Inbreeding depression and low between-population heterosis in recently diverged experimental populations of a selfing species

Rousselle, Yves; Thomas, Mathieu; Galic, Nathalie; Bonnin, Isabelle; Goldringer, Isabelle

doi:10.1038/hdy.2010.72

Cited by 20 publications

(18 citation statements)

References 69 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…They had high Nei genetic identity index (>0.95) and each pair clustered together in PCoA. This is in agreement with Rousselle et al (2011) who observed no loss of within population diversity and little genetic divergence of sub-populations in wheat populations cultivated over 12 generations. We found that in bi-parental subpopulations there were more alleles at most loci than in the parental varieties.…”

Section: Discussionsupporting

confidence: 75%

Response of bi-parental spring barley populations to cultivation in organic and conventional farming systems

Mežaka¹,

Ločmele²,

Ruņģis

et al. 2017

Zemdirbyste-Agriculture

View full text Add to dashboard Cite

157Please use the following format when citing the article: Mežaka I., Ločmele I., Ruņģis D., Legzdiņa L. 2017. Response of bi-parental spring barley populations to cultivation in organic and conventional farming systems. Zemdirbyste-Agriculture, 104 (2) AbstractThe organic farming sector is increasing in importance and requires varieties with stable yield and adapted to organic growing conditions. Heterogeneous populations of self-pollinating crops can potentially offer an advantage over currently used homogeneous varieties. The aim of the study was to compare yield, grain quality traits and genetic diversity in two bi-parental spring barley (Hordeum vulgare L.) populations over the course of six to eight generations. Populations were made by simple crosses, divided as subpopulations in F4 generation and then cultivated in parallel at two organic and two conventional sites for consecutive five generations. After that all subpopulations were compared in joint field trial at one organic and one conventional site to determine if they had divergent grain yield and quality properties. The genetic diversity of two subpopulations from each cross was studied in the seventh cultivation season using nine SSR (simple sequence repeat) markers. Mixed-effect modelling showed that cultivation environment was significant for grain yield and not significant for grain quality traits. Cultivation of subpopulations derived from the two crosses over six generations concurrently under conventional and organic conditions did not significantly change genetic diversity or allelic composition as assessed by SSR markers -each pair of subpopulations from the same cross were similar in both environments with one population showing a small drift. Similar proportion of alleles contributed by each parent was observed thus indicating that none of the parental varieties was preferred by selection.

show abstract

Section: Discussionsupporting

confidence: 75%

Response of bi-parental spring barley populations to cultivation in organic and conventional farming systems

Mežaka¹,

Ločmele²,

Ruņģis

et al. 2017

Zemdirbyste-Agriculture

View full text Add to dashboard Cite

show abstract

“…Often, experiments in benign environments may not be as effective as those in natural environments in revealing the expression of dominance in fitness traits, although this is not always the case (Dudash 1990;Keller and Waller 2002;Johansen-Morris and Latta 2006). In addition, it is also possible that the divergence between populations of L. uniflora may truthfully be very shallow, so that there has not been sufficient time for the substitution of deleterious mutations in each lineage (Rouselle et al 2011). It is likely that the divergence between populations east and west of the Mississippi river is indeed very recent, since there is very little segregating variation among populations in the western portion of the species range.…”

Section: Analyses Of Line Crossesmentioning

confidence: 91%

“…Line-cross analyses involving closely related populations or ecotypes of highly selfing plants have yielded inconsistent support for the action of mutation accumulation. Crosses among highly selfing populations have sometimes shown little evidence of heterosis (Rouselle et al 2011) yet more frequently document its importance (Weller et al 2005;Johansen-Morris and Latta 2006;Hereford 2009). Observations of heterosis in these highly selfing lineages reinforce the more general finding of heterosis in many plant species with small populations and spatial structure (Ouborg and van Treunen 1994;Richards 2000;Paland and Schmid 2003).…”

Section: Analyses Of Line Crossesmentioning

confidence: 97%

Population Structure Has Limited Fitness Consequences in the Highly Selfing PlantLeavenworthia uniflora(Brassicaceae)

Busch

Werner

2012

International Journal of Plant Sciences

View full text Add to dashboard Cite

Selfing populations are often genetically depauperate and substantially differentiated. These genetic consequences of selfing are thought to contribute to the reduced longevity of natural populations. We analyzed multilocus microsatellite variation and population structure to examine the likelihood of high levels of selfing in Leavenworthia uniflora. We also conducted crosses between two populations with the greatest degree of microsatellite divergence to test the hypothesis that these populations have substantial mutation loads or express epistasis for fitness indicative of local adaptation or intrinsic reproductive isolation. Populations were inbred (F IS ¼ 0:80) and highly selfing (S ¼ 0:89) and maintained limited allelic diversity (A ¼ 1:42). Genetic differentiation in L. uniflora reflects high levels of selfing and spatial structure (F ST ¼ 0:66), with two recent seed dispersal events having strong effects on the distribution of genetic diversity. Reciprocal crosses between populations (Missouri and Indiana) revealed divergent germination and flowering rates, yet dominance and epistasis were not inferred for any trait. The Indiana cytoplasm lowered germination and flowering rates and fruit number in the F 1 , but these effects diminished in the F 2 , being caused by maternal environmental effects. Although L. uniflora reproduces predominantly through selfing in nature, the lack of support for heterosis or hybrid breakdown is likely explained by the recent divergence of populations in this species.

show abstract

“…The average inbreeding level of just the field-collected samples, which had larger sample sizes, was very similar to the full dataset (field collected F IS = 0.869, all populations F IS = 0.813). This level of inbreeding in C. benitensis is indicative of predominantly self-pollinating species like Arabidopsis thaliana (F IS = 0.92-1.0; Stenoien et al 2005), Mimulus laciniatus (F IS = 0.80; Awadalla and Ritland 1997), Medicago lupulina (F IS = 0.92; Yan et al 2009), and Triticum aestivum (F IS = 0.84-0.98; Rousselle et al 2011). It is unclear why C. contorta and C. strigulosa would have much lower levels of inbreeding.…”

Section: Within Population Inbreeding Levelsmentioning

confidence: 99%

Cryptic genetic subdivision in the San Benito evening primrose (Camissonia benitensis)

et al. 2013

View full text Add to dashboard Cite

When rare plants are distributed across a range of habitats, ecotypic differentiation may arise requiring customized conservation measures. The rate of local adaptation may be accelerated in complex landscapes with numerous physical barriers to gene flow. In such cases, examining the distribution of genetic diversity is essential in determining conservation management units. We investigated the distribution of genetic diversity in the federally threatened Camissonia benitensis (Onagraceae), which grows in two distinct serpentine habitats across several watersheds in San Benito, Fresno, and Monterey Cos., CA, USA. We compared genetic diversity with that of its two widespread relatives, C. contorta and C. strigulosa, and examined the potential for hybridization with the latter species. Genotyping results using seven heterospecific microsatellite markers indicate that differentiation between habitat types was weak (F ST = 0.0433) and in an AMOVA analysis, there was no significant partitioning of molecular variation between habitats. Watersheds accounted for 11.6 % of the molecular variation (pairwise F ST = 0.1823-0.4275). Three cryptic genetic clusters were identified by InStruct and STRUC-TURE that do not correlate with habitat or watershed. C. benitensis exhibits 5-119 higher inbreeding levels and 0.549 lower genetic diversity in comparison to its close relatives. We found no evidence of hybridization between C. benitensis and C. strigulosa. To maximize conservation of the limited amount of genetic diversity in C. benitensis, we recommend mixing seed representing the three cryptic genetic clusters across the species' geographic range when establishing new populations.

show abstract

Inbreeding depression and low between-population heterosis in recently diverged experimental populations of a selfing species

Cited by 20 publications

References 69 publications

Response of bi-parental spring barley populations to cultivation in organic and conventional farming systems

Response of bi-parental spring barley populations to cultivation in organic and conventional farming systems

Population Structure Has Limited Fitness Consequences in the Highly Selfing PlantLeavenworthia uniflora(Brassicaceae)

Cryptic genetic subdivision in the San Benito evening primrose (Camissonia benitensis)

Contact Info

Product

Resources

About