有花植物与传粉动物

绝大多数被子植物及少数裸子植物需要昆虫或动物传粉才能完成受精。除人们所广泛熟悉的蜂类、蝶蛾类是重要的传粉者以外,还有许多其它无脊椎动物和脊椎动物起着积极的传粉作用。传粉动物与植物之间的密切关系是生物之间互惠互益、协同适应的典范。一、无脊推动物传粉的植物 1.适于甲虫传粉的植物甲虫传粉是热带植物的特征,就象蜜蜂传粉是温带植物的特征。甲虫是昆虫中最古老的类型,     

天南星科植物的花多样性与传粉策略

天南星科植物具有特殊的佛焰苞花序及多样化的传粉策略, 是研究被子植物花的分化与动植物之间进化生态学联系的理想材料。本文简述了天南星科不同类型的花序结构及其传粉适应意义, 总结了天南星科传粉策略的基本类型与演化历史。天南星科的苞片结构主要包括原始型、外展平面型、直立宽佛焰苞型和直立狭佛焰苞4种类型, 呈现出从简单的片状与外展平面状结构向复杂的立体包裹状的佛焰苞结构演化的趋势。肉穗花序可分为两性花花序、单性花雌雄同序和单性花雌雄异序3种类型, 演化路线为两性花花序→单性花雌雄同序→单性花雌雄异序。天南星科的传粉者主要有鞘翅目、双翅目、膜翅目昆虫, 表现出5种主要传粉策略: 食物报酬型互利传粉、气味吸引型欺骗性传粉、交配场所型互利传粉、产卵场所型互利传粉和致死陷阱型欺骗性传粉。天南星科植物通过花序的形状、颜色、产热以及花部挥发物来吸引传粉者, 其中最主要的挥发物有二甲基硫化物、甲基吲哚化合物、萜类和苯类化合物, 模拟食物或产卵场所信号吸引鞘翅目甲虫和双翅目昆虫为其传粉。天南星科植物的佛焰苞被认为是促进该科物种分化的一个重要结构, 但该性状的演化历史及其与传粉系统分化之间的内在联系尚不明确。利用现代分子生物学技术以及模型模拟等手段, 结合生理生态学方法深入探究传粉事件与天南星科植物的花多样性以及物种分化之间的联系, 有望提升关于植物-传粉者互作与植物的花多样性分化之间关系的认识, 并丰富对被子植物多样性演化相关研究的理解。     

蝶形花亚科植物花部适应机制与传粉系统

蝶形花亚科(Papilionoideae)植物种类丰富、繁育系统多样,与其传粉者关系密切,主要表现在花部适应与传粉系统的形成。蝶形花形态复杂,为完全花,花萼、花瓣5基数,花萼呈箭头状,相邻花瓣螺旋轮生,旗瓣较大位于最外边,两片翼瓣紧贴旗瓣着生并包裹两片合生的龙骨瓣,龙骨瓣内包裹着雌、雄蕊,雌蕊位于正中央,雄蕊轮生,构成二体雄蕊(多数9+1,少数5+5)。对蝶形花亚科植物的花部特征、传粉功能群、酬物与传粉系统构建进行了回顾,重点论述了蝶形花形态和化学组成与传粉系统的进化关系以及花粉呈现机制。其中,泛化的传粉系统以蜂媒传粉为主,同时存在鸟媒传粉、蝙蝠传粉和松鼠传粉等方式,花部结构和传粉者的相互选择和相互适应推动了传粉系统的演化。花粉释放是体现蝶形花植物与其传粉功能群相互作用的重要方面,二者协同进化形成了以下4种花粉呈现机制:弹花机制、活塞机制、瓣膜机制和毛刷机制。蝶形花的花部特征与传粉功能群的相互作用形成相应的传粉系统,而传粉系统是执行传粉功能的重要集合体,各个构件的相互协调和适应保证了蝶形花亚科植物传粉过程的顺利完成。     

传粉榕小蜂与榕树的繁衍

榕树传粉现象被广泛地作为研究协同进化特别是互惠共生的重要模式之一。本文总结了榕果与传粉榕小蜂的有关研究,试图解释其形态结构之间的相互适应,总结传粉榕小蜂的传粉行为,探讨传粉榕小蜂在雌雄同株及雌雄异株榕树上的传粉模式,讨论传粉榕小蜂的寄主专一性,并展望中国在榕小蜂方面的研究前景。     

华南云实传粉生态学(英文)

在广东鼎湖山,华南云实(LaesalpiniacristaL.)始花期从2月或3月开始,开花后约1周达到盛花期,盛花期持续2~4d,花期可持续到4月底。华南云实基本繁育系统为雌蕊先熟、自交不亲和的异花受精。华南云实传粉方式为风虫媒。其主要传粉者为膜翅目昆虫,该种是云实属植物中首次报道的可行风媒传粉的种类。描述并探讨了华南云实花的结构与其主要传粉者木蜂之间的互动适应,并讨论了传粉生物学实验中的一些处理方法对华南云实开花过程的影响。     

荫生鼠尾草的雄蕊变异知多少

为适应昆虫传粉的鼠尾草属植物,在其长期的演化过程中,它们的雄蕊均形成了一种独特的杠杆结构,这已是人们早就知晓的事实。生长在北京郊区小龙门地区的荫生鼠尾草(Salivio umbratica),它与其他鼠尾草属植物一样,在雄蕊结构上与传粉的昆虫之间相互形成了巧妙的适应关系。     

华南云实传粉生态学

在广东鼎湖山,华南云实(Laesalpinia crista L.)始花期从2月或3月开始,开花后约1周达到盛花期,盛花期持续2～4 d,花期可持续到4月底.华南云实基本繁育系统为雌蕊先熟、自交不亲和的异花受精.华南云实传粉方式为风虫媒.其主要传粉者为膜翅目昆虫,该种是云实属植物中首次报道的可行风媒传粉的种类.描述并探讨了华南云实花的结构与其主要传粉者木蜂之间的互动适应,并讨论了传粉生物学实验中的一些处理方法对华南云实开花过程的影响.     

萌生鼠尾草的雄蕊变异知多少

为适应昆虫传粉的鼠尾草属植物,在其长期的演化过程中,它们的雄蕊均形成了一种独特的杠杆结构,这已是人们早就知晓的事实。生长在北京郊区小龙门地区的荫生鼠尾草(Salvio umbratica),它与其他鼠尾草属植物一样,在雄蕊结构上与传粉的昆虫之间相互形成了巧妙的适应关系。     

矮牡丹传粉生物学的初步研究

对山西省南部矮牡丹3个居群连续两年的野外观察和实验研究表明,共有5种蜂和4种甲虫参 与矮牡丹的传粉。电镜观察和人工控制昆虫传粉试验证明,蜂类,特别是地蜂类是矮牡丹的主要传粉 者,而甲虫类只是一种不稳定的传粉者。矮牡丹花无蜜液,但可散发气味,主要以花粉吸引昆虫。矮牡 丹不存在无融合生殖,也没有自动自花结实现象,但同株异花能产生少量种子,具微弱的自交性。在花 少的居群中自然结实率与人工异交结实率近相等。矮牡丹的结实率低,平均只有近1／4的胚珠发育成种子。     

传粉：自然的约定

“人间四月芳菲尽”、“开到荼蘼花事了”,百花争艳的春季已经逐渐步入尾声。怒放的鲜花也在这段短暂的时日中完成了大自然赋予它们的使命——传粉。花是植物的生殖器官,有花植物只有通过花的传粉、授粉,才能产生果实和种子,从而传种接代。自然界中,花的传粉多为异花传粉。同一植株上不同花朵间的传粉,或同种植物不同植株间花朵的相互传粉,都属于异花传粉,它是植物后代生命力顽强的有力保障。在长期的进化过程中,异花传粉逐渐成为大多数有花植物的传粉方式。     

Floral scents of chafer-pollinated asclepiads and a potential hybrid

Floral scent is a key functional trait for pollinator attraction to flowers, but is poorly documented in many plant lineages and pollination systems. In South African grasslands, chafer beetles (Scarabaeidae: Cetoniinae), particularly Atrichelaphinis tigrina, Cyrtothyrea marginalis and Leucoscelis spp., are common floral visitors and specialized pollination by these beetles has recently been established in several asclepiad, orchid and protea species. Chafer beetles are known to be attracted by a variety of floral volatile compounds and scent has been suggested to be an important signal in these chafer-operated pollination systems. In this study, we used dynamic headspace extraction methods and coupled gas chromatography–mass spectrometry (GC–MS) to examine the chemical composition of the floral scents of seven putatively chafer-pollinated asclepiad species in the genera Asclepias, Pachycarpus and Xysmalobium. We identified 15–57 compounds in the scents of these species, of which seven were common to all species examined. The scent profiles of each species separate into discrete clusters in two dimensional space based on non-metric multidimensional scaling (NMDS), indicating clear distinctions between species and suggesting that plants may use different combinations of volatiles to attract beetles. Two plants suspected to be intergeneric hybrids were also examined. Data on pollination systems, morphology and scent chemistry are consistent with the hypothesis that these plants are hybrids between the chafer-pollinated species Asclepias woodii and Pachycarpus concolor. The results of this study are discussed in relation to the role of chafer beetles as generalist pollinators of specialized asclepiads.     

Impact of herbivory and pollination on performance and competitive ability of oilseed rape transformed for pollen beetle resistance

Competitive ability of transgenic oilseed rape transformed with a pea lectin gene was estimated by comparisons of its performance when grown in a mixture with its non-transgenic counterpart and when grown singly, with and without pollen beetles present. The experiments were carried out in cages, once with bumblebees as pollinators and once without. In the absence of herbivory but with the presence of bumblebees, singly grown plant lines without lectin generally performed better than lines with lectin. Pollen beetles affected plant growth and reproduction, but there were no consistent differences between the lectin and non-lectin plant lines indicating that the transgenic trait did not protect plants from pest attack. Herbivory reduced the number of seeds when bumblebees were present. In the absence of bumblebees, however, plants produced more seeds with pollen beetles than without, indicating that some pollination was carried out by the beetles. Efficient pollination affected the competitive abilities of the lines; lectin lines were more competitive with bumblebees present and the reverse was true when bumblebees were absent. In the presence of bumblebees, lectin lines gained from being grown mixed with its non-transgenic counterpart. Because the transgenic plants expressed pea lectin in developing pollen it is possible that pollen quality in those plants was reduced, which may explain why the lectin lines had an advantage over non-lectin lines when exchange of pollen between the two plant types was facilitated by bumblebees.     

Bimodal Pollination by Wasps and Beetles in the African Milkweed Xysmalobium undulatum

It has been suggested that flowers of some plants are specialized for pollination by two unrelated species (or functional groups) of pollinators. However, evidence for 'bimodal pollination systems' has been extremely limited. Studies of the milkweed Xysmalobium undulatum in South Africa showed that its flowers are visited by a range of different insects (representing 18 families), but only two groups, represented by the chafer beetle Atrichelaphinis tigrina and pompilid wasps in the genus Hemipepsis , effect pollination. Experiments showed that both these pollinator groups are effective in removing and inserting pollinia. Pollinia are attached to clypeal hairs and mouthparts on the wasps and tarsal hairs and spines on the beetles. Although considerably less abundant than the beetles, Hemipepsis spp. wasps move more quickly among flowers and appeared to be more effective pollinators overall. Experimental hand-pollinations conducted in the field showed that X. undulatum is genetically self-incompatible and thus completely reliant on pollinators for reproduction. We conclude that X. undulatum has a bimodal pollination system, specialized for pollination by Hemipepsis pompilid wasps and the chafer beetle A. tigrina .     

The role of beetle marks and flower colour on visitation by monkey beetles (hopliini) in the greater cape floral region, South Africa

BACKGROUND AND AIMS: A deviation from the classical beetle pollination syndrome of dull-coloured flowers with an unpleasant scent is found in the Greater Cape Floral Region of South Africa. Here, monkey beetles (Scarabaeidae) visit brightly coloured, odourless flowers with conspicuous dark spots and centres (beetle marks). The role of flower colour and markings in attracting monkey beetles is still poorly understood. METHODS: Artificial model flowers with different marking patterns were used to test the effect of beetle marks on visitation by monkey beetles. To test whether monkey beetles are conditioned to the colour of the local matrix species, model flowers of different colours were placed in populations of three differently coloured species of Iridaceae. KEY RESULTS: Among all three matrix species the presence of dark markings of some kind (either centres or spots) increased visitation rates but the different matrix species differed in whether the effect was due to a dark centre or to dark spots. Monkey beetles were not conditioned for the colour of the matrix species: model colour was not significant in the Hesperantha vaginata and in the Romulea monadelpha matrices, whereas yellow model flowers were preferred over orange ones in the orange-flowered Sparaxis elegans matrix. CONCLUSIONS: This study is the first to demonstrate that beetle marks attract pollinating monkey beetles in the Greater Cape Floral Region. In contrast to plants with the classical beetle pollination syndrome that use floral scent as the most important attractant of pollinating beetles, plants with the monkey beetle pollination syndrome rely on visual signals, and, in some areas at least, monkey beetles favour flowers with dark beetle markings over unmarked flowers.     

Florivore impacts on plant reproductive success and pollinator mortality in an obligate pollination mutualism

Florivores are present in many pollination systems and can have direct and indirect effects on both plants and pollinators. Although the impact of florivores are commonly examined in facultative pollination mutualisms, their effects on obligate mutualism remain relatively unstudied. Here, we used experimental manipulations and surveys of naturally occurring plants to assess the effect of florivory on the obligate pollination mutualism between yuccas and yucca moths. Yucca filamentosa (Agavaceae) is pollinated by the moth Tegeticula cassandra (Lepidoptera: Prodoxidae), and the mutualism also attracts two florivores: a generalist, the leaf-footed bug Leptoglossus phyllopus (Hemiptera: Coreidae), and a specialist, the beetle Hymenorus densus (Coleoptera: Tenebrionidae). Experimental manipulations of leaf-footed bug densities on side branches of Y. filamentosa inflorescences demonstrated that feeding causes floral abscission but does not reduce pollen or seed production in the remaining flowers. Similar to the leaf-footed bugs, experimental manipulations of beetle densities within individual flowers demonstrated that beetle feeding also causes floral abscission, but, in addition, the beetles also cause a significant reduction in pollen availability. Path analyses of phenotypic selection based on surveys of naturally occurring plants revealed temporal variation in the plant traits important to plant fitness and the effects of the florivores on fitness. Leaf-footed bugs negatively impacted fitness when fewer plants were flowering and leaf-footed bug density was high, whereas beetles had a positive effect on fitness when there were many plants flowering and their densities were low. This positive effect was likely due to adult beetles consuming yucca moth eggs while having a negligible effect on floral abscission. Together, the actions of both florivores either augmented the relationship of plant traits and fitness or slightly weakened the relationship. Overall, the results suggest that, although florivores are always present during flowering, the impact of florivores on phenotypic selection in yuccas is strongly mitigated by changes in their densities on plants from year to year. In contrast, both florivores consistently influenced pollinator larval mortality through floral abscission, and H. densus beetles additionally via the consumption of pollinator eggs.     

Pollination efficiencies of flower-visiting insects as determined by direct genetic analysis of pollen origin

The amount and genetic composition of pollen grains that are transported to flowers influence the reproduction and fitness of plants. Despite the importance of insect-pollination systems, an understanding of those systems is still lacking due to the absence of a genetic analysis of pollen grains that are transported to flowers. We evaluated the pollination efficiencies of bumblebees (Apidae, Bombus spp.), flower beetles (Scarabaeidae, subfamily Cetoniinae, Protaetia and Eucetonia sp.), and small beetles (Lagriidae, Arthromacra sp.) that visited the flowers of Magnolia obovata (Magnoliaceae) using quantitative (flower visitation frequency, amount of adherent pollen per insect) and qualitative (origin and genetic diversity of adherent pollen per insect) criteria. Most of the pollen adhering to bumblebees and small beetles was self-pollen. This result suggests that visitation by these insects may cause geitonogamous pollen flow and negatively affect the reproduction of M. obovata, causing inbreeding depression. In contrast, flower beetles transported large amounts of genetically diverse outcross pollen. Our results suggest that certain beetle species contribute quantitatively and qualitatively to the pollination of M. obovata. Direct genetic analysis of pollen grains will advance our understanding of plant mating systems and may shed light on the mutualism and coevolution of plants and flower visitors.     

An Appraisal of Range and Evolutionary Significance of Flower-Beetle Association,with Special Reference to Sap Beetles (Coleoptera: Nitidulidae)

A range of beetle species are associated with plants and many of them reside primarily in flowers; of these Nitidulidae possess a large share. Beetles which thrive upon angiosperms exhibited a rapid rate of speciation as compared to others with different feeding habits. Hence, beetles and angiosperms have co-evolved and influenced each others’ evolution for better survival. Some flower-visiting beetles have developed special features for floral diet and other purposes like pollination, shelter, reproduction, etc. Likewise, certain flowers also have adapted structurally and physiologically to attract beetles for pollination which include pollen, nectar, floral heat etc. Although beetles are found to be amongst the pioneer flower visitors, they are not as efficient pollinator as bee and butterfly. However, they have been found to be chief pollinators for a few plant families like Magnoliaceae, Annonaceae and Palmae. Several sap beetles have been encountered in floral parts in West Bengal, Assam, Uttar Pradesh, Karnataka and Tripura. Nature of relationships of those beetles with inflorescence and flowers were examined. None of them is yet found to be a true pollinator.     

FLORAL BIOLOGY OF MAGNOLIA

The floral biology of eight species of Magnolia native to the United States is described. The flowers are protogynous. They are pollinated by several species of beetles that enter buds as well as closed and open flowers to feed on nectar, stigmas, pollen, and secretions of the petals. Individual flowers persist from two to four days and undergo a series of petal, stigma, and stamen movements that assure pollination by beetles. It is suggested that the flowers of Magnolia are highly specialized for exclusive pollination by beetles. These specialization mechanisms produce large quantities of food for the beetles and deny other types of insects (bees, moths, etc.) access to the flowers at critical stages in the pollination process, i.e., when stigmas are mature and pollen is shed.     

Transition from wind pollination to insect pollination in sedges: experimental evidence and functional traits

Transitions from wind pollination to insect pollination were pivotal to the radiation of land plants, yet only a handful are known and the trait shifts required are poorly understood. We tested the hypothesis that a transition to insect pollination took place in the ancestrally wind-pollinated sedges (Cyperaceae) and that floral traits modified during this transition have functional significance. We paired putatively insect-pollinated Cyperus obtusiflorus and Cyperus sphaerocephalus with related, co-flowering, co-occurring wind-pollinated species, and compared pairs in terms of pollination mode and functional roles of floral traits. Experimentally excluding insects reduced seed set by 56-89% in putatively insect-pollinated species but not in intermingled wind-pollinated species. The pollen of putatively insect-pollinated species was less motile in a wind tunnel than that of wind-pollinated species. Bees, beetles and flies preferred inflorescences, and color-matched white or yellow models, of putatively insect-pollinated species over inflorescences, or color-matched brown models, of wind-pollinated species. Floral scents of putatively insect-pollinated species were chemically consistent with those of other insect-pollinated plants, and attracted pollinators; wind-pollinated species were unscented. These results show that a transition from wind pollination to insect pollination occurred in sedges and shed new light on the function of traits involved in this important transition.