AI Article Synopsis
- Hermaphroditic plants can produce both selfed and outcrossed offspring, leading to mixed mating systems, which are predicted to evolve quickly towards increased selfing.
- Despite this prediction, the study reveals that mixed-mating and outcrossing plant populations have similar levels of inbreeding depression (ID), suggesting they do not evolve towards higher selfing rates as expected.
- The researchers propose that selective interference may prevent the purging of genetic load, allowing mixed mating to remain stable in many natural populations and highlight the need for more empirical data to understand ID fully.
Article Abstract
Hermaphroditic individuals can produce both selfed and outcrossed progeny, termed mixed mating. General theory predicts that mixed-mating populations should evolve quickly toward high rates of selfing, driven by rapid purging of genetic load and loss of inbreeding depression (ID), but the substantial number of mixed-mating species observed in nature calls this prediction into question. Lower average ID reported for selfing than for outcrossing populations is consistent with purging and suggests that mixed-mating taxa in evolutionary transition will have intermediate ID. We compared the magnitude of ID from published estimates for highly selfing (r > 0.8), mixed-mating (0.2 ≤ r ≥ 0.8), and highly outcrossing (r < 0.2) plant populations across 58 species. We found that mixed-mating and outcrossing taxa have equally high average lifetime ID (δ= 0.58 and 0.54, respectively) and similar ID at each of four life-cycle stages. These results are not consistent with evolution toward selfing in most mixed-mating taxa. We suggest that prevention of purging by selective interference could explain stable mixed mating in many natural populations. We identify critical gaps in the empirical data on ID and outline key approaches to filling them.
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| http://dx.doi.org/10.1111/j.1558-5646.2011.01462.x | DOI Listing |
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