Pollen flow and effects of population structure on selfing rates and female and male reproductive success in fragmented Magnolia stellata populations

Pollen flow and effects of population structure on selfing rates and female and male reproductive success in fragmented Magnolia stellata populations

Fragmentation of plant populations may affect mating patterns and female and male reproductive success. To improve understanding of fragmentation effects on plant reproduction, we investigated the pollen flow patterns in six adjacent local populations of Magnolia stellata, an insect-pollinated, thre...

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Bibliographic Details
Published in:BMC ecology Vol. 13; no. 1; p. 10
Main Authors: Setsuko, Suzuki, Nagamitsu, Teruyoshi, Tomaru, Nobuhiro
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 22-03-2013
BioMed Central
Subjects:
Animals
Flowers & plants
Germ Cells, Plant - chemistry
Germ Cells, Plant - growth & development
Habitat destruction
Kinetics
Magnolia
Magnolia - chemistry
Magnolia - growth & development
Magnolia - physiology
Physiological aspects
Plant reproduction
Plants
Pollen
Pollen - chemistry
Pollen - growth & development
Pollen - physiology
Reproduction
Seeds
Studies
Trees
Japan
INW, Japan
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Summary:Fragmentation of plant populations may affect mating patterns and female and male reproductive success. To improve understanding of fragmentation effects on plant reproduction, we investigated the pollen flow patterns in six adjacent local populations of Magnolia stellata, an insect-pollinated, threatened tree species in Japan, and assessed effects of maternal plant (genet) size, local genet density, population size and neighboring population size on female reproductive success (seed production rates), and effects of mating distance, paternal genet size, population size and separation of populations on male reproductive success. The seed production rate, i.e. the proportion of ovules that successfully turned into seeds, varied between 1.0 and 6.5%, and increased with increasing population size and neighboring population size, and with decreasing maternal genet size and local genet density. The selfing rate varied between 3.6 and 28.9%, and increased with increasing maternal genet size and with declining local genet density. Male reproductive success increased with increasing paternal genet size, and decreased with increasing mating distance and separation of population. Pollen flow between the populations was low (6.1%) and highly leptocurtic. Our results indicate that habitat fragmentation, separation and reduced size of populations, affected mating patterns and reproductive success of M. stellata. Local competition for pollinators and plant display size were likely to alter the reproductive success.
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ISSN:1472-6785
1472-6785
DOI:10.1186/1472-6785-13-10