大果榕不同花期释放挥发性有机化合物的特点

榕属(Ficus)植物具有独特的隐头花序结构,雌花开放时将释放出特定的挥发性有机化合物(VOCs),吸引专一的传粉榕小蜂为其传粉;特定的化学信号对于榕小蜂寻找、准确定位和进入雌花期隐头花序起关键性作用,然而雌花期吸引榕小蜂传粉的信号物质仍然不清楚。本研究选择雌雄异株的大果榕(Ficus auriculata),使用顶空固相微萃法提取隐头花序雌花前期、雌花期和间花期释放的VOCs,通过气相色谱质谱仪(GC-MS)分析,使用峰面积归一法计算相对含量。结果显示,3个花期共鉴定出化合物62种,其中雌花前期有33种,以单萜类为主;雌花期释放56种,以倍半萜类为主;间花期有31种,以脂肪酸衍生物为主。经主成分分析,3个花期释放的VOCs组成明显不同,表明大果榕雌花期及其传粉前后的挥发性成分组成发生了变化,进一步比较发现,雌花期变化最为显著的成分是倍半帖香根草酮类似物,其含量在雌花期最高,可能是雌花期吸引其传粉榕小蜂的活性化合物。研究结果将为深入研究榕-蜂化学通讯及互作机制提供科学依据。

粗叶榕(Ficushirta)繁殖系统的特征及其共生的榕小蜂

本文对粗叶榕(FicushirtaVahl)的外部形态、花序结构以及寄主和传粉者的繁殖特性作了比较详细的观察和研究,讨论了它们互惠共生关系的一些基本特征。它的专性传粉者是榕小蜂科(Agaonidae)榕小蜂亚科(Agaoninae)的爪哇榕小蜂(BlastophagajavanaMayr)。观察发现粗叶榕还存在两种非授粉小蜂Sycoscaptersp.和Philotrypesissp.,它们在榕果外产卵。

北碚榕(Ficus beipeiensis S.S Chang)形态特征与花部显微特征研究

北碚榕(Ficus beipeiensis S.S Chang)雌雄异株,仅分布在重庆市北碚区北温泉附近的石灰岩壁上,目前调查仅发现5株野生植株.本文主要采用形态学、解剖学及生态学方法对北碚榕及其近缘种(大果榕、苹果榕)的形态特点进行比较研究.结果表明:1雌雄植株在形态结构上差异显著,雄株:叶呈卵圆形,纸质,平均直径约为3.90cm,圆盘形;雌株:叶呈长椭圆形,硬纸质,平均直径约为1.51cm,梨形;在叶的形态结构上北碚榕雄株类似于大果榕;雌株叶形与两种榕树不相同.雄株花序形态结构上,近似于两者而雌株花序与其相比差异较大.2雌花只存在于雌性隐头花序内,在雌花期时发育成熟,雌花花柱呈棒状,子房球形;雄花序内有瘿花和雄花,瘿花于间花期成熟,雄花于雄花期发育成熟;瘿花花柱呈喇叭状,子房倒卵形;雄花具雄蕊2枚,分布在苞片周围,并不散生在花序内;三种花的形态结构特点与传粉小蜂的行为密切相关.

爱玉隐头花序的生物学特性

福建省东北部5个野生爱玉种群的花序分期、花数统计和套袋实验结果表明:爱玉花序具多型性,雌花序中有雌花4405～7143朵,雄花序中有瘿花4856～8864朵,花数相差悬殊并与花序外形大小呈正相关;瘿花已不能结实,在生理功能上与雌花完全分离,实为专供小蜂生长的中性花;雌花序发育无C,D期,由B期直接进入E期,人工授粉可获96.36%的结实率.

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。

Seed and Wasp Production in the Mutualism of Figs and Fig Wasps

Figs (Moracea: Ficus) and fig wasps (Hymenoptera: Chlocloids: Agaonideae) depend on each other to complete their reproduction. Monoecious fig species and their pollinating wasps are in conflict over the use of fig ovaries which can either produce one seed or one wasp. From observation on Ficus virens Ait., we showed that female flowers with outer layer of ovaries (near to the wall of syconium) had no significant difference from that with inner and interval layer of ovaries (near to the syconium cavity), in which most seeds and wasps were produced. This meant that fig tree provided the same potential resource for seed and wasps production. Observation indicated that there was usually only one foundress in syconium at female flower phase and no com- petition pollinators. Measurement of the style length of female flowers and the ovipositor of pollinators indicated that most ovaries could be reached by pollinator’s ovipositor. However, at the male flower phase, production of seeds was significantly more than that of wasps including non-pollinating wasps but there was no significant difference between seed and pollinating wasp production when without non-pollinating wasps produced. This result indicated that non-pollinating wasps competed ovaries not with seeds but with pollinating wasps for ovipositing. Bagged experiment showed that the sampling fig species was not self-sterile which was important for figs and wasps to survive bad season. Seed production in self-pollinated figs was not significantly different from total wasps in- cluding non-pollinating ones. This might be related with the weaker competition among wasps since bagged figs were not easy to reach by wasps from outside.

热带苹果榕雌雄隐头果内生真菌物种多样性及其对比研究

2009～2010年对西双版纳热带植物园内的苹果榕(Ficus oligodon)雄树和雌树分别在小蜂侵入前后进行内生真菌的分离与鉴定。初步鉴定结果表明,小蜂侵入前后,苹果榕雌雄树上分离到的内生真菌种类基本相同,有10属565株。优势菌株变化很小,均属于镰刀菌属(Fusarium)、青霉菌属(Penicillium)、小丛壳属(Glomerella)和刺盘孢属(Colletotrichun)。4属真菌在雄树和雌树中分别占总真菌数的37.55%和33.55%,18.39%和19.74%,13.03%和12.50%,10.34%和12.50%,其它真菌所占比例均未超过10%,属于偶见类群。此外,Aspergillus sp.只在雄果里分离到,而Cephalosporium sp.和Trametes sp.仅在雌果中分离到。这可能是由于环境不同或者进入榕果内不同小蜂的身上所带菌株不同,小蜂侵入榕果后,携带真菌在榕果内发育并在榕果内定植,从而导致真菌种类的不同。

爱玉子与其传粉小蜂共生体系的研究

[目的]为爱玉子栽培和育种提供科学依据。[方法]观测爱玉子花序的发育过程及传粉小蜂生活周期,并统计各种类型的花和榕小蜂数量。[结果]爱玉子与传粉小蜂之间为专一性互惠共生关系。阐明了人工栽培爱玉子种群的生活史,论述了爱玉子果实发育的异步性以及结构、功能的统一性,指出雌花序退化花存在及雌、雄花序内变异花产生的生物学意义。[结论]爱玉子与其传粉小蜂的结构与功能的统一性是二者专一性互惠共生关系建立的基础。