寄主

Glabripennis. The research of ability of arresting of host trees and moulds to A. glabripennis showed that there was a recognition process involving feeling, gustation and olfaction after the beetle landed on host trees or models, then the beetle made its choice to accept or reject host trees after comprehensive recognition.

寄主树种和模具对光肩星天牛的滞留效应研究表明：在对寄主植物做出定向后，天牛对寄主有一个识别过程，此过程涉及到触觉、味觉和嗅觉等，经各种感觉机制的综合作用，对寄主植物做出取舍决定。

Horticola , in which Compositae, Cruciferae, Laguminosae and Cucurbitaceae are the main families. It occurs seriously on lettuce, cauliflower, pea, rape and horsebean. The hosts can be divided into four types: the most fitting host, fitting host, preferable host and secondary host. The oviposition of C. horticola on 8 kinds of hosts selected was checked under microscope, which had proved the investigation of host suitability and lettuce is the favorite host.

2004年对扬州地区露地蔬菜上的豌豆彩潜蝇寄主种类及危害程度进行了调查，采用五点取样法共查到豌豆彩潜蝇的蔬菜寄主6科23种，主要分布在菊科、十字花科、豆科和葫芦科等的蔬菜上，其中以莴苣、花椰菜、豌豆、油菜、蚕豆受害最为严重；选择性田间调查和室内试验证明，莴苣是豌豆彩潜蝇最嗜好寄主。

The results indicate that female wasps deposit HMPs on the chorion of host eggs with her ovipositor near the end of egg-laying process. Na ye females do not posses the ability for recognizing the marking pheromones and have to obtain the ability though the learning process, in which the wasp inserts her ovipositor into a host egg to determine whether the egg has been parasitized followed by antennal drumming on the exterior. Once the learning process is completed, the female wasp will be able to discriminate between parasitized and unparasitized hosts and reject a parasitized egg by simply drumming on the exterior of the egg. Learning plays an important role in reducing initial rejection time when an unsuitable host is encountered. Female wasps of T. astriniae can quickly learn to associate the presence of a HMP on host egg chrion with the internal status of the egg.

研究结果表明，玉米螟赤眼蜂的寄主标记信息素是在其产卵过程中的收场阶段由产卵器产生的，并且标记在寄主卵表的化学物质；玉米螟赤眼蜂对标记信息素的识别不具有先天性，其必须先用产卵器插入寄生卵来检测是否被寄生，然后其触角不停地敲击，通过学习获得对标记信息素的识别能力，从而放弃了对寄生卵的选择，学习对初始放弃时间有着重要影响，改善了其对寄主搜索效率，这种学习行为是与寄主联系在一起学习的，它能根据寄主被寄生与否而对标记信息素作出反应与不反应。

Six different species of seeds including adzuki bean, hairy dumaisa, pigeon pea, soybean, mung bean, and maize, were used in our experiments, and both free-choice and non-choice tests were conducted.

试验中提供六种不同寄主包括：红豆、绿豆、花豆、黑豆、黄豆、玉米，给予四纹豆象进行偏好试验，寄主偏好试验分成两种处理，一是自由选择试验，即将不同种类寄主混合，目的是让豆象在不同寄主同时存在的状况做产卵选择。

Plutella xylostella larvae of a strain highly resistant to spinosad were used as hosts to rear the parasitoid Cotesia plutellae. When the parasitoids had developed to the stage of early instar larva, the host larvae were treated with 50 mg/L spinosad on the terga by topical application and then fed with cabbage leaves treated with 50 mg/L spinosad to allow the host larvae and the parasitoid larvae to develop. Three days after treatment, the parasitoid larvae inside the host were collected by dissecting the host larvae. The body fluid of P. xylostella and the bodies of parasitoid larvae were then analyzed with HPLC. Both of the active components, spinosyn A and spinosyn D, of spinosad were detected in the body fluid of host larvae and in the bodies of parasitoid larvae, and the residue concentrations were 2.79 mg/L and 0.94 mg/L in the host and the parasitoid respectively.

以对多杀菌素高抗的小菜蛾Plutella xylostella幼虫作为菜蛾绒茧蜂Cotesia plutellae的寄主，待绒茧蜂发育到1龄幼虫时，将浓度为50 mg/L的多杀菌素点滴到寄主幼虫背板上，随后让寄主幼虫取食经50 mg/L多杀菌素处理过的甘蓝叶片，寄主幼虫和其体内的蜂幼虫再发育3天后，将寄主幼虫解剖取出蜂幼虫，用高效液相色谱法对经多杀菌素处理的小菜蛾幼虫体液以及绒茧蜂幼虫匀浆液进行检测，结果多杀菌素的2个活性成分spinosyn A和spinosyn D均被检测到，两者的多杀菌素残留浓度分别是2.79 mg/L和0.94 mg/L。

In C. indicus, the infected mechanism correlated with season. The infusoriform larvae of dicyemid mesozoan dispersal from the host to sea water in the autumn and winter, then entering host in the spring and summer. The change of dicyemid life cycle stage in the C. indicus kidney correlates with the sharp decrease of infection intensity. However, the dicyemid infection in Octopus marginatus correlates with body size, not with season.

在C。 indicus之分析中可发现，中生虫之感染与季节有关，有性幼体於秋、冬季自寄主章鱼体内扩散至外界，并於春、夏季大量进入寄主，接著在寄主体内发展，每一次生活史之时期转变，伴随著感染强度之骤降，直至成熟之菱形体时期，大量有性幼体出现肾腔中，至秋季有性幼体随寄主尿液排至外界，下一个生活史之循环接著开始。

The biologic assay validated that Allium porrum、Allium cepa、Vicia faba and Gomphrena globosa was better indicator host of LYSV、OYDV、GCLV and PVX respectively. Virus particles were observed in purified sap from infected garlic or infected indicator host.

明确了韭葱是LYSV很好的鉴别寄主和繁殖寄主，洋葱是OYDV很好的鉴别寄主和繁殖寄主，蚕豆是GCLV很好的鉴别寄主，千日红是PVX很好的鉴别寄主。

There were eight strains in Group1 whose hosts were Indigofera, the central strain was SHLO42. There were six strains in Group2 whose hosts were diversity, the central strain was SH199. There were night strains in Group3 which major hosts were Astragalus , the central strain was SH290B.

第1亚群有8株菌寄主均为木蓝属的不同种，中心菌株为 SHL042；第2亚群有6株菌，寄主来源多样，中心菌株为 SH199；第3亚群9株菌，寄主大多数为黄芪属的不同种，中心菌株为 SH290B ；第4亚群7株菌，寄主很集中均为鸡眼草，中心菌株为 SH714；第5亚群菌株数较少仅有4株。

Following evidences indicate that lherzolite and garnet pyroxenite xenoliths in basalts are captures of mantle fragments when host magma ascending: crystallizing temperatures and pressures of cpx megacrysts and some phenocrysts in host magmas are greater than equilibrium temperatures and pressures of xenoliths; calculated REE partition pattern of assumed equilibrium melts is not comparable with that of studied host basalt rocks; olivine in xenoliths is not in equilibrium with basalt rocks.

寄主玄武岩的单斜辉石斑晶—熔体平衡温度高于石榴石二辉橄榄岩和石榴石辉石岩包体的平衡温度，单斜辉石巨晶和部分斑晶—熔体平衡压力大于包体平衡压力，寄主碱性玄武岩的稀土配分型式和所计算的与尖晶石二辉橄榄岩包体平衡的熔体的稀土配分型式不同，包体橄榄石与寄主岩浆之间的Fe-Mg交换系数低于0.30，均表明包体与寄主玄武岩浆之间不存在平衡关系，因此，包体是被寄主玄武岩浆捕虏的上地幔碎块。

The feature adaptation of P.rigidula and the evolution of the parasitic shrubs had been discussed. Some of the characteristics based on the superparasitic chains elucidate the evolutionary processi...

讨论认为，重寄生链上的一些渐变特征展现林木上寄生灌木具有 2个演化阶段，即以自养树木为寄主的半寄生灌木演化阶段，和以树木上半寄生灌木为直接寄主的重寄生灌木演化阶段；重寄生属植物特殊的生活习性和形态结构特征，是与其在寄主桑寄生科半寄生灌木上生活的特殊环境相适应的，是与其寄主、传播花粉蚂蚁类昆虫和传播种子鸟类协同演化的结果。

appressorium：附着孢[真菌附着寄主的一种结构]

apply 施用[施肥, 施药等] | appressorium 附着孢[真菌附着寄主的一种结构] | approach 处理靠近

autoecism：單一寄主寄生

單矽鞭毛藻科 Dictyochaceae | 單一寄主寄生 autoecism | 單一寄主菌 autoecious fungus

host biotype：寄主型

宿主鱼:Host-fishes | 寄主型:host biotype | 东道国:Host Nation

congenial host：同质感病寄主

congenial graft | 同类嫁接, 亲合嫁接 | congenial host | 同质感病寄主 | congenial | 性格相似的, 适意的

definitive host：终结寄主

\\"定期毛发\\",\\"definitive hair\\" | \\"终结寄主\\",\\"definitive host\\" | \\"定舌\\",\\"definitive tongue\\"

definitive host：一定的寄主

一定變異性 definite variability | 一定的寄主 definitive host | 一帆青(質問本草);蜘蛛抱蛋(圖考);葉蘭(日本);一葉(琉球國史略) Aspidistra elatior BL.;cast-iron plant

definitive host：最后宿主,终寄主,终宿主

definitive erythroblast 次级成红细胞,成熟成红细胞 | definitive host 最后宿主,终寄主,终宿主 | definitive instruction 定义指令

host plant：寄主植物

然而,它们直到 最近为止由于两个缘由而没能得到广泛的研究.首先,共生联系(symbiotic association)是平衡得如此之好,以致于寄主植物(host plant) 的根部即使在遭到密集感染的情况下亦不会显示出任何受损害的迹象.其次,

host plant specificity：植物寄主专化性

host plant 寄主植物 | host plant specificity 植物寄主专化性 | host-population 寄主种群

autoecious fungus：單一寄主菌

單一寄主寄生 autoecism | 單一寄主菌 autoecious fungus | 單子紅豆 beadtree ormosa; Ormosia monosperma Urban