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Floral Phenology (floral + phenology)

Distribution by Scientific Domains

Life Sciences	100%

Selected Abstracts

Floral phenology and sex expression in functionally monoecious Rhoiptelea chiliantha (Rhoipteleaceae)

BOTANICAL JOURNAL OF THE LINNEAN SOCIETY, Issue 2 2006
SHI-GUO SUN
The reproductive ecology of wind-pollinated gynomonoecious species, in which the individual plant produces both female (pistillate) and perfect flowers, has rarely been studied. We examined the floral phenology and reproductive traits in Rhoiptelea chiliantha, described as gynomonoecy, to understand the adaptive significance of this sexual system. This species is a rare tree native to south-western China and northern Vietnam. The flowers are characterized by an anemophilous pollination syndrome, but no insects were observed foraging on them. Perfect flowers have larger tepals but smaller stigmas than female flowers, indicating flower size dimorphism. Floral ratios of female to perfect flowers are stable in different individuals and populations. On individual plants, perfect flowers open first, followed by female flowers, with a 1-week interval. Perfect flowers are protogynous with a 3.7-day interval (neuter phase) between the female phase (1.5 days) and expanded male phase (8.2 days). Both female and perfect flowers exhibit pronounced synchrony in flowering at the levels of inflorescences and individuals. However, flowers on different individuals show asynchronicity in timing of initial blooming. Tracking the process from pollination to fruit maturation, we found that female flowers contributed almost exclusively to seed production, but perfect flowers were sterile (functionally males). Therefore, this plant is functionally monoecious. This finding resolved a puzzle on the occurrence of female flowers in this plant, because previous reports described female flowers as being sterile. As the sex phases were completely separate between individuals, the pattern of floral phenology may ensure that outcrossing strongly predominates. © 2006 The Linnean Society of London, Botanical Journal of the Linnean Society, 2006, 152, 145,151. [source]

Pollinators, flowering phenology and floral longevity in two Mediterranean Aristolochia species, with a review of flower visitor records for the genus

PLANT BIOLOGY, Issue 1 2009
R. Berjano
Abstract The pollination of Aristolochia involves the temporary confinement of visitors inside the flower. A literature review has shown that some species are visited by one or a few dipteran families, while others are visited by a wider variety of dipterans, but only some of these are effective pollinators. We observed flowering phenology and temporal patterns of pollinator attendance in diverse populations of Aristolochia baetica and A. paucinervis, two species that grow in SW Spain, frequently in mixed populations. The two species had overlapping floral phenologies, extended flowering periods and long-lived flowers. A. baetica attracted a higher number of visitors than A. paucinervis. Drosophilids and, to a lesser extent, phorids, were the main pollinators of A. baetica, whereas in A. paucinervis, phorids were the only pollinators. Attendance to A. paucinervis flowers by phorids in mixed populations was markedly lower than in pure populations. This effect was more evident in years with lower pollinator density. Our results suggest that A. baetica and A. paucinervis may compete for pollinators in mixed populations. [source]

Pollination biology of the sclerophyllous shrub Pultenaea villosa Willd. (Fabaceae) in southeast Queensland, Australia

PLANT SPECIES BIOLOGY, Issue 1 2009
JANE E. OGILVIE
Abstract The pollination biology of the common shrub Pultenaea villosa Willd. was examined in a subtropical dry sclerophyll forest in eastern Australia. We determined floral phenology and morphology, the timing of stigma receptivity and anther dehiscence, nectar availability, the plant breeding system, and flower visitors. The shrub's flowers are typical zygomorphic pea flowers with hidden floral rewards and reproductive structures. These flowers require special manipulation for insect access. A range of insects visited the flowers, although bees are predicted to be the principle pollinators based on their frequency on the flowers and their exclusive ability to operate the wing and keel petals to access the reproductive structures. Nectar and pollen are offered as rewards and were actively collected by bees. Nectar is offered to visitors in minute amounts at the base of the corolla. In Toohey Forest, P. villosa flowers in spring and is the most abundant floral resource in the understory of the forest at this time. The breeding system experiment revealed that P. villosa requires outcrossing for high levels of seed set and that the overlap of stigma receptivity and pollen dehiscence within the flower suggests the potential for self-incompatibility. [source]