AI Article Synopsis
- Inbreeding depression, which affects mating strategies, can be influenced by environmental stress, but understanding its variability across species is limited.
- In a study of Ipomoea purpurea, it was found that lineages evolved for herbicide resistance displayed reduced inbreeding depression under herbicide stress, contrasting with outbreeding depression in some traits.
- Gene expression analysis revealed distinct patterns based on breeding types, suggesting that populations responding to strong selection may experience a reduced impact of inbreeding depression.
Article Abstract
Inbreeding depression is a central parameter underlying mating system variation in nature and one that can be altered by environmental stress. Although a variety of systems show that inbreeding depression tends to increase under stressful conditions, we have very little understanding across most organisms how the level of inbreeding depression may change as a result of adaptation to stressors. In this work we examined the potential that inbreeding depression varied among lineages of Ipomoea purpurea artificially evolved to exhibit divergent levels of herbicide resistance. We examined inbreeding depression in a variety of fitness-related traits in both the growth chamber and in the field, and paired this work with an examination of gene expression changes. We found that, while inbreeding depression was present across many of the traits, lineages artificially selected for increased herbicide resistance often showed no evidence of inbreeding depression in the presence of herbicide, and in fact, showed evidence of outbreeding depression in some traits compared to nonselected control lines and lineages selected for increased herbicide susceptibility. Further, at the transcriptome level, the resistant selection lines had differing patterns of gene expression according to breeding type (inbred vs. outcrossed) compared to the control and susceptible selection lines. Our data together indicate that inbreeding depression may be lessened in populations that are adapting to regimes of strong selection.
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| http://dx.doi.org/10.1111/mec.15852 | DOI Listing |
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