SPECIES DETECTION: ANNELIDS
Bienert F., De Danieli S., Miquel C., Coissac E., Poillot C., Brun J. J., Taberlet P. (2012): Tracking earthworm communities from soil DNA. Molecular Ecology 21: 2017-2030.
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Abstract
Earthworms are known for their important role within the functioning of an ecosystem, and their diversity can be used as an indicator of ecosystem health. To date, earthworm diversity has been investigated through conventional extraction methods such as handsorting, soil washing or the application of a mustard solution. Such techniques are time consuming and often difficult to apply. We showed that combining DNA metabarcoding and next‐generation sequencing facilitates the identification of earthworm species from soil samples. The first step of our experiments was to create a reference database of mitochondrial DNA (mtDNA) 16S gene for 14 earthworm species found in the French Alps. Using this database, we designed two new primer pairs targeting very short and informative DNA sequences (about 30 and 70 bp) that allow unambiguous species identification. Finally, we analysed extracellular DNA taken from soil samples in two localities (two plots per locality and eight samples per plot). The two short metabarcode regions led to the identification of a total of eight earthworm species. The earthworm communities identified by the DNA‐based approach appeared to be well differentiated between the two localities and are consistent with results derived from inventories collected using the handsorting method. The possibility of assessing earthworm communities from hundreds or even thousands of localities through the use of extracellular soil DNA will undoubtedly stimulate further ecological research on these organisms. Using the same DNA extracts, our study also illustrates the potential of environmental DNA as a tool to assess the diversity of other soil‐dwelling animal taxa.
Pansu J., De Danieli S., Puissant J., Gonzalez J. M., Gielly L., Cordonnier T., Zinger L., Brun J. J., Choler P., Taberlet P., Cécillon L. (2015): Landscape-scale distribution patterns of earthworms inferred from soil DNA. Soil Biology and Biochemistry 83: 100-105.
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Assessing land-use effect on the diversity of soil biota has long been hampered by difficulties in collecting and identifying soil organisms over large areas. Recently, environmental DNA-based approaches coupled with next-generation sequencing were developed to study soil biodiversity. Here, we optimized a protocol based on soil DNA to examine the effects of land-use on earthworm communities in a mountain landscape. This approach allowed an efficient detection of earthworm diversity and highlighted a significant land-use effect on the distribution patterns of earthworms that was not revealed by a classical survey. Our results show that the soil DNA-based earthworm survey at the landscape-scale improves over previous approaches, and opens a way towards large-scale assessment of soil biodiversity and its drivers.
Jackson M., Myrholm C., Shaw C., Ramsfield T. (2017): Using nested PCR to improve detection of earthworm eDNA in Canada. Soil Biology and Biochemistry 113: 215-218.
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Earthworms that are invasive to Canada’s boreal forest are mainly from the family Lumbricidae and they have the potential to change ecosystem carbon sequestration and biodiversity. Traditional methods used to survey earthworms rely on finding specimens, consume large amounts of time and labour, and are expensive. A sensitive genetic method to detect earthworm DNA in soil would provide a fast, relatively low cost method for earthworm survey. In this study, PCR primers were used to detect earthworm DNA from earthworm tissues and soil samples. Though single PCR yielded only faint signals from soil samples, a nested PCR method allowed strong detection in native and cultivated forest soils, including those archived for more than 30 years, providing a promising technique for genetic monitoring of earthworms in the boreal region of Canada.