Data from: Seeds in motion: genetic assignment and hydrodynamic models demonstrate concordant patterns of seagrass dispersal



Movement is fundamental to the ecology and evolutionary dynamics within species. Understanding movement through seed dispersal in the marine environment can be difficult due to the high spatial and temporal variability of ocean currents. We employed a mutually enriching approach of population genetic assignment procedures and dispersal predictions from a hydrodynamic model to overcome this difficulty and quantify the movement of dispersing floating fruit of the temperate seagrass Posidonia australis Hook.f. across coastal waters in southwestern Australia. Dispersing fruit cohorts were collected from the water surface over two consecutive years and seeds were genotyped using microsatellite DNA markers. Likelihood-based genetic assignment tests were used to infer the meadow of origin for seed cohorts and individuals. A three-dimensional hydrodynamic model was coupled with a particle transport model to simulate the movement of fruit at the water surface. Floating fruit cohorts were mainly assigned genetically to the nearest meadow, but significant genetic differentiation between cohort and most-likely meadow of origin suggested a mixed origin. This was confirmed by genetic assignment of individual seeds from the same cohort to multiple meadows. The hydrodynamic model predicted 60% of fruit dispersed within 20 km, but that fruit were physically capable of dispersing beyond the study region. Concordance between these two independent measures of dispersal provide insight into the role of physical transport for long distance dispersal (LDD) of fruit and the consequences for spatial genetic structuring of seagrass meadows.,Microsatellite DNA data for Posidonia australisMicrosatellite DNA data (for seven loci) for the seagrass, Posidonia australis, sampled from 13 established meadows (populations 1-13), 2011 floating seed cohorts (populations 14-23), 2012 floating seed cohorts (populations 24-29), and 'seeds of known origin' (populations 30-31).Sinclair-Rawdata-PosidoniamicrosatelliteDNA.csvDistance matrices for Posidonia australisMatrices for correlation between seed dispersal probabilities (left: hydrodynamic model) and inferred seed dispersal events (right: genetic assignment) for 2011 and 2012.Sinclair-Rawdata-dispersalmatrices.csv,
Date made available31 Oct 2018

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