Differential seed maturation uncouples fertilization and siring success in Oenothera organensis (Onagraceae)

Havens, Kayri; Delph, Lynda F.

doi:10.1038/hdy.1996.89

Cited by 23 publications

(18 citation statements)

References 46 publications

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“…Also, observed differences in gametophyte performance might be masked in the diploid state, thereby obscuring expected fitness differences. This was observed by Havens and Delph (1996) who found that a transformation that affected gametophyte vigor did not affect sporophyte vigor.…”

Section: Discussionmentioning

confidence: 74%

The effects of pollen load size and donor diversity on pollen performance, selective abortion, and progeny vigor in Mirabilis jalapa (Nyctaginaceae)

Niesenbaum

1999

American J of Botany

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The influence of pollen competitive environment on pollen performance (pollen germination, stigmatic penetration, and pollen tube growth rate), the maturation or abortion of initiated fruit, seed size, and seedling vigor was explored by manipulating the size and diversity of stigmatic pollen loads on Mirabilis jalapa. All aspects of pollen performance significantly increased with the number of pollen grains on a stigma or pollen tubes in a style, but was not influenced by the diversity of pollen donors. Plants tended to mature single-ovulate fruits that came from flowers where pollen load size and diversity were greatest and aborted those where these were lowest. No plants from seeds resulting from pollinations with a single pollen grain survived, but other fitness measures were mostly determined by maternal plant. The data suggest that pollen performance is influenced by pollen competitive environment, and both the genetic diversity of the pollen load and number of competing pollen tubes are important determinants of seed/fruit abortion.

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Section: Discussionmentioning

confidence: 74%

The effects of pollen load size and donor diversity on pollen performance, selective abortion, and progeny vigor in Mirabilis jalapa (Nyctaginaceae)

Niesenbaum

1999

American J of Botany

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“…Because of this, the maternal environment may have a strong influence on embryo development and survival (including seed abortion, e.g. Havens & Delph 1996), and as a result it may be difficult to attribute the events occurring between pollen deposition and fruit maturation unambiguously to paternal or maternal influences, to sporophytic or gametophytic traits.…”

Section: Box 1 Definitions For Analysis Of Seed Paternity In Flowerimentioning

confidence: 99%

Seed paternity in flowering plants: an evolutionary perspective

Bernasconi

2003

Perspectives in Plant Ecology, Evolution and Systematics

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the male function. Also, paternity can be the end result of competition for fertilization among pollen from one or several donors, selection processes occurring between pollen deposition and fertilization, and post-zygotic events such as seed abortion.Pre-zygotic competition and selection processes in flowering plants are relevant under several aspects (e.g. Snow & Lewis 1993;Delph & Havens 1998 AbstractThe ultimate importance of paternal contributions to fitness and of post-pollination selection in flowering plants have remained elusive, largely because of the technical difficulty of assigning paternity. I review empirical studies that use heritable markers to investigate per-fruit seed paternity in natural populations and after experimental multiple-donor pollination. Thirty-one studies covering 23 species from 16 plant families document that in natural populations seeds from a single fruit are often fathered by multiple pollen donors (5 species from 5 families), that donors can differ significantly in seed-siring success (8 species from 6 families), that variation in pollen tube growth rates can be heritable (n = 1 out of 4 studies), that donor and recipient genotypes can simultaneously affect paternity (n = 2), and that temporal order of pollen deposition (n = 1) and environmental effects (n = 2) affect the outcome of pollen competition. These studies also investigate the role of post-pollination selection in the avoidance of inbreeding and for species boundaries. Most studies of male reproductive success in plants to date base on isozyme electrophoresis. The availability in the last decade of highly polymorphic molecular markers such as microsatellite DNA has been expected to open new possibilities to investigate competition and selection during the gametophytic phase. Yet, to date, there is still need for greater data wealth on seed paternity to test theories of sex allocation and to gain deeper understanding of floral trait evolution and of the evolutionary consequences of post-pollination selection in flowering plants.

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“…Color polymorphism of pollen grains ( Jorgensen et al, 2006 ) can be readily assessed, but the discrimination is relatively poor and adaptation is restricted to specifi c species. Although gene transformation ( Havens and Delph, 1996 ;Hudson et al, 2001 ) and differences in ploidy ( Williams et al, 1999 ) can also distinguish pollen genotypes in vivo, these methods are unsuitable for processing the large numbers of samples required for analysis of natural populations.…”

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confidence: 99%

Pollination efficiencies of flower‐visiting insects as determined by direct genetic analysis of pollen origin

Matsuki

Tateno

Shibata

et al. 2008

American J of Botany

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The amount and genetic composition of pollen grains that are transported to flowers influence the reproduction and fitness of plants. Despite the importance of insect-pollination systems, an understanding of those systems is still lacking due to the absence of a genetic analysis of pollen grains that are transported to flowers. We evaluated the pollination efficiencies of bumblebees (Apidae, Bombus spp.), flower beetles (Scarabaeidae, subfamily Cetoniinae, Protaetia and Eucetonia sp.), and small beetles (Lagriidae, Arthromacra sp.) that visited the flowers of Magnolia obovata (Magnoliaceae) using quantitative (flower visitation frequency, amount of adherent pollen per insect) and qualitative (origin and genetic diversity of adherent pollen per insect) criteria. Most of the pollen adhering to bumblebees and small beetles was self-pollen. This result suggests that visitation by these insects may cause geitonogamous pollen flow and negatively affect the reproduction of M. obovata, causing inbreeding depression. In contrast, flower beetles transported large amounts of genetically diverse outcross pollen. Our results suggest that certain beetle species contribute quantitatively and qualitatively to the pollination of M. obovata. Direct genetic analysis of pollen grains will advance our understanding of plant mating systems and may shed light on the mutualism and coevolution of plants and flower visitors.

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Differential seed maturation uncouples fertilization and siring success in Oenothera organensis (Onagraceae)

Cited by 23 publications

References 46 publications

The effects of pollen load size and donor diversity on pollen performance, selective abortion, and progeny vigor in Mirabilis jalapa (Nyctaginaceae)

The effects of pollen load size and donor diversity on pollen performance, selective abortion, and progeny vigor in Mirabilis jalapa (Nyctaginaceae)

Seed paternity in flowering plants: an evolutionary perspective

Pollination efficiencies of flower‐visiting insects as determined by direct genetic analysis of pollen origin

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