银杏叶内酯的提取工艺

银杏树（GinkgoBiboba）又名白果树,为我国特有植物,素有“活化石”之称。银杏叶中含有的银杏苦内酯A、B、C（Ginkgolides）均系二萜类物质,其共同特征是含有多个五元环、三个内酯环和一个特丁基。近10年来,国外学者对银杏内酯的药理作用进行了广泛深人的研究,发现其对血小板活化因子（简称PAF）具有特殊的拮抗作用,而PAF是许多疾病发病的重要介质,因此,银杏苦内酯对治疗哮喘、心脑血管疾病和多种炎症有特殊的作用［1.2」。由于银杏叶中内酯含量极低,内酯的提取一直是一项较困难的工作。鉴于桂北地区是我国较大的银杏产地,为…     

银杏叶资源的开发利用

银杏叶资源的开发利用吴荭银杏（Ｇｉ，；ｈｏｂｉｏｌａｂａ）又名白果、公孙树，为裸子植物亚门银杏纲、银杏科单种属植物。该树为我国东部特有，现有天然分布仅见于浙江天目山及鄂西神龙架，１９８４年被正式列入国家二级保护植物。银杏树具有挺拔、深洒的树势和千年不...     

螺旋藻的有效成分与价值

随着21世纪的临近，人类正面临着人口不断增加，而资源却十分有限的矛盾，特别是人类的食物资源成为令人关注的问题。60年代，法国探险队在非洲乍得湖畔发现当地土著人在肉类、蔬菜等食物缺乏的情况下，其体魄强健而长寿·他们的主要食品之一就是捞取乍得湖中后来被命名为螺旋藻的藻体晾干后食用。此项发现引起了各国甚至联合国粮农组织（FAO）的关注。经过20多年的调查和研究，螺旋藻已被列为绿色功能性食品新资源，被FAO和世界食品协会誉为“人类未来最理想的食品”。14旋藻的营养成分幄施差昙的状膜施用而得欠，一部所指的用旋藻为钝…     

黄山贡菊有效成分的定性分析

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.     

蚕沙中叶黄素的提取研究

研究了从蚕沙中提取叶黄素的方法,并通过紫外线对叶黄素进行了表征研究。结果表明:利用95%乙醇在常温下提取16h,石油醚作为萃取剂,叶黄素的提取效果较好,产率为0.4%。     

丹参中化学成分的提取研究进展

丹参作为一种中药制剂,由于它的药理作用极其广泛,如心肌保护、扩张血管、抗动脉粥样硬化、抗血栓、改善微循环、调节组织修复和再生、抗菌消炎、抗肿瘤、抗氧化等作用,因此在临床上得到了广泛的应用。为进一步综合开发、合理利用丹参,依据近年来国内外的相关文献,综述了丹参化学成分的提取工艺研究进展。     

甘肃党参中蛋白质的提取分析

实验采用盐溶法提取甘肃党参中蛋白质,用饱和(NH4) 2SO4溶液进行分级盐析、透析、浓缩后用SDS- PAGE分析,测定不同提取液中主要蛋白质的分子量.结果表明,用pH为6.0的PB缓冲液提取并用饱和度在60％以上的(NH4)2SO4溶液盐析时蛋白提取效果最好;经SDS- PAGE电泳后,初步鉴定出所提取党参蛋白质亚基中最大分子量为68885Da,最小分子量为15570Da.     

超声波提取西兰花中叶黄素的工艺研究

以西兰花真空冻干粉为原料,探明了超声波强化四氢呋喃提取叶黄素的工艺条件。在确定适合提取料液比后,采用正交试验研究了超声波功率、提取温度、超声作用时间对提取量的影响。结果显示,较理想的提取条件为：超声波功率400W、提取温度40℃、超声波作用时间10min。在此条件下,叶黄素提取量最高。通过方差分析可知,温度影响达到0．05的显著水平。     

油菜籽粕中蛋白质的提取与分离研究

油菜籽粕中含有丰富的蛋白质，提取的方法也多种多样。比较了不同萃取剂以及同一萃取剂在不同条件下对油菜籽粕中蛋白质萃取率的影响，得出其最佳提取条件是：pH值为11．5、料液比为1：30、温度45℃、提取时间为2h。     

麻黄碱提取工艺废水中COD的溶解性

依据溶解性对麻黄碱提取工艺废水中COD作了分类,该废水中的COD主要以溶解态存在并可大量酸析。     

我国银杏种植业开发前景分析

本文根据我国银杏种植业的发展现状,分析了我国银杏种植业的开发前景     

不同溶剂的竹叶提取物抗氧化活性研究

采用石油醚、氯仿、乙醇和水作为提取溶剂,对竹叶提取物的抗氧化活性进行了研究,表明不同溶剂的竹叶提取物对羟自由基和超氧阴离子自由基具有一定的清除能力,且随着浓度的增大而增强。对羟自由基的清除能力大小依次为石油醚〉氯仿〉乙醇〉水,对超氧阴离子自由基清除能力大小依次为氯仿〉乙醇〉石油醚〉水,还原能力大小依次为石油醚〉氯仿〉水〉乙醇。     

峨眉山1998年雨水化学组成的动态变化

为了研究进入峨眉山地区污染物质的起源，从1998年4月开始在峨眉山22处设置了雨水采集点采集了雨水。本文介绍1998年峨眉山雨水化学组成随季节变化的特征。作者认为峨眉山一年中雨水可分为三期：中和期、清洁期和污染期。     

彩色合成法在新疆地表植被覆盖变化中的应用--以多时相NOAA-AVHRR影像为例

以NOAA—AVHRR遥感数据为基础，使用彩色合成法对新疆地表植被变化进行分析。结果证明，利用不同时相的NDVI影像进行彩色合成可以直观地反映地表植被的变化趋势，通过遥感软件对彩色图像处理，还可以对地表植被变化进行定量分析。     

柑橘皮中果胶提取条件的研究

利用酸性水解乙醇沉淀法提取果胶,分别测定了不同的浸泡时间、酸碱度及水解温度对果胶产率的影响.结果表明:浸泡时间与水解时间过长或过短,酸碱度及水解温度过高或过低,果胶的产率均不高,只有浸泡时间在2h左右、水解时间在2～2.5h、pH在2～3之间、水解温度在80～95℃时果胶的得率最大.     

区域理论大气环境容量研究

根据质量守恒原理,综合考虑迁移、扩散、干湿沉降、化学转化等因素,建立了区域理论大气环境容量模型——容量箱模型,对各参数的量化提出了计算式。在考虑自然保护区、风景名胜区等环境敏感区和地形陡峭的山坡不能布置工业企业的情况下,提出了可利用大气环境容量概念。并以乐山市北部地区为例,计算了该区域的SO2理论大气环境容量,为乐山市相关管理部门进行生产力布局提供了宏观导向。     

Grassland Plant Composition Alters Vehicular Disturbance Effects in Kansas,USA

Many “natural” areas are exposed to military or recreational off-road vehicles. The interactive effects of different types of vehicular disturbance on vegetation have rarely been examined, and it has been proposed that some vegetation types are less susceptible to vehicular disturbance than others. At Fort Riley, Kansas, we experimentally tested how different plant community types changed after disturbance from an M1A1 Abrams tank driven at different speeds and turning angles during different seasons. The greatest vegetation change was observed because of driving in the spring in wet soils and the interaction of turning while driving fast (vegetation change was measured with Bray-Curtis dissimilarity). We found that less vegetation change occurred in communities with high amounts of native prairie vegetation than in communities with high amounts of introduced C₃ grasses, which is the first experimental evidence we are aware of that suggests plant communities dominated by introduced C₃ grasses changed more because of vehicular disturbance than communities dominated by native prairie grasses. We also found that vegetation changed linearly with vehicular disturbance intensity, suggesting that at least initially there was no catastrophic shift in vegetation beyond a certain disturbance intensity threshold. Overall, the intensity of vehicular disturbance appeared to play the greatest role in vegetation change, but the plant community type also played a strong role and this should be considered in land use planning. The reasons for greater vegetation change in introduced C₃ grass dominated areas deserve further study.     

土壤锑污染对桑树的影响初探

运用盆栽实验和实验分析方法,研究了土壤锑(Sb)污染对桑叶品质的影响,揭示了桑树对土壤锑的耐性机制。在土壤中分别添加三价锑15mg/kg、40mg/kg、80mg/kg、120mg/kg、160mg/kg和300mg/kg,以植物生长指标及生理指标为测试指标,实验周期60d。实验结果表明,低浓度Sb处理(<40mg/kg)对桑树生长有促进作用;随着土壤Sb浓度增高(40—300mg/kg),它对桑树产生抑制效应。但当土壤锑浓度不超过160mg/kg时,桑树对土壤锑污染有一定的耐性,其耐性指数>0.8。土壤锑污染对桑叶叶绿素含量、淀粉含量和可溶性糖含量影响不显著,桑叶中的锑含量随土壤锑含量的增加而增多。     

区域土地利用方式变化对土壤性质影响研究——以土壤钾为例

选取经济发达区原锡山市作为研究区域,以1982年和2005年土壤速效钾作为研究对象,分析探讨不同时空状态下区域土地利用变化对土壤钾含量的影响,以期获得较长时空条件下土壤质量对土地利用变化的响应。20年来,通过统计分析和独立样本t检验表明,原锡山市土壤速效钾含量增加了36.9mg/kg。变异函数分析表明,土壤速效钾的变异函数理论模型呈指数型,块金方差与基台值的比值、自相关阀值发生较大变化。kriging插值分析结果表明,土壤速效钾空间分布较简单,但空间变异明显。     

Effects of Forest Composition and Spatial Patterns on Storm Flows of a Small Watershed1

Abstract: The PRMS_Storm model was built as a storm event, distributed hydrological model for studying the hydrological effects of forest composition and spatial distribution on storm‐flow volume and peakflow rates in the Xiangshuixi Watershed in the Three Gorges Reservoir Area, in the Yangtze River Basin in southwestern China. We developed three simulation scenarios based on forest composition and their spatial arrangements across the watershed, including all mixed conifer‐evergreen broadleaf forests (Scenario 1), all mixed evergreen broadleaf forests (Scenario 2), and mixed conifer + evergreen broadleaf + shrub forests (Scenario 3). We examined 11 storm events observed during 2002‐2005. Compared with the existing forest covers, modeling results suggested that the amount of overland flow was reduced by 21, 23, and 22%, and the interflow increased by 16, 88, and 30%, for Scenarios 1, 2, and 3, respectively. During the same time, peakflow rates were reduced by 20.8, 9.6, and 18.9%, respectively. The reduction of peakflow rates was most significant when rainfall intensity exceeded 0.8 mm/min and events with a short duration and effect was minor when rainfall intensity was below 0.5 mm/min. In general, we found that Scenarios 1 and 3 were preferred for reducing storm‐flow volume and peakflow rates due to their higher interception rates, large soil water holding capacity, and higher soil infiltration capacity. The modeled results suggested soil properties are important in affecting the flow processes and thus forest composition and forest spatial distributions will affect storm‐flow volume and peakflow rates at the watershed scale. To maximize flood reduction functions of a watershed, high priority should be given to those forest types (Scenarios 1 and 3) in reforestation practices in the study region. This study suggests both forest composition and spatial pattern are important reforestation designs for flood reduction in the Three Gorges Reservoir Area.