Effective population size mediates the impact of pollination services on pollen limitation

Effective population size mediates the impact of pollination services on pollen limitation

Inadequate pollen receipt limits flowering plant reproduction worldwide. Ecological causes of pollen limitation (PL), like pollinator scarcity and low plant abundance, have been a primary research focus. The genetic diversity of plant populations could impact both quantity and quality components of...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Vol. 291; no. 2014; p. 20231519
Main Authors: Cisternas-Fuentes, Anita, Koski, Matthew H
Format: Journal Article
Language:English
Published: England 10-01-2024
Subjects:
Flowers
Pollen
Pollination
Population Density
Reproduction
pollen limitation
self-incompatibility
genetic diversity
clonality
pollination
plant reproduction
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Summary:Inadequate pollen receipt limits flowering plant reproduction worldwide. Ecological causes of pollen limitation (PL), like pollinator scarcity and low plant abundance, have been a primary research focus. The genetic diversity of plant populations could impact both quantity and quality components of PL in concert with ecological factors, yet empirical examples are lacking. We evaluated joint effects of ecological factors (flower abundance, pollinator visitation) and genetic effective population size ( ) on PL across 13 populations of the common herb . We used a histological approach with 5504 styles from 1137 flowers to separate quantity and quality components of PL, and link these to reproductive output. and pollinator visitation interacted to shape PL, but had stronger direct effects. Effectively smaller populations experienced stronger quantity PL, and controlled crosses in a pollinator-free environment revealed that stigmatic pollen quantity was an intrinsic population-level attribute that increased with . Pollinator visitation enhanced pollen quality, but only in effectively larger populations. Quantity and quality PL negatively impacted fruit and seed set, respectively. Results highlight that PL is dictated by plant population genetic diversity in addition to commonly evaluated ecological factors. Efforts to support pollinators will more strongly enhance plant reproduction in genetically diverse populations.
ISSN:1471-2954
DOI:10.1098/rspb.2023.1519