Metabarcoding allows scientists to extract DNA from the environment (known as environmental DNA or eDNA), for example, river water or, as in the case of the study by the team from the University of ...

Environmental DNA (eDNA) metabarcoding has emerged as a transformative approach in the assessment of biodiversity. By extracting DNA directly from complex environmental samples—such as water, soil, or ...

Healthy freshwater ecosystems are crucial for supporting wildlife and supplying humans with necessities like food, water, energy, and transportation. Despite this, there is a remarkable lack of data ...

Researchers found that DNA metabarcoding is an effective tool for detection of a broad range of biodiversity in water samples compared to traditional morphological identification methods. The ability ...

Locations of 59 lakes sampled for sedimentary DNA analysis, overlaid on a vegetation map of the Tibetan Plateau. Ⅰ, needleleaf forest; Ⅱ, needleleaf and broadleaf mixed forest; Ⅲ, broadleaf forest; Ⅳ, ...

A new study demonstrates that DNA metabarcoding provides a promising new method for tracking human plant intake, suggesting that similar approaches could be used to characterize the animal and fungal ...

All organisms shed traces of their biological material, which contains their unique DNA, into the environment. Researchers using a technique called metabarcoding to sequence this environmental DNA ...

Indian scientists at ZSI have pioneered a groundbreaking method using DNA metabarcoding to decode spider-parasitoid relationships directly from egg sacs. This innovative approach, published in ...

A new study has shown that DNA metabarcoding serves as a powerful new tool for monitoring humans’ intake of plants, which could help researchers understand more about what we eat and how it affects ...