聚果榕上黄猄蚁对传粉小蜂和非传粉小蜂后代数量的影响

2003年12月-2004年5月在中国科学院西双版纳热带植物园,对聚果榕（Ficus racemosa Linn．）上活动的黄猄蚁进行了野外观测和隔离实验。预备观察到传粉小蜂钻入榕果内产卵;5种非传粉小蜂在果外用产卵器刺入果壁产卵,疤痕数量即为非传粉小蜂的产卵次数。在用粘鼠胶作隔离黄猄蚁的材料前,做了粘鼠胶对6种小蜂产卵的影响实验,发现粘鼠胶颜色气味等对其产卵无影响。随机选8株样树,在样树刚挂果时,在每株树上选取大小、位置、发育时期均相近的2个果枝（一组）。一枝在基部涂上粘鼠胶（处理）,另一枝不作任何处理（对照）。当榕果变成橙色且变软时,将其采下单独分装,计数各单果内6种小蜂的数量。传粉小蜂在榕果的雌花期进入果内传粉和产卵,通常数秒内就能从果外的花托口钻入榕果,产卵受黄猄蚁干扰很小。而5种非传粉小蜂都是在榕果壁上将产卵器插入果内产卵,产卵持续的时间变化较大,从几分钟到几个钟头不等,因而其产卵受黄猄蚁干扰较大。双因素方差分析结果表明,黄猄蚁对榕果内各种小蜂的数量百分数都有显著影响（n=82,F1.80〉9,P〈0．02）.隔离黄猄蚁后,传粉小蜂的后代数量占各种小蜂总数的百分率显著降低（2．14％）;未隔离占73．02％;除P．agraensis外,隔离黄猄蚁后,其他4种非传粉小蜂后代百分率均提高。聚果榕上的黄猄蚁有利于传粉小蜂繁殖,不利于非传粉小蜂繁殖,从而间接有益于榕树。     

钝叶榕(Ficus curtipes)非传粉小蜂交配行为

榕树及其传粉榕小蜂繁殖上相互依存,被认为是生物界中协同进化时间最悠久,相互关系最密切的一对生物;在大多数榕树种类的隐头花序内,除了传粉榕小蜂外,还共存着多种非传粉小蜂,它们的繁殖行为直接影响着榕树和传粉榕小蜂的繁殖和互惠稳定.钝叶榕(Ficus curtipes Corner),是一种雌雄同株的绞杀性榕树.研究在西双版纳热带植物园里共收集钝叶榕100个隐头果内的榕小蜂,获得9493号标本;其中,包括1种传粉小蜂和5种非传粉小蜂,钝叶榕传粉小蜂Eupristina sp.占总数的44.66%,杨氏榕树金小蜂Diaziella yangi 占46.13%,而其它4种非传粉小蜂(Lipothymus sp., Sycobia sp., Philotrypesis sp.和Sycoscopter sp.)仅占9.20%.前3种榕小蜂雌蜂进到果腔产卵,其余3种在果外产卵.观测23个钝叶榕榕果出蜂情况发现,6种榕小蜂在钝叶榕隐头花序内遵循严格的羽化出蜂顺序,首先是Sycobia sp.,次之是Lipothymus sp.,再次之是杨氏榕树金小蜂,最后是钝叶榕传粉小蜂、Philotrypesis sp.和Sycoscopter sp..5种非传粉小蜂的交配场所与雄蜂翅型无关,雄蜂有翅型的杨氏榕树金小蜂大部分交配在果内完成,而且它们的雄蜂为争夺交配机会存在激烈的打斗行为;雄蜂无翅型的Lipothymus sp.有部分雄蜂爬出隐头果,在果壁和附近的叶片背面交配;雄蜂有翅型的Sycobia sp.,其所有交配都发生在果外;Philotrypesis sp.和Sycoscopter sp. 雄蜂均无翅,它们的交配全发生在果内.局域配偶竞争使榕小蜂性比偏雌,杨氏榕树金小蜂雄蜂虽然有翅,但大部分交配发生在榕果内,这将影响其最佳的性比率.因此,依赖雄蜂翅型并不能很好地预测榕小蜂的交配场所和性比率.     

寄生垂叶榕的两种非传粉榕小蜂的产卵行为

通过对两种果外产卵非传粉榕小蜂Philotrypesissp.和Sycoscaptersp.产卵行为的详细观察,发现两种小蜂产卵期都集中在榕果发育的间花期,并且只在进过传粉榕小蜂的榕果内产卵。这两种小蜂的产卵行为基本都可以分为寻找产卵位点、刺壁、产卵和回收产卵器等步骤。落在果面上的两种小蜂的繁殖雌蜂都通过触角敲击果面寻找产卵位点。产卵结束后,Philotrypesissp.大多数情况在原位收回产卵针,而Sycoscaptersp.必须向前爬行才能将产卵针从果内收回。为了争夺产卵位点,在同一榕果产卵的Philotrypesissp.繁殖雌蜂之间会进行打斗。而Sycoscaptersp.繁殖雌蜂之间未观察到打斗行为。两种小蜂产卵器长度虽显著长于各自产卵时榕果果壁厚度,但却显著短于其产卵时榕果果壁和子房层的总厚度,说明这两种小蜂采用产卵针直接刺穿小花子房的产卵模式。     

佩妃延腹榕小蜂的产卵行为

榕树与传粉榕小蜂之间的互惠共生关系是协同进化研究领域中的热点之一。榕树除了与传粉榕小蜂共生外,它还为许多非传粉榕小蜂提供食物和生境。佩妃延腹榕小蜂Philotrypesis pilosa Mayr腹部第8～9节背板极度延伸,形似长长的产卵鞘,其后更长的才是真正的产卵鞘。它将产卵针刺入榕果的果壁,产卵于果内。该蜂是对叶榕Ficus hispida L. 的传粉榕小蜂Ceratosolen solmsi （Mayr）的盗食性寄生蜂。我们利用数码照相机记录了佩妃延腹榕小蜂产卵的全过程,详细描述了其产卵行为。发现了前人没有发现的下列行为特点： (1）当雌蜂找到合适的产卵位点时,身体呈倒立状,后足扶持产卵鞘到选定的产卵位点;2）从开始插入产卵针到产卵鞘向后弹出,腹部第8～9节背板延伸部分与产卵鞘之间有两次大幅度的靠拢与分开,第一次靠拢与分开是保证产卵针以最佳的垂直角度插入果内,第二次是使产卵鞘向后弹出,将暴露在外的产卵针顺利地插入果内;3）雌蜂产卵针沿榕果直径方向（最短距离）插入果壁;4）前足与后足比中足发达,与整个产卵过程中支撑身体的行为有关 。     

西双版纳鸡嗉果榕内一种非传粉小蜂的性比调节

对西双版纳广泛分布的鸡嗉果榕（Ficus semicordata）雄树上寄生的一种非传粉榕小蜂Apocryptophagus sp.进行控制梯度放蜂实验,结合产卵行为、交配行为观察,定量研究了该种非传粉榕小蜂的性比率.结果表明：Apocryptophagus sp.雌蜂在传粉榕小蜂（Ceratosolen gravelyi）产卵后的第3天开始访问榕果,从果外完成产卵,产卵时间持续2d左右.发育成熟以后,其雄蜂几乎与传粉榕小蜂雄蜂同时羽化,雄蜂咬开寄生有其雌蜂的瘿花并进行交配,雌蜂交配后从瘿花内羽化出来离开榕果,去寻找新的处于接受期的榕果,而雄蜂一直留在其寄生的榕果内直至死亡.后代性比与局域配偶竞争理论预测一致：性比偏雌,随着在同一榕果产卵的繁殖雌蜂数量的增加,后代性比上升;同时,单个榕果内的后代数量也上升,而平均后代数量却显著下降.在个体水平上,当1头雌蜂在榕果上产卵时,后代性比与后代数量呈显著的负相关关系.     

西双版纳鸡嗉果榕内一种非传粉小蜂的性比调节

对西双版纳广泛分布的鸡嗉果榕(Ficus semicordata)雄树上寄生的一种非传粉榕小蜂Apocryptophagus sp.进行控制梯度放蜂实验，结合产卵行为、交配行为观察，定量研究了该种非传粉榕小蜂的性比率.结果表明: Apocryptophagus sp.雌蜂在传粉榕小蜂(Ceratosolen gravelyi)产卵后的第3天开始访问榕果，从果外完成产卵，产卵时间持续2 d左右.发育成熟以后，其雄蜂几乎与传粉榕小蜂雄蜂同时羽化，雄蜂咬开寄生有其雌蜂的瘿花并进行交配，雌蜂交配后从瘿花内羽化出来离开榕果，去寻找新的处于接受期的榕果，而雄蜂一直留在其寄生的榕果内直至死亡.后代性比与局域配偶竞争理论预测一致：性比偏雌，随着在同一榕果产卵的繁殖雌蜂数量的增加，后代性比上升；同时，单个榕果内的后代数量也上升，而平均后代数量却显著下降.在个体水平上，当1头雌蜂在榕果上产卵时，后代性比与后代数量呈显著的负相关关系.     

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。     

钝叶榕榕果内榕小蜂的产卵顺序及其群落结构

通过对钝叶榕榕小蜂行为的观察以及榕果内各类小花的统计,研究了钝叶榕12种榕小蜂的产卵行为和群落结构.结果表明：钝叶榕中除了传粉榕小蜂Eupristina sp.进入果腔产卵以外,还有2种非传粉榕小蜂（杨氏榕树金小蜂和Lipothymus sp.）与传粉榕小蜂在同一时期进入果腔产卵,其他9种非传粉榕小蜂（Walkerella sp.、Micranisa sp.、Sycophilomorpha sp.、Philotrypesis sp.、Sycosapter sp.、Sycobia sp.、Ficomila sp.、Ormyrus sp.和Sycophila sp.）在果外产卵;在钝叶榕榕小蜂群落中,传粉榕小蜂占整个群落总数的62.11%,是该群落的优势种,杨氏榕树金小蜂和Lipothymus sp.分别占整个群落总数的27.19%和4.71%,其他9种非传粉榕小蜂占5.99%.钝叶榕中的非传粉榕小蜂通过各自产卵时序和幼虫食性分化的繁殖策略来分配榕果中的资源,以实现自身繁殖.非传粉榕小蜂与传粉榕小蜂的数量变化呈显著负相关,但非传粉榕小蜂与榕果内的种子没有相关性.     

聚果榕传粉榕小蜂传粉与产卵之间的权衡

【目的】榕树(Ficus)依赖专性榕小蜂(Agaonidae)传粉,同时为传粉榕小蜂提供繁衍后代的场所,两者形成动植物间经典的协同进化关系。在雌花期果内,榕小蜂需在有限的存活时间内完成传粉和产卵,而传粉榕小蜂如何在传粉与产卵之间进行权衡仍然是悬而未解的问题。本研究旨在明确传粉榕小蜂——一种栉颚榕小蜂Ceratosolen sp.在雌雄同株的聚果榕Ficus racemosa雌花期果内的行为活动及繁殖模式。【方法】借助测微尺测量聚果榕榕果雌花花柱长度与传粉榕小蜂(Ceratosolen sp.)产卵器长度,通过显微视频记录传粉榕小蜂在雌花期果内搜索、传粉及产卵行为;结合单果控制性引蜂试验,测定不同阶段榕小蜂个体大小、孕卵量、携粉量,以及雄花期最终繁殖的榕小蜂后代和榕果种子数量。【结果】聚果榕雌花花柱长度存在树间变异,榕小蜂产卵器长度比绝大多数的雌花花柱长,说明该小蜂可以产卵于大部分的雌花子房里。通常个体大的榕小蜂孕卵量更多,但个体大小与携粉量之间相关性不显著。观察发现,榕小蜂进入雌花期榕果内,前6 h集中产卵,可产下孕卵量的95%,平均搜索用时27 s,产卵用时46 s,此期间传粉行为少见,花粉筐中携带花粉量亦无明显变化;榕小蜂进果后6-24 h,主要执行传粉,其行为主动,连贯高效,单次传粉用时平均为2 s,最终可传完携粉量的80%。控制引蜂试验也证实榕小蜂进入榕果内前6 h主要执行产卵繁殖后代,之后6-24 h主要执行传粉以繁殖榕树种子。【结论】在雌雄同株的聚果榕雌花期榕果内,榕小蜂先产卵、后传粉。本研究首次展示了传粉榕小蜂在聚果榕雌花期榕果内的产卵和传粉行为,并获得与行为相匹配的产卵量和传粉繁殖量,反映了具主动传粉行为的榕小蜂在传粉和产卵之间存在时间和数量上的权衡。     

传粉榕小蜂与非传粉小蜂间寄主识别行为的趋同进化

在高度专性传粉的榕树-榕小蜂互惠共生系统中普遍存在着一些非传粉小蜂,它们中的一些种类进入果腔后也能为榕树传粉,且在形态和物候上已与传粉榕小蜂发生了趋同进化。但其寄主识别行为是否也与传粉榕小蜂发生了趋同进化还不得而知。我们在西双版纳选择了钝叶榕(Ficuscurtipes)及其3种进果繁殖小蜂开展了相关的行为实验。3种小蜂中,1种是钝叶榕的专性传粉榕小蜂(Eupristina sp.),另外2种是寄居性非传粉小蜂(杨氏金小蜂Diaziellayangi和Lipothymus sp.),这2种非传粉小蜂进入果腔后也像传粉榕小蜂那样为钝叶榕传粉。我们以钝叶榕不同发育时期的榕果及这3种小蜂为材料,采用Y型嗅觉仪观察了这3种小蜂对各发育时期榕果和信息化学物质6-甲基-5-庚烯-2-醇、6-甲基-5-庚烯-2-酮及这2种化合物的混合物的选择行为。结果表明,当提供雌花期榕果与其他发育时期榕果和空气对照供这3种小蜂选择时,它们均显著地偏向于选择雌花期榕果;当提供雄花期榕果与其他发育时期榕果和空气对照供这3种小蜂选择时,它们均显著地偏向于选择其他发育时期榕果和空气对照,即都会避开雄花期榕果;此外,这3种小蜂均对钝叶榕雌花期果释放的一种主要化合物6-甲基-5-庚烯-2-醇的同一剂量(1μL)表现出显著的偏好。这一结果为传粉榕小蜂与非传粉小蜂间的寄主识别行为趋同进化的假说提供了证据。     

Floral constraint resulting from intersexual mimicry in a gynodioecious fig tree

Fig trees (Ficus: Moraceae) are pollinated by female fig wasps (Agaonidae) whose larvae develop inside galled flowers of unusual inflorescences (figs). Most fig trees also support communities of non‐pollinating fig wasps. Figs of different species display great size variation and contain tens to tens of thousands of flowers. Around one‐half the species of fig trees have the gynodioecious breeding system, where female trees have figs that produce seeds and male trees have figs that support development of pollinators. Mutual mimicry between receptive male and female figs ensures that pollinators enter female figs, even though the insects will die without reproducing, but the need to give no sex‐specific cues to the pollinators may constrain differences in size between receptive male and female figs. We compared relationships between inflorescence size and some measures of reproductive success in male and female figs of Ficus montana grown under controlled conditions in the presence of the pollinator Kradibia tentacularis and its main parasitoid Sycoscapter sp. indesc. Female figs that contained more flowers produced more seeds, but male figs did not increase the production of female pollinator K. tentacularis fig wasps in proportion of the flower number. Although more flowers were galled by the pollinators in male figs containing more female flowers, the high larval mortality caused by parasitism and nutritional limitation prevented the increase in the production of adult female offspring. Selection may favor the increase in flower numbers within figs in female plants of F. montana, but contrarily constrain this attribute in male plants.     

Host sex‐specific parasites in a functionally dioecious fig: a preference way of adaptation to their hosts

Host–parasites interaction is a common phenomenon in nature. Diffusive coevolution might maintain stable cooperation in a fig–fig wasps system, in which the exploiter might diversify their genotype, phenotype, or behavior as a result of competition with pollinator, whereas the figs change flower syconia, fruits thickness, and syconia structure. In functionally dioecious Ficus auriculata, male figs and female figs contain two types of florets on separate plant, and share high similarities in outside morphology. Apocryptophagus (Sycophaginae, Chalcidoidea, Hymenoptera) is one of few groups of nonpollinating fig wasps that can reproduce within both male and female figs. On the basis of the morphology and DNA barcoding, evidence from partial sequences of mitochondrial cytochrome c oxidase I and nuclear internal transcribed spacer 2, we found that there are two nonsibling Apocryptophagus species living on male and female F. auriculata figs, respectively. We estimated that these two species diverged about 19.2 million years ago. Our study suggests that the host shift from Ficus variegate or Ficus prostrata fig species to male figs is a preference way for Apocryptophagus wasps to adapt to the separation of sexual function in diecious figs. Furthermore, to escape the disadvantage or sanction impact of the host, the exploiter Apocryptophagus wasps can preferably adapt to exploiting each sex of the figs, by changing their oviposition, niche shift, and habitat.     

西双版纳鸡嗉果榕小蜂繁殖和传粉行为

鸡嗉果榕 Ficus semicordata Buch.-Ham.ex J. E. Sm.是西双版纳地区常见的榕属植物,它是热带雨林生态系统中的一类先锋树种,当热带雨林被破坏后,它最先在林缘、沟谷和路边迅速生长起来,是热带和亚热带地区森林生态系统恢复初期一类重要物种。在西双版纳通过不同样地定树、定期生态学观察和室内剖查不同生长时期的鸡嗉果榕隐头果的方法,对榕小蜂繁殖和传粉行为进行了研究,结果表明,鸡嗉果榕雌雄异株,在西双版纳一年结2～3次隐头果,雌株隐头果内小花由榕小蜂传粉后产生种子。雄株则产生雄花和中性小花,中性小花专门供给传粉小蜂产卵繁殖后代。鸡嗉果榕小蜂Ceratosolen gravelyi Grandi是鸡嗉果榕唯一的传粉昆虫。传粉小蜂的雄蜂比雌蜂早羽化30～90 min,一部分雄虫羽化后,在虫瘿上爬动寻找雌蜂寄生的瘿花,一找到雌蜂寄生的瘿花,就咬破虫瘿的一个小口,把生殖器伸进瘿花与雌蜂交配,一部分雄蜂则在果肉上咬出蜂口。雌蜂交配后,顶大交配孔出蜂爬到雄花区采集花粉,然后,飞出寻找鸡嗉果榕雌花期的嫩隐头果传粉和繁殖后代。到鸡嗉果榕雌株传粉的小蜂能飞翔300～500 m,进果腔传粉行为长达5～27 h,传完粉3～5 h在果腔内死亡。到雄株上繁殖的小蜂一般飞翔在20～100 m左右近距离寻找嫩隐头果,进果腔产卵,每只小蜂在无干扰的情况下可产400多粒卵。除传粉榕小蜂外,在鸡嗉果榕雄株隐头果上还有4种植食、造瘿和复寄生等非传粉小蜂,它们对传粉小蜂的种群繁衍影响很大,常使传粉小蜂的种群数量降低25～70%。每个隐头果内进传粉小蜂量多少对鸡嗉果榕和榕小蜂繁殖有关,最佳进蜂量为3只,高或低于最佳进蜂量对鸡嗉果榕树和它的传粉小蜂繁殖均不利。     

Disturbance effects on community structure of Ficus tinctoria fig wasps in Xishuangbanna, China: Implications for the fig/fig wasp mutualism

Abstract  Fig trees are important components of tropical forests, because their fruits are eaten by so many vertebrates, but they depend on pollinating fig wasps to produce mature fruits. Disturbance to habitat structure can have a major impact on insect diversity and composition, potentially reducing fruit yields. We investigated the impact of habitat disturbance on the fig wasp community associated with male figs of Ficus tinctoria in Xishuangbanna, China. The community comprised one pollinator species Liporrhopalum gibbosae and six non-pollinating wasp species: Sycoscapter sp.1, Philotrypesis ravii , Philotrypesis sp.1, Neosycophila omeomorpha , Sycophila sp.1, and Walkerella sp.1. More disturbed areas were characterized by higher temperatures, less shade, and more vehicle noise. The response of the fig wasp community was complex, with no simple relationship between intensity of disturbance and pollinator abundance. However, the sex ratios (proportion of male progeny) of pollinators increased significantly in more disturbed areas. We conclude that potential changes in fig wasp community composition brought about by disturbance, are unpredictable, with unclear consequences for tropical rainforest biodiversity.     

榕树–榕小蜂协同进化中的非对称性相互作用及其集合种群效应

在协同进化研究中,传统观点认为物种之间的相互作用是对称性的,在进化过程中将形成一个稳定的均衡状态或进化稳定策略。然而,近来的观测和实验数据表明,物种间的协同进化可能存在非对称性相互作用,而且这种非对称性可能造成集合种群效应(metapopulation effect)或形成非均衡状态(例如混沌,chaos)。本文利用"榕树–榕小蜂"这一经典的协同进化模式系统来介绍协同进化过程中的非对称性相互作用,以及这种非对称性如何产生集合种群效应。在榕–蜂共生系统中,栖身于榕果中的榕小蜂除了传粉小蜂之外,还有一些"投机"的非传粉小蜂。非传粉小蜂比传粉小蜂具有更强的竞争力,而榕树则可惩罚不合作的非传粉蜂,同时奖励合作的传粉小蜂,从而形成了复杂的非对称性种间相互作用。在某个斑块生境中,非传粉小蜂通过竞争作用排斥传粉小蜂,然而随着非传粉小蜂在蜂群中的比例不断升高,榕树惩罚作用(如落果等)常常会导致整个非传粉蜂群的数量急剧下降,甚至局域性灭绝。随后,其他斑块的传粉小蜂则迁移过来填补空白。然而,随着传粉小蜂种群的数量增长,该斑块又会集聚更多的投机性非传粉小蜂,进而诱发榕树再次进行惩罚。这样的非对称性相互作用导致了非传粉小蜂、传粉小蜂以及榕树种群的集合效应,其种群大小呈现周期性的"此消彼长"式的循环。     

Alternative mating tactics and extreme male dimorphism in fig wasps

The dimorphisms in morphology and behaviour of male fig wasps are among the most extreme in the animal kingdom, and offer excellent opportunities to test the predictions of certain sexual selection models. Winged males resemble their conspecific females closely, but wingless males are so divergent in form that they have repeatedly been classified into different taxa. Wingless males mate within their natal fig fruits, whereas winged males disperse to mate. Individual species may have winged males, wingless males or both morphs. A key hypothesis proposes that sexual selection on male mating opportunities favours winged males in species with small broods and wingless males in species with large broods. Using data from 114 species in 33 genera, we show that both simple and formal comparative analyses support the correlated evolution of large brood size and male winglessness. Theoretical models further predict that, in male dimorphic species, the proportion of winged males should equal (in cases without local mate competition) or exceed (in cases with local mate competition) the proportion of females developing in fig fruits without wingless males. These predictions are met by eight out of nine male dimorphic species studied. Taken together, the patterns across all species, and between different male dimorphic species, strongly support sexual selection on mating opportunities as the major determinant of male morph ratios in fig wasps.     

榕小蜂的产卵模式及其对子代性比的影响

于2007年4月—2007年7月在中国科学院西双版纳热带植物园,通过干预控制榕小蜂产卵的方法研究了聚果榕的传粉榕小蜂Ceratosolen fusciceps和非传粉小蜂Platyneura mayri及垂叶榕的非传粉小蜂Acophila sp.1和Wakerella benjamini等的产卵顺序。对传粉榕小蜂,在完成放蜂后不同间隔时间向榕果内注入乙醚杀死小蜂;对非传粉榕小蜂,在放蜂后不同间隔时间将其从纱网袋内全部放出,从而控制了各种榕小蜂的产卵时间。到榕果成熟后,收集了榕果内的小蜂,并分析比较各种榕小蜂在不同产卵时间下的子代性比。结果表明：Ceratosolen fusciceps、P. mayri和Acophila sp.1在产卵的最初时间内倾向于产下更多的雄性后代,而随后的时间内则产下更多的雌性伴随少量的雄性后代,这样的产卵顺序导致子代性比随着母代产卵时间的延长而下降,榕小蜂后代雌性比例显著高于雄性。同时,子代榕小蜂数量随母代产卵时间的延长而增加,这在一定程度上解释了单头繁殖雌蜂的子代性比随子代数量的增加而减少的现象。而Wakerella benjamini在产卵顺序上是随机的,在其开始产卵后的不同时间段内子代性比都接近于50%。这一结果表明榕小蜂的产卵顺序与母代产卵时间的长短对子代性比有极为重要的影响。     

歪叶榕非传粉小蜂的繁殖策略及其对榕-蜂共生系统的影响

2004年8月至2005年8月在西双版纳热带植物园内,通过广泛收集歪叶榕榕小蜂标本、非传粉小蜂产卵行为学观察和阻止传粉者入果等实验方法,研究了我国西双版纳热带雨林下的一种榕树——歪叶榕Ficus cyrtophylla的榕小蜂群落组成结构、非传粉小蜂的繁殖策略以及它们对榕-蜂共生系统的影响。结果表明,歪叶榕中除了具有唯一传粉榕小蜂Blastophag sp.以外,还具有3种非传粉小蜂Platyneura sp.、Philotrypesis sp.和Sycoscapter sp.。在歪叶榕榕小蜂群落中,传粉榕小蜂占整个群落总数的92.21%,是群落的最主要组成者;主要的非传粉小蜂是Sycoscaptersp.,占5.78%; 其次是Philotrypesissp.,占1.84%,而Platyneurasp.仅占群落总数的0.17%。歪叶榕中的非传粉小蜂通过各自产卵时间和食性分化的策略来利用榕果中的资源繁殖后代。非传粉小蜂寄生使传粉榕小蜂的总数和其雌蜂数量都显著地降低,但是对传粉小蜂雄蜂数量没有显著影响,从而导致传粉榕小蜂的雄性性比显著地增加。这说明非传粉小蜂在选择寄居宿主时具有明显的倾向性,而且更多地将卵产于含有雌性传粉小蜂的瘿花之中。因此,非传粉小蜂通过减少雌性传粉小蜂的数量而降低了榕树的雄性适合度,从而在一定程度上对榕 蜂共生系统的稳定存在和发展产生了负面影响。     

鸡嗉子榕隐头果雌花期特征对传粉榕小蜂选择的影响

为了探讨榕树隐头果的发育期、性别、大小等外部特征对传粉榕小蜂选择的影响,采取人为控制雌花期的方法,对鸡嗉子榕(Ficus sermicordata)及其传粉榕小蜂(Ceratosolen gravelyi)的选择行为进行研究。结果表明,在隐头花序发育到雌花期后,如果阻止传粉小蜂进入,隐头果会继续生长。直径较小的雌果和雄果的进蜂量较多,且在雌雄果同时存在时,小蜂仍然会选择进入雌果,但进蜂量显著低于雄果。小蜂优先选择进入雌花期前期的隐头花序,雌雄果皆有此特点。对于相同发育期的隐头果,果径和进蜂量呈正相关关系,说明对于相同发育期的隐头果,小蜂更倾向于进入较大的隐头果。因此,真正控制小蜂行为的是隐头花序所处的发育期,以及不同发育期所产生的化学挥发物,而非隐头果直径大小。这为进一步研究榕-蜂系统的稳定机制提供依据。     

Sexual differences in the attractiveness of figs to pollinators: females stay attractive for longer

1. Figs on male dioecious fig trees (Ficus, Moraceae) are breeding sites for pollinator fig wasps (Hymenoptera, Agaonidae), but figs on female plants are traps that produce only seeds. As the short‐lived fig wasps cannot reproduce in female figs, natural selection should favour individuals that avoid them. Several studies have failed to detect such discrimination, a result attributed to inter‐sexual mimicry and ‘selection to rush’ in the wasps, but their experiments failed to explicitly take into account fig age (how long they had been waiting to be pollinated). 2. We compared the relative attraction of male and female figs of known ages of the South East Asian Ficus montana Burm. f. to its pollina tor Liporrhopalum tentacularis Grandi and examined how the reproductive success of the plant and its pollinator change with the age of the figs. 3. Mean retention time for un‐pollinated figs on female plants was 16 days whereas in male figs it was 12 days. Female figs remained attractive for up to 2 weeks, although the wasps were less willing to enter older figs. After pollinator entry, receptivity continued for several days, lasting longer in figs entered by a single wasp. Consistent with abortion rates, attractiveness persisted longer in female figs. Older figs produced fewer fig wasp offspring, but similar numbers of seeds. 4. The sexual differences in floral longevity in F. montana may represent part of a previously un‐recognised reproductive strategy in some fig trees that allows male plants to ‘export’ pollinators while also maintaining a resident fig wasp population.