Abstract
Negative frequency‐dependent selection (NFDS) has been shown to maintain
polymorphism in a diverse array of traits. The action of NFDS has been
confirmed through modeling, experimental approaches, and genetic
analyses. In this study, we investigated NFDS in the wild using
morph‐frequency changes spanning a 20‐year period from over 30 dimorphic
populations of Datura wrightii. In these populations, plants
either possess glandular (sticky) or non‐glandular (velvety) trichomes,
and the ratio of these morphs varies substantially among populations.
Our method provided evidence that NFDS, rather than drift or migration,
is the primary force maintaining this dimorphism. Most populations that
were initially dimorphic remained dimorphic, and the overall mean and
variance in morph frequency did not change over time. Furthermore,
morph‐frequency differences were not related to geographic distances.
Together, these results indicate that neither directional selection,
drift, or migration played a substantial role in determining morph
frequencies. However, as predicted by negative frequency‐dependent
selection, we found that the rare morph tended to increase in frequency,
leading to a negative relationship between the change in the frequency
of the sticky morph and its initial frequency. In addition, we found
that morph‐frequency change over time was significantly correlated with
the damage inflicted by two herbivores: Lema daturaphila and Tupiochoris notatus.
The latter is a specialist on the sticky morph and damage by this
herbivore was greatest when the sticky morph was common. The reverse was
true for L. daturaphila, such that damage increased with the
frequency of the velvety morph. These findings suggest that these
herbivores contribute to balancing selection on the observed trichome
dimorphism.
Original language | English |
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Number of pages | 8 |
Journal | Evolution Letters |
Volume | Early View |
Early online date | 9 Jan 2020 |
DOIs | |
Publication status | E-pub ahead of print - 9 Jan 2020 |
Keywords
- Balanced polymorphism
- Datura wrightii
- Glandular trichomes
- Plant–herbivore interactions