Thomson Ecology is a UK-based ecology consultancy with expertise in all ecosystems from ocean floor to mountain top, advising clients in most sectors on how to comply with wildlife laws to gain planning consent for their developments. These may be new power stations, wind farms, rail developments, motorway extensions or any large, or small, development projects. Now, in a new partnership, Imperial College London and Thomson Ecology are hoping to expand the use of a technique know as Environmental DNA (eDNA), developing new ways to assess ecosystems. The researchers involved hope to create protocols to assess whether different areas are home to key protected species, including crayfish, water voles, otters and reptiles.
Environmental DNA
Benefits to Imperial and Thomson Ecology
Currently, species are assessed based on intensive field surveys, requiring taxonomic expertise and often involving tagging animals and repeat visits to a site. However, Professor Vincent Savolainen, from the Department of Life Sciences at Imperial, worked with Thomson Ecology to create a new way to look for great crested newts using eDNA protocols.
This paved the way for much simpler and more cost-effective surveying for environmental assessments. Professor Savolainen said: “This research will contribute to developing new indices to meet goals of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES), the body that assesses the state of biodiversity and of the ecosystem services it provides to society, in response to requests from decision makers.”
Although sequencing techniques have improved dramatically in the last few decades, challenges remain in analysing eDNA. The fragments degrade over time, a process enhanced by temperature, microbes, enzymes and salinity.
The rate that eDNA is 'shed' from species to species and individual to individual also requires more research, as does the role of predators in moving eDNA between sites, and especially how eDNA is distributed in aquatic environments.
Victoria Priestley, who is taking on this task for her PhD thesis in the Department of Life Sciences, is positive that eDNA surveys have a bright future: “There is still some way to go before whole-ecosystem eDNA monitoring is standard practice, but I believe that at least in the near future, eDNA will increasingly be one of the options in the survey toolkit, working alongside traditional methods to obtain the best ecological survey data in the most efficient way... ultimately we should be able to use it create a clearer and more detailed picture of global biodiversity.”
Benefits to the wider public
One area where environmental DNA, is finding practical use is in environmental assessments, for example to check whether any protected species are present before construction works are carried out. Already, Defra in the UK have approved the use of eDNA sampling to assess the presence of protected great crested newts in ponds.
As well as looking at key protected species for conservation, the team want to use eDNA for biosecurity, by identifying invasive species. For example, as well as native crayfish, some UK waters have been occupied by invasive American Signal Crayfish, which outcompete the native species and damage the local environment. Early detection of invasive crayfish could mean they are dealt with sooner, and cause less damage.
Ultimately, the researchers hope to be able to use eDNA to profile entire ecosystems, analysing water samples to get a snapshot of all the organisms present in the local environment that have shed some DNA.
Professor Tom Welton, Dean of the Faculty of Natural Sciences, said partnerships like this one help translate research into real-world applications: “This exciting collaboration demonstrates that research across the whole breath of natural sciences at Imperial, even on newts, has practical applications to real world problems. Our partnership with Thomson Ecology will allow our research to have a positive impact on environmental protection and conservation.”
Text lifted from the article, Sampling species' DNA trails is leading to better environmental monitoring, published on 25 November 2016.
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