SNPs Analysis Indicates Non-Uniform Origins of Invasive Mussels ( Lamarck, 1819) on the Southern African Coast.

Understanding the origins of invasive species is necessary to manage them and predict their potential for spreading. The mussel genus forms an important component of coastal ecosystems in the northern and southern hemispheres. is an important invasive species globally, first appearing on the South African coast in the 1970s.

Seasonality of primary production explains the richness of pioneering benthic communities.

A pattern of increasing species richness from the poles to the equator is frequently observed in many animal taxa. Ecological limits, determined by the abiotic conditions and biotic interactions within an environment, are one of the major factors influencing the geographical distribution of species diversity. Energy availability is often considered a crucial limiting factor, with temperature and productivity serving as empirical measures.

Evidence of unidirectional gene flow in a fragmented population of Salmo trutta L.

Selection, genetic drift, and gene flow affect genetic variation within populations and genetic differences among populations. Both drift and selection tend to decrease variation within populations and increase differences among populations, whereas gene flow increases variation within populations but leads to populations being related. In brown trout (Salmo trutta L.

SNP genotyping reveals substructuring in weakly differentiated populations of Atlantic cod (Gadus morhua) from diverse environments in the Baltic Sea.

Atlantic cod (Gadus morhua) is one of the most important fish species in northern Europe for several reasons including its predator status in marine ecosystems, its historical role in fisheries, its potential in aquaculture and its strong public profile. However, due to over-exploitation in the North Atlantic and changes in the ecosystem, many cod populations have been reduced in size and genetic diversity. Cod populations in the Baltic Proper, Kattegat and North Sea have been analyzed using a species specific single nucleotide polymorphism (SNP) array.

Genetic Differentiation in Hatchery and Stocked Populations of Sea Trout in the Southern Baltic: Selection Evidence at SNP Loci.

The impacts and interactions between hatchery-bred fish and wild fish populations has been a topic of active investigation in recent decades. In some instances, the benefits of stocking can be overshadowed by negative effects such as genetic introgression with natural populations, loss of genetic diversity, and dilution of local adaptations. Methods that facilitate the identification of stocked fish enable us to estimate not only the effectiveness of stocking but also the level of natural reproduction and the degree of hybridization.

The genetic relationship between extirpated and contemporary Atlantic salmon Salmo salar L. lines from the southern Baltic Sea.

Background: The genetic relationship between original Atlantic salmon populations that are now extinct in the southern Baltic Sea and the present-day populations has long been controversial. To investigate and clarify this issue, we successfully genotyped individuals of the historical populations from the Oder and Vistula Rivers using DNA extracted from dried scales with the Atlantic salmon single nucleotide polymorphism array.

Results: Our results showed a global F ST of 0.

Restitution and genetic differentiation of salmon populations in the southern Baltic genotyped with the Atlantic salmon 7K SNP array.

Background: Native populations of Atlantic salmon in Poland, from the southern Baltic region, became extinct in the 1980s. Attempts to restitute salmon populations in Poland have been based on a Latvian salmon population from the Daugava river. Releases of hatchery reared smolts started in 1986, but to date, only one population with confirmed natural reproduction has been observed in the Slupia river.

Identification of multiple diagnostic SNP loci for differentiation of three salmonid species using SNP-arrays.

This paper reports the use of SNP-array technology in a cross-species study for non-ambiguous species identifications. Based on an existing SNP-array for Atlantic salmon (cross)hybridisations with samples of salmon, brown trout and rainbow trout were analyzed to identify species-specific diagnostic markers. In total 566 SNP loci were identified to be highly polymorphic across the three salmonid species providing the molecular basement for various monitoring applications in aquaculture and food industries.

Genotyping of two populations of Southern Baltic Sea trout Salmo trutta m. trutta using an Atlantic salmon derived SNP-array.

The sea trout (Salmo trutta m. trutta) is an anadromous, teleost fish species characterized by homing behaviour. The sea trout has considerable ecological and economic significance.

Identification of a Tc1-like transposon integration site in the genome of the flounder (Platichthys flesus): a novel use of an inverse PCR method.

The inverse PCR method has been developed and applied employed for the identification of the integration sites of the Tc1-like transposons in the genome of the flounder, Platichthys flesus. One Tc1-like insertion instance was recognized and characterized, demonstrating an efficiency of the method for determining of transposon integration sites. The similarity of the sequence flanking transposon (SFT) to reverse transcriptase sequences (RVT) was demonstrated.

Family of Tc1-like elements from fish genomes and horizontal transfer.

The involvement of horizontal transfer (HT) in the evolution of vertebrate transposable elements (TEs) is a matter of an ongoing debate. The phylogenetic relationships between Tc1 TEs, based on limited dataset have been previously used to infer a case of Tc1 HT between the genomes of fish and frogs. Here this hypothesis has been critically evaluated by the experimental approach including comparative data on the range of fish species available today.