Effects of genomic and functional diversity on stand-level productivity and performance of non-native Arabidopsis

Turner, Kathryn G.; Lorts, Claire M.; Haile, Asnake T.; Lasky, Jesse R.

doi:10.1098/rspb.2020.2041

Cited by 15 publications

(20 citation statements)

References 54 publications

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“…Analysing diversity effects at the allelic level can help the understanding of the ecological basis of mixing effects. For example, Turner et al (2020) showed that the gene associated with community-level biomass in A. thaliana was a major flowering time locus, and they could therefore attribute mixture underyielding to differences in flowering time between accessions. In our case, we did not find direct associations between allelic variation at the identified locus and any of the phenotypic traits measured in the experiment.…”

Section: Discussionmentioning

confidence: 99%

From cultivar mixtures to allelic mixtures: opposite effects of allelic richness between genotypes and genotype richness in wheat

et al. 2022

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Agroecosystem diversification through increased crop genetic diversity could provide multiple services such as improved disease control or increased productivity. However, we still poorly understand how genetic diversity affects agronomic performance.We grew 179 inbred lines of durum wheat in pure stands and in 202 binary mixtures in field conditions. We then tested the effect of allelic richness between genotypes and genotype richness on grain yield and Septoria tritici blotch disease. Allelic richness was tested at 19K single nucleotide polymorphisms distributed along the durum wheat genome. Both genotype richness and allelic richness could be equal to 1 or 2.Mixtures were overall more productive and less diseased than their pure stand components. Yet, we identified one locus at which allelic richness between genotypes was associated with increased disease severity and decreased grain yield. The effect of allelic richness at this locus was stronger than the effect of genotype richness on grain yield (−7.6% vs +5.7%).Our results suggest that positive effects of crop diversity can be reversed by unfavourable allelic associations. This highlights the need to integrate genomic data into crop diversification strategies. More generally, investigating plant-plant interactions at the genomic level is promising to better understand biodiversity-ecosystem functioning relationships.

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Section: Discussionmentioning

confidence: 99%

From cultivar mixtures to allelic mixtures: opposite effects of allelic richness between genotypes and genotype richness in wheat

et al. 2022

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“…(Mason et al , 2013; Garbowski et al , 2021). Intraspecific variation can play an important role in community- and ecosystem-level processes (Bolnick et al , 2011; Madritch et al , 2014; Turner et al , 2020; Westerband et al , 2021), though the functional basis of this variation is usually not understood. To better understand the implications of VPC on these large scale processes, further characterization of the timing of VPC across plant species (of which there is currently few; Maize, (Poethig, 1988; Bongard-Pierce et al , 1996); Arabidopsis thaliana , (Telfer et al , 1997); Eucalyptus globulus, (Jordan et al , 1999); Nicotiana tabacum , (Feng et al , 2016); Sorghum, (Hashimoto et al , 2019); Acacia, (Leichty & Poethig, 2019); Passiflora edulis , (Silva et al , 2019); Poplar, (Lawrence et al , 2021a) and Rice, (Asai et al , 2002)) and variation among genotypes within species (even fewer; Eucalyptus globulus , (Jordan et al , 1999); Maize, (Poethig, 1988; Foerster et al , 2015); and A. thaliana , (Doody et al , 2021)) is necessary.…”

Section: Discussionmentioning

confidence: 99%

Vegetative Phase Change Causes Age-Dependent Changes in Phenotypic Plasticity

Lawrence

Poethig

Lasky

2021

Preprint

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Phenotypic plasticity allows organisms to optimize traits for their environment. As organisms age, they experience diverse environments that merit varying degrees of phenotypic plasticity. Developmental transitions can control these age-dependent changes in plasticity and as such, the timing of these transitions can determine when plasticity changes in an organism.Here we investigate how the transition from juvenile-to adult-vegetative development known as vegetative phase change (VPC) contributes to age-dependent changes in phenotypic plasticity using both natural accessions and mutant lines in the model plant Arabidopsis thaliana. Further, we look at how the timing of this transition and the concordant shifts in plasticity change across accessions and environments.We found that the adult phase of vegetative development has greater plasticity than the juvenile phase and confirmed that this difference in plasticity is caused by VPC using mutant lines. Further, we found that the timing of VPC, and therefore the time when increased plasticity is acquired, varies significantly across genotypes and environments.This genetic and environmental variation in the timing of VPC indicates the potential for population-level adaptive evolution of VPC. The consistent age-dependent changes in plasticity caused by VPC add further support to the hypothesis that VPC is adaptive.

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“…Trait‐blind approaches have also been developed at the genomic level to investigate how allelic and genotypic diversity affects crop performance under different environmental conditions (Subrahmaniam et al, 2018 ). For instance, allelic diversity at specific DNA regions in experimental stands of Arabidopsis thaliana has been shown to promote stand‐level productivity, through an effect on plant‐soil interactions (Wuest & Niklaus, 2018 ) and flowering time (Turner et al, 2020 ). Although very promising in the context of mixtures, such genomic approaches have only been recently applied in crops (Montazeaud et al, 2022 ).…”

Section: Conclusion Challenges and Future Directions For Promoting Be...mentioning

confidence: 99%

Shift in beneficial interactions during crop evolution

Fréville

Montazeaud

Forst

et al. 2022

Evolutionary Applications

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In natural ecosystems, plants interact with their physical and chemical environment (e.g., temperature, water, light, day length, atmospheric CO 2 , nutrients, soil acidity, soil texture), which effects on ecosystem composition have been thoroughly studied (Begon et al., 2005). For instance, widespread changes in phenology have been documented in many plant populations as a result of climate change (Franks et al., 2014). In addition, plants are part of a rich network of interacting organisms. Such biotic interactions include intraspecific

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Effects of genomic and functional diversity on stand-level productivity and performance of non-native Arabidopsis

Cited by 15 publications

References 54 publications

From cultivar mixtures to allelic mixtures: opposite effects of allelic richness between genotypes and genotype richness in wheat

From cultivar mixtures to allelic mixtures: opposite effects of allelic richness between genotypes and genotype richness in wheat

Vegetative Phase Change Causes Age-Dependent Changes in Phenotypic Plasticity

Shift in beneficial interactions during crop evolution

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