合成黑翅土白蚁踪迹信息素类似物的生物活性

合成了黑翅土白蚁踪迹信息素类似物(Z,Z)-3,6-十二碳二烯醇-1（DDE-OH）,该类似物对黑翅土白蚁工蚁具有和信息素提取物类似的行为反应。活性反应阈值为10^-3～10 ng/cm,大于10 ng/cm时产生较强的驱避作用。最佳活性浓度DDE-OH与信息素提取物的活性反应之间没有显著差别。     

密粘褶菌松木粉培养物对黑翅土白蚁的生物活性

【目的】研究密粘褶菌Gloeophyllum trabeum(Pers.:Fr.)Murr松木粉培养物对黑翅土白蚁Odontotermes formosanus(Shiraki)的生物活性。【方法】比较了密粘褶菌松木粉培养物不同溶剂提取液对采食工蚁的踪迹和引诱活性,研究不同浓度正己烷和乙酸乙酯提取液的引诱活性变化。【结果】正己烷提取液表现出高引诱活性和踪迹活性,乙酸乙酯、三氯甲烷、丙酮提取液具有高引诱活性和较低踪迹活性,甲醇、乙醇提取液表现出较高踪迹活性和较低引诱活性。正己烷提取液浓度与趋性反应率的回归方程为y=12.561ln(x)+50.11;乙酸乙酯提取液浓度与趋性反应率的回归方程为y=12.161ln(x)+51.411。【结论】密粘褶菌松木粉培养物对黑翅土白蚁采食工蚁具有明显的踪迹和引诱活性。正己烷和甲醇提取液的踪迹活性最强,乙酸乙酯和正己烷提取液的引诱活性最强。正己烷和乙酸乙酯提取液对采食工蚁的引诱活性具有很好的浓度相关性。     

七种抑制剂对两种白蚁谷胱甘肽S-转移酶活性抑制作用的比较

利用分光光度酶动力学方法,确定了白蚁谷胱甘肽S-转移酶（GSTs）的最适反应条件,并进一步研究了7种抑制剂对黑翅土白蚁Odontotermes formosanus (Shiraki)和黑胸散白蚁Reticulitermes chinensis Snyder GSTs活性的体外影响。结果表明：白蚁GSTs测定的最适反应条件为pH 6.5,温度25℃,最适反应时间2 min。黑翅土白蚁GSTs的米氏常数(K_mCDNB和K_mGSH)分别为0.11±0.02 mmol/L和0.81±0.16 mmol/L,最大反应速度(V_maxCDNB和V_maxGSH)分别为425.92±19.67 nmol/(min·mg)和534.86±39.05 nmol/(min·mg)。黑胸散白蚁GSTs的米氏常数(K_mCDNB和K_mGSH)分别为0.12±0.03 mmol/L和1.03±0.31 mmol/L,最大反应速度(V_maxCDNB和V_maxGSH)分别为544.39±37.19 nmol/(min·mg)和715.45±83.68 nmol/(min·mg)。浓度为2×10^-5 mol/L时,槲皮素和辛硫磷对黑胸散白蚁GSTs活性的抑制作用要强于黑翅土白蚁,对黑胸散白蚁GSTs活性的抑制作用分别为62.28％和44.89％,对黑翅土白蚁GSTs活性的抑制作用分别为54.96％和28.36％。高效氯氰菊酯、甲氰菊酯、啶虫脒和单宁酸对黑翅土白蚁GSTs活性的抑制作用要强于黑胸散白蚁,对黑翅土白蚁GSTs活性的抑制作用分别为39.43％,72.07％,52.24％和82.19％;对黑胸散白蚁GSTs活性的抑制作用分别为14.96％,40.23％,39.96％和57.80％。阿维菌素对黑翅土白蚁和黑胸散白蚁GSTs活性的抑制作用没有显著差异,对黑翅土白蚁和黑胸散白蚁GSTs活性的抑制作用分别为76.21％和76.88％。这表明两种白蚁对药剂的敏感性完全不同。实验结果还表明,在3.2×10^-8～2×10^-5 mol/L内,上述植物次生物质和杀虫剂对两种白蚁GSTs活性的抑制率存在明显的剂量-效应关系。     

黑翅土白蚁的跟踪信息素

黑翅土白蚁Odontotermes formosanus(Shiraki)严重危害堤坝,有明显跟踪行为,其分泌跟踪物质的腹板腺位于腹部第5节腹板前沿中部,分泌细胞呈长形,与腹板呈垂直方向排列。用滤纸双圈法测定黑翅土白蚁跟踪行为。跟踪物质的抽提以正己烷较好,丙酮和二氯甲烷次之。从抽提液柱层析、薄层层析和微化学反应结果推测,其跟踪物质可能是含有双键的醇类化合物。密褐褶孔菌及其感染的腐木块抽提液及白蚁跟踪信息化合物——顺,顺-3,6-十二碳双烯醇都对黑翅土白蚁有较强的跟踪活性。肖若散白蚁和家白蚁抽提液均对黑翅土白蚁有跟踪活性,但肖若散白蚁和家白蚁对黑翅土白蚁抽提液及其柱层析和薄层层析的活性馏份无活性反应。     

氯化钠含量对黑翅土白蚁生存的影响

【目的】为摸清堤坝土埝中氯化钠对黑翅土白蚁Odontotermes formosanus Shiraki生存的影响,合理确定防治黑翅土白蚁危害堤坝的氯化钠含量值,确保堤坝工程安全运行。【方法】选取有黑翅土白蚁生存和无黑翅土白蚁生存两类堤坝的土埝,进行土埝中氯化钠含量的测试。【结果】有黑翅土白蚁生存的堤坝土埝氯化钠含量在0.02%以下,无黑翅土白蚁生存的堤坝土埝氯化钠含量在0.19%以上。【结论】研究成果对黑翅土白蚁危害堤坝的防治具有很好的实用价值。     

黑翅土白蚁与其它二种白蚁种群间的相容性

将黑翅土白蚁Odontotermes formosanus(Shiraki)与另外2个种群的白蚁按一定比例放置于同一培养皿中观察其斗争情况,研究黑翅土白蚁与台湾乳白蚁Coptotermes formosanus(Shiraki)和黑胸散白蚁Reticulitermes chinensisSnyder的相容性。结果表明,实验一开始,双方的工蚁和兵蚁都立即进入激烈的嘶咬斗争,在不同配比下,开始5min内的斗争次数均在40次左右,5h后开始5min内的斗争次数陡然下降,几乎不发生争斗。各种群白蚁在其数量占优势的情况下均表现出显著的斗争优势;而在双方数量相当时,黑翅土白蚁工蚁的斗争能力明显强于另外2个种群的工蚁。结果表明,自然界中不可能出现黑翅土白蚁与家白蚁和黑胸散白蚁群体的偶然性融合,黑翅土白蚁很可能在其群体建立的地区中占据优势。     

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。     

黑翅土白蚁乙酰胆碱酯酶最佳反应体系的建立及药剂敏感度比较

用正交试验方法研究了酶浓度、底物浓度、反应体系pH值、反应温度、反应时间5个因素对黑翅土白蚁Odontotermes formosanus (Shiraki)乙酰胆碱酯酶(AChE)活性测定的影响。通过对正交试验结果进行极差和方差分析,明确了测定黑翅土白蚁AChE活性的最适反应条件是酶浓度为12.5 g/L,底物浓度为8 mmol/L,pH值8.0,反应温度40℃,反应时间5 min。此外,研究了6种药剂对黑翅土白蚁体内AChE活性的影响。结果表明：灭多威、辛硫磷、三唑磷、丙溴磷、马拉硫磷和氧化乐果6种药剂对黑翅土白蚁AChE抑制中浓度(IC₅₀)分别为3.52×10^-4,1.86×10^-3,5.13×10^-3,9.55×10^-4,8.81×10^-3,和1.39×10^-2 mol/L。在3.3×10^-7～5×10^-3 mol/L的浓度范围内,上述6种药剂对黑翅土白蚁体内AChE活性的抑制作用都具有明显的剂量效应关系。     

烯啶虫胺肠衣饵剂对黑翅土白蚁的防治效果

[目的]为了开发一种高效环保型白蚁饵剂.[方法]选定烯啶虫胺和溴虫腈对黑翅土白蚁Odontotermes formosanus进行室内毒力测定,根据室内毒力测定结果筛选毒力较高药剂进行驱避试验,并制备3种不同剂量的肠衣饵剂,开展室内白蚁毒杀效果试验和园林白蚁防治效果试验;选用合适剂量肠衣饵剂进行堤坝黑翅土白蚁诱杀试验,并用挖巢法检测肠衣饵剂对堤坝黑翅土白蚁的诱杀效果.[结果]1.6tg/mL烯啶虫胺处理黑翅土白蚁72 h后校正死亡率达100％,16 μtg/mL溴虫腈处理72 h后黑翅土白蚁校正死亡率也达到100％.室内毒力测定结果表明烯啶虫胺对黑翅土白蚁的LC5o值低于溴虫腈,100 μtg/mL烯啶虫胺处理8h后对黑翅土白蚁无显著驱避作用.3种剂量烯啶虫胺肠衣饵剂处理72 h后,黑翅土白蚁校正死亡率均在60％以上.将不同剂量的烯啶虫胺肠衣饵剂投放到园林中45 d后,肠衣饵剂基本被食空,施药点周围无白蚁及活动迹象.在福建省水库大坝周围投放60 μtg/g烯啶虫胺肠衣饵剂,3个月后肠衣饵剂未发霉且基本被食空,6个月后挖巢发现蚁道内无黑翅土白蚁活动,白蚁巢体出现死亡和坍塌情况.[结论]60 μg/g烯啶虫胺肠衣饵剂对园林和堤坝中的黑翅土白蚁具有良好的诱杀效果,是一种高效环保型白蚁肠衣饵剂.     

白蚁踪迹信息素研究进展

近年来, 固相微萃取技术的使用显著促进了白蚁踪迹信息素研究的开展。目前, 已有77种白蚁的踪迹信息素得到研究, 常见化学成分为十二碳单烯醇、 十二碳二烯醇和十二碳三烯醇, 其次为新松柏烯。已经鉴定的踪迹信息素主要为单组分或双组分系统。白蚁踪迹信息素由腹板腺分泌, 除澳白蚁科的达氏澳白蚁Mastotermes darwiniensis具有3个腹板腺外, 现存的白蚁均具有1个腹板腺, 位于第4或第5腹节。所有腹板腺都具有类型Ⅰ和Ⅱ两类细胞, 原白蚁亚科（Termopsinae）、 齿白蚁科（Serritermitidae）、 鼻白蚁科（Rhinotermitidae）种类的腹板腺还具有类型Ⅲ细胞。踪迹信息素的生物合成还缺乏研究, 推测有甲羟戊酸、 脂肪醇和饱和表皮烃3种途径。白蚁踪迹信息素的简约性十分显著, 不同地理分布、 生物生态习性以及一些系统距离较远的种类具有相同和密切相关的踪迹信息素。对于许多种类, 相同的信息化合物具有踪迹信息素和配对性信息素双重功能。白蚁踪迹信息素种特异性和简约性的适应意义和进化机制需要进一步研究。     

Decay rates of attractive and repellent pheromones in an ant foraging trail network

Pharaoh’s ants (Monomorium pharaonis) use at least three types of foraging trail pheromone: a long-lasting attractive pheromone and two short-lived pheromones, one attractive and one repellent. We measured the decay rates of the behavioural response of ant workers at a trail bifurcation to trail substrate marked with either repellent or attractive short-lived pheromones. Our results show that the repellent pheromone effect lasts more than twice as long as the attractive pheromone effect (78 min versus 33 min). Although the effects of these two pheromones decay at approximately the same rate, the initial effect of the repellent pheromone on branch choice is almost twice that of the attractive pheromone (48% versus 25% above control). We hypothesise that the two pheromones have complementary but distinct roles, with the repellent pheromone specifically directing ants at bifurcations, while the attractive pheromone guides ants along the entire trail. Received 15 November 2007; revised 7 March 2008; accepted 18 March 2008.     

An agent-based model to investigate the roles of attractive and repellent pheromones in ant decision making during foraging

Pharaoh's ants organise their foraging system using three types of trail pheromone. All previous foraging models based on specific ant foraging systems have assumed that only a single attractive pheromone is used. Here we present an agent-based model based on trail choice at a trail bifurcation within the foraging trail network of a Pharaoh's ant colony which includes both attractive (positive) and repellent (negative) trail pheromones. Experiments have previously shown that Pharaoh's ants use both types of pheromone. We investigate how the repellent pheromone affects trail choice and foraging success in our simulated foraging system. We find that both the repellent and attractive pheromones have a role in trail choice, and that the repellent pheromone prevents random fluctuations which could otherwise lead to a positive feedback loop causing the colony to concentrate its foraging on the unrewarding trail. An emergent feature of the model is a high level of variability in the level of repellent pheromone on the unrewarding branch. This is caused by the repellent pheromone exerting negative feedback on its own deposition. We also investigate the dynamic situation where the location of the food is changed after foraging trails are established. We find that the repellent pheromone has a key role in enabling the colony to refocus the foraging effort to the new location. Our results show that having a repellent pheromone is adaptive, as it increases the robustness and flexibility of the colony's overall foraging response.     

Trail following and stowaway behaviour of the myrmecophilous staphylinid beetle,Homoeusa acuminata,during foraging trips of its hostLasius fuliginosus (Hymenoptera: Formicidae)

Summary The behaviour of adultHomoeusa acuminata on trails of its hostLasius fuliginosus was investigated both in the field and in the laboratory. The beetles were active from May to September, accurately following the foraging trails of their hosts up to 20 metres from the nest. Most of the time, they were ignored by the ants, but if attacked they raised their abdomen as a possible appeasement or defensive behaviour. On trails the beetles most probably act as food robbers, feeding on prey collected by ants. The following method, called stowaway behaviour, was used by the beetles: when a beetle encountered an ant carrying a prey back to the nest it jumped on the prey, probably feeding on it while being transported.Laboratory experiments on circular artificial trails demonstrated thatH. acuminata follows a water extract of hindguts of the ants, the source of the trail pheromone. Both beetles and ants responded to an artificial trail of 0.03 hindgut equivalent per cm, but the mean distance followed by the beetles was about twelve times higher than that covered by the ants themselves. In contrast, experiments with solutions of the six fatty acids reported as the active components of the trail pheromone showed that the beetles did not respond at all, and that the ants only respond to the fatty acids at a very high concentration.     

Revisiting the trail pheromone components of the red imported fire ant,Solenopsis invicta Buren

Ants use species-specific trail pheromones to coordinate their sophisticated foraging behavior. During the past decades, many trail pheromone components with various structures have been identified in ants, including the red imported fire ant, Solenopsis invicta, a notorious invasive species worldwide. Four compounds, Z,E- (ZEF) and E,E-α-farnesene (EEF), Z,E- (ZEHF) and E,E-α-homofarnesene (EEHF), have been reported as components of S. invicta trail pheromone. However, another study reported an analog of α-farnesene, Z,Z,Z-allofarnesene, as a key trail pheromone component. These contrasting results caused some uncertainty about the trail pheromone composition in S. invicta. In this study, we synthesized ZEF and EEF, ZEHF and EEHF, and reanalyzed the chemicals in the Dufour gland extract and in the trail pheromone fraction of S. invicta worker body extract. The reported isomers of farnesene and homofarnesene were detected and showed trail-following activity, with ZEF as the major compound, while no allofarnesene was found, neither in the Dufour gland extract nor in the whole-body extract. Our results confirm ZEF and EEF, ZEHF and EEHF as trail pheromone components of S. invicta.     

Fire ant trail pheromones: Analysis of species specificity after gas chromatographic fractionation

The specificity of the trail pheromones of four Solenopsis species was determined using natural trails. Dufour's gland extracts, and purified fractions from Dufour's gland extracts collected after gas-chromatographic separation. S. richteri and S. invicta possess species-specific major trail pheromones, while S. geminata and S. xyloni appear to have a common trail pheromone. Preliminary chemical characterization of the main trail pheromone of S. richteri indicates a M.W. of 218 and empirical formula of C₁₆H₂₆. The trail pheromone system of S. richteri consists of a blend of compounds and this phenomenon may also occur in the other species. The lowest concentration of their trail pheromone that workers of S. richteri could detect was about 10 fg per cm. The significance of blends of pheromones being utilized to generate chemical trails is discussed.     

Sensory Aspects of Trail-Following Behaviors in the Asian Longhorned Beetle, <Emphasis Type="Italic">Anoplophora glabripennis</Emphasis>

Anoplophora glabripennis has a complex suite of mate-finding behaviors, the functions of which are not entirely understood. These behaviors are elicited by a number of factors, including visual and chemical cues. Chemical cues include a male-produced volatile semiochemical acting as a long-range sex pheromone, a female-produced cuticular hydrocarbon blend serving as a sex-identification contact pheromone, and a recently identified female-produced trail sex pheromone that is followed by mate-seeking males. However, the sensory appendages and sensilla on these appendages used to detect the trail sex pheromone are unknown. We evaluated the ability of virgin male A. glabripennis to follow a sex pheromone trail after removal of the terminal four antennal segments and/or the maxillary and labial palps using a two-choice behavioral bioassay. We also tested the ability of males to follow the trail sex pheromone using volatile pheromone cues only, without physical contact with the pheromone. Results indicate that the palps are primarily responsible for sensing the pheromone, with males lacking palps unable to respond behaviorally to the trail sex pheromone. Under the conditions of this study, males could not follow the sex pheromone trail without direct contact, suggesting that olfaction may not be involved in detection of this pheromone. However, we did not determine to what degree the trail pheromone chemicals can volatilize under our experimental conditions. This work is important in elucidating the behaviors and sensory structures involved in mate-finding by this species on host trees, and these studies may help determine whether the trail sex pheromone has applications for monitoring and management.     

The trail of the african urticating antTetramorium aculeatum: Source,potency, and workers' behavior (Hymenoptera: Formicidae)

This paper studies the production of and the response to the trail in the African urticating ant,Tetramorium aculeatum under a variety of laboratory conditions. The trail was found to contain a complex mix of substances. Two of these components are secreted by the poison gland: The most volatile one is an attractant and increases the ants' linear speed; the other is the trail pheromone, which may act for days on a dry substrate. A third component is present on the last abdominal sternite. It acts as an attractant and a locostimulant and is synergistic of the trail pheromone. The activity of these substances increases with the age of the workers. While following a trail, foragers, even unrewarded, reinforce it with both the poison gland contents and the synergistic compound. The ants follow trails better in darkness than in light. A wetted trail rapidly loses its activity. The article suggests an explanation for the functioning ofT. aculeatum's natural trails, including the role of its different components.     

Cuticular lipids as trail pheromone in a social wasp

We investigated the origin and composition of the chemical trail of the common yellow jacket Vespula vulgaris L. (Vespidae) and found that an artificial trail made from an extract of cuticular lipids from V. vulgaris foragers was biologically as active as a trail laid naturally by the foragers. Chemical analysis of natural trail extracts and the behaviourally active cuticular extracts by coupled gas chromatography-mass spectrometry revealed that the majority of cuticular hydrocarbons were also present in the trail extract at similar ratios. Thus, bioassay data and chemical analysis provide strong evidence that these cuticular hydrocarbons act as a trail pheromone in V. vulgaris.