污泥堆腐过程中腐殖酸组分及结构变化特征

污泥是污水处理过程中的副产物,含有重金属、有机污染物、病原菌和寄生虫卵等有毒有害物质。为了明确堆腐对污泥中腐殖酸的影响,本研究在污泥∶草炭∶稻草=3∶1∶2(干重比)和55%含水量条件下,开展了为期30 d的堆腐试验。采用紫外光谱仪、红外光谱仪等仪器手段,研究了污泥堆腐过程中腐殖酸组成及结构变化。结果表明,污泥堆腐过程中腐殖酸含碳量呈先下降后上升的变化规律,但变幅较小;胡敏酸含碳量由23.5 g·kg^(-1)逐渐增至51.4 g·kg^(-1),增幅为118.9%;而富里酸碳含量则由46.1 g·kg^(-1)逐渐降至20.8 g·kg^(-1),降幅为54.8%。紫外光谱表明,堆腐过程中胡敏酸和富里酸的最大吸收峰位置没有发生明显变化,但峰形变宽,E_(465)/E_(665)值降低;傅立叶变换红外光谱表明,堆腐前后胡敏酸和富里酸特征吸收峰位置比较相近,但某些官能团的强度发生改变,堆腐后胡敏酸和富里酸的芳构化和腐殖化程度提高。

新时期广播电视播音主持的发展趋势及艺术创新

随着科学技术的进步,我国广播电视进入了新的发展时期,网络媒体、融合媒体不断充斥着媒体市场,对传统广播电视媒体的发展造成了巨大的冲击,严重影响着广播电视媒体的持续发展。而广播电视播音主持人是广播电视传媒中的重要组成部分,对广播电视传播的影响力与收视率产生重要作用,为此,在新的媒体行业发展阶段,广播电视播音主持应重新定位,结合时代发展期趋势明确自身的发展方向,并不断创新播音主持方式与方法,提升广播电视在媒体行业的竞争实力。

蚯蚓粪和活性污泥浸提液对马铃薯致病菌的抑制作用

为探究有机废弃物蚯蚓粪和活性污泥浸提液对马铃薯致病菌立枯丝核菌(Rhizoctonia solani)和尖孢镰刀菌(Fusarium oxysporum)的抑制作用,该研究采用皿内生长速率法测定了蚯蚓粪和活性污泥浸提液及二者混和液的抑菌作用,并通过盆栽试验分析了它们对马铃薯促生抑病效果。结果表明,蚯蚓粪和活性污泥浸提液对立枯丝核菌和尖孢镰刀菌均有显著的抑制作用,浸提液的100倍稀释液对立枯丝核菌抑制作用分别可高达78.3%和98.8%,对尖孢镰刀菌的抑制作用分别为60.1%和75.8%;2种废弃物浸提液混合后具有协同增效作用,混合液稀释1000倍后,对立枯丝核菌的抑制率为98.6%,对尖孢镰刀菌的抑制率为72.6%。将有机废弃物浸提液高温灭菌后,对病原菌抑制效果极大的下降,与空白对照相比相差较小。盆栽试验结果表明,蚯蚓粪和活性污泥的浸提液能有效防治马铃薯茎溃疡病,2种浸提液1∶1混合稀释200倍后,防治效率高达69.0%。而且蚯蚓粪和活性污泥浸提液灌根施用能促进马铃薯幼苗的生长,浸提液1∶1混合稀释200倍后施用,与对照相比株高增长了56.8%。综上,有机废弃物蚯蚓粪和活性污泥浸提液对马铃薯致病菌具有显著抑制效果,2种废弃物浸提液混合施用对马铃薯茎溃疡病的防治有协同增效作用。

海南橡胶树炭疽菌Colletotrichum siamense和C. fructicola的鉴定及系统发育分析

橡胶树炭疽病是橡胶树上一种重要叶部病害,胶孢炭疽菌复合群为我国橡胶树炭疽病的重要病原菌,但至今未知具体是由复合群下哪些种引起。为了对前期已经确定为属于胶孢炭疽菌复合群的来自海南13株胶孢炭疽菌进行进一步种属鉴定,本研究继续克隆了供试菌株的Ap Mat和GS 2个基因,并分别采用Ap MAT单基因、GS/Ap MAT双基因和采用ITS/CHS-1/GAPDH/ACT/GS/Ap MAT 6个基因的多基因拼接序列分别进行分析。结果表明:无论是采用Ap Mat单基因、GS/Ap Mat双基因还是6基因拼接序列,都能将供试的13株炭疽菌分属胶孢炭疽菌复合群下的C.siamense和C.fructicola 2个种。该结果说明危害海南橡胶树炭疽病的胶孢炭疽菌复合群主要有C.siamense和C.fructicola 2个种,同时也说明了利用Ap MAT基因和GS/Ap MAT双基因能对胶孢炭疽菌复合群下的种进行鉴定。

Green Electrospun Silk Fibroin/Galactose Chitosan Composite Nanofibrous Scaffolds for Hepatic Tissue Engineering

The electrospun nanofibrous scaffolds made of proteins and polysaccharides were thought to be able to simulate the structure of natural extracellular matrix well.Silk fibroin(SF)and chitosan(CS)are probably the most widely used natural materials in biomedical fields including liver tissue engineering for their good properties and wide variety of sources.The asialoglycoprotein receptors of hepatocyte were reported to specifically recognize and interact with galactose.In this work,a green electrospun SF/galactosylated chitosan(GC)composite nanofibrous scaffold was fabricated and characterized.The data indicated that the addition of GC greatly influenced the spinning effect of SF aqueous solution,and the average diameter of the composite nanofibers was about 520nm.Moreover,the green electrospun SF/GC nanofibrous scaffolds were demonstrated significantly enhancing the adhesion and proliferation of hepatocyte(RH35)according to our data.The present study did a useful exploration on constructing scaffolds for liver regeneration by green electrospinning,and also laid a good foundation for the further applicative research of this green electrospun scaffolds in liver tissue engineering.

Ethosomes-Silk Fibroin/Polyvinyl Alcohol Composite Hydrogel Transdermal Drug Delivery System : Preparation and Characterization

One key of constructing ideal transdermal drug delivery system(TDDS)is enhancing the percutaneous rate of drugs without sacrificing compatibility.Ethosomes(Eths)have excellent transdermal performance as well as good biocompatibility,and thus been widely used as drug carrier.Hydrogel has good 3-dimensional mesh structure which is convenience for drugs release and storage.In this study,Eths were introduced into silk fibroin(SF)/polyvinyl alcohol(PVA)composite hydrogel to construct a novel TDDS through a green process.The Ethsomes(Eths)-SF/PVA composite hydrogel TDDS showed good mechanical properties(stress:(0.236±0.032)MPa;strain:(65.74±2.45)%).Also,skin fibroblasts can grow and proliferate well on this TDDS,indicating that this material has a good cytocompatibility.Furthermore,with doxorubicin hydrochloride(Dox)as a model drug loaded in ethosomes,in vitro studies showed that this TDDS was able to transdermally release Dox efficiently.Our data suggested this novel system had a good potential for application in TDD,though further evaluative study still needed to carry out.

哈茨木霉VT9-3r和枯草芽孢杆菌VT4-1x对3株马铃薯致病菌的抑制作用效果

为探明生防菌哈茨木霉(Trichoderma harzianum)VT9-3r和枯草芽孢杆菌(Bacillus subtilis)VT4-1x对马铃薯致病菌Rhizoctonia solani、Fusarium oxysporum、Alternaria solani的抑制作用,采用对峙培养确定生防菌株抑菌作用,利用扫描电镜观察生防菌株对病原菌菌丝生长的影响,并采用盆栽试验分析其对由R.solani引起的马铃薯黑痣病的防效。结果表明:T.harzianum VT9-3r和B.subtilis VT4-1x能有效抑制3株病原菌的生长;B.subtilis的菌体和代谢物质都具有抑制作用,拮抗抑菌率由大到小依次为A.solani(55.4%)>R.solani(51.3%)>F.oxysporum(48.1%),无菌代谢液对病原菌的抑制率随着浓度升高而增强;扫描电镜观察发现T.harzianum通过竞争和重寄生作用抑制病原菌,拮抗抑菌率F.oxysporum(64.0%)>R.solani(63.6%)>A.solani(60.2%),其无菌代谢液抑菌效果则较差;盆栽试验表明2种生防菌剂处理后,均能显著防治R.solani引起的马铃薯黑痣病,且使用两菌剂以1∶1体积比复合处理后,防效高达81.5%。综上,哈茨木霉主要通过重寄生、枯草芽孢杆菌通过拮抗机制抑制马铃薯致病菌,2种不同抑菌机制的菌剂复配施用能更有效防治马铃薯黑痣病。