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Impacts of Flowering Density on Pollen Dispersal and Gametic Diversity Are Scale Dependent

Zoe Diaz‐Martin, Luke Browne, Domingo Cabrera, Jorge Olivo, Jordan Karubian

2022The American Naturalist11 citationsDOI

Abstract

Pollen dispersal is a key evolutionary and ecological process, but the degree to which variation in the density of concurrently flowering conspecific plants (i.e., coflowering density) shapes pollination patterns remains understudied. We monitored coflowering density and corresponding pollination patterns of the insect-pollinated palm Oenocarpus bataua in northwestern Ecuador and found that the influence of coflowering density on these patterns was scale dependent: high neighborhood densities were associated with reductions in pollen dispersal distance and gametic diversity of progeny arrays, whereas we observed the opposite pattern at the landscape scale. In addition, neighborhood coflowering density also impacted forward pollen dispersal kernel parameters, suggesting that low neighborhood densities encourage pollen movement and may promote gene flow and genetic diversity. Our work reveals how coflowering density at different spatial scales influences pollen movement, which in turn informs our broader understanding of the mechanisms underlying patterns of genetic diversity and gene flow within populations of plants.

Topics & Concepts

PollenBiological dispersalBiologyPollinationGene flowSeed dispersalEcologyGenetic variationGenePopulationBiochemistrySociologyDemographyPlant and animal studiesPlant Reproductive BiologyGenetic diversity and population structure
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