试用夹竹桃颗粒剂杀灭钉螺初报

利用某些植物有效成分对钉螺的毒杀作用进行灭螺 ,可有效地减轻化学药物灭螺方法对环境的污染和对人畜的毒害。现有利用植物灭螺的方法 ,一般是采用提取植物有效成分或利用植物浸出液杀灭钉螺[1、3] 。本文研制了一种目前尚未见报导的利用夹竹桃 (Ｎｅｒｉｕｍｉｎｄｉｃｕｍ)粉碎物和淀粉、明胶等配合制成的植物颗粒灭螺剂 ,用于灭螺实验取得了较满意的效果 ,为利用植物灭螺提供了一种新的方法和思路。1　材料与方法1 1　供试材料　夹竹桃叶 ,淀粉 ,明胶 ,钉螺。1 2　材料的处理( 1 )材料的处理和配合　将夹竹桃叶烘干磨粉并用 60目纱网…     

中国灭螺技术的研究进展

本文就我国在化学药物灭螺、环境改造灭螺、利用食螺动物和靶螺竞争生物灭螺及植物灭螺的研究进展进行了综述,以期为灭螺技术的开发和应用提供依据.     

论滩地灭螺林的概念与应用

根据“兴林灭螺”产生背景,发展现状和重要影响,阐述滩地灭螺林与其他林种之间的区别,滩地灭螺林除具有灭螺防病的功能之外,还有其特殊的地理环境,特定的树咎构成,特异的营造技术和林相结构;总结滩地灭螺林的经营原则是超强度集约经营,短周期经营,规模经营和综合经营,因此滩地灭螺林在林业生产中应划分为一个新的林种,提出长江中下游沿江地区新的林种结构是滩地灭螺林、防护林,经济林与景观游憩林,并就如何加快发展滩地     

灭钉螺微生物的选育及抑螺效果观察

【目的】筛选出一种高效、持久、安全及价廉的灭螺微生物,对其进行鉴定并观察其抑螺功效。【方法】从钉螺孳生的土壤中筛选出4株灭螺活性较强的菌株(B8、B27、B36、B59),显微镜观察菌株形态和革兰氏染色均为G+杆菌。不同分离胶浓度的SDS-PAGE分析其灭螺活性成分;优势菌株经16s rRNA扩增后,PCR产物测序,序列比对,构建系统发育树鉴定其种属。【结果】灭螺结果表明,各试验组中发酵上清液各菌株间灭螺效果差异有统计学意义(χ2=21.286,P=0.002);细菌发酵液各菌株间差异也有统计学意义(χ2=17.298,P=0.008);菌体悬液各菌株间差异无统计学意义(χ2=7.579,P=0.271);此外,B59菌株的灭螺效果优于其它菌株,尤其是其发酵上清液浸泡48 h和72 h钉螺死亡率高达73.3%和96.7%。SDS-PAGE发现在B59细菌上清液中无蛋白带出现,推测其灭螺活性物质可能是其他成分;分子系统发育分析结果显示B59菌株位于Bacillus cereus (CP001746)分支上,一致性达100%。【结论】B59菌株的发酵上清液灭螺效果最好,其灭螺活性物质可能不是蛋白质,B59菌株被鉴定为Bacillus cereus。     

三种植物与紫红链霉菌组合灭螺效果

探讨了不同植物与紫红链霉菌组合的灭螺效果,为研制高效低毒植物灭螺剂提供依据。将天名精（Carpesium abrotanoides）、苍耳子（Xanthium sibiricum）、青蒿（Artemisia carvifolia）3种植物水浸液分别与紫红链霉菌液（Streptomyces violaceoruber）组合后对钉螺进行浸杀对比实验,并比较了相同植物与紫红链霉菌液的复合颗粒灭螺剂的灭螺效果。结果表明：天名精、苍耳子与紫红链霉菌复合颗粒灭螺剂7 d钉螺死亡率分别比其1%混合液提高17.6%（P=0.019）和5.3%(P=0.362);青蒿与链霉菌复合颗粒灭螺剂7 d钉螺死亡率比其1%混合液降低6.7%(P=0.022);天名精、苍耳子和链霉菌复合颗粒灭螺剂较其混合液具有一定的增效作用。     

植物颗粒剂对钉螺毒杀效果的研究

将3种药用植物材料分别粉碎后与淀粉、明胶配合制成直径2～3mm的植物颗粒剂用于灭钉螺试验,结果表明,钉螺取食3种颗粒剂后,24h死亡率分别达到92.5％～100％.其毒杀效果明显优于相同植物的其它灭螺方法,对钉螺的致死时间比氯硝柳胺化学灭螺剂(1×10-3g·L-1)提前12～24h.用3种植物颗粒灭螺剂进行野外灭螺实验,钉螺死亡率最高可达61.5％.     

我国常用的灭螺方法

介绍了常用的消灭钉螺的方法：物理灭螺,主要有土埋吹沙、沟渠硬化、翻耕种植、蓄水养殖、开新填旧、热力杀螺等;化学灭螺,包括化学合成药物灭螺和植物性药物灭螺;生物灭螺主要有捕食灭螺、微生物灭螺和竞争灭螺。并对几种方法的实际效果进行了比较。     

夹竹桃强心总甙灭螺活性与机理

血吸虫病（Schistosomiasis）是严重危害人民身体健康的疾病.钉螺是血吸虫的唯一中间寄主,是血吸虫生活周期中最脆弱环节,灭螺能有效控制血吸虫病,保护湿地和水资源.按强心总甙提取方法,用有机溶剂提取,从118.1940g（相当于100g干材料）夹竹桃新鲜叶中得到0.9815g夹竹桃强心总甙.将强心总甙按5、10、15、20、25、30mg/L配制成6个不同浓度梯度的处理溶液处理钉螺.取活钉螺100只为1组,每20个装入一个尼龙网袋中,分别将各组（5袋/组;网孔2mm）钉螺浸入盛有2000g不同浓度的夹竹桃强心总甙灭螺剂水溶液的玻璃缸中,设1mg/L氯硝柳胺水溶液和无氯清水对照.分别于处理1、2、3、4、5d后,将各处理中的钉螺随机取出1袋,用无氯水冲洗数次,再放入清水中静置1d,然后作存活检查：在解剖镜下针刺无反应的证实死亡.结果显示夹竹桃强心总甙具有很好的毒杀钉螺活性,用20mg/L的夹竹桃强心总甙的水溶液处理3～4d的效果与1mg/L氯硝柳胺溶液处理2～3d的灭螺效果相当;经统计分析：用其水溶液灭螺的.LD50和LD90浓度分别是4.0500mg/L和22.2500mg/L.用LD50浓度的夹竹桃强心总甙溶液处理50个钉螺之后,取活螺用聚丙烯酰胺凝胶电泳（PAGE）进行测试,在处理6h时,显示各处理样品的酶活高于对照组,表现为酶带颜色加深,有新的酶带出现;而在处理12h和24h后,各处理的样品酶带浅于对照组,酶带颜色逐渐变浅,直到消失.采用蒽酮显色法测定经夹竹桃强心总甙处理后钉螺软体的糖原含量糖原含量显著下降,减少幅度从9.9%到32.6%;钉螺经夹竹桃强心总甙处理后蛋白质含量的变化不明显.分析了强化感作用植物夹竹桃植物新鲜叶中强心总甙的灭螺活性,并在微观领域探究其化感作用导致钉螺的形态病理以及糖代谢、蛋白质代谢等生理变化等方面所表现出的杀伤钉螺的机理,由此获得强化感作用植物夹竹桃灭螺的化学生态学证据,为研制新的具中国特色的植物成份灭螺剂打下了基础,并为合成仿生灭螺剂以及最终构建生态工程中强化感作用植物群落灭螺提供理论依据.     

正交法测定钉螺离体GPT反应的最佳条件

钉螺是日本血吸虫幼虫的唯一中间宿主, 药物灭螺是阻断日本血吸虫病传播的有效方法。由于化学灭螺药物的生产和使用对环境和非靶标生物均产生严重污染和毒害作用, 因而低毒、易分解的植物灭螺药物研究受到重视,已筛选出诸如黄姜(Dioscorea zingberensis C.H.Wright, DZ)、吉祥草(Reineckea carnea, RC)等皂甙类植物灭螺剂1,2。       

益母草（Leonurus artemisia）灭螺效果研究

本实验研充分别采用益母草的根、茎、叶的0．10、0．25、0．50、2．00、1．00g／L和水苏碱的0．20、0．40、0．60、0．80、1．00g/L 5个不同浓度梯度的处理液处理钉螺,设清水和0．001g／L浓度的氯硝柳胺溶液为对照。结果表明：（1）益母草各部分的水浸液均有很好的灭螺效果。用不同浓度的处理液浸杀钉螺,在不同时间的处理下,钉螺死亡率存在差异,其钉螺死亡率是随处理浓度的增加和时间的延长呈上升趋势,0．5g／L以上的益母草根、茎、叶、化水浸液和浓度达0．60g／L以上的水苏碱处理液均可达到100％的明显毒杀钉螺致死效果,与通常使用浓度0．0001g／L氯硝柳胺溶液的灭螺效果相当,不过益母苹根、茎、叶水浸液的毒效较氯硝柳胺略慢,用0．0001g／L氯硝柳胺溶液处理钉螺2—3d可达100％的死亡率,而用0．5g／L以上的益母草根、茎、叶水浸液水溶液处理需要3—5d才能达到同样的效果;灭螺效果顺序依次为：叶〉茎〉根。（2）钉螺趋避性研究表明水苏碱和益母草根、茎和叶的处理液对钉螺具有明显的驱逐作用,而盐酸益母草碱几乎没有作用。由此获得化感作用植物益母草灭螺的化学生态学证据。为研制新的具中国特色的植物成份灭螺剂打下了基础。并为合成仿生灭螺剂以及最终构建生态工程中强化感作用植物群落灭螺提供理论依据。     

钉螺对夹竹桃化感物质三萜总皂甙毒理作用的反应

本文分别用0.02 mg/L-0.1mg/L系列浓度的夹竹桃三萜总皂甙水溶液处理钉螺 ,设无氯清水饲养与浓度为1 mg/L 氯硝柳胺溶液浸杀对照,研究夹竹桃三萜总皂甙是否为夹竹桃灭螺的化感物质及其作用机理.结果表明:用不同浓度梯度的夹竹桃三萜总皂甙水溶液处理钉螺均有一定的杀灭作用, 对试验数据进行概率单位回归分析,表明浸杀处理2、3、 4和5 d的LC50分别为78.31、30.26、20.50、14.19 mg/L,其对应的95%置信区间分别为 63.60-108.19、9.49-44.42、2.86-30.90、0.23-22.79 mg/L;以不同处理浓度、时间下钉螺的死亡率为因变量,对夹竹桃三萜总皂甙水溶液浸杀灭螺效果进行方差分析,结果显示夹竹桃三萜总皂甙的浓度、处理时间的长短对钉螺的死亡率均有极显著的作用效果,并且药液浓度与处理时间之间的交互效应也极显著.扫描电镜观察结果显示40 mg/L浓度处理后钉螺软体表层呈现明显的损伤;透射电镜观察40 mg/L浓度处理后钉螺样品发现24 h后肝细胞核肿胀,核仁消失,核质稀疏,内质网断裂,线粒体增多;当处理时间延长到48 h时,损伤加重,内质网几乎全部囊泡化,细胞核开始破裂,线粒体也破裂;处理24 h后钉螺小肠表面的微绒毛排列有些不整齐,有一小部分微绒毛出现脱落,肠周缘细胞出现肿胀,细胞核出现少量小空泡;处理48 h时的钉螺小肠表面微绒毛排列明显不整齐,大部分微绒毛脱落,肠周缘细胞肿胀明显,有大量空泡,有时还出现游离核,胞质内的细胞器有大小不等的空泡样变性 ,细胞器结构已无法辨别,严重变性,胞膜不完整.采用聚丙稀酰胺电泳技术分离经40 mg/ L夹竹桃三萜总皂甙水溶液处理1、2、3、4、5 d后的钉螺样品的酯酶同工酶,处理1-2 d后酶的活性比清水对照增强,应激反应明显,而处理达3 d时酶的活性开始下降,5 d时,酶谱带数及其色泽与用1 mg/L氯硝柳胺水溶液处理1 d的对照相当.本研究获得化感作用植物夹竹桃灭螺的超微结构证据[动物学报 54(3):489-499,2008].     

野菊水提物和醇提物抗氧化及保肝活性研究

采用ABTS和DPPH方法评价野菊Chrysanthemum indicum水提物和醇提物的抗氧化活性;选用HepG2细胞,通过乙醇诱导损伤,检测野菊水提物和醇提物处理后细胞存活率评价其保肝效果。结果表明,野菊醇提物抗氧化能力优于水提物,其中,野菊醇提物对ABTS自由基清除作用较好。酒精性肝损伤细胞活性测定显示,5、10、20μg·mL^-1的野菊水提物和醇提物处理组较乙醇损伤组(eth)细胞的存活率显著上升,总体呈现剂量依赖性,其中野菊醇提物保肝效果更优。     

樟树水浸液的灭螺效果

研究了新鲜樟树的茎皮、根皮和叶的水浸液对钉螺的杀灭效果。结果表明：通过一定时间的处理,樟树水浸液对钉螺有明显的毒杀作用。其中,0．5％以上的茎皮和根皮的水浸液对钉螺具有35％-100％的毒杀作用;处理时间在72h时,死螺率可达80％-100％。0．5％的樟树根皮水浸液浸泡72h时,死螺率为95％;1％的樟树根皮水浸液浸泡72h时,死螺率为100％。当用同种水浸液浸泡时,钉螺死亡率随水浸液浓度的增加而升高;随着浸泡时间的延长,钉螺的死亡率也升高。     

樟树水浸液对钉螺的生态毒理学效应

用樟树(Cinnamomum camphora)新鲜根皮、茎皮、叶为材料,设置1%、0.5%、0.1%、0.05%4个不同浓度梯度的水浸液处理钉螺,以清水和1 mg/L浓度的氯硝柳胺溶液为对照,统计钉螺死亡率,并分析钉螺过氧化氢酶(CAT)和过氧化物酶(POD)活性及采用透射电镜分析亚显微结构损伤情况。结果表明:(1)樟树各部分的水浸液均有很好的灭螺效果。钉螺死亡率随处理浓度的增加和时间的延长呈上升趋势,0.5%—1.0%以上的樟树根皮、茎皮、叶水浸液均可达到100%的毒杀钉螺致死效果,与1 mg/L氯硝柳胺溶液的灭螺效果相当;灭螺效果顺序依次为:根皮茎皮叶。(2)在处理初期,钉螺体内过氧化氢酶和过氧化物酶活性明显增强,但随处理时间延长,其活性急剧降低;过氧化物酶同工酶谱显示,处理24—48 h后钉螺酶活高于对照组,处理72—96 h后酶活最强,而处理120 h酶活则大大减弱。(3)钉螺肝细胞亚显微结构观察表明,随处理时间的延长,线粒体、内质网、细胞核等结构损伤越来越严重。这些结果表明樟树水浸液对钉螺肝脏造成过氧化伤害和细胞器结构损伤,具有很好的杀螺效果,可作为生态工程抑螺林树种。     

Evaporative enrichment and time lags between delta18O of leaf water and organic pools in a pine stand

Understanding ecosystem water fluxes has gained increasing attention, as climate scenarios predict a drier environment for many parts of the world. Evaporative enrichment of (18)O (Delta(18)O) of leaf water and subsequent enrichment of plant organic matter can be used to characterize environmental and physiological factors that control evaporation, based on a recently established mechanistic model. In a Pinus sylvestris forest, we measured the dynamics of oxygen isotopic composition (delta(18)O) every 6 h for 4 d in atmospheric water vapour, xylem sap, leaf water and water-soluble organic matter in current (N) and previous year (N-1) needles, phloem sap, together with leaf gas exchange for pooled N and N-1 needles, and relevant micrometeorological variables. Leaf water delta(18)O showed strong diel periodicity, while delta(18)O in atmospheric water vapour and in xylem sap showed little variation. The Delta(18)O was consistently lower for N than for N-1 needles, possibly related to phenological stage. Modelled leaf water Delta(18)O showed good agreement with measured values when applying a non-steady state evaporative enrichment model including a Péclet effect. We determined the time lags between delta(18)O signals from leaf water to water-soluble foliar organic matter and to phloem sap at different locations down the trunk, which clearly demonstrated the relevance of considering these time-lag effects for carbon transport, source-sink and carbon flux partitioning studies.     

Acute exposure to ozone inhibits rapid carbon translocation from source leaves of Pima cotton

Tropospheric ozone (O3 causes significant disruption of growth and yield in upland and Pima cottons. Pima cotton (Gossypium barbadense L.) was exposed to brief pulses (0.75 h) of a range of O3 concentrations (nominally 0.0, 0.2, 0.5, and 0.8 l l^-1) to investigate effects of phloem translocation of ¹⁴C-labelled recent photoassimilate. The initial phase of rapid efflux from source leaves was monitored with a Geiger-Muller Tube as activity remaining in the leaf as a function of time. Visual inspection of unprocessed efflux curves revealed disruption of efflux by O3. Single exponential decay functions were fitted to these efflux curves to extract first order rate constants for phloem leading and longitudinal transport of labelled carbohydrates. A single compartment model was applied, with and without an asymptote of non-transported carbohydrate, to calculate leaf sugar contents. The effect of O3 in retarding efflux of label, decreasing the rate constant, and increasing calculated soluble sugar pools, was consistent regardless of the method of analysis. Following incorporation of the asymptote, calculated rate constants and sugar pools were similar to values from the literature and to preliminary measurements of sugar contents in O3-treated cotton leaves. Total carbohydrate transported from source leaves was reduced both by O3 effects on assimilation (up to 205) and by O3 effects on efflux (up to 70%), but was clearly dominated by the impact on phloem translocation. These rapid efflux kinetics likely reflect oxidant damage at the plasmalemma or plasmodesmata of mesophyll or phloem companion cells. Evaluation of effects of O3 on tonoplast function and consequences for carbohydrate translocation await a more complete compartmental efflux analysis.     

三峡库区重庆段钉螺孳生条件

三峡工程的修建使得长江水生环境发生了变化,同时水库的阶段性蓄、放水使得阶段性淹没的江洲滩增加,更加有利于挺、浮水植物的繁殖,从而可能形成适合日本血吸虫(Schistosoma japonicum)的惟一中间宿主———钉螺(Oncomelania hupensis)的生长环境。本文在钉螺生活习性的基础上,结合数字高程模型(DEM)和相关的气象资料以及水库的蓄放水规律,从气候、淹没时间、植被、水库的蓄放水时间等角度对三峡库区钉螺孽生条件进行了分析。从气候上看,阶段性淹没区能够满足钉螺生长的需要;然而,水库冬季蓄水、夏季放水的周期与钉螺生长需求并不完全相同,尤其是冬季的高水位对钉螺生长十分不利。因此,水库的修建并不一定会造成钉螺的孽生和血吸虫的流行。     

Stable isotope composition of organic compounds transported in the phloem of European beech--evaluation of different methods of phloem sap collection and assessment of gradients in carbon isotope composition during leaf-to-stem transport

The analysis of stable isotope composition (delta13C, delta15N, delta18O) of phloem-transported organic matter is a useful tool for assessing short-term carbon and water balance of trees. A major constraint of the general application of this method to trees at natural field sites is that the collection of phloem sap with the "phloem bleeding" technique is restricted to particular species and plant parts. To overcome this restriction, we compared the contents (amino compounds and sugars) and isotope signatures (delta13C, delta15N, delta18O) of phloem sap directly obtained from incisions in the bark (bleeding technique) with phloem exudates where bark pieces were incubated in aqueous solutions (phloem exudation technique with and without chelating agents [EDTA, polyphosphate] in the initial sampling solution, which prevent blocking of sieve tubes). A comparable spectrum of amino compounds and sugars was detected using the different techniques. O, C, or N compounds in the initial sampling solution originating from the chelating agents always decreased precision of determination of the respective isotopic signatures, as indicated by higher standard deviation, and/or led to a significant difference of mean delta as compared to the phloem bleeding technique. Hence, depending on the element from which the ratio of heavy to light isotope is determined, compounds lacking C, N, and/or O should be used as chelating agents in the exudation solution. In applying the different techniques, delta13C of organic compounds transported in the phloem of the twig (exudation technique with polyphosphate as chelating agent) were compared with those in the phloem of the main stem (phloem bleeding technique) in order to assess possible differences in carbon isotope composition of phloem carbohydrates along the tree axis. In July, organic compounds in the stem phloem were significantly enriched in 13C by > 1.3 per thousand as compared to the twig phloem, whereas this effect was not observed in September. Correlation analysis between delta13C and stomatal conductance (Gs) revealed the gradient from the twigs to the stem observed in July may be attributed to temporal differences rather than to spatial differences in carbon isotope composition of sugars. As various authors have produced conflicting results regarding the enrichment/depletion of 13C in organic compounds in the leaf-to-stem transition, the different techniques presented in this paper can be used to provide further insight into fractionation processes associated with transport of C compounds from leaves to branches and down the main stem.     

Effect of floods on the transmission of schistosomiasis in the Yangtze River valley, People's Republic of China

The aim of the present study was to assess the effect of floods on the transmission of schistosomiasis in the Yangtze River valley, People's Republic of China. Retrospective analyses of malacologic, clinical and epidemiologic data, covering a 22-year period, were carried out to elucidate the dispersal patterns of intermediate host snails (Oncomelania hupensis), and acute and chronic infections with Schistosoma japonicum in humans in relation to floods. Potential O. hupensis habitats in years with floods were 2.6-2.7 times larger than in years when water levels were normal. Both the density and infection rate of O. hupensis dropped in the first two years after a flood, but significantly increased in the third year. The number of acute cases with schistosomiasis japonica was markedly higher in years characterized by floods; on average, 2.8 times more cases were observed when compared to years that the Yangtze River had normal water levels. In view of our findings, emergency responses are warranted as soon as possible after the occurrence of a flood in order to avoid or mitigate the reemergence and spread of human schistosomiasis in the People's Republic of China.     

Transport Exchange of Carbon,Nitrogen and Water in the Context of Whole Plant Growth and Functioning — Case History of a Nodulated Annual Legume

The economy of carbon, nitrogen and water during growth of nodulated, nitrogen-fixing plants of white lupin (Lupinus albus L.) was studied by measuring C, N and H₂O content of plant parts, concentrations of C and N in bleeding sap of xylem and phloem, transpirational losses of whole shoots and shoot parts, and daily exchanges of CO₂ between shoot and root parts and the surrounding atmosphere. Relationships were studied between water use and dry matter accumulation of shoot and fruits, and between net photosynthesis rate and leaf area, transpiration rate and nitrogen fixation. Conversion efficiencies were computed for utilization of net photosynthate for nitrogen fixation and for production of dry matter and protein in seeds. Partitioning of the plant's intake of C, N and H₂O was described in terms of growth, transpiration, and respiration of plant parts. An empirically-based model was developed to describe transport exchanges in xylem and phloem for a 10-day interval of growth. The model depicted quantitatively the mixtures of xylem and phloem streams which matched precisely the recorded amounts of C, N and H₂O assimilated, absorbed or consumed by the various parts of the plant. The model provided information on phloem translocation of carbon and nitrogen to roots from shoots, the cycling of carbon and nitrogen through leaves, the relationship between transpiration and nitrogen partitioning to shoot organs through the xylem, the relative amount of the plant's water budget committed to phloem translocation, and the significance of xylem to phloem transfer of nitrogen in stems as a means of supplying nitrogen to apical regions of the shoot.