共查询到19条相似文献,搜索用时 125 毫秒
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食用菌生产新技术——液体深层发酵 总被引:1,自引:0,他引:1
食用菌的人工培养自古以来都是采用固体栽培获得子实体。50年代Szuecs J用大型发酵罐进行液体深层发酵,培养羊肚菌的菌丝体获得成功。自此以后液体发酵的食用菌产品不断问世。60年代末,我国应用于临床的灵芝糖浆,就是采用液体深层发酵方法的首例。至今,我国已报导液体深层发 相似文献
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为了开发利用鸡树条荚蒾这一潜在的民间药用植物资源,采用GC-MS方法对鸡树条荚蒾叶石油醚部分的化学成分进行了分析。经毛细管色谱柱分析分离出56个峰,共确认出其中48种成分;应用色谱峰面积归一法分析各成分的相对含量,含量较高的物质有3-甲基丁酸(40.50%)、2-甲基丁酸(14.49%)、邻苯二甲酸丁基异丁基酯(10.28%)、棕榈酸(6.02%)、α-亚麻酸(4.58%)、β-谷甾醇(3.02%)等,化合物类型主要为脂肪酸、烷烃、脂肪醇、酯类、甾醇类化合物。该方法简便可靠、快速、重现性好,并为鸡树条荚艹迷叶的化学成分研究提供了参考依据。 相似文献
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猕猴桃软腐病的发生规律与防治初探 总被引:1,自引:0,他引:1
猕猴桃(Kiwifruit)软腐病是由Botryosphaeria sp.和Phomopsis sp.两种病原菌侵染造成的.病菌以菌丝体、分生孢子和子囊壳在枯枝、果梗上越冬,越冬后的菌丝体分生孢子器至翌年春恢复活动,4-6月生成孢子,成为初侵染源,6-8月大量散发.通过室内药效测定和野外药剂防治猕猴桃软腐病的试验表明,药效依次是多菌灵、抗菌素402、退菌特、抗菌素401、波尔多液. 相似文献
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灵芝(Ganodermalucidum),又名神芝、芝草,是我国传统药用真菌。现代医学研究证明,灵芝有降低血压和血脂、抗血栓形成、防止动脉硬化、调节神经机能、提高免疫力、延缓衰老等作用。除药用外,灵芝还以其优美多姿的形态和鲜艳夺目的色彩而具有较高的观赏价值。本研究从配料方法着手,通过生长势和栽培试验,探讨了灵芝的高产栽培技术。供试菌种引自日本群马县桐生市森产业株市会社。l试验方法l·l生长势试验试验分6组,以阔叶树木屑为基础培养物,在木屑中分别加入30%、20%、10%的麦茨、米糠、玉米粉、油粕、混合饲料。加入麦款的为A组,根据… 相似文献
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黄山贡菊有效成分的定性分析 总被引:4,自引:0,他引:4
黄山贡菊主产于安徽省歙县,具有显著的医疗保健作用.采用水提取法、醇提取法和酸性醇液提取法对黄山贡菊的化学成分进行了提取,并做了全面的定性鉴定试验.实验结果表明,黄山贡菊中含有较丰富的蛋白质、氨基酸、糖类、生物碱等物质和少量的挥发油、酚类物质,而蒽醌类、香豆素类、甾体三萜类、皂甙类含量极少,实验鉴定呈阴性. 相似文献
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以某典型城市生活垃圾焚烧飞灰为研究对象,采用X射线荧光光谱仪(XRF)、X射线衍射仪(XRD)和电感耦合等离子体光谱仪(ICP)测定了焚烧飞灰的主要成分、矿物学组成和重金属含量,探讨了湿法预处理工艺对飞灰的化学组成、矿物学形态、化学形态及风险水平的影响.结果表明,飞灰的主要化学组成为O、Ca、Cl、Na、K等,占飞灰总质量的93.54%,其次含有0.04% ~0.68%的Zn、Pb、Cu、Cr等微量重金属元素;经过湿法预处理,飞灰中可溶性氯盐具有较好的去除效果,且几乎所有重金属元素的不稳定形态(弱酸提取态和可还原态)比例都有一定程度的减少,有效降低了重金属的毒性、生物有效性及环境风险水平.本研究有助于降低焚烧飞灰的环境风险和探寻其资源化的有效途径. 相似文献
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S. L. Holmberg T. Claesson M. Abul-Milh B. -M. Steenari 《Resources, Conservation and Recycling》2003,38(4):3071
At the district heating plant of Kalmar, Sweden an on-line unit for production of granulated wood ash for nutrient recycling on forest soils is being applied. Currently, the granules are dried by hot air from an oil-fired burner. The objective of this work was to investigate how drying by flue gas affects the hardening of granules, or impacts their chemical composition and properties. Ninety-six granule samples were treated by flue gas from natural gas combustion in a laboratory pilot scale flue gas generator. CO2, CO, O2, C3H8 and NO concentrations were varied during the experiment. Additionally, some samples were treated by flue gas from combustion of sawdust at the heating plant in Kalmar. Drying by flue gases did not affect the chemical composition of granules, but minor effects were seen in their mineralogy. The carbonate content was slightly higher in granules treated with flue gas from natural gas combustion compared to the granules dried by hot air only, when measured by wet chemical methods. Results from XRD analysis imply that the calcite content is higher and the portlandite and arcanite content slightly less in granules treated with flue gas from sawdust combustion compared to the granules dried by hot air only. The results from this investigation showed no negative effects on ash granule composition or physical structure by the use of a flue as a drying medium. 相似文献
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Holtzman R Shavit U Segal-Rozenhaimer M Gavrieli I Marei A Farber E Vengosh A 《Journal of environmental quality》2005,34(3):897-906
The flow rate of the Lower Jordan River has changed dramatically during the second half of the 20th century. The diversion of its major natural sources reduced its flow rate and led to drying events during the drought years of 2000 and 2001. Under these conditions of low flow rates, the potential influence of external sources on the river discharge and chemical composition became significant. Our measurements show that the concentrations of chloride, calcium, and sodium in the river water decrease along the first 20-km section, while sulfate and magnesium concentrations increase. These variations were addressed by a recent geochemical study, suggesting that ground water inflow plays a major role. To further examine the role of ground water, we applied mass-balance calculations, using detailed flow rate measurements, water samplings, and chemical analyses along the northern (upstream) part of the river. Our flow-rate measurements showed that the river base-flow during 2000 and 2001 was 500 to 1100 L s(-1), which is about 40 times lower than the historical flow rates. Our measurements and calculations indicate that ground water input was 20 to 80% of the river water flow, and 20 to 50% of its solute mass flow. This study independently identifies the composition of possible end-members. These end-members contain high sulfate concentration and have similar chemical characteristics as were found in agricultural drains and in the "saline" Yarmouk River. Future regional development plans that include the river flow rate and chemistry should consider the interactions between the river and its shallow ground water system. 相似文献
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P. H. Anderson M. W. Lefor W. C. Kennard 《Journal of the American Water Resources Association》1980,16(2):248-255
ABSTRACT: The delineation of inland wetlands requires close field examination of the biological and physical gradients (transition zones) between wetlands and bordering uplands. As part of a study on the detection and delineation of inland wetlands in eastern Connecticut by remote sensing techniques, this effort was designed to investigate vegetation distribution and composition and selected physical and chemical properties of the soils of wetland to upland transition zones in deciduous wetland forests. Field research was conducted during the growing season of 1975 within a test area consisting of the 45 mi2 Town of Mansfield, Connecticut. Changes in vegetation composition and structure, soil pH, and soil water content were determined along line transects extended over wetland to upland transition zones. Differences in soil pH occurred along the transects but were of such magnitude that they probably have little impact on plant distribution. There were significant changes in soil water content along the wetland to upland gradients. Discriminant analysis applied to statistical “index of abundance” data describing vegetation distribution among the various zones (wetland, transition, upland) showed which plant species best distinguish wetlands from uplands. Of the criteria studied, vegetation composition and distribution, soil water content, and relief are the most useful criteria for delineating deciduous wetland forests. 相似文献
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The present study focuses on the recycling of gneiss rock waste generated by the ornamental rock industry for manufacturing vitrified floor tile products. The gneiss rock waste came from a rock-cutting plant located in Santo Antônio de Pádua-RJ, Brazil. Initially the waste sample was characterized for chemical composition, X-ray diffraction, particle size, morphology, and pollution potential. Floor tiles containing up to 47.5 wt.% waste were prepared. The tiles were tested to determine their physical-mechanical properties (linear shrinkage, water absorption, apparent density, and flexural strength). Microstructural evolution was carried out by scanning electron microscopy. The results indicate that the gneiss rock waste could be used for vitrified floor tile production, resulting in a new possibility for recycling this waste and conserving natural resources. 相似文献
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Activated sludge floc from a wastewater treatment system was characterized, with regard to principal structural, chemical, and microbiological components and properties, in relation to contaminant-colloid associations and settling. Multiscale analytical microscopies, in conjunction with multimethod sample preparations, were used correlatively to characterize diverse colloidal matrices within microbial floc. Transmission electron microscopy, in conjunction with energy dispersive spectroscopy (EDS), revealed specific associations of contaminant heavy metals with individual bacterial cells and with extracellular polymeric substances (EPS). Floc structure was mapped from the level of gross morphology down to the nano-scale, and flocs were described with respect to settling properties, size, shape, density, porosity, bound water content, and EPS chemical composition; gross surface properties were also measured for correlation with principal floc features. Compartmentalization results based on 171 EDS analyses and representative high-resolution images showed that nano-scale agglomerations of (i) silver (100%) and (ii) zinc (91%) were confined almost entirely to EPS matrices while (iii) Pb (100%) was confined to intracellular granules and (iv) aluminum was partitioned between EPS matrices (41%) and intracellular matrices (59%). The results suggest that engineered changes in microbial physiology and/or in macromolecular EPS composition may influence metal removal efficiencies. 相似文献