Tomoyuki Itagaki

Relationship between floral longevity and sex allocation among flowers within inflorescences in Aquilegia buergeriana var. oxysepala (Ranunculaceae)

Understanding the fitness of plants with inflorescences requires examining variation in sex allocation among flowers within inflorescences. We examined whether differences in the duration of the male and female phases of flowering lead to variation in sex allocation and reproductive success among flowers within inflorescences. In 2002 and 2003, we quantified floral longevity, floral sex allocation, and reproductive success between the first and the second flowers within inflorescences in a protandrous species, Aquilegia buergeriana var. oxysepala. Floral longevity was greater in the first flowers than in the second ones in both years. The male phase lasted longer, and the initial number of pollen grains and the number of pollen grains removed were greater in the first flowers than in the second ones in both years. Within first flowers, the number of pollen grains removed was greater in flowers that had longer male phases, thus duration of the male phase may positively affect male reproductive success in the first flowers. The female phase lasted longer and the number of ovules was greater in the first flowers than in the second only in 2002. However, seed production per flower and female phase duration in both years were not significantly related. The variation in the number of pollen grains among flowers in this species may be caused by the variation in male phase duration.

Invasion history of Cardamine hirsuta in Japan inferred from genetic analyses of herbarium specimens and current populations

Multiple introductions of a species are thought to enhance its invasion success by increasing genotypic diversity; this involves frequent crossing among different lineages. However, genetic diversity through crossing is less likely in autogamous species. To understand the impact of multiple introductions on the colonization success of autogamous species, we studied hairy bittercress, Cardamine hirsuta, which invaded Japan several decades ago. We detected temporal changes in its population structure using nine microsatellite markers amplified from leaf samples collected from 87 sites between 2009 and 2010, and herbarium specimens collected between 1988 and 2007. To examine whether the phenotypic variation corresponded with the genetic population structure, we also investigated the geographic variation in the lateral stamen number of this species across 49 sites. The present populations can be divided into three genetic groups, which are distributed in northern, eastern, and western Japan. This finding suggests that there are three invasive lineages (North, East, and West) in Japan. The geographic variation in lateral stamen number corresponded to the distributions of these lineages. The former distributions of the North and West lineages mostly corresponded to those found at present, but they were also historically found in eastern Japan. However, the East lineage has apparently expanded into eastern Japan, resulting in a change in dominant lineages over only a few decades. For the autogamous C. hirsuta, multiple introductions contributed toward colonization success over a wider range, which was associated with a local change in the dominant lineages.

On the function of hermaphrodite florets in female inflorescences of Petasites japonicus (Asteraceae)

To examine the function of morphologically hermaphroditic, but functionally sterile, florets in female inflorescences of Petasites japonicus (Sieb. & Zucc.) Maxim., we conducted experiments in which all those florets were removed from female inflorescences. We hypothesize that those florets enhance female reproductive success by deceit, because they resemble the morphologically hermaphroditic, but functionally male florets, in male inflorescences. We found that the mean number of pollinator visits per inflorescence did not differ between the intact inflorescences and inflorescences in which such hermaphrodite florets had been removed. However, the mean duration of stay per visit to an inflorescence tended to be shorter in those with removed florets than in the intact inflorescences. The achene / female floret ratio was smaller in the inflorescences with removed florets than in the intact ones. We hence concluded that the hermaphrodite florets in female inflorescences enhance female reproductive success th...

Development of microsatellite markers for Aquilegia buergeriana var. oxysepala (Ranunculaceae), a vulnerable Japanese herb

Aquilegia buergeriana var. oxysepala is a vulnerable herb, for which 20 microsatellite markers were developed. The applicability of these markers was confirmed by genotyping of 66 individuals collected from four natural populations in Japan. Of the 20 loci, 15 showed polymorphism. For the 15 polymorphic markers, the number of alleles per locus ranged from 2 to 12, and the expected and observed heterozygosities ranged from 0.13 to 0.77 and 0.02 to 0.65, respectively. The markers described here are sufficiently polymorphic and informative to investigate the genetic diversity and population genetic structure of A. buergeriana var. oxysepala.

Floral-induced and constitutive defense against florivory: a comparison of chemical traits in 12 herb species

Little is known about how plants protect flowers—their reproductive organs—against florivory. Additionally, the induced floral defense system has been examined in only a few species. We tested the inducibility of putative floral defenses and investigated the relationship between natural florivory and the floral defenses of 12 naturally growing plant species. The relationships between florivory and four chemical traits (nitrogen, phosphorus, total phenolics, and condensed tannins) were investigated in 12 plant species. We also studied whether flowers induce changes in chemical defenses in response to artificial damage in 10 plant species. A higher concentration of floral nitrogen was associated with a decreasing frequency of florivore attacks. Among the four traits of the 10 plant species studied, no trait changed in response to the artificial damage. We suggest that induced defense systems may not be advantageous for flowers, although it is also possible that these species simply do not use induced defense in any of their plant parts.

Intraflower variation in nectar secretion: Secretion patterns and pollinator behavior in male- and female-phase flowers

PREMISE OF THE STUDY Plants that secrete abundant nectar attract many pollinator visits, potentially leading to a high frequency of geitonogamous pollination. However, intraflower variation in nectar volume might enhance early departure from the flower or inflorescence, reducing geitonogamy. To examine the adaptive significance of multiple nectar-producing spurs within flowers, we related intraflower variation in nectar characteristics to pollinator foraging behavior and plant reproductive success in protandrous Aquilegia buergeriana var. oxysepala. METHODS We investigated if nectar volume and sugar mass relate to spur length and if intraflower variation in nectar characteristics differ between male- and female-phase flowers. Because male function requires more pollinator visits than female function, male-phase flowers are expected to have greater nectar volume and lower intraflower variation in nectar volume than female-phase flowers. We used intraflower variation in spur length as an indicator of variation in nectar characteristics and investigated how spur length variation affects pollinator behavior, pollen removal, and seed production. KEY RESULTS Male-phase flowers had greater nectar volume and lower intraflower variation in nectar volume than female-phase flowers. Intraflower variation in spur length reduced the duration of bumblebee visits. Short visits reduced seed production, but increased pollen removal. CONCLUSIONS Our results suggest that high intraflower variation in nectar production rate can reduce geitonogamy and potentially increase the genetic diversity of pollen received. Such pattern of nectar secretion within and among flowers may allow flowers to ensure effective pollen transfer or high seed production.