 2019. 访问链接Abstract
Current technologies could identify the abundance and functions of specific microbes, and evaluate their individual effects on microbial ecology. However, these microbes interact with each other, as well as environmental factors, in the form of complex network. Determination of their combined ecological influences remains a challenge. In this study, we developed a tripartite microbial-environment network (TMEN) analysis method that integrates microbial abundance, metabolic function, and environmental data as a tripartite network to investigate the combined ecological effects of microbes. Applying TMEN to analyzing the microbial-environment community structure in the sediments of Hangzhou Bay, one of the most seriously polluted coastal areas in China, we found that microbes were well-organized into 4 bacterial communities and 9 archaeal communities. The total organic carbon, sulfate, chemical oxygen demand, salinity, and nitrogen-related indexes were detected as crucial environmental factors in the microbial-environmental network. With close interactions with these environmental factors, Nitrospirales and Methanimicrococcu were identified as hub microbes with connection advantage. Our TMEN method could close the gap between lack of efficient statistical and computational approaches and the booming of large-scale microbial genomic and environmental data. Based on TMEN, we discovered a potential microbial ecological mechanism that crucial species with significant influence on the microbial community ecology would possess one or two of the community advantages for enhancing their ecological status and essentiality, including abundance advantage and connection advantage.
Chen J, Su Z, Dai T, Huang B, Mu Q, Zhang Y, Wen D. Occurrence and distribution of antibiotic resistance genes in the sediments of the East China Sea bays. Journal of Environmental Sciences [Internet]. 2019;81:156-167. 访问链接Abstract
The coastal area of the East China Sea has experienced rapid urbanization and industrialization in China since 1980s, resulting in severe pollution of its environments. Antibiotic resistance genes (ARGs) are regarded as a kind of emerging pollutant with potential high risk. The sediment samples were collected from Hangzhou Bay (HB), Xiangshan Bay (XB), and Taizhou Bay (TB) to investigate the spatial occurrence and distribution of 27 ARGs and class I integron–integrase gene (intI1) in the coastal area of the East China Sea. The PCR results showed the frequent presence of 11 ARGs and intI1 in the sediments of the three bays. The qPCR results further showed that sulfonamide resistance was the most prevalent ARG type and antibiotic target replacement and protection were the most important resistance mechanisms in the sediments. Regarding the subtype of ARGs, sulI, tetW, and dfrA13 were the most abundant ARGs, in which sulI was higher in TB (based on both the absolute and relative abundances) and dfrA13 was higher in HB (based on the relative abundances). The network analysis revealed that intI1 had significant correlations with tetC, sulI, sulII, and blaPSE-1. Oil was the key connected factor, which had positive connections with sulI, sulII, and blaPSE-1. In addition, the joint effect of heavy metals and nutrients & organic pollutants might be crucial for the fate of ARGs in the coastal sediments.
2018
Dai T, Zhang Y, Ning D, Su Z, Tang Y, Huang B, Mu Q, Wen D. Dynamics of Sediment Microbial Functional Capacity and Community Interaction Networks in an Urbanized Coastal Estuary. Frontiers in Microbiology [Internet]. 2018. 访问链接Abstract
Coastal estuaries and bays are exposed to both natural and anthropogenic environmental changes, inflicting intensive stress on the microbial communities inhabiting these areas. However, it remains unclear how microbial community diversity and their eco-functions are affected by anthropogenic disturbances rather than natural environmental changes. Here, we explored sediment microbial functional genes dynamics and community interaction networks in Hangzhou Bay (HZB), one of the most severely polluted bays on China’s eastern coast. The results indicated key microbial functional gene categories, including N, P, S, and aromatic compound metabolism, and stress response, displayed significant spatial dynamics along environmental gradients. Sensitive feedbacks of key functional gene categories to N and P pollutants demonstrated potential impacts of human-induced seawater pollutants to microbial functional capacity. Seawater ammonia and dissolved inorganic nitrogen (DIN) was identified as primary drivers in selecting adaptive populations and varying community composition. Network analysis revealed distinct modules that were stimulated in inner or outer bay. Importantly, the network keystone species, which played a fundamental role in community interactions, were strongly affected by N-pollutants. Our results provide a systematic understanding of the microbial compositional and functional dynamics in an urbanized coastal estuary, and highlighted the impact of human activities on these communities.
Li A, Chen L, Zhang Y, Tao Y, Xie H, Li S, Sun W, Pan J, He Z, Mai C, et al. Occurrence and distribution of antibiotic resistance genes in the sediments of drinking water sources, urban rivers, and coastal areas in Zhuhai, China. Environmental Science and Pollution Research [Internet]. 2018;25(26):26209-26217. 访问链接Abstract
Antibiotic resistance genes (ARGs) are regarded as emerging contaminants related with human activities. Aquatic environments of an urban city are apt for the persistence and prevalence of ARGs. In this study, we investigated the occurrence and distribution of ARGs and integrase genes in the sediment samples collected from drinking water sources, urban rivers, and coastal areas of Zhuhai, China, in the dry and wet seasons of 2016. The results show that sulfonamide resistance gene of sulII was present at the highest detection frequency (85.71%); and its average concentrations were also the highest in both dry and wet seasons (3.78×107 and 9.04×107 copies/g sediment, respectively), followed by tetC, tetO, tetA, ermB, dfrA1, and blaPSE-1. Temporally, the concentrations of total ARGs in the wet season were likely higher than those in the dry season; and spatially, the concentrations of total ARGs in the drinking water sources were substantially lower than those in the urban rivers and nearby coastal areas, indicating the different degrees of anthropogenic impact and consequent health risks. Positive correlations were found between intI1 and each quantitative ARG in all wet season samples rather than dry season samples, which suggested higher temperature and more rain in summer might have positive influences on ARG dissemination, especially that mediated by intI1 gene and class I integrons.
Su Z, Dai T, Tang Y, Tao Y, Huang B, Mu Q, Wen D. Sediment bacterial community structures and their predicted functions implied the impacts from natural processes and anthropogenic activities in coastal area. Marine Pollution Bulletin [Internet]. 2018;131:481-495. 访问链接Abstract
Coastal ecosystem structures and functions are changing under natural and anthropogenic influences. In this study, surface sediment samples were collected from disturbed zone (DZ), near estuary zone (NEZ), and far estuary zone (FEZ) of Hangzhou Bay, one of the most seriously polluted bays in China. The bacterial community structures and predicted functions varied significantly in different zones. Firmicutes were found most abundantly in DZ, highlighting the impacts of anthropogenic activities. Sediment total phosphorus was most influential on the bacterial community structures. Predicted by PICRUSt analysis, DZ significantly exceeded FEZ and NEZ in the subcategory of Xenobiotics Biodegradation and Metabolism; and DZ enriched all the nitrate reduction related genes, except nrfA gene. Seawater salinity and inorganic nitrogen, respectively as the representative natural and anthropogenic factor, performed exact-oppositely in nitrogen metabolism functions. The changes of bacterial community compositions and predicted functions provide a new insight into human-induced pollution impacts on coastal ecosystem.
李奥林, 陈吕军, 张衍, 代天娇, 田金平, 刘锐, 温东辉. 抗生素抗性基因在两级废水处理系统中的分布和去除. 环境科学 [Internet]. 2018;39(10):4593-4600. 访问链接AbstractPKU 
废水处理系统被认为是水环境中抗生素抗性基因(ARGs)的重要污染源.为探究ARGs在废水处理系统中的分布特征和去除情况,选取某精细化工园区内的制药废水处理系统和园区综合性废水处理系统,使用PCR和实时荧光定量PCR对不同处理单元中ARGs的存在情况和丰度变化进行研究.在两个系统进水中分别检出了10种和15种ARGs,其中以四环素类和磺胺类ARGs居多,并首次检出了dfrA13基因.进水中sulⅠsulⅡ基因的丰度最高,随后依次是dfrA13tetQfloRtetOtetW基因.制药废水处理系统使总ARGs浓度上升了0.21个数量级,出水汇入园区综合性废水处理系统再次处理,其对综合性废水处理系统进水中总ARGs的贡献率为5.05%.综合性废水处理系统使总ARGs浓度下降了1.03个数量级,残留ARGs同最终出水一起直接排海,对近海环境中微生物群落的潜在影响有待深入研究.
熊富忠, 赵小希, 廖胤皓, 温东辉, 李琪琳. 材料表面特征对生物膜形成的影响及其应用. 微生物学通报 [Internet]. 2018;45(1):155-165. 访问链接AbstractPKU 
生物膜是微生物细胞粘附于材料表面的群体性生长方式。在实践应用中,有目的地调控微生物在材料表面的成膜进程具有重要意义。本文概述了生物膜在材料表面的形成机制及其影响因素,综述了材料表面的电荷特征、亲疏水性、形貌模式和功能性化学修饰等物化特性对细胞粘附和生物膜形成的影响,并介绍了目前在不同实际应用场景中抑制成膜和促进成膜材料的研发现状。

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