Your search keyword '"Genotype-environment association"' showing total 15 results

1. Genotype-environment associations reveal genes potentially linked to avian malaria infection in populations of an endemic island bird

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Patterns of pathogen prevalence are, at least partially, the result of coevolutionary host–pathogen interactions. Thus, exploring the distribution of host genetic variation in relation to infection by a pathogen within and across populations can provide important insights into mechanisms of host defence and adaptation. Here, we use a landscape genomics approach (Bayenv) in conjunction with genome-wide data (ddRADseq) to test for associations between avian malaria (Plasmodium) prevalence and host genetic variation across 13 populations of the island endemic Berthelot's pipit (Anthus berthelotii). Considerable and consistent spatial heterogeneity in malaria prevalence was observed among populations over a period of 15 years. The prevalence of malaria infection was also strongly positively correlated with pox (Avipoxvirus) prevalence. Multiple host loci showed significant associations with malaria prevalence after controlling for genome-wide neutral genetic structure. These sites were located near to or within genes linked to metabolism, stress response, transcriptional regulation, complement activity and the inflammatory response, many previously implicated in vertebrate responses to malarial infection. Our findings identify diverse genes – not just limited to the immune system – that may be involved in host protection against malaria and suggest that spatially variable pathogen pressure may be an important evolutionary driver of genetic divergence among wild animal populations, such as Berthelot's pipit. Furthermore, our data indicate that spatio-temporal variation in multiple different pathogens (e.g. malaria and pox in this case) may have to be studied together to develop a more holistic understanding of host pathogen-mediated evolution.

Published

2024

2. Genotype-environment associations reveal genes potentially linked to avian malaria infection in populations of an endemic island bird

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Patterns of pathogen prevalence are, at least partially, the result of coevolutionary host–pathogen interactions. Thus, exploring the distribution of host genetic variation in relation to infection by a pathogen within and across populations can provide important insights into mechanisms of host defence and adaptation. Here, we use a landscape genomics approach (Bayenv) in conjunction with genome-wide data (ddRADseq) to test for associations between avian malaria (Plasmodium) prevalence and host genetic variation across 13 populations of the island endemic Berthelot's pipit (Anthus berthelotii). Considerable and consistent spatial heterogeneity in malaria prevalence was observed among populations over a period of 15 years. The prevalence of malaria infection was also strongly positively correlated with pox (Avipoxvirus) prevalence. Multiple host loci showed significant associations with malaria prevalence after controlling for genome-wide neutral genetic structure. These sites were located near to or within genes linked to metabolism, stress response, transcriptional regulation, complement activity and the inflammatory response, many previously implicated in vertebrate responses to malarial infection. Our findings identify diverse genes – not just limited to the immune system – that may be involved in host protection against malaria and suggest that spatially variable pathogen pressure may be an important evolutionary driver of genetic divergence among wild animal populations, such as Berthelot's pipit. Furthermore, our data indicate that spatio-temporal variation in multiple different pathogens (e.g. malaria and pox in this case) may have to be studied together to develop a more holistic understanding of host pathogen-mediated evolution.

Published

2024

3. Genotype-environment associations reveal genes potentially linked to avian malaria infection in populations of an endemic island bird

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Patterns of pathogen prevalence are, at least partially, the result of coevolutionary host–pathogen interactions. Thus, exploring the distribution of host genetic variation in relation to infection by a pathogen within and across populations can provide important insights into mechanisms of host defence and adaptation. Here, we use a landscape genomics approach (Bayenv) in conjunction with genome-wide data (ddRADseq) to test for associations between avian malaria (Plasmodium) prevalence and host genetic variation across 13 populations of the island endemic Berthelot's pipit (Anthus berthelotii). Considerable and consistent spatial heterogeneity in malaria prevalence was observed among populations over a period of 15 years. The prevalence of malaria infection was also strongly positively correlated with pox (Avipoxvirus) prevalence. Multiple host loci showed significant associations with malaria prevalence after controlling for genome-wide neutral genetic structure. These sites were located near to or within genes linked to metabolism, stress response, transcriptional regulation, complement activity and the inflammatory response, many previously implicated in vertebrate responses to malarial infection. Our findings identify diverse genes – not just limited to the immune system – that may be involved in host protection against malaria and suggest that spatially variable pathogen pressure may be an important evolutionary driver of genetic divergence among wild animal populations, such as Berthelot's pipit. Furthermore, our data indicate that spatio-temporal variation in multiple different pathogens (e.g. malaria and pox in this case) may have to be studied together to develop a more holistic understanding of host pathogen-mediated evolution.

Published

2024

4. Genotype-environment associations reveal genes potentially linked to avian malaria infection in populations of an endemic island bird

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Patterns of pathogen prevalence are, at least partially, the result of coevolutionary host–pathogen interactions. Thus, exploring the distribution of host genetic variation in relation to infection by a pathogen within and across populations can provide important insights into mechanisms of host defence and adaptation. Here, we use a landscape genomics approach (Bayenv) in conjunction with genome-wide data (ddRADseq) to test for associations between avian malaria (Plasmodium) prevalence and host genetic variation across 13 populations of the island endemic Berthelot's pipit (Anthus berthelotii). Considerable and consistent spatial heterogeneity in malaria prevalence was observed among populations over a period of 15 years. The prevalence of malaria infection was also strongly positively correlated with pox (Avipoxvirus) prevalence. Multiple host loci showed significant associations with malaria prevalence after controlling for genome-wide neutral genetic structure. These sites were located near to or within genes linked to metabolism, stress response, transcriptional regulation, complement activity and the inflammatory response, many previously implicated in vertebrate responses to malarial infection. Our findings identify diverse genes – not just limited to the immune system – that may be involved in host protection against malaria and suggest that spatially variable pathogen pressure may be an important evolutionary driver of genetic divergence among wild animal populations, such as Berthelot's pipit. Furthermore, our data indicate that spatio-temporal variation in multiple different pathogens (e.g. malaria and pox in this case) may have to be studied together to develop a more holistic understanding of host pathogen-mediated evolution.

Published

2024

5. Genotype-environment associations reveal genes potentially linked to avian malaria infection in populations of an endemic island bird

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, González-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Patterns of pathogen prevalence are, at least partially, the result of coevolutionary host–pathogen interactions. Thus, exploring the distribution of host genetic variation in relation to infection by a pathogen within and across populations can provide important insights into mechanisms of host defence and adaptation. Here, we use a landscape genomics approach (Bayenv) in conjunction with genome-wide data (ddRADseq) to test for associations between avian malaria (Plasmodium) prevalence and host genetic variation across 13 populations of the island endemic Berthelot's pipit (Anthus berthelotii). Considerable and consistent spatial heterogeneity in malaria prevalence was observed among populations over a period of 15 years. The prevalence of malaria infection was also strongly positively correlated with pox (Avipoxvirus) prevalence. Multiple host loci showed significant associations with malaria prevalence after controlling for genome-wide neutral genetic structure. These sites were located near to or within genes linked to metabolism, stress response, transcriptional regulation, complement activity and the inflammatory response, many previously implicated in vertebrate responses to malarial infection. Our findings identify diverse genes – not just limited to the immune system – that may be involved in host protection against malaria and suggest that spatially variable pathogen pressure may be an important evolutionary driver of genetic divergence among wild animal populations, such as Berthelot's pipit. Furthermore, our data indicate that spatio-temporal variation in multiple different pathogens (e.g. malaria and pox in this case) may have to be studied together to develop a more holistic understanding of host pathogen-mediated evolution.

Published

2024

6. Sequencing reads_(2bRAD) for Montastrea cavernosa, Siderastrea siderea, Agaricia agaricites and Porites astreoides from Florida Reefs

Author

Matz, Mikhail and Matz, Mikhail

Abstract

Dataset: Sequencing Reads, Sequencing reads_(2bRAD) for broadcasters Montastrea cavernosa and Siderastrea siderea sampled in the Lower Florida Keys and brooders Agaricia agaricites and Porites astreoides sampled in Florida coral reefs, from Dry Tortugas to Fowley Rocks. For a complete list of measurements, refer to the full dataset description in the supplemental file 'Dataset_description.pdf'. The most current version of this dataset is available at: https://www.bco-dmo.org/dataset/874274, NSF Division of Ocean Sciences (NSF OCE) OCE-1737312

Published

2022

7. Sequencing reads_(2bRAD) for Montastrea cavernosa, Siderastrea siderea, Agaricia agaricites and Porites astreoides from Florida Reefs

Author

Matz, Mikhail and Matz, Mikhail

Abstract

Dataset: Sequencing Reads, Sequencing reads_(2bRAD) for broadcasters Montastrea cavernosa and Siderastrea siderea sampled in the Lower Florida Keys and brooders Agaricia agaricites and Porites astreoides sampled in Florida coral reefs, from Dry Tortugas to Fowley Rocks. For a complete list of measurements, refer to the full dataset description in the supplemental file 'Dataset_description.pdf'. The most current version of this dataset is available at: https://www.bco-dmo.org/dataset/874274, NSF Division of Ocean Sciences (NSF OCE) OCE-1737312

Published

2022

8. Genomic associations with poxvirus across divergent island populations in Berthelot's pipit

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Understanding the mechanisms and genes that enable animal populations to adapt to pathogens is important from an evolutionary, health and conservation perspective. Berthelot's pipit (Anthus berthelotii) experiences extensive and consistent spatial heterogeneity in avian pox infection pressure across its range of island populations, thus providing an excellent system with which to examine how pathogen-mediated selection drives spatial variation in immunogenetic diversity. Here, we test for evidence of genetic variation associated with avian pox at both an individual and population-level. At the individual level, we find no evidence that variation in MHC class I and TLR4 (both known to be important in recognising viral infection) was associated with pox infection within two separate populations. However, using genotype-environment association (Bayenv) in conjunction with genome-wide (ddRAD-seq) data, we detected strong associations between population-level avian pox prevalence and allele frequencies of single nucleotide polymorphisms (SNPs) at a number of sites across the genome. These sites were located within genes involved in cellular stress signalling and immune responses, many of which have previously been associated with responses to viral infection in humans and other animals. Consequently, our analyses indicate that pathogen-mediated selection may play a role in shaping genomic variation among relatively recently colonised island bird populations and highlight the utility of genotype-environment associations for identifying candidate genes potentially involved in host-pathogen interactions.

Published

2022

9. Genomic associations with poxvirus across divergent island populations in Berthelot's pipit

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Understanding the mechanisms and genes that enable animal populations to adapt to pathogens is important from an evolutionary, health and conservation perspective. Berthelot's pipit (Anthus berthelotii) experiences extensive and consistent spatial heterogeneity in avian pox infection pressure across its range of island populations, thus providing an excellent system with which to examine how pathogen-mediated selection drives spatial variation in immunogenetic diversity. Here, we test for evidence of genetic variation associated with avian pox at both an individual and population-level. At the individual level, we find no evidence that variation in MHC class I and TLR4 (both known to be important in recognising viral infection) was associated with pox infection within two separate populations. However, using genotype-environment association (Bayenv) in conjunction with genome-wide (ddRAD-seq) data, we detected strong associations between population-level avian pox prevalence and allele frequencies of single nucleotide polymorphisms (SNPs) at a number of sites across the genome. These sites were located within genes involved in cellular stress signalling and immune responses, many of which have previously been associated with responses to viral infection in humans and other animals. Consequently, our analyses indicate that pathogen-mediated selection may play a role in shaping genomic variation among relatively recently colonised island bird populations and highlight the utility of genotype-environment associations for identifying candidate genes potentially involved in host-pathogen interactions.

Published

2022

10. Genomic associations with poxvirus across divergent island populations in Berthelot's pipit

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Understanding the mechanisms and genes that enable animal populations to adapt to pathogens is important from an evolutionary, health and conservation perspective. Berthelot's pipit (Anthus berthelotii) experiences extensive and consistent spatial heterogeneity in avian pox infection pressure across its range of island populations, thus providing an excellent system with which to examine how pathogen-mediated selection drives spatial variation in immunogenetic diversity. Here, we test for evidence of genetic variation associated with avian pox at both an individual and population-level. At the individual level, we find no evidence that variation in MHC class I and TLR4 (both known to be important in recognising viral infection) was associated with pox infection within two separate populations. However, using genotype-environment association (Bayenv) in conjunction with genome-wide (ddRAD-seq) data, we detected strong associations between population-level avian pox prevalence and allele frequencies of single nucleotide polymorphisms (SNPs) at a number of sites across the genome. These sites were located within genes involved in cellular stress signalling and immune responses, many of which have previously been associated with responses to viral infection in humans and other animals. Consequently, our analyses indicate that pathogen-mediated selection may play a role in shaping genomic variation among relatively recently colonised island bird populations and highlight the utility of genotype-environment associations for identifying candidate genes potentially involved in host-pathogen interactions.

Published

2022

11. Genomic associations with poxvirus across divergent island populations in Berthelot's pipit

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Understanding the mechanisms and genes that enable animal populations to adapt to pathogens is important from an evolutionary, health and conservation perspective. Berthelot's pipit (Anthus berthelotii) experiences extensive and consistent spatial heterogeneity in avian pox infection pressure across its range of island populations, thus providing an excellent system with which to examine how pathogen-mediated selection drives spatial variation in immunogenetic diversity. Here, we test for evidence of genetic variation associated with avian pox at both an individual and population-level. At the individual level, we find no evidence that variation in MHC class I and TLR4 (both known to be important in recognising viral infection) was associated with pox infection within two separate populations. However, using genotype-environment association (Bayenv) in conjunction with genome-wide (ddRAD-seq) data, we detected strong associations between population-level avian pox prevalence and allele frequencies of single nucleotide polymorphisms (SNPs) at a number of sites across the genome. These sites were located within genes involved in cellular stress signalling and immune responses, many of which have previously been associated with responses to viral infection in humans and other animals. Consequently, our analyses indicate that pathogen-mediated selection may play a role in shaping genomic variation among relatively recently colonised island bird populations and highlight the utility of genotype-environment associations for identifying candidate genes potentially involved in host-pathogen interactions.

Published

2022

12. Genomic associations with poxvirus across divergent island populations in Berthelot's pipit

Author

Cabildo de Lanzarote, Cabildo de Tenerife, Natural Environment Research Council (UK), Departamento Administrativo de Ciencia, Tecnología e Innovación (Colombia), Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Cabildo de Lanzarote, Cabildo de Tenerife, Natural Environment Research Council (UK), Departamento Administrativo de Ciencia, Tecnología e Innovación (Colombia), Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Illera, Juan Carlos, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Understanding the mechanisms and genes that enable animal populations to adapt to pathogens is important from an evolutionary, health and conservation perspective. Berthelot's pipit (Anthus berthelotii) experiences extensive and consistent spatial heterogeneity in avian pox infection pressure across its range of island populations, thus providing an excellent system with which to examine how pathogen-mediated selection drives spatial variation in immunogenetic diversity. Here, we test for evidence of genetic variation associated with avian pox at both an individual and population-level. At the individual level, we find no evidence that variation in MHC class I and TLR4 (both known to be important in recognising viral infection) was associated with pox infection within two separate populations. However, using genotype-environment association (Bayenv) in conjunction with genome-wide (ddRAD-seq) data, we detected strong associations between population-level avian pox prevalence and allele frequencies of single nucleotide polymorphisms (SNPs) at a number of sites across the genome. These sites were located within genes involved in cellular stress signalling and immune responses, many of which have previously been associated with responses to viral infection in humans and other animals. Consequently, our analyses indicate that pathogen-mediated selection may play a role in shaping genomic variation among relatively recently colonised island bird populations and highlight the utility of genotype-environment associations for identifying candidate genes potentially involved in host-pathogen interactions.

Published

2022

13. Genomic associations with poxvirus across divergent island populations in Berthelot's pipit

Author

Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., Richardson, David S., Sheppard, Eleanor C., Martin, Claudia A., Armstrong, Claire, Gonzalez-Quevedo, Catalina, Carlos Illera, Juan, Suh, Alexander, Spurgin, Lewis G., and Richardson, David S.

Abstract

Understanding the mechanisms and genes that enable animal populations to adapt to pathogens is important from an evolutionary, health and conservation perspective. Berthelot's pipit (Anthus berthelotii) experiences extensive and consistent spatial heterogeneity in avian pox infection pressure across its range of island populations, thus providing an excellent system with which to examine how pathogen-mediated selection drives spatial variation in immunogenetic diversity. Here, we test for evidence of genetic variation associated with avian pox at both an individual and population-level. At the individual level, we find no evidence that variation in MHC class I and TLR4 (both known to be important in recognising viral infection) was associated with pox infection within two separate populations. However, using genotype-environment association (Bayenv) in conjunction with genome-wide (ddRAD-seq) data, we detected strong associations between population-level avian pox prevalence and allele frequencies of single nucleotide polymorphisms (SNPs) at a number of sites across the genome. These sites were located within genes involved in cellular stress signalling and immune responses, many of which have previously been associated with responses to viral infection in humans and other animals. Consequently, our analyses indicate that pathogen-mediated selection may play a role in shaping genomic variation among relatively recently colonised island bird populations and highlight the utility of genotype-environment associations for identifying candidate genes potentially involved in host-pathogen interactions.

Published

2022

14. Contrasting patterns of local adaptation along climatic gradients between a sympatric parasitic and autotrophic tree species

Author

Walters, S.J., Robinson, Todd, Byrne, M., Wardell-Johnson, Grant, Nevill, Paul, Walters, S.J., Robinson, Todd, Byrne, M., Wardell-Johnson, Grant, and Nevill, Paul

Abstract

Sympatric tree species are subject to similar climatic drivers, posing a question as to whether they display comparable adaptive responses. However, no study has explicitly examined local adaptation of co-occurring parasitic and autotrophic plant species to the abiotic environment. Here we test the hypotheses that a generalist parasitic tree would display a weaker signal of selection and that genomic variation would associate with fewer climatic variables (particularly precipitation) but have similar spatial patterns to a sympatric autotrophic tree species. To test these hypotheses, we collected samples from 17 sites across the range of two tree species, the hemiparasite Nuytsia floribunda (n = 264) and sympatric autotroph Melaleuca rhaphiophylla (n = 272). We obtained 5,531 high-quality genome-wide single nucleotide polymorphisms (SNPs) for M. rhaphiophylla and 6,727 SNPs for N. floribunda using DArTseq genome scan technology. Population differentiation and environmental association approaches were used to identify signals of selection. Generalized dissimilarly modelling was used to detect climatic and spatial patterns of local adaptation across climatic gradients. Overall, 322 SNPs were identified as putatively adaptive for the autotroph, while only 57 SNPs were identified for the parasitic species. We found genomic variation to associate with different sets of bioclimatic variables for each species, with precipitation relatively less important for the parasite. Spatial patterns of predicted adaptive variability were different and indicate that co-occurring species with disparate life history traits may not respond equally to selective pressures (i.e., temperature and precipitation). Together, these findings provide insight into local adaptation of sympatric parasitic and autotrophic tree species to abiotic environments.

Published

2020

15. Northern European Salmo trutta (L.) populations are genetically divergent across geographical regions and environmental gradients

Author

Bekkevold, Dorte, Höjesjö, Johann, Eg Nielsen, Einar, Aldvén, David, Als, Thomas Damm, Sodeland, Marte, Kent, Matthew Peter, Lien, Sigbjørn, Hansen, Michael Møller, Bekkevold, Dorte, Höjesjö, Johann, Eg Nielsen, Einar, Aldvén, David, Als, Thomas Damm, Sodeland, Marte, Kent, Matthew Peter, Lien, Sigbjørn, and Hansen, Michael Møller

Abstract

The salmonid fish Brown trout is iconic as a model for the application of conservation genetics to understand and manage local interspecific variation. However, there is still scant information about relationships between local and large‐scale population structure, and to what extent geographic and environmental variables are associated with barriers to gene flow. We used information from 3782 mapped SNPs developed for the present study and conducted outlier tests and gene‐environment association (GEA) analyses in order to examine drivers of population structure. Analyses comprised >2600 fish from 72 riverine populations spanning a central part of the species’ distribution in northern Europe. We report hitherto unidentified genetic breaks in population structure, indicating strong barriers to gene flow. GEA loci were widely spread across genomic regions and showed correlations with climatic, abiotic and geographical parameters. In some cases, individual loci showed consistent GEA across the geographical regions Britain, Europe and Scandinavia. In other cases, correlations were observed only within a subset of regions, suggesting that locus specific variation was associated with local processes. A paired population sampling design allowed us to evaluate sampling effects on detection of outlier loci and GEA. Two widely applied methods for outlier detection (pcadapt, bayescan) showed low overlap in loci identified as statistical outliers across subsets of data. Two GEA analytical approaches (LFMM, RDA) showed good correspondence concerning loci associated with specific variables, but LFMM identified five times more statistically significant associations than RDA. Our results emphasize the importance of carefully considering the statistical methods applied for the hypotheses being tested in outlier analysis. Sampling design may have lower impact on results if the objective is to identify GEA loci and their population distribution. Our study provides new insigh

Published

2020