Table 3.
Methodological approaches from empirical seascape genomic studies: elements of experimental design including spatial parameters, analyses, and genetic loci
| Organism | Location | Spatial parametersa | Spatial predictor(s) | Genetic response variable(s) | Analytical approachb | Type and numb of locic | Unit genotyped | Number of Pops. | Number of Individuals | Outlier testsd | Number of outlier locie | Reference |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Continuous seascape variables with genomic data | ||||||||||||
| cod | North Atlantic—mostly Europe | LAT, LONG, temperature at spawning time, salinity at spawning time | Location-specific values of each of the spatial parameters in turn | Allele frequencies at individual outlier loci | SAM | tSNPs, SNPs (86,12) | Ind | 18 | 708 | BayeScan | 7 | Nielsen et al. (2009a) |
| cod | Greenland & Iceland | LAT, LONG, distance to nearest coastline, annual maximum, mean and range for annual bottom spring temperature (maximum, mean, and range), surface spring temperature (maximum, mean, and range), and annual mean bottom salinity; initially 24 variables were examined and then reduced to this subset to reduce correlations among variables | Each of the spatial parameters in turn | Allele frequencies of all loci with covariance conditioned on neutral loci | BayEnv | tSNPs (935) | Ind | 20 | 847 | BayeScan; Hierarchical | 47 | Therkildsen et al. (2013) |
| cod | Greenland | SST (mean, maximum and minimum), sea bottom temperature (mean, maximum and minimum), barotropic stream function | Least cost paths based on ocean climate suitability (created using species distribution modeling based on spatial parameters) between sampled population and spawning grounds | Posterior membership to Icelandic group | Linear model | tSNPs (81) | Ind | 6 | 872 | None | NA | Bonanomi et al. (2015) |
| cod | Baltic and North Sea | SST, temperature at spawning depth, SSS, salinity at spawning depth, dissolved oxygen (both at surface and spawning depth) | Location-specific values of each of the spatial parameters in turn | Population allele frequencies | BayEnv | SNPs (8809) | Ind | 7 | 194 | BayeScan; Fdist | 326 | Berg et al. (2015) |
| anemonefishes | Red Sea + Oman | Three barriers (arising from circulation or upwelling), OWD, environmental variables: day time SST, SSS, chlorophyll, color dissolved organic matter, particulate organic carbon | Combinations of various putative barriers, overwater distance, first PC of combined environmental variables | Distance matrix based on population pairwise FST values | Linear models with model support assessed by AIC | ddRAD (4559) | Ind | 11 | 144 | LFMM | 98 | Saenz-Agudelo et al. (2015) |
| The first PC of the combined environmental variables | Individual genotypes | Latent factor mixed effects model | ||||||||||
| hake | Europe—mostly Mediterranean | SST, SSS, OWD | Location-specific values of each of the spatial parameters in turn | Allele frequencies at outlier loci with covariance conditioned on neutral loci | BayEnv | tSNPs (381) | Ind | 19 | 850 | BayeScan; Hierarchical | 17 | Milano et al. (2014) |
| herring | European North Atlantic | SST, mean spawning period surface temperature, SSS, mean spawning period surface salinity, OWD, LAT, LONG | Location-specific values of each of the spatial parameters in turn (excluding OWD), with a covariance matrix estimated from non-outlier loci | Population allele frequencies | BayEnv | tSNPs (281) | Ind | 18 | 607 | BayEnv; BayeScan; Hierarchical | 10 | Limborg et al. (2012) |
| Distance matrices based on (1) SST, and (2) SSE with OWD as the additional distance matrix | Distance matrix based on population pairwise FST for each outlier locus | Partial Mantel | ||||||||||
| sole | European North Atlantic | SST, sea bottom temperature, SSS, mixed layer depth, maximum density gradient, chlorophyll concentration, surface productive layer, OWD, LAT, LONG | Environmental parameters conditioned on LAT and LONG and MEMs based on PcoA of distance matrix of shortest OWDs | Genotypes with analyses performed separately for neutral and outliers | partial RDA | tSNPs (476) | Ind | 16 | 650 | Fdist; Bayescan | 13 | Diopere chap 5, 2014 |
| stickleback | Baltic and North Sea | SST, SSS | Location specific values of each of the spatial parameters in turn | Allele frequencies at outlier loci with covariance conditioned on neutral loci | BayEnv | RADseq (9404) | Pools | 10 | 360 | BayeScan; Fst quantile | 94 | (Guo et al. 2015) |
| Continuous seascape variables with targeted microsatellites | ||||||||||||
| herring | Baltic and North Sea | Temperature at spawning and in April, salinity at spawning and in April, BPD, OWD, distance to the mouth of the Baltic, fishing pressure, LAT, LONG | Location-specific values of each temperature and salinity parameters in turn using both BPD and OWD as the additional distance matrices | Distance matrix based on population pairwise FST , partitioned for all loci, non-outliers, and the single outlier locus | Mantel and partial Mantel | gl Msats (51,17) | Ind | 15 | 694 | BayeScan; Fdist | 1 | Teacher et al. (2013) |
| Location-specific values of each temperature and salinity parameters along with distance to the mouth of the Baltic, LAT, LONG | By locus allele frequencies (all loci) | MatSAM | ||||||||||
| Combinations of location specific values of each temperature and salinity parameters along with distance to the mouth of the Baltic, fishing pressure | Population heterozygosity and allelic richness partitioned for all loci, non-outliers, and the single outlier locus | GLMs | ||||||||||
| sticklebacks | Baltic and North Sea | SST, SSS, BPD, OWD, LAT, LONG | SST and SSS in turn | Population allele frequencies for outlier loci | SAM | gl Msats (20, 20) | Ind | 38 | 973 | BayeScan; Fdist | 9 | DeFaveri et al. (2013) |
| SST and SSS in turn with OWD as the additional distance matrix | Distance matrices based on population pairwise FST for outlier loci (individually and as a group) | Partial Mantel tests | ||||||||||
| Combinations of SST, SSS, LAT, LONG | Population allele frequencies separately for genic and non genic loci | GESTE with Bayesian model selection | ||||||||||
| turbot | Europe (not Med) | Habitat variables: SST, sea bottom temperature, SSS, sea bottom salinity, oxygen concentration, primary production; Hydrodynamic variables: bottom shear stress, depth of pycnocline, density-based stratification index; LAT, LONG | All habitat and hydrodynamic variables, a matrix representing sampling year, and distance-based MEMs using a truncated distance matrix (PCNM approach) | Genotypes, with analyses performed separately for neutral and outliers and for different geographical partitions | RDA and partial RDA with dbMEM/PCNM to describe geographic distance and spatial correlations | gl Msats (12, 6) | Ind | 290 | 999 (466 for some analyses) | BayeScan; Fdist | 3 | Vandamme et al. (2014) |
| Nominal seascape variable(s), with genomic data | ||||||||||||
| anchovy | Europe (Atlantic, Mediterranean) | Open water versus coastal; nested sampling design with 2 habitats in 2 locations | Habitat | Joint allele frequency spectrum between pairs of populations | Custom model | RADseq (5628) | Ind | 4 | 128 | δαδι | 431 | {LeMoan: 2016be} |
| litorinid snail | Europe (Sweden, UK, Spain) | habitat: wave versus crab; nested sampling design with 2 habitat sites in 3 locations | Habitat | Proportion of shared outlier loci | Identifying sets of loci that are outliers in multiple habitat comparisons | RNAseq (6790) | pools | 6 | ∼480 | Fst quantile | NA | Westram et al. (2014) |
| Habitat | Allele frequencies of SNPs from outlier contigs | Determining whether allele frequency changes between habitats are consistent across locations | ||||||||||
| litorinid snail | Sweden—3 island locations <10 km distant | habitat: wave versus crab; nested sampling design with 2 habitat sites in 3 locations | Habitat | Proportion of shared outlier loci | Identifying sets of loci that are outliers in multiple habitat comparisons | RADseq (4187) | Ind | 6 | 130 | Fdist | 4-636 (depending on comparison) | Ravinet et al. (2016) |
| Habitat | Individual genotype (presence/absence of alleles) | Binomial GLM | ||||||||||
| seagrass | Wadden Sea, North Sea (50 kms) | tidal position: tidal flat (exposed to air twice per day) or tidal creek (permanently submerged) | OWD | Distance matrix based on population pairwise FST | Mantel | gl Msats (14, 11) | Ind | 6 | 485 | DetSel; Fdist | 3 | Oetjen and Reusch (2007) |
| OWD and habitat category | Distance matrix based on population pairwise FST | Partial Mantel | ||||||||||
| Marker type and habitat | Distance matrix based on population pairwise FST | 2-way ANOVA | ||||||||||
aLAT = latitude; LONG = longitude, SST = mean annual surface temperature; SSS = mean annual surface salinity, OWD = overwater distance, BPD = biophysical distance. Many studies simply report “temperature” or “salinity” in which case we assume that SST and SSS, respectively, are implied.
bBayEnv (Günther and Coop 2013); GESTE (Foll and Gaggiotti 2006); GLM is a general linear model; SAM/ matSAM (Joost et al. 2008).
ctSNPs: Transcriptome-derived SNPs; gl Msats: gene linked microsatellites. In parentheses is the number of loci included in analyses (post filtering); if study includes both gene linked loci and non-gene linked loci then 2 numbers are reported, respectively.
dBayEnv is the method of Coop et al. (2010); BayeScan is the method of Foll and Gaggiotti (2008); DetSel is from the method of Vitalis et al. (2003); Fdist is the method of Beaumont and Nicols (1996) regardless of which program was used for the analysis; LFMM is based on the method of Frichot et al. (2013) ; δαδι is the method of Gutenkunst et al. (2009).
eAs defined by authors.