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Genetic drift, not life history or RNAi, determine long term evolution of transposable elements (2016)
Journal Article
Szitenberg, A., Cha, S., Opperman, C. H., Bird, D. M., Blaxter, M. L., & Lunt, D. H. (2016). Genetic drift, not life history or RNAi, determine long term evolution of transposable elements. Genome Biology and Evolution, 8(9), 2964-2978. https://doi.org/10.1093/gbe/evw208

Transposable elements (TEs) are a major source of genome variation across the branches of life. Although TEs may play an adaptive role in their host’s genome, they are more often deleterious, and purifying selection is an important factor controlling... Read More about Genetic drift, not life history or RNAi, determine long term evolution of transposable elements.

Merging DNA metabarcoding and ecological network analysis to understand and build resilient terrestrial ecosystems (2016)
Journal Article
Evans, D. M., Kitson, J. J. N., Lunt, D. H., Straw, N. A., & Pocock, M. J. O. (2016). Merging DNA metabarcoding and ecological network analysis to understand and build resilient terrestrial ecosystems. Functional ecology, 30(12), 1904-1916. https://doi.org/10.1111/1365-2435.12659

Summary 1. Significant advances in both mathematical and molecular approaches in ecology offer unprecedented opportunities to describe and understand ecosystem functioning. Ecological networks describe interactions between species, the underlying str... Read More about Merging DNA metabarcoding and ecological network analysis to understand and build resilient terrestrial ecosystems.