Environmental <scp>DNA</scp> in lake sediment reveals biogeography of native genetic diversity

Nelson‐Chorney, Hedin T; Davis, Corey S.; Poesch, Mark S.; Vinebrooke, Rolf D.; Carli, Christopher M; Taylor, Mark K.

doi:10.1002/fee.2073

Cited by 41 publications

(45 citation statements)

References 31 publications

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“…By using the sedDNA approach, we detected anchovy, sardine, and jack mackerel DNA from sediment layers dating back 300 years, confirming that fish DNA can be detected from marine sedimentary sequences. Our finding supports the long-term preservation potential of macro-organism DNA in the sediments of marine systems, as well as freshwater systems as previously reported 3 , 6 , 7 , even though aquatic and bottom environments are completely different in marine and freshwater systems (e.g., salinity, pH, light, and tidal effects).…”

Section: Discussionsupporting

confidence: 92%

“…At present, only a very few studies have been conducted on the sedDNA of macro-organisms. These studies investigated a variety of subjects; i.e., major changes in species composition 4,5 , extinct biota 4,5 , livestock farming history associated with the Anthropocene 3 , and the identification of a taxon as a native or alien fish species in lake ecosystems 6,7 . These studies demonstrated that sedDNA is a potentially powerful tool that could be used to detect the "presence/absence" of a taxon and reconstruct past species compositions for macro-organisms.…”

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confidence: 99%

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Sedimentary DNA tracks decadal-centennial changes in fish abundance

et al. 2020

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Far too little is known about the long-term dynamics of populations for almost all macro-organisms. Here, we examined the utility of sedimentary DNA techniques to reconstruct the dynamics in the “abundance” of a species, which has not been previously defined. We used fish DNA in marine sediments and examined whether it could be used to track the past dynamics of pelagic fish abundance in marine waters. Quantitative PCR for sedimentary DNA was applied on sediment-core samples collected from anoxic bottom sediments in Beppu Bay, Japan. The DNA of three dominant fish species (anchovy, sardine, and jack mackerel) were quantified in sediment sequences spanning the last 300 years. Temporal changes in fish DNA concentrations are consistent with those of landings in Japan for all three species and with those of sardine fish scale concentrations. Thus, sedimentary DNA could be used to track decadal-centennial dynamics of fish abundance in marine waters.

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Section: Discussionsupporting

confidence: 92%

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confidence: 99%

Sedimentary DNA tracks decadal-centennial changes in fish abundance

et al. 2020

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“…Thus far, the most common investigated aquatic organisms in sedaDNA studies have been photosynthetic bacteria and phytoplankton [18,34,[66][67][68][69][70][71][72][73][74][75][76][77][78][79][80][81]. Although macrophytes and some algal groups are typically well detected in sedaDNA plant surveys [24][25][26]81,82], there are few papers reporting the presence of zooplanktonic DNA [83,84] and fish DNA from lake sediments [85][86][87].…”

Section: Sedadna To Unravel Past Diversity and Composition Of Lake Biotamentioning

confidence: 99%

Lake Sedimentary DNA Research on Past Terrestrial and Aquatic Biodiversity: Overview and Recommendations

et al. 2021

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The use of lake sedimentary DNA to track the long-term changes in both terrestrial and aquatic biota is a rapidly advancing field in paleoecological research. Although largely applied nowadays, knowledge gaps remain in this field and there is therefore still research to be conducted to ensure the reliability of the sedimentary DNA signal. Building on the most recent literature and seven original case studies, we synthesize the state-of-the-art analytical procedures for effective sampling, extraction, amplification, quantification and/or generation of DNA inventories from sedimentary ancient DNA (sedaDNA) via high-throughput sequencing technologies. We provide recommendations based on current knowledge and best practises.

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“…Much of that research has been targeted to species for which the body remains in the sample, such as bacteria (Domaizon et al, 2013), other microbes (Hou et al, 2014), and plants (Pansu et al, 2015), or species for which part of the body, such as bones, are preserved (Wooller, Gaglioti, Fulton, Lopez, & Shapiro, 2015). More recently, studies have been developed to detect macro-organisms using extracellular DNA remaining in sediments (i.e., sedimentary eDNA), for example, for fish (Nelson-Chorney et al, 2019;Stager, Sporn, Johnson, & Regalado, 2015). These studies showed that fish sedimentary eDNA can be detected in sediments from ~140 years ago.…”

Section: Introductionmentioning

confidence: 99%