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AI in conservation: Where we came from and where we are heading Environmental DNA (eDNA): eDNA sampling involves collecting and analyzing DNA traces present in environmental samples, such as water or soil, to detect the presence of species Advances in eDNA technologies and AI analysis techniques can improve species detection, especially for elusive or cryptic species This approach can provide valuable information for conservation planning and monitoring
How 6 robots are helping to protect our ocean The ocean is critical to the survival of life on Earth, but it is under threat from the climate crisis This is how robots are helping to protect it
eDNA: From tracking endangered species to monitoring COVID19 | World . . . eDNA is a technique that can monitor a particular strain of DNA in a sample Originally, the technique was used to monitor endangered species, confirming their presence without the use of a camera or the human eye Now, the technique is also being used to help check for COVID-19 and help stem the spread of the virus
Nature tech can play a vital role in tackling nature loss Nature is a vital resource, necessary for our health, livelihoods and well-being It also accounts for $44 trillion of economic value generation In addition, nature-based solutions can provide more than one third of the mitigation needed by 2030 to keep climate goals in reach Nature tech will be vital in helping facilitate and accelerate these solutions, making them valuable tools in
Why we need new ways to monitor biodiversity in the sea Environmental DNA Environmental DNA or eDNA refers to the genetic material shed by organisms into the environment, allowing for species detection and identification without direct observation or capture This non-invasive method provides a comprehensive snapshot of species richness