佩妃延腹榕小蜂雌蜂触角感器的扫描电镜观察

佩妃延腹榕小蜂是一种与鸡嗉子传粉榕小蜂同步寄生于接收期榕果的非传粉专性寄生蜂。为探索佩妃延腹榕小蜂寄主定位机制,应用扫描电镜观察了其雌蜂触角感器的类型、分布和超微形态。结果显示:佩妃延腹榕小蜂雌蜂触角呈膝状,长775.50μm±38.39μm,由柄节、梗节和11个鞭小节组成的鞭节构成。触角上共发现5种感器类型,分别为毛形感器、刺形感器(Ⅰ型和Ⅱ型)、多孔板形感器、锥形感器、栓锥型乳突状感器。其中,刺形感器Ⅰ和多孔板形感器是其主要感器,前者集中分布于鞭节的第4~第8鞭小节,后者分布于第4~第11鞭小节。结合触角感器的形态、分布和佩妃延腹榕小蜂的产卵行为,对各触角感器的功能进行了探讨。     

鸡嗉子榕蜂群落中雌蜂触角感器及适生意义

[目的]感知化学信息是榕小蜂群落组成和功能分化的基础,以触角为代表的感觉器官,恰能反映其寄主识别和繁殖中所承受的进化压力和适应形态.本文旨在对当前唯一以"专有信息通道"为基础形成的鸡嗉子榕Ficus semicordata榕蜂群落中雌蜂触角感器进行系统研究,探讨感器的形态分化及生态适应性.[方法]采用扫描电镜技术观察5种鸡嗉子榕小蜂雌蜂的触角及其感器,确定了 5种雌蜂触角感器的类型、形态、数量和分布,分析了多孔板形感器的比表面积与挥发物释放量之间的相关性.[结果]5种雌蜂触角均呈膝状,由柄节、梗节和数量不等的鞭亚节形成的鞭节组成,传粉榕小蜂和非传粉榕小蜂触角的主要差别在于第1鞭亚节处着生的脊骨突和梗节背面的角锥形感器.触角上共发现7类10种感器,分别为毛形感器、刺形感器(类型1、类型2和类型3)、锥形感器(类型1和类型2)、栓锥型乳突状感器、腔锥形感器、多孔板形感器和角锥形感器,其中腔锥形感器和角锥形感器仅见于传粉榕小蜂触角上,毛形感器和刺形感器1数量最多,分布最广泛;锥形感器和栓锥型乳突状感器常见于鞭节中上部;多孔板形感器分布于触角的索节和棒节处,交替环状排列,且随榕小蜂产卵时序后延,多孔板形感器感知指数呈递减趋势,并与不同发育期榕果的挥发物释放量呈显著正相关关系.[结论]不同功能物种的榕小蜂触角及其感器有明显的生态适应性,特别是增加多孔板形感器数量和长度来提高对气味物质的感知,利于解释榕蜂群落内的信息调控与稳定共存.     

伪鞘榕小蜂雌雄成虫触角感器的超微形态、分布及适生意义

伪鞘榕小蜂Sycoscapter trifemmensis是一种寄生于鸡嗉子榕间花期榕果的专性寄生蜂,雌雄两性繁殖策略分化明显,为更好理解和诠释雌蜂寄主定位和雄蜂配偶识别机制,有必要对两性的触角感器进行观察。运用环境扫描电镜观察,对比和探讨了伪鞘榕小蜂雌雄成虫的触角和触角感器类型、分布、数量及其生态适应性。结果表明:雌蜂触角鞭节由11鞭小节组成,总长817.82±33.23μm,分布有毛形感器、刺形感器(类型1)、锥形感器(类型1)、多孔板形感器(类型1)、栓锥形乳突状感器5类5种;雄蜂触角鞭节仅由6鞭小节组成,全长为雌蜂的1/3,且各节有明显的缩短和增粗特征,着生感器包括毛形感器、刺形感器(类型2和类型3)、锥形感器(类型1和类型2)、多孔板形感器(类型2)、腔锥形感器5类7种。雌蜂触角感器的数量与分布显著高于雄蜂,且同类型感器在雌蜂上具有明显的延伸、增粗、分支的特征,以板形感器和锥形感器最为突出。伪鞘榕小蜂雌雄成虫的触角及其感器有明显的性二型,特别是与化学信息识别相关的感器,反映了雌雄蜂在不同生态环境和繁殖压力下的形态分化、行为策略和生态适应。     

传粉榕小蜂雌蜂多孔板形感器的形态与适应进化

【目的】获得传粉榕小蜂(Chalcidoidea:Agaonidae)雌蜂触角上的多孔板形感器的形态特征,并结合系统发育关系,探讨多孔板形感器的适应性进化。【方法】应用扫描电子显微技术,对传粉榕小蜂12属70种雌蜂触角上多孔板形感器的超微形态、密度、排列形式等进行观察,并采用相关性分析方法研究多孔板形感器的形态适应性。【结果】传粉榕小蜂雌蜂触角上共存在长形、刺形和圆形3种多孔板形感器,长形多孔板形感器有单螺旋环状(类型Ⅰ)和多螺旋环状(类型Ⅱ)2种排列形式,刺形多孔板形感器有边缘着生型(类型Ⅲ)和轴向螺旋环型(类型Ⅳ)2种,圆形板形感器仅存在于Eupristina、Ceratosolen、Waterstoniella、Tetrapus属中,且只分布于触角第3棒节的腹面。从类型Ⅰ到类型Ⅳ,多孔板形感器具有明显的延伸、增多、末端分离等形态特征,而末端分离程度是提高感器灵敏度的一种重要方式。多孔板形感器的数量与榕果果径呈正相关(r=0.249,P=0.003),分离程度与榕果直径负相关(r=-0.231,P=0.017)。【结论】传粉榕小蜂雌蜂触角上存在长形、刺形和圆形3种多孔板形感器,其延伸、增多、末端分离等特征是一种明显的形态适应性,使之在复杂的生态环境中感知寄主的特异性挥发物。     

苹果榕传粉小蜂雌性触角感器及其生态学意义

利用扫描电子显微镜对苹果榕传粉小蜂Ceratosolen sp.雌性触角感器进行观察。结果显示:苹果榕传粉小蜂雌性触角呈膝形,分布着7类13种类型的感器,包括毛型感器、多孔的板型感器、锥型感器(2种类型)、栓锥型乳突状感器、刺型感器(4种类型)、腔锥型感器(3种类型)和一种专一性的角锥型感器。对各感器的形态、数量、分布进行描述,并结合感器的选择性染色(Ag+染色)、传粉小蜂行为及其榕/蜂互惠共生系统,对不同类型感器的功能和生态学意义进行探讨。     

椰心叶甲啮小蜂触角感觉器的扫描电镜观察

应用扫描电镜(SEM)对椰心叶甲啮小蜂Tetrastichus brontispae Ferrière成虫触角感器的超微结构进行观察。结果表明,在触角上共有8种感器,分别为毛形感器、多孔板状感器、刺形感器、锥形感器、耳形感器、乳状感器、腔形感器和Bhm氏鬃毛;其中毛形感器和板形感器是主要感器,数量较多分布较广;雌雄蜂触角有明显的性二型现象,表现为雌雄触角大小不同,触角感器类型、大小、数量、分布不同。     

钝叶榕三种榕小蜂的关键形态和行为差异研究

比较钝叶榕三种同步进果的榕小蜂——钝叶榕传粉榕小蜂、杨氏金小蜂和Lipothymussp.的关键形态,结合它们的进果行为,分析非传粉榕小蜂的形态适应性和依赖传粉榕小蜂进果的原因。结果表明,杨氏金小蜂和Li-pothymussp.的胸部、前后足均趋同于钝叶榕传粉榕小蜂,但两者体表较为光滑,有鳞片状刻纹,少毛,且触角第三部分未衍生出刺突形结构,下颚也无骨板。钝叶榕传粉榕小蜂利用刺突和下颚来撬动苞片,形成微小开口,这一过程约耗费总进果时间的2/3。无论钝叶榕传粉榕小蜂是否进入果腔,一旦苞片处形成开口,杨氏金小蜂和Lipothymussp.即可顺利进入,进入果腔的时间无显著的差异。因此,缺少刺突形结构和骨板是杨氏金小蜂和Lipothymussp.不能独自进果的关键,也意味两者进果必须依赖钝叶榕传粉榕小蜂。     

中国榕小蜂触角感受器形态特征及进化适应性分析

【目的】榕树与传粉榕小蜂体系是协同进化、专性传粉的经典系统,每种榕树上一般还生活有种类丰富、数目众多的非传粉榕小蜂。在选择压力下,榕小蜂为在榕果内生存产生了明显的适应性形态。触角感受器是昆虫通讯系统的单元,其形态是反映生态和进化适应性的最佳特征之一。本文旨在对中国部分传粉和非传粉榕小蜂的触角感受器的形态多样性和进化适应性进行系统研究。【方法】对来源于海南和云南15种榕树上24种榕小蜂54个型的触角感受器形态进行了扫描电镜观察,基于现有的分子系统发育树,对传粉榕小蜂触角感受器的形态特征进行了性状演化分析,并对榕小蜂的形态特征进行了进化适应性分析。【结果】榕小蜂触角感受器普遍存在雌雄二型现象。雌蜂触角感受器种类有毛状、锥状、板状、刺状、钟形、腔锥状和栓锥状等,数目丰富,并且进果产卵的传粉雌蜂和果外产卵的非传粉雌蜂之间、进果产卵的传粉雌蜂和进果产卵的非传粉雌蜂之间在形态上存在差异。传粉雄蜂和不具有雄性多型现象的非传粉雄蜂触角感受器极为退化,具有雄性多型的非传粉雄蜂触角感受器形态在种内不具有显著差异。性状演化分析表明进化路径相当复杂,可能存在多次独立进化过程。触角感受器的形态类型与其进化适应性相关。【结论】榕小蜂触角感受器类型多样,形态变化丰富,并为适应榕果内的生存而产生了进化适应性特点。雌蜂和雄蜂在榕果内受到了完全不同的选择压力,行使不同的生态功能,从而产生了不同的适应性形态。不同的适应性形态可能与雌蜂不同的产卵行为、雄蜂不同的交配策略具有一定联系。该文是首次对中国榕小蜂触角感受器形态进行系统研究的报道,有助于更好地理解榕小蜂的形态特征、进化路线、行为策略和生态关系。     

桉树枝瘿姬小蜂成虫感器超微结构

应用扫描电镜对桉树枝瘿姬小蜂Leptocybe invasa Fisher & LaSalle成虫触角、复眼、口器、足以及腹部末端感器的超微结构和分布进行观察。结果表明,在触角上共有8种感器,分别为Bhm氏鬃毛Ⅰ、Bhm氏鬃毛Ⅱ、刺形感器、毛形感器Ⅰ、毛形感器Ⅱ、板形感器Ⅰ、板形感器Ⅱ和钟形感器;口器上有2种感器,分别为毛形感器Ⅳ和刺形感器;在足上有4种感器,分别为毛形感器Ⅰ、毛形感器Ⅲ、刺形感器和锥形感器;在腹部末端也有3种感器,分别为毛形感器Ⅰ、刺形感器和腔形感器。同时还探讨了触角上各种感器的功能。     

黄胸蓟马触角感器的形态和分布

摘要: 【目的】本研究旨在明确黄胸蓟马Thrips hawaiiensis各个发育阶段触角感器类型、形态和分布。【方法】运用扫描电镜技术观察黄胸蓟马雌雄成虫、若虫、预蛹、蛹触角的形态结构以及触角上感器类型、形态和分布。【结果】黄胸蓟马成虫触角由柄节、梗节和鞭节3个部分组成,其中长的鞭节分为5个鞭小节(I-V)。雌成虫触角平均长度为263.70±5.78 μm,雄成虫触角平均长度为225.79±8.92 μm。触角长度随着虫龄的增长而显著增加。雌雄成虫触角上共发现Bhm氏鬃毛、钟形感器、刺形感器(I和II)、毛形感器、锥形感器(I, II和III)、腔锥形感器和腔形感器7种触角感器以及微毛和表皮齿2种表皮结构。预蛹触角呈锥形,无明显分节,可以自由活动,平均长138.81±6.29 μm。蛹触角紧贴头胸背部,圆柱形、无明显分节,不能自由活动,平均长213.07±6.30 μm。1龄和2龄若虫触角由柄节、梗节和鞭节组成,其鞭节分为4个鞭小节(I-IV),触角平均长度分别为122.48±1.72和134.58±3.75 μm。1龄若虫触角上分布有Bhm氏鬃毛、钟形感器、刺形感器(I和II)、锥形感器(I和II)、腔锥形感器、腔形感器、毛形感器和特殊结构感器共8种类型感器,表面分布表皮齿和舌状结构2种表皮结构;2龄若虫触角上分布有Bhm氏鬃毛、钟形感器、刺形感器(I和II)、毛形感器、锥形感器(I和II)、腔锥形感器、腔形感器7种类型感器以及表皮齿1种表皮结构。【结论】本研究较全面地对黄胸蓟马各个发育阶段的触角及触角感器形态和分布进行了观察和描述,并对其功能进行了推测。研究结果为进一步研究蓟马类昆虫触角感器的生理功能奠定了理论基础。     

Scanning Electron Microscopy Studies of the Antennal Sensilla of Metaphycus parasaissetiae Zhang & Huang (Hymenoptera: Encyrtidae)

Metaphycus parasaissetiae Zhang & Huang (Hymenoptera: Encyrtidae) is an important adult parasitoid of Parasaissetia nigra Nietner (Hemiptera: Coccoidea). The external morphology of the antennal sensilla of male and female M. parasaissetiae was examined using scanning electron microscopy. The geniculate antennae of male and female M. parasaissetiae were composed of a scape with a basal radicula, a barrel-shaped pedicel, and a long flagellum. Twelve morphologically distinct types of sensilla were identified, including multiporous placoid sensilla, campaniform sensilla, finger-like sensilla, multiporous basiconic sensilla (BS-1), three aporous types of basiconic sensilla (BS-2, BS-3, and BS-4), two types of aporous trichoid sensilla (TS-1 and TS-3), a type of multiporous trichoid sensilla (TS-2), and two types of sensilla chaetica (CH-1 and CH-2). Sex dimorphism in the sensilla composition of M. parasaissetiae is also observed. Major differences between the sexes were found in the number, distribution, shape, structure, and size of the identified sensilla. We also discuss on the functional aspects of these sensilla to elucidate the mechanisms involved in host searching and courtship behavior of M. parasaissetiae.     

Comparison of the antennal sensilla of females of four fig-wasps associated with Ficus auriculata

A comparison was performed of the antennal sensilla of females of four chalcid wasp species Ceratosolen emarginatus Mayr, 1906, Sycophaga sp., Philotrypesis longicaudata Mayr, 1906, and Sycoscapter roxburghi Joseph, 1957, which are specific and obligatory associated with Ficus auriculata (Lour, 1790). The four species exhibit different oviposition strategies in the fig ovules where their offspring hatch and develop. Antennal sensilla morphology was evaluated using scanning electron microscopy. Females of the four species present 11 morphologically similar types of sensilla: trichoid sensilla, sensilla obscura, chaetica sensilla 1 and 2, which all have mechanosensory functions; uniporous basiconic sensilla, which are presumably contact chemosensilla; basiconic capitate peg sensilla, coeloconic sensilla 1, multiporous basiconic and placoid sensilla, which may be regarded as olfactory sensilla, and coeloconic sensilla 2 and 3, which are presumed to be proprioreceptors or pressure receptors. The four species have significant differences in the abundance and arrangement of trichoid sensilla and chaetica sensilla 1 on the flagellum. The coeloconic sensilla and sensilla obscura only occur on the antennae of C. emarginatus that enter figs. The chemosensilla which are presumably involved in host discrimination, i.e., basiconic sensilla, multiporous placoid sensilla and basiconic capitate peg sensilla, are similar in shape and configuration, although they present some differences in abundance. These findings provide practical information on the adaptations of fig wasps and the relationship between multisensory antennae and functions in fig wasp behaviour.     

Antennal sensilla of female Trichogramma nubilale (Ertle and Davis) (Hymenoptera : Trichogrammatidae) and comparisons with other parasitic Hymenoptera

We describe the external morphology and relative positions of antennal sensilla of female Trichgramma nubilale (Hymenoptera : Trichogrammatidae) by scanning electron microscopy (SEM), and compared the results with 11 similar studies representing 15 species and 8 families within the parasitic Hymenoptera. There are 6 morphologically and structurally distinct structures on female T. nubilale antennae, which are probably sensilla, and one seta and one campaniform-like structure that may have a sensory function. Sensilla pore numbers and positions suggests that the multiporous grooved basiconica (MPG) C, multiporous pitted (MPP) trichodea A and the MPP placodea A have an olfactory function, whereas the MPP trichodea C have a gustatory function. The lack of pores and the presence of a basal socket suggests a mechanoreceptor function for aporous (AP) trichodea B, and the uniporous pitted (UPP) trichodea D, although, the latter also have a minute pore or dimple at the sensillar apex. Positions and numbers of these sensilla, setae and campaniform-like structures were consistent in all the specimens examined. These analyses suggest that antennal sensilla types and relative positions are highly conserved within the genus Trichogramma, and there are broad similarities within the parasitic Hymenoptera.     

Antennal sensilla of male and female of the nut weevil,Curculio nucum Linnaeus, 1758 (Coleoptera: Curculionidae)

The nut weevil, Curculio nucum (Linnaeus, 1758), is the main pest in hazelnut orchards (Corylus avellana L.). Semiochemicals are interesting bio control tools that could be used to manipulate the pest behaviour and to control pest populations. The study of the sensorial equipment of the insect antennae provides information on the importance of olfaction in the adult life for host plants and mate findings as well as on the putative other senses. Before electrophysiological investigation, the knowledge of antennae equipment is also necessary. The aim of this study is to determine the types, number and location of sensilla on the antennae of male and female adult C. nucum in order to determine their implication in seeking a sexual partner and a host plant. The 12-segmented antenna comprises a scape, a 7-segmented funicle and a 4-segmented club. Out of the nine sensillum types listed, three are present on the scape and the funicle and seven types on the club which gathers 71–73% of the total of sensilla. Tactile aporous sensilla chaetica C1, gustatory uniporous sensilla chaetica C2, olfactory multiporous sensilla basiconica B1 and B2 are found on both the dorsal and ventral surfaces of the club in both sexes. Thermo-hygroreceptive dome-shaped sensilla D, olfactory multiporous sensilla basiconica B3 and olfactory multiporous fluted sensilla basiconica F are found exclusively on the ventral surface of the club, suggesting that these sensilla are utilized in host plant acceptance during antennal tapping. The sexual dimorphism concerns only the numbers of sensilla chaetica C1 and sensilla basiconica B2.     

Scanning Electron Microscopy Study of the Antennal Sensilla of <Emphasis Type="Italic">Monema flavescens</Emphasis> Walker (Lepidoptera: Limacodidae)

Monema flavescens Walker (Lepidoptera: Limacodidae) is a serious polyphagous defoliator. Using scanning electron microscopy, the external morphology of the antennal sensilla of this pest was examined for a better understanding of the mechanisms of insect-insect and insect-plant chemical communications. The antennae of M. flavescens were filiform in shape, and 11 morphological types of sensilla were found in both sexes. Six types of likely chemosensory sensilla were identified: uniporous sensilla chaetica, multiporous sensilla trichodea, and four types of multiporous sensilla basiconica. The sensilla identified as likely mechanoreceptors included two subtypes of aporous sensilla chaetica, aporous sensilla coeloconica, aporous sensilla styloconica, and Böhm’s bristles, whereas the position of the antennae was monitored by Böhm’s bristles.     

Ultrastructure and distribution of sensilla on the antennae of female fig wasp Eupristina sp. (Hymenoptera: Agaonidae)

In the species‐specific and obligate mutualism between the fig (Moraceae: Ficus spp.) and its pollinator (Hymenoptera: Agaonidae), the continuity of lifecycle of both partners completely depends on the female pollinator's ability to detect receptive figs. To better understand the chemical location mechanism, we examined the antennae and their sensilla of the female fig pollinator Eupristina sp. using scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The antennae of female Eupristina sp. are geniculated, and in total, there were seven types of sensilla found on the antennae: two types of multiporous placoid sensilla (type 1 is sausage‐like and type 2 is rounded), sensilla trichodea (ST), basiconic sensilla (BS), chaetica sensilla (ChS), coeloconic sensilla (CoS), and one specialized sensillum classified as sensillum obscurum (SO). We described external morphology, abundance, distribution, ultrastructure and discussed putative functions. We inferred from their ultrastructures as chemoreceptors that two types of multiporous placoid sensilla, BS and CoS, were innervated by sensory neurons. The aporous type ST, ChS, and SO were not innervated by dendrites which may function as mechanoreceptor/proprioceptor. These results were also discussed in relation to the interaction between Eupristina sp. and its host fig.     

Morphological characterization of the antennal sensilla of t he earwig Anisolabis maritima (Dermaptera: Carcinophoridae) with reference to their probable functions

The earwig, Anisolabis maritima (Dermaptera: Carcinophoridae), is one of the most significant insects in KSA because, it was recorded in Saudi Arabia as a beneficial predator on eggs and newly hatched larvae of the red palm weevil, Rhyncophorus ferrugineus. We examined the external morphology of the antennal sensilla of males and females of A. maritima using scanning electron microscopy (SEM). The filiform antennae of A. maritima were of the conventional type comprising a basal scape, pedicle and a long, thread-like flagellum, which was composed of 12 flagellomeres of males and 16 flagellomeres of females. Six morphologically unique sensillar types were found and described on the antennae of males and females of A. maritima. Of those identified, there were three types of porous trichoid sensilla (long, curved and arcuate), and two types of basiconic sensilla (short and curved), and one type of aporous trichoid sensilla. The shape, external morphology and array of sensilla on the antennae of males and females of A. maritima were similar.     

Distribution of chemo- and mechanoreceptors on the antennae and maxillae of Busseola fusca larvae

The stem borer Busseola fusca (Fuller) (Lepidoptera: Noctuidae) is a major pest of maize, Zea mays L., and sorghum, Sorghum bicolor (L.) Moench (both Poaceae), in sub-Saharan Africa. Like in many other lepidopteran insects, the success of B. fusca in recognizing and colonizing a limited variety of plants is based on the interaction between its sensory systems and the physicochemical characteristics of its immediate environment. The sensilla on the maxillary galeae of B. fusca larvae are typical of Lepidoptera and comprise two uniporous styloconic sensilla, which are contact chemoreceptors, three basiconic sensilla, and two aporous sensilla chaetica. The maxillary palp is two-segmented and has eight small basiconic sensilla at the tip, which were also found to be gustatory. The antennae of B. fusca larvae are short and simple. The sensilla of the antenna are composed of two aporous sensilla chaetica, three multiporous cone-shaped basiconic sensilla, three small basiconic sensilla, and one aporous styloconic sensillum. The basiconic sensillum located on the third antennal segment displayed a contact chemoreception response. The other basiconic sensilla did not show any action potential activity in tip-recording tests. The significant and positive dose–response curve obtained for the antennal basiconic sensillum with sucrose indicated for the first time the presence of gustatory chemoreceptors on the antennae of a lepidopteran larva.     

Antennal sensilla and their nerve innervation in first‐instar nymphs of Porphyrophora sophorae Arch. (Hemiptera: Coccomorpha: Margarodidae)

ABSTRACT Porphyrophora (Hemiptera: Coccomorpha: Margarodidae) is a genus of soil‐inhabiting scale insects. The antennal sensilla and their innervation in the first‐instar nymphs of Porphyrophora sophorae were studied using light microscopy and scanning and transmission electron microscopy to understand the function of these sensilla and determine the sensillar innervation feature on these small antennae. The results show that the six‐segmented antennae of these nymphs have 20–23 sensilla which can be morphologically classified into seven types, for example, one Böhm's bristle (Bb), one campaniform sensillum (Ca), one Johnston's organ (Jo), 13–16 aporous sensilla trichodea (St), two coeloconic sensilla (Co), one straight multiporous peg (Mp1), and one curvy multiporous peg (Mp2). According to their function, these sensilla can be categorized into three categories: mechanoreceptors, that is, Bb, Ca, Jo, and St; thermo/hygroreceptors, that is, Co only; and chemoreceptors, that is, Mp1 and Mp2. The dendrites that innervate the Mp1, Mp2, and Co sensilla combine to form a large nerve tract (NT1) in the antennal lumen. Because NT1 extends through and out of the antenna, the somata of these neurons are present in the lymph cavity of the insect's head. The dendrites that innervate the mechanoreceptors form another nerve tract (NT2). The somata of these neurons are located inside the scape and pedicel. J. Morphol. 277:1631–1647, 2016. © 2016 Wiley Periodicals, Inc.