Invasive alien plant species in China: regional distribution patterns

Plant invasions have been attracting increasing attention from ecologists because of their worldwide environmental impacts and huge economic costs. Research on the characteristics of the recipient regions is essential for understanding the process of plant invasion. However, few previous studies on invasibility of habitats include social factors, although human activities are critical in the process of plant invasion. China is a vast country with high plant species diversity and a long history of introduction of exotic plant species and is particularly vulnerable to invasive plant species. Alien plant species are widespread in the country. Therefore, the study of invasive plants in China is urgent in practice and theoretically important for developing invasion ecology. For the present study, 126 species were selected to represent the major invasive plant species in China. We then collected data on their species richness in 31 provincial administrative units of China and performed Spearman rank correlations between species richness and possible natural and socio‐economic factors. We found that socio‐economic factors, such as human density and GDP, correlated positively with the species richness of invasive plants in China. In conjunction with the natural and socio‐economic correlations in the study of regional distribution pattern of the major invasive plants, we discussed the factors influencing the regional distribution pattern of the major invasive plants in China. We suggest that native plant species richness was mainly determined by the natural conditions of the regions, while invasive species richness was influenced by natural conditions and human disturbance together.     

广西邦亮长臂猿自然保护区的鸟类

摘要：于2006年5月及2010年的1月、5月和9～ 10月,采用样线法和定点观察法,结合雾网法对邦亮自然保护区鸟类资源进行了调查。共记录到鸟类223种,隶属于14目49科,其中留鸟146种、夏候鸟40种、冬候鸟34种、旅鸟3种。区系分析表明,保护区鸟类具有典型的华南区区系特点和显著的北热带特征。保护区有国家Ⅱ级重点保...     

噬菌蛭弧菌噬菌斑的鉴别与纯化的研究

本文报告了使用１／５００营养肉汤双层琼脂培养基,在含有宿主菌及寄生菌混合物的软琼脂层中,蛭弧菌、变形虫及鞭毛虫等均可形成噬菌斑,但其大小、形态、扩展速度不同。鉴别方法除依据噬菌斑形态特征外,主要靠相差显微镜下的形态学观察。蛭弧菌的纯化用单斑传代,一个直径为１ｍｍ的噬菌斑含有约１０^５－６ｐｆｕ／ｍｌ（每毫升噬菌斑形成单位）。     

次磷酸钠的急性毒性研究

目的本研究旨在探讨次磷酸钠对小鼠经口的急性毒性作用,评价其安全性,为其在食品工业中的广泛应用提供理论依据;方法受试物采用经口灌胃途径,观察不同剂量组给予小鼠后的死亡率,并按照寇式法计算半数致死量;结果经实验结果统计,计算出次磷酸钠的LD50为7.67g/kg体重,95%置信区间上限是7.943g/kg体重,下限是6.166g/kg体重;结论按化学物经口急性毒性分级标准,次磷酸钠毒性为2级,属于实际无毒物质。     

低分子肝素对MPTP帕金森小鼠的治疗作用及可能机制

目的：研究1．甲基4-苯基-1,2,3,6-四氢吡啶（1-methy-4-phenyl-1,2,3,6-tetrahy-dropyridine,MPTP）帕金森病（PD）模型中小胶质细胞的激活情况,探讨低分子肝素对MPTP导致的小胶质细胞活化的抑制作用。方法：C57BL随机分成正常对照组、MPTP组、低分子肝素＋MPTP组。MPTP组腹腔注射MPTP（30mg／kgx7d）同时腹部皮下注射生理盐水,低分子肝素＋MPTP组在注射MPTP同时腹部皮下注射低分子肝素（1501U／kg·12hx7d）。各组于末次给药后予行为学测试,7d后免疫组化检测酪氨酸羟化酶（TyrosineHydroxylase,TH）阳性细胞。镀银染色观察小胶质细胞激活情况。结果：MPTP组较低分子肝素＋MPTP组爬竿时间明显延长,并出现更多非随意动作。低分子肝素＋MPTP组黑质部位TH阳性细胞数量高于MPTP组。MPTP组活化的小胶质细胞数量高于低分子肝素＋MPTP组。结论：低分子肝素通过抑制小胶质细胞的激活减少MPTP帕金森小鼠多巴胺能神经元的损伤,提示低分子肝素可能有延缓PD进程的作用。     

甘薯遗传作图策略研究与展望

甘薯分子遗传图谱的建立对甘薯分子育种技术体系的拓展和应用具有重要意义。当前,对甘薯分子遗传图谱的研究虽然取得一定的进展,但存在着很多技术瓶颈,如作图策略应用和优化等。总结了甘薯经典和分子遗传研究进展,剖析了甘薯分子遗传图谱作图的3种方法与策略;探讨和提出了提高甘薯作图效率和质量的途径主要是:优化作图群体质量、克服偏分离、整合多群体间遗传连锁图谱和选择合适的分子标记类型;并指出染色体关联在遗传作图中的重要性,提出甘薯分子育种领域亟待加强的方面,以期为今后甘薯精密分子图谱的建立及基于分子图谱的甘薯分子育种提供新的思路。     

绵羊红细胞的质量对静脉注射用人免疫球蛋白抗补体活性测定的影响

为了分析IVIG抗补体活性测定出现负值与绵羊红细胞质量的关系。采用CH50试验测定IVIG ACA时,在被检样品和其他试验条件相同的情况下,比较了被污染的和未污染的绵羊红细胞对IVIG抗补体活性测定的影响。结果显示,使用被污染的绵羊红细胞(作为试验材料时所得的)检测10份样品ACA(%)均为负值;使用未污染的绵羊红细胞未出现负值。提示被污染的绵羊红细胞干扰了抗补体活性测定,从而引起CH50试验结果出现偏差。     

低能离子束介导水稻遗传转化的研究进展

介绍了低能离子束介导遗传转化的原理,比较了离子束介导法与其他遗传转化方法的优缺点,重点对离子束介导水稻遗传转化的最新研究进展进行了评述,同时提出了问题和展望.     

阳离子诱导大叶藻叶绿体膜中激发能在PSⅡ和PSⅠ之间分配变化的机理(英文)

用Ｃａ２＋ 和胰酶处理大叶藻（Ｚｏｓｔｅｒａ ｍ ａｒｉｎａ）叶绿体膜研究了其类囊体膜多肽成分与Ｍｇ２＋ 诱导其Ｃｈｌａ荧光和类囊体膜表面电荷变化之间的相互关系,观察到：１．在正常的叶绿体膜中,Ｍｇ２＋ 诱导ＰＳⅡ荧光强度的增高与其诱导类囊体膜表面电荷密度的降低密切相关;２．用Ｃａ２＋ 处理这种叶绿体膜,除去类囊体膜表面的３２～３４ ｋＤ多肽对Ｍｇ２＋ 诱导的上述现象无影响;３．如果用胰酶消化Ｃａ２＋ 处理过的叶绿体膜,进一步除去膜表面的２６ ｋＤ多肽,Ｍｇ２＋诱导的这些现象则全部消失。这些实验结果清楚地表明,在大叶藻的叶绿体膜中,类囊体膜表面的２６ ｋＤ 多肽是阳离子诱导这两种相关现象的特异性作用部位。对阳离子调节激发能在ＰＳⅡ和ＰＳⅠ之间分配的机理进行了讨论     

奇异果甜蛋白及其基因工程

奇异果甜蛋白(thaumatin)是迄今为止最甜的物质之一,对其研究具有很重要的意义。奇异果甜蛋白的生化性质基本清楚,基因序列和氨基酸序列都已测定。它的甜味可能是由奇异果甜蛋白上特定基团和受体结合引起的。对奇异果甜蛋白的生理功能知之甚少。近二十年来,在奇异果甜蛋白的基因工程上取得了一定进展,但仍然存在许多困难。 Abstract:Thaumatin is one of the sweetest substances known to date,it is important to study the thaumatin.The biochemical properties of thaumatin have been clarified clearly.Thaumatin had been isolated and sequenced.The mechanism of the sweetness of thaumatin may be due to the combination of some special groups and the receptors.The exact function of thaumatin is still not clear.Although gene engineering of thaumatin has been carried out for 20 years,there are still some difficulties to be solved for using in the market.