Influence of pollen transport dynamics on sire profiles and multiple paternity in flowering plants.

Influence of pollen transport dynamics on sire profiles and multiple paternity in flowering plants.
Authors: 
Mitchell RJ, Wilson WG, Holmquist KG, Karron JD
Summary
Publication Date
2013
Abstract

In many flowering plants individual fruits contain a mixture of half- and full- siblings, reflecting pollination by several fathers. To better understand the mechanisms generating multiple paternity within fruits we present a theoretical framework linking pollen carryover with patterns of pollinator movement. This 'sire profile' model predicts that species with more extensive pollen carryover will have a greater number of mates. It also predicts that flowers on large displays, which are often probed consecutively during a single pollinator visitation sequence, will have a lower effective number of mates. We compared these predictions with observed values for bumble bee-pollinated Mimulus ringens, which has restricted carryover, and hummingbird-pollinated Ipomopsis aggregata, which has extensive carryover. The model correctly predicted that the effective number of mates is much higher in the species with more extensive carryover. This work extends our knowledge of plant mating systems by highlighting mechanisms influencing the genetic composition of sibships.

Publication Type
Journal Article
DOI
10.1371/journal.pone.0076312
Citation
Mitchell RJ, Wilson WG, Holmquist KG, Karron JD. Influence of pollen transport dynamics on sire profiles and multiple paternity in flowering plants.. PloS one. 2013; 8(10):e76312.
Series Name: 
PloS one
Page Numbers: 
e76312
Publisher: