Sequencing environmental DNA—or eDNA—from the East River in New York City can effectively monitor human diets and local ...

New York City’s East River has made quite the comeback since its days as a sewage dumping ground—and sequencing the ...

According to MarketsandMarkets™, The environmental DNA market is projected to grow from USD 1.63 billion in 2026 and to reach ...

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A year-long study in New York’s East River used environmental DNA analysis to detect local wildlife, human-related species, and seasonal changes in fish populations. The results illustrate the ...

Invasive round goby is moving faster than expected through the Richelieu River, the northern gateway to Lake Champlain ...

When we think of city air, we might consider the temperature, smell, wind speed, or even smoke levels. But we probably don't think much about DNA. Research has shown, however, that DNA molecules can ...

Environmental DNA (eDNA), the genetic material shed by organisms into their surroundings, has emerged as a transformative tool for biodiversity monitoring, offering cost-effective and non-invasive ...

Environmental DNA (eDNA) and metabarcoding are transforming biodiversity monitoring by enabling rapid, non-invasive assessments of community composition ...

New EU legislation supporting healthier soils was adopted in December 2025 incorporating environmental DNA analysis which is ...

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 ...

Sequencing environmental DNA found in soil, seawater, snow or even air samples has made it possible to detect and identify organisms, allowing researchers to build exhaustive biodiversity inventories.