Environmental (e)DNA: what's behind the term? Clarifying the terminology and recommendations for its future use in biomonitoring.

The last decade brought a spectacular development of so-called environmental (e)DNA studies. In general, "environmental DNA" is defined as DNA isolated from environmental samples, in opposition to genomic DNA that is extracted directly from specimens. However, the variety of different sources of eDNA and the range of taxonomic groups that are targeted by eDNA studies is large, which has led to some discussion about the breadth of the eDNA concept. In particular, there is a recent trend to restrict the use of the term "eDNA" to the DNA of macro-organisms, which are not physically present in environmental samples. In this paper, we argue that such a distinction may not be ideal, because the eDNA signal can come from organisms across the whole tree of life. Consequently, we advocate that the term "eDNA" should be used in its generic sense, as originally defined, encompassing the DNA of all organisms present in environmental samples, including microbial, meiofaunal, and macrobial taxa. We first suggest specifying the environmental origin of the DNA sample, such as water eDNA, sediment eDNA, or soil eDNA. A second specification would then define the taxonomic group targeted through PCR amplification, such as fish eDNA, invertebrate eDNA, bacterial eDNA. This terminology does also not require assumptions about the specific state of the DNA sampled (intracellular or extracellular). We hope that such terminology will help better define the scope of eDNA studies, especially for environmental managers, who use them as reference in routine biomonitoring and bioassessment.


Hoxb13 in mouse tail allometry

Jozsef Zakany will host a last seminar before his retirement on September 24 at 4 pm in the A300 audience (Sciences II).


How to tango with four: Adaptation of meiotic chromosome behaviour to genome duplication

07.10.2020 11:15, 1S059 (Sciences III)

Kirsten Bomblies (Institute of Molecular Plant Biology, ETH Zurich).
hosted by: Roman Ulm.


Our department hosts 12 research laboratories gathering close to 200 scientists, engineers and technical staff. Research topics cover a large variety of topics, such as developmental genetics and neurogenetics, regeneration, evo-devo, physics of biology, phylogenetics or anthropology.



Teaching life sciences at the University of Geneva is an important duty for all staff scientists. In addition to the bachelor programme, we also propose specific masters and PhD specialisations through various programmes.



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