Tanya Helena Hevrøy scite author profile

Newly established populations are susceptible to founder events that reduce genetic variation. This may be counterbalanced by gene flow after populations become established or founders coming from genetically different populations. However, initial gains in genetic diversity may be short-lived if there is limited mixing between lineages and subsequent inbreeding, or if one lineage sweeps to fixation through selection or genetic drift. Here, we report on the genetic changes taking place within two newly established populations of intertidal snail over a 15-year period (∼ 10 generations). Each translocation was set up using multiple, genetically distinct source populations. Our data show that higher levels of variation in the translocated populations compared to the source populations were maintained over time for both nuclear (microsatellite) and mitochondrial genes. Small changes in allele and haplotype frequencies were observed in the source populations and in one of the translocated populations, but marked changes were evident in the other, where there was a dramatic shift towards the genetic make-up of one of the source populations. These genetic changes occurred despite relatively large numbers of founders (200-374 adults) and no evidence of the population experiencing a severe reduction in effective population size. Our study shows that the genetic composition of newly established populations can vary greatly over time and that genetic outcomes can be highly variable, and significantly different from initial expectations, even when they are established using high numbers of individuals and involve source populations from the same geographic regions.

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Population genetic analysis reveals barriers and corridors for gene flow within and among riparian populations of a rare plant

Hevrøy

Moody

Krauss

2017

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This study assessed the spatial genetic structure of a rare plant (Grevillea) situated along creeks and on floodplains in the Southwest Australian Floristic Region. The landscape features of this unique region and the life-history traits of this species have had profound impacts on its structure. Our results highlight that for conservation of riparian species, avoiding an impact to hydrodynamic processes is critical, as they play a vital role in species gene flow, and consequently, genetic diversity. Understanding this is important for managing threatened species, especially one in an international biodiversity hotspot such as the SAFR in Western Australia.

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Measuring the radiation exposure of Norwegian reindeer under field conditions

Aramrun

Beresford

Skuterud

et al. 2019

Science of The Total Environment

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Realism and usefulness of multispecies experiment designs with regard to application in radioecology: A review

Haanes

Hansen

Hevrøy

et al. 2020

Science of The Total Environment

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From tangled banks to toxic bunnies; a reflection on the issues involved in developing an ecosystem approach for environmental radiation protection

Mothersill

Oughton

Schofield

et al. 2020

International Journal of Radiation Biology

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