Floral Neighbourhoods in the Sea: How Floral Density, Opportunity for Outcrossing and Population Fragmentation Affect Seed Set in Zostera marina

1 Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as seagrasses, an ecologically important group of some 60 marine angiosperms. 2 I studied how floral density, genetic diversity and population fragmentati...

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Published inThe Journal of ecology Vol. 91; no. 4; pp. 610 - 615
Main Author Reusch, Thorsten B. H.
Format Journal Article
LanguageEnglish
Published Oxford, UK British Ecological Society 01.08.2003
Blackwell Science Ltd
Blackwell Science
Blackwell Publishing Ltd
Subjects
Animal and plant ecology
Animal, plant and microbial ecology
Baltic Sea
Biological and medical sciences
Brackish
clonal plant
Demecology
Density
Ecological genetics
ecology
fertilization
field experimentation
Flowering
Flowers & plants
Fundamental and applied biological sciences. Psychology
Genetic diversity
genetic variation
hermaphroditism
hydrophily
Marinas
Marine ecology
Meadows
outcrossing
Ovules
Plant reproduction
Plant species
Plants
Plants and fungi
Pollen
Pollination
Population
Population ecology
reproductive performance
seagrass
seagrasses
Seed set
species
Zostera marina
Baltic Sea
ANE, Baltic Sea
Monocotyledones
Flower
Potamogetonaceae
Fragmentation
Hydrophily
Pollination
Marine environment
Zostera marina
Seed set
Angiospermae
Spermatophyta
Sea grass
Population density
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Abstract 1 Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as seagrasses, an ecologically important group of some 60 marine angiosperms. 2 I studied how floral density, genetic diversity and population fragmentation affect seed set in Zostera marina (eelgrass), a functionally hermaphrodite seagrass with extensive clonal propagation. 3 In a field experiment in the south-western Baltic Sea, I increased or decreased the density of flowering shoots in 6 × 6 m plots. Early seed set was a positive, saturation-type function of density suggesting pollen limitation below approximately 5 flowering shoots m-2. 4 Using molecular markers, I determined local genotypic diversity and outcrossing rates as indicators of outcrossing opportunities. I found only non-significant effects of these variables on early seed set, suggesting that density of the floral neighbourhood is more important than genetic composition. 5 Early seed set was 22% lower in isolated vegetation patches compared to continuous eelgrass meadow $(>50\ \text{m}^{2})$. 6 Given the spatial scale of the observed pollen limitation, and low natural densities of flowering shoots in the field, pollen limitation may be widespread in Z. marina and, possibly, other plant species with subaqueous pollination.
AbstractList Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as seagrasses, an ecologically important group of some 60 marine angiosperms. I studied how floral density, genetic diversity and population fragmentation affect seed set in Zostera marina (eelgrass), a functionally hermaphrodite seagrass with extensive clonal propagation. In a field experiment in the south-western Baltic Sea, I increased or decreased the density of flowering shoots in 6 x 6 m plots. Early seed set was a positive, saturation-type function of density suggesting pollen limitation below approximately 5 flowering shoots m super(-2). Using molecular markers, I determined local genotypic diversity and outcrossing rates as indicators of outcrossing opportunities. I found only non-significant effects of these variables on early seed set, suggesting that density of the floral neighbourhood is more important than genetic composition. Early seed set was 22% lower in isolated vegetation patches compared to continuous eelgrass meadow (> 50 m super(2)). Given the spatial scale of the observed pollen limitation, and low natural densities of flowering shoots in the field, pollen limitation may be widespread in Z. marina and, possibly, other plant species with subaqueous pollination.
Reusch studies how floral density, genetic diversity, and population fragmentation affect seed set in Zostera marina (eelgrass), which is a functionally hermaphrodite seagrass with extensive clonal propagation. He further concludes that given the spatial scale of the observed pollen limitation, and low natural densities of flowering shoots in the field, pollen limitation may be widespread in Z. marina and, possibly, other plant species with subaqueous pollination.
Summary 1 Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as seagrasses, an ecologically important group of some 60 marine angiosperms. 2 I studied how floral density, genetic diversity and population fragmentation affect seed set in Zostera marina (eelgrass), a functionally hermaphrodite seagrass with extensive clonal propagation. 3 In a field experiment in the south‐western Baltic Sea, I increased or decreased the density of flowering shoots in 6 × 6 m plots. Early seed set was a positive, saturation‐type function of density suggesting pollen limitation below approximately 5 flowering shoots m−2. 4 Using molecular markers, I determined local genotypic diversity and outcrossing rates as indicators of outcrossing opportunities. I found only non‐significant effects of these variables on early seed set, suggesting that density of the floral neighbourhood is more important than genetic composition. 5 Early seed set was 22% lower in isolated vegetation patches compared to continuous eelgrass meadow (> 50 m2). 6 Given the spatial scale of the observed pollen limitation, and low natural densities of flowering shoots in the field, pollen limitation may be widespread in Z. marina and, possibly, other plant species with subaqueous pollination.
1 Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as seagrasses, an ecologically important group of some 60 marine angiosperms. 2 I studied how floral density, genetic diversity and population fragmentation affect seed set in Zostera marina (eelgrass), a functionally hermaphrodite seagrass with extensive clonal propagation. 3 In a field experiment in the south-western Baltic Sea, I increased or decreased the density of flowering shoots in 6 × 6 m plots. Early seed set was a positive, saturation-type function of density suggesting pollen limitation below approximately 5 flowering shoots m-2. 4 Using molecular markers, I determined local genotypic diversity and outcrossing rates as indicators of outcrossing opportunities. I found only non-significant effects of these variables on early seed set, suggesting that density of the floral neighbourhood is more important than genetic composition. 5 Early seed set was 22% lower in isolated vegetation patches compared to continuous eelgrass meadow $(>50\ \text{m}^{2})$. 6 Given the spatial scale of the observed pollen limitation, and low natural densities of flowering shoots in the field, pollen limitation may be widespread in Z. marina and, possibly, other plant species with subaqueous pollination.
The reproductive success of plants with subaqueous pollination is examined as a function of the characteristics of the floral neighborhood such as floral density, genetic diversity, and population fragmentation. The subject of study was the hermaphrodite eelgrass growing in the southwestern Baltic Sea. Shoot density was varied within a plot, and seed set was found to be a function of density. Genotypic diversity and outcrossing rates were identified as indicators of outcrossing opportunities, although these variables had little impact on seed set compared with floral neighborhood density. Isolated vegetation patches had much lower rates of early seed set.
Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as seagrasses, an ecologically important group of some 60 marine angiosperms. I studied how floral density, genetic diversity and population fragmentation affect seed set in Zostera marina (eelgrass), a functionally hermaphrodite seagrass with extensive clonal propagation. In a field experiment in the south‐western Baltic Sea, I increased or decreased the density of flowering shoots in 6 × 6 m plots. Early seed set was a positive, saturation‐type function of density suggesting pollen limitation below approximately 5 flowering shoots m −2 . Using molecular markers, I determined local genotypic diversity and outcrossing rates as indicators of outcrossing opportunities. I found only non‐significant effects of these variables on early seed set, suggesting that density of the floral neighbourhood is more important than genetic composition. Early seed set was 22% lower in isolated vegetation patches compared to continuous eelgrass meadow (> 50 m 2 ). Given the spatial scale of the observed pollen limitation, and low natural densities of flowering shoots in the field, pollen limitation may be widespread in Z. marina and, possibly, other plant species with subaqueous pollination.
1 Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as seagrasses, an ecologically important group of some 60 marine angiosperms. 2 I studied how floral density, genetic diversity and population fragmentation affect seed set in Zostera marina (eelgrass), a functionally hermaphrodite seagrass with extensive clonal propagation. 3 In a field experiment in the south‐western Baltic Sea, I increased or decreased the density of flowering shoots in 6 × 6 m plots. Early seed set was a positive, saturation‐type function of density suggesting pollen limitation below approximately 5 flowering shoots m⁻². 4 Using molecular markers, I determined local genotypic diversity and outcrossing rates as indicators of outcrossing opportunities. I found only non‐significant effects of these variables on early seed set, suggesting that density of the floral neighbourhood is more important than genetic composition. 5 Early seed set was 22% lower in isolated vegetation patches compared to continuous eelgrass meadow (> 50 m²). 6 Given the spatial scale of the observed pollen limitation, and low natural densities of flowering shoots in the field, pollen limitation may be widespread in Z. marina and, possibly, other plant species with subaqueous pollination.
Author Thorsten B. H. Reusch
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Issue 4
Keywords Monocotyledones
Flower
Potamogetonaceae
Fragmentation
Hydrophily
Pollination
Marine environment
Zostera marina
Seed set
Angiospermae
Spermatophyta
Sea grass
Population density
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Snippet 1 Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as...
Summary 1 Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as...
Almost nothing is known about how the floral neighbourhood affects reproductive output in plants with subaqueous pollination (hydrophily), such as seagrasses,...
Reusch studies how floral density, genetic diversity, and population fragmentation affect seed set in Zostera marina (eelgrass), which is a functionally...
The reproductive success of plants with subaqueous pollination is examined as a function of the characteristics of the floral neighborhood such as floral...
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SubjectTerms Animal and plant ecology
Animal, plant and microbial ecology
Baltic Sea
Biological and medical sciences
Brackish
clonal plant
Demecology
Density
Ecological genetics
ecology
fertilization
field experimentation
Flowering
Flowers & plants
Fundamental and applied biological sciences. Psychology
Genetic diversity
genetic variation
hermaphroditism
hydrophily
Marinas
Marine ecology
Meadows
outcrossing
Ovules
Plant reproduction
Plant species
Plants
Plants and fungi
Pollen
Pollination
Population
Population ecology
reproductive performance
seagrass
seagrasses
Seed set
species
Zostera marina
Title Floral Neighbourhoods in the Sea: How Floral Density, Opportunity for Outcrossing and Population Fragmentation Affect Seed Set in Zostera marina
URI https://www.jstor.org/stable/3599574
https://onlinelibrary.wiley.com/doi/abs/10.1046%2Fj.1365-2745.2003.00787.x
https://www.proquest.com/docview/208912105
https://www.proquest.com/docview/14675603
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https://www.proquest.com/docview/3153856721
Volume 91
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