三色迷彩油添加避蚊胺对白纹伊蚊驱避效果的实验室评价

参照中华人民共和国国家标准GB/T 17322.10-1998和《军队特需药品研发勤务技术指导原则(试行)》规定的测试方法,测试了避蚊胺和水溶性二氧化钛处理迷彩油(CFP)对白纹伊蚊Aedes albopictus的驱避效果,为研发我军专用的防蚊虫迷彩油提供依据。结果表明:在3种颜色迷彩油中加入DEET后,不影响DEET的驱蚊效果;添加不同浓度DEET对蚊虫的驱避效果差异显著,20%DEET和25%DEET+迷彩油对白纹伊蚊的平均防护时间均达到或超过10 h,达到《军队特需药品研发勤务技术指导原则(试行)》规定的标准,15%DEET+迷彩油平均防护时间不足10 h,未达《军队特需药品研发勤务技术指导原则(试行)》规定的标准。研究表明:将适量DEET与迷彩油混合涂抹于皮肤可能作为演习或战时的伪装和防蚊的一种有效的综合保护措施。     

几种驱避化合物对白纹伊蚊寄主搜寻能力的影响

研究了白纹伊蚊Aedes albopictus在含不同浓度的驱避化合物的空间内停留不同时间后,对其寄主搜寻能力的影响。结果显示：在密闭空间中, 分别以0.013～0.500 μg/cm³浓度的柠檬醛、丁香酚、芳樟醇、香叶醇、茴香醛处理白纹伊蚊24～96 h后,试蚊均出现不同程度的定向寄主抑制,其中以茴香醛及香叶醇抑制效果最佳,但香茅醛各处理组试蚊均未受到影响。白纹伊蚊搜寻定向寄主能力受到抑制的个体,在实验室正常饲养后,可逐渐恢复;但茴香醛0.250 μg/cm³处理试虫96 h后,一直未能恢复正常的吸血行为。研究结果提示,茴香醛与香叶醇作为优良的空间驱避剂,在白纹伊蚊防控技术领域可发挥重要作用。     

香茅精油对桔小实蝇产卵驱避作用及其化学成份分析

研究了香茅Cymbopogon nardus精油对桔小实蝇Bactrocera dorsalis (Hendel)的产卵驱避作用及其化学成分。结果表明,香茅精油对桔小实蝇产卵具有一定的驱避作用,不同浓度香茅精油处理芒果上的产卵量均显著低于对照,且随着香茅精油浓度的提高其产卵量逐渐减少,当浓度为10000μg/mL时,产卵驱避率为70.06%。采用气相色谱—质谱联用(GC-MS)技术分析了香茅精油的化学成份,结果发现该精油挥发物中含量较高的是3-蒈烯,香茅醛,香叶醇,香茅醇,柠檬烯。     

栽培地区、采收季节和株龄对迷迭香精油成分和抑菌活性的影响

采用气相色谱-质谱联用的方法,研究了不同提取部位、栽培地区、采收季节和株龄对迷迭香精油提取率、成分和抑菌活性的影响。结果表明,在贵州栽培的迷迭香叶子中精油的主要成分为α-蒎烯（31.88%–39.09%）、1,8-桉叶素（8.82%–10.97%）和樟脑（7.63%–11.59%）;茎中精油的主要成分为龙脑（26.62%–39.05%）、樟脑（11.41%–15.27%）和α-蒎烯（7.23%–17.80%）;茎中精油的抑菌活性强于叶中精油。北京地区栽培的迷迭香,其叶子中精油的主要成分为樟脑（27.92%）和L-β-蒎烯（25.28%）,抑菌活性强;茎中精油和贵州栽培的成分和活性均相似。对于采收季节,夏季采收的迷迭香精油提取率高,抑菌活性强。而株龄对精油的成分和抑菌活性影响不大。该研究为我国引种迷迭香的合理配置栽培、采收、生产条件和高效开发利用其抑菌活性提供了科学的依据。     

植物精油对荔枝蒂蛀虫的产卵驱避效果

在室内采用非选择性和选择性两种试验方法,测定了14种非寄主植物精油对荔枝蒂蛀虫的产卵驱避效果.结果表明,香紫苏油、肉桂油和香茅油对荔枝蒂蛀虫有很好的产卵驱避效果,其非选择性产卵驱避率(ODRn)达90%以上;而选择性产卵驱避率(ODR.)达80%以上.留兰香油对荔枝蒂蛀虫也有较好的产卵驱避效果,其ODRn和ODR.分别为89.19%和73.30%.     

慈竹叶精油化学成分研究

首次报道了贵州省慈竹叶精油化学成分的研究。竹叶精油提取率为 0 2 %。用气相色谱 -质谱 (GC/MS)联用仪分离出 87个化合物 ,确认了其中 2 4个 ,主要芳香物质为C5～C8的含氧化合物。     

猫薄荷精油有效成分的提取及其对白纹伊蚊、淡色库蚊的驱避活性

采用同时蒸馏萃取及硅胶柱层析法从猫薄荷Nepeta cataria 植物中提取、分离制得驱蚊有效成分假荆芥内酯,并采用个体涂肤有效保护时间测定法及风洞空间驱避效果测试法, 对假荆芥内酯与避蚊胺(DEET)的驱蚊效果进行了对比试验。结果表明,400 g新鲜猫薄荷植株可制得精油5.6 g,其中假荆芥内酯含量为55%,Z,E-假荆芥内酯32%, E,Z-假荆芥内酯23%。室内标准药效评价结果表明,DEET对白纹伊蚊Aedes albopictus 及淡色库蚊Culex pipiens pallens有效保护时间分别为9.6±0.2 h与11.5±1.5 h,而假荆芥内酯仅为2.2±0.2 h与4.3±0.8 h。风洞定向行为测试结果表明,假荆芥内酯单独作用时,对蚊虫有微弱的引诱效果,但在人体气味及二氯甲烷L-乳酸存在时,可显著抑制这些引诱物对蚊虫的引诱效果,是优良的空间驱避剂;DEET对蚊虫无明显的引诱作用,对二氯甲烷L-乳酸溶液引诱剂也无明显的抑制效果,但可显著增强人体气味对蚊虫的引诱性。     

中草药“一口钟”的原植物鉴定及其精油的化学成分

云南,四川等省市售的中草药“一口钟”为蓝桉(Eucalyptus globulus Labill.)的果实.用气相色谱-质谱-计算机联用技术、标准品迭加和毛细管保留指数定性法,对其精油的化学成分进行分析.从分离的65个成分中,鉴定出36个成分,其含量占总组成的93.80％,主要成分是别香树烯(23.37％),1.8-桉叶油素(20.81％)、金合欢醇(9.95％)、α-水芹烯(8.30％)、δ-愈创木烯(5.95％)、δ-蒎烯(4.09％)、β-水芹烯(3.43％)、α-愈创木烯(3.15％)等.     

四种植物精油对黑翅土白蚁触杀和驱避作用

为筛选出高效防治黑翅土白蚁的天然植物精油,减少有机合成农药的使用,该文研究了大蒜精油、肉桂油、丁香油和印楝素油四种植物精油对黑翅土白蚁的触杀效果和驱避作用。结果表明:大蒜精油、肉桂油和丁香油的浓度为5和10 mg·m L~(-1)时,处理2 h后,黑翅土白蚁的校正死亡率达100%,而相同浓度的印楝素油和对照处理的黑翅土白蚁校正死亡率低于5%。随着处理时间延长,浓度为1.25和2.5 mg·m L~(-1)的大蒜精油、肉桂油和丁香油处理6 h时,黑翅土白蚁的校正死亡率仍达100%,而此时对应的印楝素油和对照处理的黑翅土白蚁校正死亡率仅为10%,说明大蒜精油、肉桂油和丁香油对黑翅土白蚁具有较强的触杀效果。大蒜精油、丁香油和肉桂油在处理黑翅土白蚁2 h后LC_(50)值(半致死量)分别为1.572、1.05和1.03mg·m L~(-1),说明肉桂油对黑翅土白蚁的毒性相对最大,触杀效果最好。此外,10 mg·m L~(-1)的大蒜精油、肉桂油、丁香油和印楝素油的驱避试验表明,处理4、6、8和12 h后,大蒜精油、肉桂油和丁香油三精油处理区的黑翅土白蚁数均显著低于对照区的,驱避率总体93%,而对应的印楝素油的驱避率总体28.5%,表明大蒜精油、丁香油和肉桂油三种植物精油对黑翅土白蚁均有显著的驱避活性。综上可知,四种植物精油中大蒜精油、肉桂油和丁香油在防治黑翅土白蚁方面应用潜力很好,是开发绿色环保白蚁防治药剂的可选材料。     

不同植物浸液对白纹伊蚊的产卵引诱作用

应用孕卵蚊虫粘捕法现场测试不同植物浸液对白纹伊蚊Aedes albopictus(Skuse)的产卵引诱作用,发现樟树叶、黄杨叶、狗尾草、绊根草、玉兰叶和竹叶的浸液现场诱蚊效果与自来水对照没有显著的差异;竹叶、玉兰叶、狗尾草和绊根草室内发酵21、30和45d的现场诱蚊效果没有显著的差异,而应用诱卵器法显示:竹叶、玉兰、狗尾草、绊根草植物浸液和自来水对照的诱卵数却差异显著。现场试验发现自来水、室外积水和蚊虫饲养水对白纹伊蚊的引诱效果没有显著的差异。     

江西迷迭香精油的成分分析及抗氧化、抑菌活性研究

为了研究江西迷迭香精油的化学成分及抗氧化、抑菌活性,采用水蒸气蒸馏法提取迷迭香精油,利用气相色谱-质谱联用法(GC-MS)对迷迭香精油成分进行分析,通过对DPPH自由基、羟基自由基的清除活性和还原力来研究迷迭香精油的体外抗氧化活性;通过以枯草芽孢杆菌、金黄色葡萄球菌和大肠杆菌为供试菌,测定抑菌圈大小和最低抑菌浓度(MIC)来研究迷迭香精油的抑菌活性。实验结果表明,从迷迭香精油中鉴定出40种化学成分,占精油总量的99.46%,其主要化学成分有α-蒎烯(39.05%)和1,8-桉叶素(16.86%),其次是莰烯(4.22%)、D-柠檬烯(3.87%)、龙脑(3.74%)、β-石竹烯(3.11%)等,α-蒎烯的含量高于国内其他产地;迷迭香精油对DPPH、羟基自由基和还原力的半数清除率IC₅₀值分别为76.42、51.40和49.15μL/mL;精油对枯草芽孢杆菌、金黄色葡萄球菌和大肠杆菌的抑菌圈大小分别为14.40±0.66、11.41±0.19、11.70±0.27 mm,最低抑菌浓度(MIC)分别为2.50、10.00、10.00μL/mL,对枯草芽孢杆菌的抑制作用明显强于金黄色葡萄球菌和大肠杆菌。结果表明迷迭香精油具有较好的抗氧化、抑菌活性。     

茅莓叶挥发油化学成分的研究

利用气相色谱-质谱联用技术对中药茅莓叶的挥发油化学成分进行了研究,共鉴定出20种成分,其中主要成分为棕榈酸,反油酸,癸醛,壬醛,顺式-9-烯,十六酸,顺式-3-癸烯醇,硬脂酸,月桂酸,6,10,14-三甲基-2-十五酮,十七醇,羊腊酸。棕榈酸的含量最高,占挥发油成分总量的32.67%。     

黄荆挥发油化学成分的研究

采用气相色谱－质谱联用仪对产于秦岭略阳的黄荆叶的挥发油成分进行了分析鉴定,共确定出了３５种成分。主要成分为石竹烯（３３．０１％）、桉树脑（１３．３０％）、β－水芹烯（１３．２３）、别－香树烯（６．５８％）和β－法呢烯（５．５６％）。     

软枣猕猴桃挥发物质的提取及GC-MS分析

采用气相色谱—质谱联机的分析方法,从软枣猕猴桃挥发成分中共分离出13个组分,鉴定了12个组分,占全部组分的 99.03%。其主要成分是酯类、醇类物质,其中丁酸乙酯的相对含量高达 86.89%。     

黔产莪术精油的化学成分研究

为了解黔产莪术药材的品质,用GC／MS从黔产获术精油中共检出67个成分,鉴定了其中37个化合物,主要成分为莪术酮（curzerenon）45．02％,莪术烯醇（curcumenol）8．31％,β-榄香烯（β-elemene）5．79％,异莪术烯醇（iso-curcumenol）4．05％,黔产莪术精油抗肿瘤活性成分较高。     

Trace constituents in the essential oil of Thymus capitatus

The essential oil of Thymus capitatus was investigated by glass capillary gas chromatography in combination with mass spectrometry. In the analysis, 22 hitherto unreported trace constituents were isolated, of which 20 were identified.     

Piperonyl butoxide synergizes the larvicidal activity of Origanum vulgare essential oil and its major constituents against the larvae of Aedes albopictus and Culex pipiens quinquefasciatus

Mosquitoes bite human beings and transmit many diseases, such as malaria, dengue fever, and Zika virus. Vector control of mosquitoes is an effective strategy for reducing the spread of disease. However, extensive use of insecticides (e.g. pyrethroids and organophosphorus) has caused resistance in mosquitoes, which weakens the effectiveness of mosquito control. Phytochemicals have been considered an alternative approach to mosquito control. Essential oil (EO) was obtained from the leaves and flowers of Origanum vulgare, and its synergistic activity with piperonyl butoxide (PBO) was tested against Aedes albopictus and Culex pipiens quinquefasciatus larvae. Thirty-seven compounds were identified, among which carvacrol and thymol were two major constituents (30.73 % and 18.81 %, respectively). O. vulgare EO had a significant toxic effect against fourth-stage larvae of Cx. p. quinquefasciatus and Ae. albopictus, with LC₅₀ values of 17.51 and 75.90 mg/L. Carvacrol and thymol also each appeared to be more effective against Cx. p. quinquefasciatus (LC₅₀ = 19.30 and 11.56 mg/L, respectively) than Ae. albopictus (LC₅₀ = 26.62 and 26.66 mg/L, respectively). PBO interacted synergistically with O. vulgare EO, carvacrol and thymol with 2.60–6.26 times as much of the active compound needed without PBO as against Cx. p. quinquefasciatus and Ae. albopictus larvae. Overall, our results contribute to the development of new natural mosquito insecticides.     

Repellent,larvicidal and adulticidal activities of essential oil from Dai medicinal plant Zingiber cassumunar against Aedes albopictus

Zingiber cassumunar is an important plant used in traditional medicine and as a natural mosquito repellent. However, the compounds responsible for the repellent activity of the plant are still unknown. The aim of the study is to identify the components of Z. cassumunar essential oil that show repellent activity against Aedes albopictus. We also evaluated the larvicidal and adulticidal activities of Z. cassumunar essential oil against Ae. albopictus. In-cage mosquito repellent experiments showed that Z. cassumunar essential oil possessed moderate repellent activity with a minimum effective dose (MED) of 0.16 ± 0.01 mg/cm², compared to reference standard N,N-diethyl-3-methylbenzamide (DEET, 0.03 ± 0.01 mg/cm²). Bioassay-guided fractionation identified the major active compound of Z. cassumunar essential oil as (−)-terpinen-4-ol (1) (MED: 0.19 ± 0 mg/cm²). We also found that Z. cassumunar essential oil showed moderate larvicidal activity against first instar larvae of Ae. albopictus with a LC₅₀ (50% lethal concentration) of 44.9 μg/L after 24 h. Fumigation bioassays showed that Z. cassumunar essential oil exhibits moderate adulticidal activity against Ae. albopictus with a LC₅₀ of 5.44%, while (−)-terpinen-4-ol showed significant adulticidal activity with a LC₅₀ of 2.10% after 24 h. This study verifies that the Z. cassumunar essential oil has mosquito repellent activity, and that (−)-terpinen-4-ol is mainly responsible for this activity. Furthermore, this study provides scientific support for the folk usage of Z. cassumunar essential oil as mosquito repellent and indicates that Z. cassumunar essential oil and (−)-terpinen-4-ol can be used as plant-derived repellents and insecticides for mosquito control.     

印度獐牙菜挥发油化学成分的研究

研究了印度獐牙菜(Swertia chitayita Buch-Ham．)挥发油的化学成分。采用水蒸气蒸馏法提取、毛细管气相色谱-质谱联用技术对印度獐牙菜挥发性化学成分进行了分离,经计算机质谱谱库检索对分离的化合物进行鉴定,并用已知烃类进行标定,共确定了其中63种化合物,所鉴定出的化合物含量占全挥发油的81．36％;用峰面积归一化法测定了各化学成分的相对含量。研究结果表明,印度獐牙菜的主要化学成分为：十六烷酸乙酯(19．54％)、4-(苯甲基)哌啶(11．72％)、油酸乙酯(7．82％)、丁基化羟基甲苯(6．70％)、亚油酸乙酯(5．80％)、丁二酸二乙酯(3．21％)、3a,6a-二氢-2(3H,4H)环戊二烯并[b]呋喃酮(2．13％)等。     

Insecticidal activity of polycaprolactone nanocapsules loaded with Rosmarinus officinalis essential oil in Tribolium castaneum (Herbst)

In this study, the opportunity to enhance the insecticidal activity of Rosmarinus officinalis essential oil was studied for effective management of the red flour beetle, Tribolium castaneum , as a stored product pest beetle. Nanoprecipitation method was used to prepare rosemary oil‐loaded nanocapsules. Bioassays were conducted at 27–30°C temperature and 70–75 % relative humidity in the dark. Fumigant toxicity of the non‐formulated oil and nanocapsules of R. officinalis were investigated at 13.20, 15.92, 19.12, 23.04, and 27.76 μL/L air after 24 and 72 h exposure and the contact toxicity of the non‐formulated oil and nanocapsules were investigated at 4.28, 3.55, 2.95, 2.45 and 2.36 μL/cm² after 24 h exposure. The major constituents of the essential oil of rosemary were α‐Pinene, 1,8‐cineol, camphor, and cis‐verbenone. Nanocapsules presented an average size (145 ± 15 nm) (± standard error [SE]) with a polydispersity index below 0.3, a negative zeta potential (?11.0 ± 0.5 mV), and a high encapsulation efficiency (78.20 ± 0.93 %). Scanning electron microscope photomicrograph of rosemary oil‐loaded nanocapsules showed the presence of spherical nanocapsules with regular and homogeneous surfaces. In fumigant and contact toxicity, there were significant differences between non‐formulated and rosemary oil‐loaded nanocapsules in all the concentrations and times. The results suggested that nanoencapsulated essential oils from R. officinalis can be used for effective control in T. castaneum . When this technique is used, it can produce pesticides that have controlled‐release properties and reduce the concentration of the applied doses and number of applications.