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Pollen Limited (pollen + limited)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Morph-specific selection on floral traits in a polymorphic plant

JOURNAL OF EVOLUTIONARY BIOLOGY, Issue 6 2010
D. VANHOENACKER
Abstract Correlations between phenotypic traits are common in many organisms, but the relative importance of nonadaptive mechanisms and selection for the evolution and maintenance of such correlations are poorly understood. In polymorphic species, morphs may evolve quantitative differences in additional characters as a result of morph-specific selection. The perennial rosette herb Primula farinosa is polymorphic for scape length. The short-scaped morph is less damaged by grazers and seed predators but is more strongly pollen limited than the long-scaped morph. We examined whether morph-specific differences in biotic interactions are associated with differences in selection on two other traits affecting floral display (number of flowers and petal size) and on one trait likely to affect pollination efficiency (corolla tube width) in three P. farinosa populations. Differences in selection between morphs were detected in one population. In this population, selection for more flowers and larger petals was stronger in the short-scaped than in the long-scaped morph, and although there was selection for narrower corolla tubes in the short-scaped morph, no statistically significant selection on corolla tube width could be detected in the long-scaped morph. In the study populations, the short-scaped morph produced more and larger flowers and wider corolla tubes. Current morph-specific selection was thus only partly consistent with trait differences between morphs. The results provide evidence of morph-specific selection on traits associated with floral display and pollination efficiency, respectively. [source]

Comparisons of breeding systems between two sympatric species, Nastanthus spathulatus (Calyceraceae) and Rhodophiala rhodolirion (Amaryllidaceae), in the high Andes of central Chile

PLANT SPECIES BIOLOGY, Issue 1 2009
PHILIP G. LADD
Abstract Alpine vegetation occurs over a wide range of ecological conditions. Thus, the breeding systems of alpine plants are likely to be diverse and vary from one geographical area to another. The reproductive characteristics of Nastanthus spathulatus (Calyceraceae) and Rhodophiala rhodolirion (Amaryllidaceae), species with contrasting floral morphology, were studied in the high Andes of Chile, which has a Mediterranean-type climate. Natural and supplemental open pollination, and cross pollination and self-pollination trials were carried out in the field. Flower visitors were quantified by field and video observations. Both species had high outcrossing properties, and Nastanthus was strongly self-incompatible. Rhodophiala could form some seed by self-pollination, but fruit and seed sets were much lower after self-pollination compared with outcrossing. The phenology and flower/inflorescence forms of these species supported the view that alpine flowers are comparatively long lived and that the floral display contributes to a large proportion of the plant biomass. Rhodophiala was well attended by a native bee species (Megachile sauleyi) that was appropriately sized for efficient pollination. Although no flower visitors were observed on Nastanthus and wind pollination was discarded experimentally, a high proportion of the flowers produced seeds under natural pollination. Therefore, the seed set was not severely pollen limited in these species. Including previously published information, breeding systems are now known for 12 species on this Mediterranean alpine site and current knowledge suggests an emphasis on outcrossing breeding systems. [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]

Is the pollen-limited mistletoe Peraxilla tetrapetala (Loranthaceae) also seed limited?

AUSTRAL ECOLOGY, Issue 8 2007
DAVE KELLY
Abstract Seed production in the endemic New Zealand mistletoe Peraxilla tetrapetala (Loranthaceae) has been shown to be consistently pollen limited, but to date there has been no test of whether the species is also seed limited. If it is not seed limited, then pollen limitation may have no effect on population size. We tested for seed limitation by sowing seeds onto host trees at high and low densities at two sites, and following survival for up to 69 months. Our rationale was that unless there is strong density-dependent seedling mortality sufficient to negate increases in seed supply, the species would be seed limited. We simultaneously measured pollen limitation at both sites using pollen augmentation. Peraxilla tetrapetala was strongly pollen limited at both sites over 7 years at Ohau (mean Pollen Limitation Index 0.62), and 12 years at Craigieburn (mean PLI 0.44), before and during the seed-limitation study. There was no significant overall negative effect of density on survival in sown P. tetrapetala seeds over 42,69 months. There was a significant positive effect: seeds were more likely to adhere to branches when sown at high densities. This initial advantage to high-density seeds was gradually eroded by slightly (but non-significantly) lower survival rates of adhered seeds at high density. By the end of the study there was no significant difference in overall survival in high and low density plantings. This means that P. tetrapetala was apparently both pollen limited and seed limited at both our sites. Hence, reduced densities of native bird pollinators caused by introduced mammalian carnivores are likely to reduce the density of adult mistletoes in the next generation. However, the generality of this result may be affected by the fact that mistletoes do not have a dense ,seedling shadow' under the parent mistletoe. [source]

No evidence for simultaneous pollen and resource limitation in Aciphylla squarrosa: A long-lived, masting herb

AUSTRAL ECOLOGY, Issue 4 2007
ROWAN H. BROOKES
Abstract For successful reproduction animal pollinated plants must provide resources for both pollinator attraction and offspring production, and theory suggests that resources and pollen delivery limit reproduction simultaneously. We conducted a series of experiments involving supplemental pollination, flower removal, fertilizer addition and foliage removal to investigate the interaction of resources and pollen on fruit-set of Aciphylla squarrosa, a long-lived, dioecious, masting herb in Wellington, New Zealand. Reducing floral display decreased open-pollinated fruit-set, suggesting that display size is a reflection of an optimal investment between attraction and fecundity. In combination with supplemental pollination, resource reduction and fertilization addition did not alter fruit-set, suggesting that changes in resource availability did not limit reproduction in the current year. In addition, supplemental pollination of non-manipulated treatments did not increase fruit-set, demonstrating that plants were not naturally pollen limited. While we found that simultaneous pollen and resource limitation did not occur within a season, this is possibly mitigated by life history patterns including mast flowering and a storage taproot. Multiple year studies are required to further examine simultaneous resource and pollen limitation. [source]