Although the first ancient DNA molecules were extracted more than three decades ago, the
first ancient nuclear genomes could only be characterized after high-throughput sequencing …

Environmental DNA (eDNA) metabarcoding is a novel method of assessing biodiversity
wherein samples are taken from the environment via water, sediment or air from which DNA …

During the last glacial–interglacial cycle, Arctic biotas experienced substantial climatic
changes, yet the nature, extent and rate of their responses are not fully understood …

The grey wolf (Canis lupus) was the first species to give rise to a domestic population, and
they remained widespread throughout the last Ice Age when many other large mammal …

Environmental DNA (eDNA) refers to DNA that can be extracted from environmental
samples (such as soil, water, feces, or air) without the prior isolation of any target organism …

Advances in DNA sequencing technology have revolutionized the field of molecular analysis
of trophic interactions, and it is now possible to recover counts of food DNA sequences from …

The genomic revolution has fundamentally changed how we survey biodiversity on earth.
High‐throughput sequencing (“HTS”) platforms now enable the rapid sequencing of DNA …

The use of lake sedimentary DNA to track the long-term changes in both terrestrial and
aquatic biota is a rapidly advancing field in paleoecological research. Although largely …

Effective marine management requires comprehensive data on the status of marine
biodiversity. However, efficient methods that can document biodiversity in our oceans are …

Our understanding of how global climatic changes are translated into ice-sheet fluctuations
and sea-level change is currently limited by a lack of knowledge of the configuration of ice …