Insect Pollination (insect + pollination)

Distribution by Scientific Domains


Selected Abstracts


The influence of pollinator abundance on the dynamics and efficiency of pollination in agricultural Brassica napus: implications for landscape-scale gene dispersal

JOURNAL OF APPLIED ECOLOGY, Issue 6 2006
KATRINA E. HAYTER
Summary 1It is important to understand the pollination processes that generate landscape-scale gene dispersal in plants, particularly in crop plants with genetically modified (GM) varieties. In one such crop, Brassica napus, the situation is complicated by uncertainty over the relative importance of two pollen vectors, wind and insects. 2We investigated pollination in two fields of B. napus that bloomed at different times of year (April vs. July) and attracted different abundances of foraging social bees. Rates of pollen transfer were quantified by counting the pollen grains deposited on stigmas and remaining in the anthers at intervals after flower opening. 3Flowers open in April were adequately pollinated only after 5 days and only 10% received even a single bee visit. Flowers open in July received three bee visits per hour and were fully pollinated within 3 h. 4Based on published measurements of airborne pollen dispersal, we estimate that wind-pollination from a hypothetical field 1 km distant could have fertilized up to 0·3% of the field's seed when bees were scarce in April but only up to 0·007% when bees were abundant in July. 5The efficiency of pollination (the proportion of pollen released from anthers that landed on receptive stigmas) was seven times greater in July (1·5%) than in April (0·2%). The relatively high efficiency of insect pollination may help to explain the evolutionary maintenance of entomophily. 6Synthesis and applications. Our results begin to resolve a long-standing inconsistency among previous studies by suggesting that the susceptibility of fields of B. napus to long-distance cross-pollination by wind depends on the level of bee activity. Models for predicting GM gene flow at the landscape-scale in this crop should take this into account. [source]


Insect and wind pollination of an alpine biennial Aconitum gymnandrum (Ranunculaceae)

PLANT BIOLOGY, Issue 6 2009
Y. W. Duan
Abstract Wind pollination can provide reproductive insurance for animal-pollinated dioecious plants in the absence of available pollinators, but combinations of insect and wind pollination (ambophily) have rarely been studied in hermaphrodite herbs. We examined the stable occurrence of insect pollination and wind pollination over 4 years in a population of a biennial Aconitum species (A. gymnandrum) with actinomorphic and degenerate sepals. The total frequency of visits of two bumblebee species showed no distinct fluctuations in the studied population among the 4 years. However, seed production of netted flowers after emasculation indicated wind pollination had occurred. The seed number of bagged flowers with one visit by bumblebees was significantly less than that of netted flowers after one visit, or in control flowers. Both seed number and fruit set of netted flowers were significantly lower than in control flowers. These results suggest that wind pollination provides supplementary pollen to unvisited and/or once-visited flowers, but accounts for only a small amount of seed production compared to bumblebee pollination in natural conditions. Such a combination of insect and wind pollination might play an important role in maintaining sexual reproduction of this biennial herb, allowing it to persist in arid habitats on the Qinghai-Tibetan Plateau, especially during Quaternary glacial periods when pollinator populations oscillated extensively. [source]


Reproductive alternatives to insect pollination in four species of Thalictrum (Ranunculaceae)

PLANT SPECIES BIOLOGY, Issue 2 2004
JANET C. STEVEN
Abstract Although insect pollination is ancestral in the angiosperms, selection has favored wind pollination and self-fertilization in many lineages. The evolution of clonal growth may have also decreased dependence on insect pollinators. We investigate transitions away from insect pollination in the genus Thalictrum (Ranunculaceae) among four species that vary in pollination syndrome. Thalictrum sparsiflorum is insect pollinated and self-fertilization may also provide reproductive assurance. Thalictrum alpinum is clonal, has a floral morphology associated with wind pollination and is self-compatible. Thalictrum fendleri is a wind-pollinated and dioecious species that sets few fruits naturally and invests little in sexual reproduction, possibly due to a trade-off with clonal growth. Thalictrum dioicum is also wind-pollinated and dioecious, but does not grow clonally at our sites and has a higher investment in sexual reproduction than T. fendleri. The pollen : ovule ratio is largest in wind-pollinated species, but varies considerably among them, possibly reflecting differences in pollination efficiency and/or incidental insect pollination. None of the species appear pollen limited in the study populations, suggesting that factors other than pollen receipt limit female fertility at these sites. [source]