Pollination: sexual mimicry abounds

Why do plants mimic female insects to attract males for pollination? A new study gives insights into the advantages of sexual mimicry and documents this pollination system for the first time outside the orchid family, in a South African daisy.     

Pollination: the price of attraction

Nectar is the major currency bringing together plants and pollinators; yet the costs and benefits of nectar production remain poorly understood. A low nectar line developed in Petunia offers an innovative approach to this problem and may offer clues to why some plants cheat and secure pollination via deception.     

Pollination and nucellus inAbelmoschus esculentus

Pollination induced dissolution of nucellar cells at the micropylar end forming a passage for pollen tube entry even when the pollen tubes are in the stylar region.     

Pollination in conifers

Our understanding of pollination in conifers has advanced rapidly in recent years, but it still lags behind our knowledge of this process in angiosperms. In part this is because conifers are not considered to be high priority crops and, unlike many cultivated flowers, conifer seed cones are generally neither large nor colorful. The use of genetics to improve tree growth has primarily been through selection and asexual propagation rather than breeding, and because incompatibility is not thought to occur in conifer pollination systems, concern about pollination has primarily been with regard to seed production. Here we examine the ancestral wind-pollination mechanism in conifers and discuss how the process may have evolved to improve pollination success.     

传粉对杭州石荠苎（唇形科）结实的影响

杭州石荠苎（ＭｏｓｌａｈａｎｇｃｈｏｕｅｎｓｉｓＭａｔｓｕｄａ）自交亲和,人工自花授粉,同株异花授粉和异花授粉的结实没有明显差异。杭州自然居中新开花朵的调查没有发现闭花传粉现象。原因是花药和柱头之间存在空间隔离和发育上的时间隔离。这些隔离使昆虫花粉传播的必要媒介,结实从而取决于传粉昆虫的活动。     

Pollination ofOpuntia lindheimeri and related species

The large, yellow, bowl-shaped flowers ofOpuntia lindheimeri, O. discata, O. phaeacantha major, andO. compressa in Texas are visited by various species of beetles and bees. The beetles and small bees (Perdita, Dialictus) are pollen thieves. The pollinators are the medium-sized and larger bees (Melissodes, Diadasia, Lithurge, Megachile, Agapostemon, etc.). Different species of theOpuntia lindheimeri group have the same pollination system and there is no evidence of any floral isolation between them. The pollination system of these species ofOpuntia in Texas is essentially the same as that ofEchinocereus fasciculatus andFerocactus wislizeni in Arizona.Pollination of North American Cacti, II.—SeeGrant & Grant (1979).     

Pollination and flower diversity in scrophulariaceae

The Botanical Review - The flowers of the Scrophulariaceae show a great diversity in form, especially of the corolla. The most common pollinators are bees collecting nectar, pollen, or oil; other...     

Pollination by brood-site deception

Pollination is often regarded as a mutualistic relationship between flowering plants and insects. In such a relationship, both partners gain a fitness benefit as a result of their interaction. The flower gets pollinated and the insect typically gets a food-related reward. However, flower-insect communication is not always a mutualistic system, as some flowers emit deceitful signals. Insects are thus fooled by irresistible stimuli and pollination is accomplished. Such deception requires very fine tuning, as insects in their typically short life span, try to find mating/feeding breeding sites as efficiently as possible, and following deceitful signals thus is both costly and time-consuming. Deceptive flowers have thus evolved the ability to emit signals that trigger obligate innate or learned responses in the targeted insects. The behavior, and thus the signals, exploited are typically involved in reproduction, from attracting pheromones to brood/food-site cues. Chemical mimicry is one of the main modalities through which flowers trick their pollen vectors, as olfaction plays a pivotal role in insect-insect and insect-plant interactions. Here we focus on floral odors that specifically mimic an oviposition substrate, i.e., brood-site mimicry. The phenomenon is wide spread across unrelated plant lineages of Angiosperm, Splachnaceae and Phallaceae. Targeted insects are mainly beetles and flies, and flowers accordingly often emit, to the human nose, highly powerful and fetid smells that are conversely extremely attractive to the duped insects. Brood-site deceptive plants often display highly elaborate flowers and have evolved a trap-release mechanism. Chemical cues often act in unison with other sensory cues to refine the imitation.     

中国鹅掌楸传粉生物学研究

对中国鹅掌楸(Liriodendron chinense)的不育现象已有了许多的研究。与自然传粉和杂交控制传粉相比,自花传粉常常导致较低的结实率。经过传粉以后,仅落在柱头上的花粉才有可能得到正常发育,并对植物的结实率产生影响。研究结果表明：中国鹅掌楸不同花期开放的各个花朵,所接收到的花粉量是不—致的,在中期开放的花朵接收花粉量较多。在多数情况下,花的下部位柱头接收了较多的花粉,中部位的柱头次之,而上部位接收的花粉较少。通过比较分析,认为有必要对落在柱头上的花粉来源和花粉纯度及这些指标与结实率之间的关系做进一步研究。     

Pollination systems in the Asclepiadaceae: a survey and preliminary analysis

Using published and unpublished records of pollination in the dicot family Asclepiadaceae (the 'milkweeds') we offer a preliminary analysis of present-day pollination systems in the family. Variation in principal pollinators is apparent at and below the tribal level. The tribes Marsdenieae and Stapelieae and Asclepiadeae subtribe Gonolobineae are primarily Diptera-pollinated, a tentative conclusion also for the tribe Periploceae, and we emphasize the ubiquity and importance of fly pollination in the family. The rest of the tribe Asclepiadeae is pollinated in the main by Hymenoptera and Lepidoptera. Lack of data makes it impossible to draw even initial conclusions for the remaining tribes, Secamoneae and Fockeeae. Within the Asclepiadeae, there has been a trend towards more diverse pollination systems (incorporating butterflies and wasps) in the New World compared to the Old World. In terms of the taxonomic breadth of pollinators of individual species, Stapelieae is the most specialized tribe. We emphasize that this is only a preliminary account of pollination in the Asclepiadaceae, and detail areas where further work is urgently required.